Inflammatory Bowel Disease (IBD) is a multifactorial disorder with many different putative influences mediating disease onset, severity, progression and diminution. Spontaneous natural IBD is classically expressed as Crohn’s Disease (CD) and Ulcerative Colitis (UC) commonly found in primates; lymphoplasmocytic enteritis, eosinophilic gastritis and colitis, and ulcerative colitis with neuronal hyperplasia in dogs; and colitis in horses. Spontaneous inflammatory bowel disease has been noted in a
number of rodent models which differ in genetic strain background, induced mutation, microbiota influences and immunopathogenic pathways. Histological lesions in Crohn’s Disease feature noncaseating granulomatous inflammation while UC lesions typically exhibit ulceration, lamina propria inflammatory infiltrates and lack of granuloma development. Intestinal inflammation caused by CD and UC is also associated with increased incidence of intestinal neoplasia. Transgenic murine models have determined underlying etiological influences and appropriate therapeutic targets in IBD. This literature review will discuss current opinion and findings in spontaneous IBD, highlight selected transgenic rodent models of IBD and discuss their respective pathogenic mechanisms. It is very important to provide accommodation of induced putative deficits in activities of daily living and to assess discomfort and pain levels in the face of significant morbidity and/or mortality in these models. Epigenetic, environmental
(microbiome, metabolome) and nutritional factors are important in IBD pathogenesis, and evaluating ways in which they influence disease expression represent potential investigative approaches with the greatest potential for new discoveries.
First inflammatory bowel disease presentation finished version (2)Adina Georgiana
Inflammatory bowel disease (IBD) includes Crohn's disease and ulcerative colitis, which are chronic conditions causing inflammation in the gastrointestinal tract. IBD has genetic and environmental risk factors and affects millions worldwide. Symptoms include abdominal pain, diarrhea, and weight loss. Doctors diagnose IBD through tests like colonoscopies, blood tests, and imaging. While there is no cure, treatments aim to reduce inflammation and relieve symptoms, ranging from medications to dietary changes and sometimes surgery.
Chronic gastritis is one of the most common diseases worldwide, with over half the global population estimated to have it currently. Helicobacter pylori infection acquired in childhood is the main cause, resulting in lifelong inflammation that progresses over decades from non-atrophic to atrophic gastritis. Atrophic gastritis destroys stomach mucosa and leads to dysfunction, increased cancer risk, and other severe outcomes like vitamin deficiencies. While prevalence has declined in developed countries, chronic gastritis remains an insidious disease with socioeconomic factors playing a key role in its transmission and epidemiology.
This document provides an overview of inflammatory bowel disease (IBD), including ulcerative colitis and Crohn's disease. IBD is a chronic inflammatory condition of the gastrointestinal tract caused by genetic and environmental factors that lead to an abnormal immune response. The two main types are ulcerative colitis, which affects only the colon, and Crohn's disease, which can impact any part of the GI tract. Symptoms vary depending on the specific type and location of inflammation. Treatment aims to reduce inflammation, manage complications, and maintain remission through nutritional support, medications like immunosuppressants, and potentially surgery in severe cases.
FOCUS ON CURRENT TRENDS IN THE TREATMENT OF HELICOBACTER PYLORI INFECTIONSarvan Mani
This document discusses Helicobacter pylori, a bacteria that infects the stomach and causes diseases like gastritis, peptic ulcers, gastric cancer, and gastric lymphoma. It provides details on the diagnosis and treatment of H. pylori infection. Common diagnostic tests include invasive tests like biopsy and rapid urease tests, and non-invasive tests like serology, stool antigen tests, and breath tests. Treatment usually involves combinations of antibiotics (like clarithromycin and amoxicillin), proton pump inhibitors, and sometimes bismuth to achieve cure rates over 80%. However, antibiotic resistance is a growing problem.
International Journal of Engineering and Science Invention (IJESI) is an international journal intended for professionals and researchers in all fields of computer science and electronics. IJESI publishes research articles and reviews within the whole field Engineering Science and Technology, new teaching methods, assessment, validation and the impact of new technologies and it will continue to provide information on the latest trends and developments in this ever-expanding subject. The publications of papers are selected through double peer reviewed to ensure originality, relevance, and readability. The articles published in our journal can be accessed online.
Expression and inhibition of il 23 by colon cancer cells a promising approach...Alexander Decker
This document summarizes a study examining the expression and inhibition of interleukin-23 (IL-23) by colon cancer cells (HT-29 cells) as a potential approach for preventing inflammatory bowel disease (IBD). The researchers developed an in vitro IBD model using HT-29 cells that were found to express elevated IL-23 levels when induced with lipopolysaccharide from bacteria. Treatment of the cells with the anti-inflammatory drug sulfasalazine was found to block the upregulation of IL-23. The study suggests IL-23 plays a key role in inflammation in IBD and that inhibiting its expression may be a promising preventative approach.
The lecture was presented during the 13th annual conference of KLRC held in Alexandria 15 -17 August 2017
The lecture was directed to describe the current situation of H.Pylori infection in middle east ,particularly in Egypt , and to put some spotlights on the current regimens of treatment , and the situation of antibiotic resistance in Egypt and its impact on treatment choice
Helicobacter pylori associated Peptic ulcer diseaseS M Ali Hasan
Helicobacter pylori is a common cause of peptic ulcer disease. It infects about half of the global population and transmission occurs through person-to-person contact or from infected instruments. Only 10-15% of infected individuals develop ulcers or other diseases. In Bangladesh, H. pylori infection rates are very high, ranging from 67-92% in studies. Treatment involves antibiotic regimens but resistance is a problem, with high rates of resistance to clarithromycin, metronidazole, and levofloxacin seen in Bangladesh. Management of peptic ulcers involves testing and treating H. pylori, endoscopic treatment for bleeding ulcers, and maintenance therapy to prevent
First inflammatory bowel disease presentation finished version (2)Adina Georgiana
Inflammatory bowel disease (IBD) includes Crohn's disease and ulcerative colitis, which are chronic conditions causing inflammation in the gastrointestinal tract. IBD has genetic and environmental risk factors and affects millions worldwide. Symptoms include abdominal pain, diarrhea, and weight loss. Doctors diagnose IBD through tests like colonoscopies, blood tests, and imaging. While there is no cure, treatments aim to reduce inflammation and relieve symptoms, ranging from medications to dietary changes and sometimes surgery.
Chronic gastritis is one of the most common diseases worldwide, with over half the global population estimated to have it currently. Helicobacter pylori infection acquired in childhood is the main cause, resulting in lifelong inflammation that progresses over decades from non-atrophic to atrophic gastritis. Atrophic gastritis destroys stomach mucosa and leads to dysfunction, increased cancer risk, and other severe outcomes like vitamin deficiencies. While prevalence has declined in developed countries, chronic gastritis remains an insidious disease with socioeconomic factors playing a key role in its transmission and epidemiology.
This document provides an overview of inflammatory bowel disease (IBD), including ulcerative colitis and Crohn's disease. IBD is a chronic inflammatory condition of the gastrointestinal tract caused by genetic and environmental factors that lead to an abnormal immune response. The two main types are ulcerative colitis, which affects only the colon, and Crohn's disease, which can impact any part of the GI tract. Symptoms vary depending on the specific type and location of inflammation. Treatment aims to reduce inflammation, manage complications, and maintain remission through nutritional support, medications like immunosuppressants, and potentially surgery in severe cases.
FOCUS ON CURRENT TRENDS IN THE TREATMENT OF HELICOBACTER PYLORI INFECTIONSarvan Mani
This document discusses Helicobacter pylori, a bacteria that infects the stomach and causes diseases like gastritis, peptic ulcers, gastric cancer, and gastric lymphoma. It provides details on the diagnosis and treatment of H. pylori infection. Common diagnostic tests include invasive tests like biopsy and rapid urease tests, and non-invasive tests like serology, stool antigen tests, and breath tests. Treatment usually involves combinations of antibiotics (like clarithromycin and amoxicillin), proton pump inhibitors, and sometimes bismuth to achieve cure rates over 80%. However, antibiotic resistance is a growing problem.
International Journal of Engineering and Science Invention (IJESI) is an international journal intended for professionals and researchers in all fields of computer science and electronics. IJESI publishes research articles and reviews within the whole field Engineering Science and Technology, new teaching methods, assessment, validation and the impact of new technologies and it will continue to provide information on the latest trends and developments in this ever-expanding subject. The publications of papers are selected through double peer reviewed to ensure originality, relevance, and readability. The articles published in our journal can be accessed online.
Expression and inhibition of il 23 by colon cancer cells a promising approach...Alexander Decker
This document summarizes a study examining the expression and inhibition of interleukin-23 (IL-23) by colon cancer cells (HT-29 cells) as a potential approach for preventing inflammatory bowel disease (IBD). The researchers developed an in vitro IBD model using HT-29 cells that were found to express elevated IL-23 levels when induced with lipopolysaccharide from bacteria. Treatment of the cells with the anti-inflammatory drug sulfasalazine was found to block the upregulation of IL-23. The study suggests IL-23 plays a key role in inflammation in IBD and that inhibiting its expression may be a promising preventative approach.
The lecture was presented during the 13th annual conference of KLRC held in Alexandria 15 -17 August 2017
The lecture was directed to describe the current situation of H.Pylori infection in middle east ,particularly in Egypt , and to put some spotlights on the current regimens of treatment , and the situation of antibiotic resistance in Egypt and its impact on treatment choice
Helicobacter pylori associated Peptic ulcer diseaseS M Ali Hasan
Helicobacter pylori is a common cause of peptic ulcer disease. It infects about half of the global population and transmission occurs through person-to-person contact or from infected instruments. Only 10-15% of infected individuals develop ulcers or other diseases. In Bangladesh, H. pylori infection rates are very high, ranging from 67-92% in studies. Treatment involves antibiotic regimens but resistance is a problem, with high rates of resistance to clarithromycin, metronidazole, and levofloxacin seen in Bangladesh. Management of peptic ulcers involves testing and treating H. pylori, endoscopic treatment for bleeding ulcers, and maintenance therapy to prevent
This document provides a biography and curriculum vitae for Dr. Maurice George Vincentius Maria Russel, a gastroenterologist in the Netherlands. It details his professional experience working at various hospitals since 1996, primarily focusing on inflammatory bowel disease and colorectal cancer. It also outlines his positions held, education history, research interests, publications, and administrative roles with professional societies.
Descriptive epidemiology involves observing disease distribution in populations and identifying characteristics associated with disease. It defines the population and disease, then describes disease distribution by time, place and person. Disease is measured through cross-sectional or longitudinal studies and compared to indices to formulate etiological hypotheses. Descriptive epidemiology provides data on disease burden, clues to causation, and background for prevention planning and evaluation.
This document provides an overview of Clostridium difficile infection (CDI) including its background, epidemiology, diagnosis, and management. CDI is caused by the bacterium C. difficile and is a common cause of infectious diarrhea, especially in healthcare settings. Diagnosis involves stool testing for toxins produced by C. difficile. Treatment depends on severity and includes metronidazole, vancomycin, or newer agents like fidaxomicin. Recurrent CDI may be treated with probiotics, rifaximin, or fecal microbiota transplantation.
This document discusses antibiotic-associated diarrhea (AAD) and Clostridium difficile infection (CDI). It provides information on the mechanisms by which antibiotics can cause diarrhea, such as altering intestinal flora and bacterial overgrowth. It also discusses various pathogens that can cause AAD, including C. difficile, C. perfringens, K. oxytoca, and S. aureus. The document outlines the clinical presentation, diagnosis, risk factors and complications of CDI. It describes treatments for CDI including metronidazole, vancomycin and newer approaches like fecal transplants.
enumeration of bacteria from food borne vegetables (URBAS ASHIQ)Urbas Ashiq
Urbas Ashiq submitted a project report on enumerating bacteria from food-borne vegetables. The report discussed how bacteria commonly cause food poisoning due to improper food handling. It outlined several bacteria that often cause food-borne diseases like Campylobacter, Salmonella, E. coli, and norovirus. To prevent such diseases, the report recommended keeping food clean, separating raw and cooked food, storing food at safe temperatures, and using safe water. It also described treating food poisoning by replacing lost fluids and electrolytes.
ABSTRACT- Diabetic foot infections are the most common problems in persons with diabetes. Among the 50 samples, 43 (86%) showed positive results of bacterial infection. Diabetic foot lesions are divided into six grades based on the depth of the wound and extent of the tissue necrosis. Inci-dences of bacteria were recorded as Staphylococcus aureus (31.37%) followed by Proteus mirabilis (21.05%), Pseudomonas aeruginosa (15.79%), Streptococcus pyogenes (14.04%), Escherichia coli (7.02%), Clostridium botulinum (5.26%), Peptococcus spp. (3.50%) and Salmonella typhimurium (1.75). The prevalence of diabetic foot infections varies according to sex, age, sugar level and economic status. Males were more susceptible to in-fection than females because of higher outdoor activities. Age groups of 40-50 years and fasting sugar levels of 100-150 mg/dl showed maximum incidence of bacterial infection in diabetic foot lesions. Maximum incidences of bacterial infection were found in patients of poor economic status followed by those of middle and high economic status respectively, due to lack of education about the disease and unhygienic surroundings. Except Peptococcus spp. the remaining isolates exhibited Multiple Drug Resistance (MDR). The selection of empiric antibiotic therapy depends on various factors such as infection severity, over all patient condition, medication allergies, previous antibiotic treatment, antibiotic activity, toxicity, excretion and glycemic control. Proper identification of causative agents, appropriate antibiotic therapy and management of complications of diabetic foot in-fections remain essential to the achievement of a successful outcome. Key words: Diabetic foot infection and Multiple Drug Resistance.
Management of Helicobacter pylori infection in Greece: Current guidelines
4th Athens International Symposium on Digestive Diseases, Athens Greece 6-7 July 2018
Chris Zavos, MD, PhD, FEBGH
http://peptiko.gr
Virulence Factor Targeting of the Bacterial Pathogen Staphylococcus aureus fo...Trevor Kane
Staphylococcus aureus is a major bacterial pathogen capable of causing a range of infections from mild to life-threatening. The review discusses several major virulence factors produced by S. aureus including the agr quorum sensing system, α-toxin, phenol soluble modulins, protein A, Panton-Valentine leukocidin, and staphylococcal enterotoxins. Recent research into antivirulence approaches that target these factors are highlighted as a potential alternative to antibiotics for treating S. aureus infections.
This seminar presentation summarizes key information about Hepatitis E virus (HEV) infection, including its characteristics, pathogenesis, clinical manifestations, epidemiology, diagnosis, prevention and control. HEV is an RNA virus that causes acute hepatitis and has four genotypes that infect humans and animals. It is transmitted fecal-orally and causes inflammation of the liver. Pregnant women are particularly susceptible and have a high mortality rate from HEV infection. Diagnosis involves microscopy, serological techniques like ELISA, and molecular techniques like PCR. Prevention focuses on proper sanitation, vaccination, and screening of animals that can transmit HEV like swine.
International Journal of Pharmaceutical Science Invention (IJPSI)inventionjournals
This study examined 692 stool samples from patients at a tertiary care hospital in Uttar Pradesh, India. The samples were tested for intestinal parasites using microscopy. Of the samples, 116 (16.8%) tested positive for parasites. The most common parasite was Entamoeba histolytica at 42.24% of positive samples, followed by Giardia lamblia at 24.13%. Giardia infections were highest in the 21-40 age group. The study found a high prevalence of intestinal parasitic infections compared to other areas, indicating a need for better diagnostic methods, prevention strategies, and health education on environmental hygiene.
Clostridium difficile is a gram-positive, spore-forming anaerobic bacillus that can cause infectious diarrhea. Antibiotics reduce normal gut flora allowing C. difficile to grow and produce toxins, leading to symptoms ranging from mild diarrhea to pseudomembranous colitis. Diagnosis involves toxin detection in stool samples. Treatment involves discontinuing the precipitating antibiotic when possible and using metronidazole, vancomycin, or fidaxomicin to suppress C. difficile growth. Relapse can occur in 20-30% of cases. Prevention focuses on prudent antibiotic use and infection control.
Helicobacter pylori & Nobel Prize in medicine & physiologySamir Haffar
The discovery of H. pylori and its role in peptic ulcer disease was a collaborative effort between clinicians and scientists at Royal Perth Hospital in Western Australia in the early 1980s. Robin Warren, a pathologist, first observed the bacteria in gastric biopsies. Barry Marshall, an intern, helped cultivate H. pylori from a patient's biopsy, fulfilling Koch's postulates. Together with contributions from electron microscopists, microbiologists, and other specialists, they were ultimately able to characterize the bacteria and its association with gastritis and peptic ulcers. For their seminal work, Warren and Marshall received the 2005 Nobel Prize in Physiology or Medicine.
Explainations for 20th Century Tuberculosis Decline- How the Public Gets It W...Spencer Davis
- The study surveyed 705 adults to assess their perceptions of why tuberculosis mortality declined in the 20th century. Approximately 52% attributed the decline to "modern medicine" while 22% attributed it to "vaccination." Few respondents cited public health interventions or improved social conditions.
- In reality, historical analysis shows the majority of the tuberculosis decline was due to improved social conditions like better housing and public health interventions rather than medical advances alone. The disease was already declining before treatments like antibiotics were developed.
- The public overly credits modern medicine and underappreciates the role of public health and social factors, which could hinder support for policies addressing social determinants of health.
Food samples: African salad, fried yam, fried potato, fried plantain, bole and suya meat retailed in three locations along Choba, Aluu and Alakahia were analyzed for their microbial load. Analysis of the food samples revealed Total viable count ranging from 3.8×107 cfu/g to 5.2×107 cfu/g (African salad), 2.6×107 cfu/g to 3.3×107 cfu/g (Bole), 3.0×107 cfu/g to 3.4×107 cfu/g (Plantain), 3.4×107 cfu/g to 3.6×107 cfu/g (Potato), 2.9×107 cfu/g to 3.3×107 cfu/g (Yam) and 4.8×107 cfu/g to 5.1×107 cfu/g (Suya meat) from the various locations. The organism isolated includes, Staphylococcus aureus (25%), Escherichia coli (25%), Pseudomonas (15%), Streptococcus (15%), Bacillus cereus (12%) and Salmonella spp (8%). The TVC count in these food samples exceeds the standard set by International Commission for Microbiology Specification for Food (ICMSF) for ready-to-eat food which states that TVC count between 0-107 cfu/g is acceptable, 104 to 105 cfu/g is tolerable and >107 cfu/g is unacceptable. Therefore, these foods are not bacteriologically fit for consumption. The occurrence of these bacterial isolates in the foods constitutes public health risk to consumers as these pathogens have been associated with foodborne infections Therefore, government should enforce strong food safety regulations for street foods vendors. In addition, street food vendors need to be educated on food safety and hygienic practices
Determination of Interleukin-1β (IL-1 β) and Interleukin-6(IL6) in Gingival C...iosrjce
IOSR Journal of Dental and Medical Sciences is one of the speciality Journal in Dental Science and Medical Science published by International Organization of Scientific Research (IOSR). The Journal publishes papers of the highest scientific merit and widest possible scope work in all areas related to medical and dental science. The Journal welcome review articles, leading medical and clinical research articles, technical notes, case reports and others.
El lunes 23 de octubre de 2017 celebramos una jornada en la Fundación Ramón Areces sobre Microbiota Intestinal: Implicaciones en la Salud y Enfermedad.
A study of health comprehension about the cholera among a slicesin74
A study was conducted among 98 University of Baghdad employees and 30 randomly selected individuals to assess their knowledge of cholera. Most participants correctly identified that cholera is transmitted through contaminated water and food and causes watery diarrhea. While over half of the study group identified bacteria as the causative agent, answers varied more among the control group. The results indicate relatively good understanding of cholera transmission and symptoms but lack of complete knowledge about the bacterial cause.
Is susceptibility to tuberculosis acquiredThanka Elango
This document discusses the complex interplay between genetic and environmental factors in determining susceptibility to tuberculosis. It summarizes recent research showing that some genetic susceptibility factors, like variants in the NRAMP1 gene, have a strong effect on tuberculosis risk only in certain epidemiological settings that involve low prior exposure to mycobacteria. Other susceptibility genes, like one found on chromosome 8q12-q13, appear to have a strong, independent effect regardless of environmental context. The document emphasizes that fully understanding tuberculosis susceptibility requires detailed knowledge of gene-environment interactions, as the same genetic variants may have highly variable effects in different populations and exposure settings.
Los conejos son animales pequeños que se caracterizan por su pelaje suave y orejas largas. Suelen vivir en madrigueras y comen principalmente hierba y vegetales.
La técnica de acrílicos en aguadas sobre papel acuarela es una técnica de ilustración desarrollada por BREHAYAN AGAMEZ que consiste en aplicar acrílicos diluidos con agua sobre papel acuarela para lograr efectos similares a la acuarela pero con mayores posibilidades de control y corrección.
This document provides a biography and curriculum vitae for Dr. Maurice George Vincentius Maria Russel, a gastroenterologist in the Netherlands. It details his professional experience working at various hospitals since 1996, primarily focusing on inflammatory bowel disease and colorectal cancer. It also outlines his positions held, education history, research interests, publications, and administrative roles with professional societies.
Descriptive epidemiology involves observing disease distribution in populations and identifying characteristics associated with disease. It defines the population and disease, then describes disease distribution by time, place and person. Disease is measured through cross-sectional or longitudinal studies and compared to indices to formulate etiological hypotheses. Descriptive epidemiology provides data on disease burden, clues to causation, and background for prevention planning and evaluation.
This document provides an overview of Clostridium difficile infection (CDI) including its background, epidemiology, diagnosis, and management. CDI is caused by the bacterium C. difficile and is a common cause of infectious diarrhea, especially in healthcare settings. Diagnosis involves stool testing for toxins produced by C. difficile. Treatment depends on severity and includes metronidazole, vancomycin, or newer agents like fidaxomicin. Recurrent CDI may be treated with probiotics, rifaximin, or fecal microbiota transplantation.
This document discusses antibiotic-associated diarrhea (AAD) and Clostridium difficile infection (CDI). It provides information on the mechanisms by which antibiotics can cause diarrhea, such as altering intestinal flora and bacterial overgrowth. It also discusses various pathogens that can cause AAD, including C. difficile, C. perfringens, K. oxytoca, and S. aureus. The document outlines the clinical presentation, diagnosis, risk factors and complications of CDI. It describes treatments for CDI including metronidazole, vancomycin and newer approaches like fecal transplants.
enumeration of bacteria from food borne vegetables (URBAS ASHIQ)Urbas Ashiq
Urbas Ashiq submitted a project report on enumerating bacteria from food-borne vegetables. The report discussed how bacteria commonly cause food poisoning due to improper food handling. It outlined several bacteria that often cause food-borne diseases like Campylobacter, Salmonella, E. coli, and norovirus. To prevent such diseases, the report recommended keeping food clean, separating raw and cooked food, storing food at safe temperatures, and using safe water. It also described treating food poisoning by replacing lost fluids and electrolytes.
ABSTRACT- Diabetic foot infections are the most common problems in persons with diabetes. Among the 50 samples, 43 (86%) showed positive results of bacterial infection. Diabetic foot lesions are divided into six grades based on the depth of the wound and extent of the tissue necrosis. Inci-dences of bacteria were recorded as Staphylococcus aureus (31.37%) followed by Proteus mirabilis (21.05%), Pseudomonas aeruginosa (15.79%), Streptococcus pyogenes (14.04%), Escherichia coli (7.02%), Clostridium botulinum (5.26%), Peptococcus spp. (3.50%) and Salmonella typhimurium (1.75). The prevalence of diabetic foot infections varies according to sex, age, sugar level and economic status. Males were more susceptible to in-fection than females because of higher outdoor activities. Age groups of 40-50 years and fasting sugar levels of 100-150 mg/dl showed maximum incidence of bacterial infection in diabetic foot lesions. Maximum incidences of bacterial infection were found in patients of poor economic status followed by those of middle and high economic status respectively, due to lack of education about the disease and unhygienic surroundings. Except Peptococcus spp. the remaining isolates exhibited Multiple Drug Resistance (MDR). The selection of empiric antibiotic therapy depends on various factors such as infection severity, over all patient condition, medication allergies, previous antibiotic treatment, antibiotic activity, toxicity, excretion and glycemic control. Proper identification of causative agents, appropriate antibiotic therapy and management of complications of diabetic foot in-fections remain essential to the achievement of a successful outcome. Key words: Diabetic foot infection and Multiple Drug Resistance.
Management of Helicobacter pylori infection in Greece: Current guidelines
4th Athens International Symposium on Digestive Diseases, Athens Greece 6-7 July 2018
Chris Zavos, MD, PhD, FEBGH
http://peptiko.gr
Virulence Factor Targeting of the Bacterial Pathogen Staphylococcus aureus fo...Trevor Kane
Staphylococcus aureus is a major bacterial pathogen capable of causing a range of infections from mild to life-threatening. The review discusses several major virulence factors produced by S. aureus including the agr quorum sensing system, α-toxin, phenol soluble modulins, protein A, Panton-Valentine leukocidin, and staphylococcal enterotoxins. Recent research into antivirulence approaches that target these factors are highlighted as a potential alternative to antibiotics for treating S. aureus infections.
This seminar presentation summarizes key information about Hepatitis E virus (HEV) infection, including its characteristics, pathogenesis, clinical manifestations, epidemiology, diagnosis, prevention and control. HEV is an RNA virus that causes acute hepatitis and has four genotypes that infect humans and animals. It is transmitted fecal-orally and causes inflammation of the liver. Pregnant women are particularly susceptible and have a high mortality rate from HEV infection. Diagnosis involves microscopy, serological techniques like ELISA, and molecular techniques like PCR. Prevention focuses on proper sanitation, vaccination, and screening of animals that can transmit HEV like swine.
International Journal of Pharmaceutical Science Invention (IJPSI)inventionjournals
This study examined 692 stool samples from patients at a tertiary care hospital in Uttar Pradesh, India. The samples were tested for intestinal parasites using microscopy. Of the samples, 116 (16.8%) tested positive for parasites. The most common parasite was Entamoeba histolytica at 42.24% of positive samples, followed by Giardia lamblia at 24.13%. Giardia infections were highest in the 21-40 age group. The study found a high prevalence of intestinal parasitic infections compared to other areas, indicating a need for better diagnostic methods, prevention strategies, and health education on environmental hygiene.
Clostridium difficile is a gram-positive, spore-forming anaerobic bacillus that can cause infectious diarrhea. Antibiotics reduce normal gut flora allowing C. difficile to grow and produce toxins, leading to symptoms ranging from mild diarrhea to pseudomembranous colitis. Diagnosis involves toxin detection in stool samples. Treatment involves discontinuing the precipitating antibiotic when possible and using metronidazole, vancomycin, or fidaxomicin to suppress C. difficile growth. Relapse can occur in 20-30% of cases. Prevention focuses on prudent antibiotic use and infection control.
Helicobacter pylori & Nobel Prize in medicine & physiologySamir Haffar
The discovery of H. pylori and its role in peptic ulcer disease was a collaborative effort between clinicians and scientists at Royal Perth Hospital in Western Australia in the early 1980s. Robin Warren, a pathologist, first observed the bacteria in gastric biopsies. Barry Marshall, an intern, helped cultivate H. pylori from a patient's biopsy, fulfilling Koch's postulates. Together with contributions from electron microscopists, microbiologists, and other specialists, they were ultimately able to characterize the bacteria and its association with gastritis and peptic ulcers. For their seminal work, Warren and Marshall received the 2005 Nobel Prize in Physiology or Medicine.
Explainations for 20th Century Tuberculosis Decline- How the Public Gets It W...Spencer Davis
- The study surveyed 705 adults to assess their perceptions of why tuberculosis mortality declined in the 20th century. Approximately 52% attributed the decline to "modern medicine" while 22% attributed it to "vaccination." Few respondents cited public health interventions or improved social conditions.
- In reality, historical analysis shows the majority of the tuberculosis decline was due to improved social conditions like better housing and public health interventions rather than medical advances alone. The disease was already declining before treatments like antibiotics were developed.
- The public overly credits modern medicine and underappreciates the role of public health and social factors, which could hinder support for policies addressing social determinants of health.
Food samples: African salad, fried yam, fried potato, fried plantain, bole and suya meat retailed in three locations along Choba, Aluu and Alakahia were analyzed for their microbial load. Analysis of the food samples revealed Total viable count ranging from 3.8×107 cfu/g to 5.2×107 cfu/g (African salad), 2.6×107 cfu/g to 3.3×107 cfu/g (Bole), 3.0×107 cfu/g to 3.4×107 cfu/g (Plantain), 3.4×107 cfu/g to 3.6×107 cfu/g (Potato), 2.9×107 cfu/g to 3.3×107 cfu/g (Yam) and 4.8×107 cfu/g to 5.1×107 cfu/g (Suya meat) from the various locations. The organism isolated includes, Staphylococcus aureus (25%), Escherichia coli (25%), Pseudomonas (15%), Streptococcus (15%), Bacillus cereus (12%) and Salmonella spp (8%). The TVC count in these food samples exceeds the standard set by International Commission for Microbiology Specification for Food (ICMSF) for ready-to-eat food which states that TVC count between 0-107 cfu/g is acceptable, 104 to 105 cfu/g is tolerable and >107 cfu/g is unacceptable. Therefore, these foods are not bacteriologically fit for consumption. The occurrence of these bacterial isolates in the foods constitutes public health risk to consumers as these pathogens have been associated with foodborne infections Therefore, government should enforce strong food safety regulations for street foods vendors. In addition, street food vendors need to be educated on food safety and hygienic practices
Determination of Interleukin-1β (IL-1 β) and Interleukin-6(IL6) in Gingival C...iosrjce
IOSR Journal of Dental and Medical Sciences is one of the speciality Journal in Dental Science and Medical Science published by International Organization of Scientific Research (IOSR). The Journal publishes papers of the highest scientific merit and widest possible scope work in all areas related to medical and dental science. The Journal welcome review articles, leading medical and clinical research articles, technical notes, case reports and others.
El lunes 23 de octubre de 2017 celebramos una jornada en la Fundación Ramón Areces sobre Microbiota Intestinal: Implicaciones en la Salud y Enfermedad.
A study of health comprehension about the cholera among a slicesin74
A study was conducted among 98 University of Baghdad employees and 30 randomly selected individuals to assess their knowledge of cholera. Most participants correctly identified that cholera is transmitted through contaminated water and food and causes watery diarrhea. While over half of the study group identified bacteria as the causative agent, answers varied more among the control group. The results indicate relatively good understanding of cholera transmission and symptoms but lack of complete knowledge about the bacterial cause.
Is susceptibility to tuberculosis acquiredThanka Elango
This document discusses the complex interplay between genetic and environmental factors in determining susceptibility to tuberculosis. It summarizes recent research showing that some genetic susceptibility factors, like variants in the NRAMP1 gene, have a strong effect on tuberculosis risk only in certain epidemiological settings that involve low prior exposure to mycobacteria. Other susceptibility genes, like one found on chromosome 8q12-q13, appear to have a strong, independent effect regardless of environmental context. The document emphasizes that fully understanding tuberculosis susceptibility requires detailed knowledge of gene-environment interactions, as the same genetic variants may have highly variable effects in different populations and exposure settings.
Los conejos son animales pequeños que se caracterizan por su pelaje suave y orejas largas. Suelen vivir en madrigueras y comen principalmente hierba y vegetales.
La técnica de acrílicos en aguadas sobre papel acuarela es una técnica de ilustración desarrollada por BREHAYAN AGAMEZ que consiste en aplicar acrílicos diluidos con agua sobre papel acuarela para lograr efectos similares a la acuarela pero con mayores posibilidades de control y corrección.
To trust the Lord with all your heart means completely relying on God rather than one's own understanding or strength. It requires giving all aspects of oneself to follow God's will as revealed by the Holy Spirit. This allows God to work through people to fulfill his perfect plans and bring him glory. Leaning on one's own understanding means not logically problem-solving but trusting God fully. Living this way results in God blessing those who obey him by using them to accomplish his will.
Informe Anual SIADDHH 2015 sobre Agresiones contra Defensores de Derechos Hum...Crónicas del despojo
Se cumplen 5 años del Gobierno Santos y la situación de protección y garantías a los defensores y defensoras, lejos de mejorar, preocupa. En 2015 repuntan nuevamente las cifras de agresiones muy a pesar de la sensible baja en la violencia sociopolítica producto del cese unilateral del fuego de las FARC y el desescalamiento del conflicto. Si esto es ahora ¿qué se puede esperar del post-conflicto? Situación de defensores en 2015 es tan inverosímil que parece más una película, que la realidad. Escrito por Comunicaciones (CJL) - Corporación Jurídica Libertad
“International Journal of Scientific and Innovative Research Vol.2, Issue1 (J...Sanjay Dixit
The document discusses the International Journal of Scientific and Innovative Research (IJSIR), a bi-annual journal published by Sky Institute in Lucknow, India. The journal aims to promote multidisciplinary research with societal benefit. The current issue contains 6 research papers covering various fields of science and technology. The editor thanks various individuals and organizations for their support and contributions to publishing the journal. He encourages continued support to help regularly publish quality issues of the journal.
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La extracción de materias primas para aumentar las exportaciones según la demanda a nivel mundial de los países netamente industrializados y de primer orden, afectan en gran medida las condiciones sociales y económicas de las poblaciones donde se realiza esta nefasta práctica, es decir, en los sectores subalternos de los países periféricos donde el neoliberalismo extremo, la economía transnacionalizada acompañada de la violencia para-institucional son protagonistas en la realidad nacional de dichos territorios.
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Final inflammatory bowel disease presentationAdina Georgiana
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Celiac disease is an autoimmune disorder triggered by gluten that affects the small intestine and results in damage to the intestinal villi. It is estimated to affect at least 1% of the population. The only effective treatment is a lifelong gluten-free diet. Researchers are studying enzyme and drug therapies to allow ingestion of small amounts of gluten. Advances in diagnostic tests and screening tools may help reduce undiagnosed cases of celiac disease.
Natural products as source of non inflammatory products 2013gustavomamor
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NURS 6501 Pathophysiology of Inflammatory Bowel Disease sample essays.docxstirlingvwriters
Inflammatory bowel disease (IBD) and irritable bowel syndrome (IBS) are chronic gastrointestinal conditions that share some similar symptoms but have distinct pathophysiologies. IBD includes Crohn's disease and ulcerative colitis, which involve inflammation in the digestive tract. Crohn's can occur throughout the GI tract, while ulcerative colitis is contained in the colon. IBS is a functional disorder causing abdominal pain from altered gut motility and visceral hypersensitivity without detectable structural abnormalities. The causes and treatments of IBD and IBS differ significantly.
The IOSR Journal of Pharmacy (IOSRPHR) is an open access online & offline peer reviewed international journal, which publishes innovative research papers, reviews, mini-reviews, short communications and notes dealing with Pharmaceutical Sciences( Pharmaceutical Technology, Pharmaceutics, Biopharmaceutics, Pharmacokinetics, Pharmaceutical/Medicinal Chemistry, Computational Chemistry and Molecular Drug Design, Pharmacognosy & Phytochemistry, Pharmacology, Pharmaceutical Analysis, Pharmacy Practice, Clinical and Hospital Pharmacy, Cell Biology, Genomics and Proteomics, Pharmacogenomics, Bioinformatics and Biotechnology of Pharmaceutical Interest........more details on Aim & Scope).
All manuscripts are subject to rapid peer review. Those of high quality (not previously published and not under consideration for publication in another journal) will be published without delay.
Role of Stem Cell Transplantation in the Treatment of Ulcerative ColitisMohammed Fathy Zaky
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The term “inflammatory bowel disease” (IBD) refers to a collection of gastrointestinal tract illnesses marked by both acute and chronic inflammation. These are complicated, multiple illnesses that are partially inherited. IBD is becoming more common in developing nations, though, which shows that environmental variables like food are potentially important contributors to disease risk. According to the evidence, eating a Western diet high in saturated fat, processed carbs, and food additives increases the risk of IBD. While dietary components like omega-3 fatty acids, medium chain triglycerides, and non-digestible carbohydrates improve these parameters and intestinal health, dietary components like omega-6 fatty acids, long chain fatty acids, protein, and digestible carbohydrates may contribute to IBD pathogenesis by altering intestinal microbiota, increasing intestinal permeability, and promoting inflammation.
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. Irritable Bowel Syndrome (IBS) is an exceeding common gastrointestinal disorder that is suspected of having a complex and multifactorial etiology and several classifiable variants (subtypes).
Discussion one of the various aspects of IBS, including: classification, etiology, pathophysiology, clinical manifestations and intervention/treatment.
2.Inflammatory bowel disease (IBD) typically takes on one of two forms: Crohn’s disease or Ulcerative Colitis. Both disorders are thought to be caused by an immune response to normal intestinal bacteria, resulting in inflammation of the intestinal mucosa. While many symptoms are common to both disorders, they also display distinct differences.
Research and discussion the similarities and differences of Crohn’s Disease and Ulcerative Colitis.
3.With obesity rates increasing at staggering exponential rates in the United States, bariatric surgical procedures have become increasingly common.
Restoring Gut Microbiome Health Is a New Strategy to Reverse Irritable Bowel ...Tamar Kuyumjian
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At WeTheTrilllions, our custom IBS program works to restore microbiome diversity through evidence-backed science like the report above to reduce the symptoms of diarrhea, constipation, gas, bloating, abdominal cramps, weight gain or loss, and others. We then track the change in symptoms and work with healthcare practitioners to report what works well for your individual body.
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This study analyzed the frequency and relationship of extraintestinal manifestations (EIMs) with disease phenotype in 1,652 patients with inflammatory bowel disease (IBD), including 1,146 with ulcerative colitis (UC), 303 with Crohn's disease (CD), and 203 with intestinal tuberculosis (ITB) at a hospital in India between 2005-2012. The frequency of any EIM was 33.2% in UC patients, 38.3% in CD patients, and 14.3% in ITB patients. Peripheral arthropathy, erythema nodosum, and aphthous stomatitis were more common in CD than UC. Any EIM and multiple EIMs were more frequent in
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Similar to Spontaneous and Transgenic Rodent Models of Inflammatory Bowel Disease (20)
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This document provides an overview of light microscopy and imaging. It discusses key concepts related to light and color, including how color is determined by wavelength and how white light is comprised of a combination of colors. It also explains how the color we see in objects is generally due to light absorption and reflection. Different color models are described, including HSI (hue, saturation, intensity) which is used to characterize the color green. The document aims to clarify fundamental optical and color principles for microscopy and imaging.
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This document outlines the laboratory sessions for an AVSC 222 General Livestock Production course taught in Spring 2016. The 9 laboratory sessions will provide hands-on experience with livestock and cover topics like livestock identification, health care and vaccination, disbudding and foot care, milking management, age determination and castration, parasite control, shearing, and breeding. Each session lists the activities and demonstrations students will participate in, such as visiting livestock facilities, vaccinating animals, hoof trimming, and artificial insemination. Materials and equipment needed for each session are also specified.
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Overall life span (LS) was 1671.7±1721.6 days and cumulative 5YS reached 62.4%, 10 years – 50.4%, 20 years – 44.6%. 94 LCP lived more than 5 years without cancer (LS=2958.6±1723.6 days), 22 – more than 10 years (LS=5571±1841.8 days). 67 LCP died because of LC (LS=471.9±344 days). AT significantly improved 5YS (68% vs. 53.7%) (P=0.028 by log-rank test). Cox modeling displayed that 5YS of LCP significantly depended on: N0-N12, T3-4, blood cell circuit, cell ratio factors (ratio between cancer cells-CC and blood cells subpopulations), LC cell dynamics, recalcification time, heparin tolerance, prothrombin index, protein, AT, procedure type (P=0.000-0.031). Neural networks, genetic algorithm selection and bootstrap simulation revealed relationships between 5YS and N0-12 (rank=1), thrombocytes/CC (rank=2), segmented neutrophils/CC (3), eosinophils/CC (4), erythrocytes/CC (5), healthy cells/CC (6), lymphocytes/CC (7), stick neutrophils/CC (8), leucocytes/CC (9), monocytes/CC (10). Correct prediction of 5YS was 100% by neural networks computing (error=0.000; area under ROC curve=1.0).
- Video recording of this lecture in English language: https://youtu.be/kqbnxVAZs-0
- Video recording of this lecture in Arabic language: https://youtu.be/SINlygW1Mpc
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Cell Therapy Expansion and Challenges in Autoimmune DiseaseHealth Advances
There is increasing confidence that cell therapies will soon play a role in the treatment of autoimmune disorders, but the extent of this impact remains to be seen. Early readouts on autologous CAR-Ts in lupus are encouraging, but manufacturing and cost limitations are likely to restrict access to highly refractory patients. Allogeneic CAR-Ts have the potential to broaden access to earlier lines of treatment due to their inherent cost benefits, however they will need to demonstrate comparable or improved efficacy to established modalities.
In addition to infrastructure and capacity constraints, CAR-Ts face a very different risk-benefit dynamic in autoimmune compared to oncology, highlighting the need for tolerable therapies with low adverse event risk. CAR-NK and Treg-based therapies are also being developed in certain autoimmune disorders and may demonstrate favorable safety profiles. Several novel non-cell therapies such as bispecific antibodies, nanobodies, and RNAi drugs, may also offer future alternative competitive solutions with variable value propositions.
Widespread adoption of cell therapies will not only require strong efficacy and safety data, but also adapted pricing and access strategies. At oncology-based price points, CAR-Ts are unlikely to achieve broad market access in autoimmune disorders, with eligible patient populations that are potentially orders of magnitude greater than the number of currently addressable cancer patients. Developers have made strides towards reducing cell therapy COGS while improving manufacturing efficiency, but payors will inevitably restrict access until more sustainable pricing is achieved.
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Spontaneous and Transgenic Rodent Models of Inflammatory Bowel Disease
1. 47
Lab Anim Res 2015: 31(2), 47-68
http://dx.doi.org/10.5625/lar.2015.31.2.47
ISSN 1738-6055 (Print)
ISSN 2233-7660 (Online)
Spontaneous and transgenic rodent models of
inflammatory bowel disease
Susan Prattis1,
* and Abdo Jurjus2
1
Department of Agriculture, Faculty of Agriculture and Food Science, American University of Beirut, Beirut, Lebanon
2
Department of Anatomy, Faculty of Medicine, American University of Beirut, Beirut, Lebanon
Inflammatory Bowel Disease (IBD) is a multifactorial disorder with many different putative influences
mediating disease onset, severity, progression and diminution. Spontaneous natural IBD is classically
expressed as Crohn’s Disease (CD) and Ulcerative Colitis (UC) commonly found in primates;
lymphoplasmocytic enteritis, eosinophilic gastritis and colitis, and ulcerative colitis with neuronal
hyperplasia in dogs; and colitis in horses. Spontaneous inflammatory bowel disease has been noted in a
number of rodent models which differ in genetic strain background, induced mutation, microbiota
influences and immunopathogenic pathways. Histological lesions in Crohn’s Disease feature non-
caseating granulomatous inflammation while UC lesions typically exhibit ulceration, lamina propria
inflammatory infiltrates and lack of granuloma development. Intestinal inflammation caused by CD and
UC is also associated with increased incidence of intestinal neoplasia. Transgenic murine models have
determined underlying etiological influences and appropriate therapeutic targets in IBD. This literature
review will discuss current opinion and findings in spontaneous IBD, highlight selected transgenic rodent
models of IBD and discuss their respective pathogenic mechanisms. It is very important to provide
accommodation of induced putative deficits in activities of daily living and to assess discomfort and pain
levels in the face of significant morbidity and/or mortality in these models. Epigenetic, environmental
(microbiome, metabolome) and nutritional factors are important in IBD pathogenesis, and evaluating
ways in which they influence disease expression represent potential investigative approaches with the
greatest potential for new discoveries.
Keywords: Transgenic rodent models, intestinal microbiota, IBD
Background and Significance
Inflammatory Bowel Disease (IBD) is a multifactorial
disorder for which a complete etiology is not yet known,
but which occurs in response to the convergence of
genetic predisposition towards disease development,
intestinal microbiota, external environmental factors,
and host immunobiological responses [1-4]. Human IBD
is a naturally occurring polygenic disease expressed as
abdominal pain, weight loss, diarrhea, vomiting, flatulus
and ileus, ileitis, bloody stool, elevated mucous production
and bowel and/or subcutaneous fistulation present in
various proportions depending the area of the small and/
or large bowel that is being affected [2,5] that
predominantly occurs sporadically, with familial IBD
occurring in only 5-14% of the affected population
[2,3,6]. IBD occurrence represents a major risk factor in
development of colorectal cancer [7,8]. Clinical
inflammatory bowel disease syndromes include Ulcerative
Colitis (UC) in which limited mucosal and submucosal
inflammatory processes predominantly affect the colon
and adjacent areas of the rectum, and Crohn’s Disease
(CD) characterized by chronic intermittent relapsing
discontinuous transmural inflammation of the bowel
Review
*Corresponding author: Susan Prattis, Department of Agriculture, Faculty of Agriculture and Food Science, American University of
Beirut, PO Bx 110236, Riad El Sohl, Beirut, Lebanon
Tel: +96-11-340-460; Fax: +96-11-744-460; E-mail: sp07@aub.edu.lb
This is an Open Access article distributed under the terms of the Creative Commons Attribution Non-Commercial License (http://creativecommons.org/licenses/
by-nc/3.0) which permits unrestricted non-commercial use, distribution, and reproduction in any medium, provided the original work is properly cited.
2. 48 Susan Prattisand Abdo Jurjus
Lab Anim Res | June, 2015 | Vol. 31, No. 2
with intestinal and perianal fistulation [9]. Spontaneous
natural IBD is also found in dogs and cats, horses and
primates [10,11]. Canine phenotypic IBD disease
classifications include lymphoplasmacytic enteritis,
eosinophilic gastroenteritis, eosinophilic colitis, granulo-
matous colitis and histiocytic ulcerative colitis and
neuronal hyperplasia [10-14]. In horses, IBD is usually
expressed as weight loss and clinical colitis which
exhibit variable long-term responses to corticosteroid
and anthelmintic treatment [15]. Nonhuman primates
frequently exhibit diarrhea, and a subset of these animals
appear to exhibit chronic diarrheal disease that can be
categorized within familial aggregate groups. This
syndrome is a leading cause of mortality in domestic
macaque colonies [16]. Finally, cattle and other ruminants
once infected with Mycobacterium avium paratuberculosis
will exhibit weight loss, chronic diarrhea, and other
clinicopathological syndromes that are very similar to
human inflammatory bowel disease, which is particularly
significant because this organism is difficult to detect,
can survive pasteurization and subsequently enter the
human food chain [17].
While many histological disease phenotypes and
lesions expressed by human and animal patients are
similar, some do differ, with the result that there is no
one animal model that replicates every major expression
of human or animal IBD among experimental animal
models. Additionally, in some instances functional
phenotypes and histologic indications of inflammatory
bowel disease can resemble other disease entities, which
confound study and clinical diagnosis, and must be
identified, treated and/or eliminated from consideration
in determining disease etiology and pathogenesis [2,3,
5,10-13,18].
Histological lesions in Crohn’s Disease feature non-
caseating granulomatous inflammation [2,3,5,18] while
UC lesions typically exhibit ulceration, lamina propria
inflammatory infiltrates and lack of granuloma development
[2,3]. IBD is a diagnosis of exclusion. Patients have
traditionally been categorized based on endoscopic
histopathological lesion appearance and clinical
responsiveness to medication [2,3]. There are several
different systems that have been used to characterize
histological lesions observed in IBD, but classical
histological interpretation of mixed inflammatory cellular
infiltrates can be very subjective due to their occurrence
in response to non-IBD related disease etiologies, and
also because a uniform set of prognostic biomarkers has
not yet been fully developed in human or veterinary
medicine for CD or UC diagnosis [3,11]. In most
instances, diagnosis is dependent on morphological
evaluation of endoscopic mucosal biopsies and response
to therapy [2,3,5,13,18,19]. Most small animal IBD
patients are initially treated with diet restrictions, use of
metronidazole to change the intestinal microbiota by
eliminating anaerobic bacterial species; increased fiber
content and anti-inflammatory products [12,20]. Human
UC and CD patients are treated using first line therapies,
including oral mesalamine, sulfasalazine for colitis only,
Budesonide oral corticosteroid and oral proton pump
inhibitors such as omeprazole. Increasingly, newly
introduced tumor necrosis factor antibody and other
inhibitors are improving the success of human IBD
therapy [21], and have been introduced in animal models
to examine underlying pathogenic mechanisms [22,23].
If initial treatment measures are not effective second line
immunosuppressive therapy such as high dose prednisone,
azathioprine, methotrexate and immunogold preparations;
and biological adjuvants such as the chimeric murine-
human anti-tumor necrosis (TNF) antibodies Infliximab,
Adalimumab and Certolizumab; and the Integrin antibody
Natalizumab, will be added to the treatment protocol
[8,20,24]. However, many of these drug and biological
adjuvant regiments do have significant side effects, and
it would be advantageous to identify predictive biomarkers
and new, effective therapeutic protocols to assist in
managing these diseases [10,11,21]. Identifying biomarkers
associated with different pathogenic and/or progressive
stages in inflammatory bowel disease in humans has
been difficult in part because of great variability in the
contribution of underlying mechanisms to disease
incidence, and in disease onset, progression, and remission
over time [21]. It is also not unusual for severely affected
IBD patients to experience multiple abdominal surgeries
to remove adhesions, obstructions, strictures and chronic
inflammatory material debridement [20]. Resorting to
experimental transgenic animal models would be an
adequate option to consider. This article will review the
transgenic rodent models of IBD and shed light on their
respective pathogenic mechanisms, contributions to
knowledge about IBD etiological influences, and
applicability for therapeutic drug intervention development
and testing. Animal studies reviewed in this report were
presumed to have been conducted in accordance with
humane regulatory standards by respective original
authors in accordance with best animal welfare practices
3. Transgenic rodent IBD models 49
Lab Anim Res | June, 2015 | Vol. 31, No. 2
and international publication standards.
Putative Pathogenesis
IBD is thought to be a result of dysregulated cell
signaling due to changes in bowel microbiota, diet as
well as overstimulation and deficient regulation of innate
and adaptive immune mechanisms within the bowel
environment. The resultant spectrum of disease phenotypes
have been termed “dysbiosis”, representing a loss of
intestinal immune homeostasis [2,3,5,18, 25,26], with
particular emphasis on the Th17 cell phenotype-
associated activities and dysregulation of Treg cells in
the intestinal mucosa, including IL10 expression [27].
Some of the IBD animal models have relied heavily on
adoptive transfer techniques to more clearly define
disease activity spectra following reconstitution of
selected, genetically manipulated cell populations in
immunodeficient, genetically modified mouse models of
inflammatory bowel disease [27,28]. Only 7 to 14 % of
human spontaneous disease incidence has been attributed
to genetic causes. Recently, Parlato and Yeretssian noted
that classified gene loci converge into common biological
pathways essential for intestinal homeostasis- or
inflammation-related processes, which included networks
such as epithelial wound repair and barrier function,
innate immune responses, autophagy, and T-cell
differentiation among others [29]. Some environmental
influences, in particular, commensal bacterial intestinal
population characteristics, have become considered to be
increasingly more important contributors to disease
pathogenesis [4,6]. Such variability is also challenging to
replicate in animal models [21]. IBD is characterized by
the presence of dysregulated immunoresponses governed
by the activities of CD4+ Th1, Th2, Th17, and Treg
lymphocytes, resulting in sustained inflammation, mixed
immune cell population recruitment, infiltration and
functional activation, and marked shifts in enteric
nervous system function [11,30]. Traditionally, T cells
have been differentiated by their abilities to produce
interferon gamma (Th1) and interleukins like IL4, IL5
and IL15 (Th2) [2,3,18,25,31]. Th1 cells are most
effective in killing intracellular pathogens such as bacteria
and viruses through monocytic pathways while Th2 cells
are especially effective in eliminating parasites resident
in mucosal sites through activation of eosinophils, basophils
and mast cells [2]. Several new T cell populations have
also been identified and are thought to be important in
driving disease development and progression in IBD
[3,32]. These include subtype Th17, which appears to fill
a niche activating neutrophil populations by eliminating
extracellular bacterial and fungal infections as well as
inflammation characterized by neutrophil activation and
opsonizing IgG antibodies; the cells produce IL17, IL22,
a part of the IL10 cytokine family, granulocyte colony
stimulating factor (G-CSF) and granulocyte macrophage
colony-stimulating factor (GM-CSF). Taken together
these cells are especially important in supporting epithelial
barrier integrity and microbial defense strategies [2,3,
18,25]. In addition, suppressor CD4+Treg subsets are
active in opposition to Th17−induced inflammatory cell
differentiation [27,33].
When activated these cells are able to augment,
coordinate and integrate adaptive immunity through
their actions on diverse cell sets for pathogen eradication
[3]. It is through effector cells (Th1: monocyte/macrophage
lineages; Th2: eosinophils, basophils and mast cells; and
Th17: neutrophils) and elaborated soluble factors that are
either pro-inflammatory or anti-inflammatory in character
[2,3,5,18,21]. Additional polymorphic loci variants for
genes that have been associated with elevated risk
disease as well as other not yet identified candidate genes
may also influence disease expression onset, development
and progression. These unknown polymorphic variants
may be modified through the accumulative effect of
multigenerational single nucleotide polymorphisms [2],
or, perhaps through modification of a significant as yet
not described polymorphic gene variant by additional
factors [2] resulting in gradation of disease expression.
Recent genome wide association studies involving
large case cohort human subjects trials have identified
over 100 loci that are associated with enhanced risk of
developing CD, UC, or both [2,3,34], including those
governing innate genes (definitive associations of
nucleotide-binding oligomerization domain proteins
(NOD proteins) [NOD2 in the IBD1 16q12 linkage
region for CD only] [13,35]; modified immune function
related to guanosine-5'-triphosphate hydrolyase (GTPase)
M protein and autophagy-related protein 16-L1 (ATG16L1)
autophagy gene expression, janus kinase 2 (JAK2)
activation; and IL12B/p40) gene expression [25]. The
strongest CD gene associations are with IL23R and
NOD2 [2], and an intact IL23R is required in mouse
IBD models for intestinal inflammation phenotypic
expression [2].
On the other hand, NOD proteins are important
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Lab Anim Res | June, 2015 | Vol. 31, No. 2
cytosolic regulators of apoptopsis and pathogen response
and resistance that contain leucine rich repeat segments.
They express genetic polymorphisms in regions that
have been associated with inflammatory disease or
increased susceptibility to infection [30,35,36]. The
NOD proteins NOD 1 and NOD 2 are important in
sensing the presence of bacterial pathogens by identifying
peptidoglycan wall peptide ligands gamma-D-glutamyl-
meso-diaminopimelic acid and muramyl dipeptide
components that are associated with bacterial walls, and
work with other proteins, specifically the Toll-like
receptors (TLRs), in mediating responses to bacterial
invasion [36]. Once NOD proteins detect peptidoglycan
group patterns in bacterial cells they are activated
through the leucine rich repeat segment, recruit and bind
receptor-interacting serine/threonine kinase (RICK)
through the caspase-recruitment domain interactions
(CARD) [30,37]. RICK activation then stimulates
polyubiquitulanation of IkkB [30]. The resultant
phosphorylation event activates nuclear factor kappa B
(NF-κB), mitogen-activated protein kinases (MAPKs)
such as JUN-amino terminal kinase (JNLK), JAK,
extracellular signal-regulated kinases (Erk) and p38
MAPK while also stimulates pro-inflammatory cytokine
expression [30,35,37]. All of the transcription factors
and cytokines involved in this pathway are important
mediators of inflammatory disease and immune patho-
genesis, and through the CARD system, apoptosis and
cysteine-dependent-aspartate directed protease (caspase)
protein activation [30,35,37]. NOD1 is less active in this
functional pathway, and has been primarily associated
with demonstrating elevated levels in response to bacterial
infection such as Helicobacter pylori gastroenteritis [30].
Major NOD 2 mutations R702W, G908R and
L1007fsinsC are associated with impaired responses to
the presence of bacterial pathogens (and in some cases
putative commensal bacteria) that are persistently found
in the lamina propria [36]. The protein is expressed in
lamina propria macrophages, monocytes and paneth cells
of the mucosal epithelium, thus regulating production of
antimicrobial alpha-defensins [36] in the mucosa. The
resultant overstimulatory reaction causes CD; alternatively,
some have suggested that NOD deficiency/loss of
function models are associated with T cell activation
with subsequent cytokine and chemokine release [36].
These reactions may also be associated with other
immune-mediated or influenced diseases such as
pediatric sepsis, allergy and atopy, psoriasis, sacroilitis,
and graft vs host disease [30,36]. In two syndromes,
Blau syndrome and Early-onset sarcoidosis, these
mutations occur in the NOD region and not in the LR
domain. They are associated with granulomatous pathologic
disease, and appear to operate through gain of function
mutants, demonstrated through increased NF-κB activation
in the absence of muramyl dipeptide stimulation and in
response to excessive NOD signaling [30]. Once activated
NOD 2 interacts with CARD12, which negatively regulates
RICK-mediated proteins and stimulating NF-κB
translocation into the nucleus, and release of pro-
inflammatory cytokines. Conversely, individuals with
CARD15 mutations show very strong immune reactions
to peptidoglycan peptides, elaborate high levels of IL12
and IL23, and can easily support development of Th1
mediated clinical colitis [30]. Interestingly, the CARD
proteins are instrumental in activating caspase proteins
that are important mediators of apoptosis, inflammation,
necrosis and cell death [37], and can recognize
intracellular double stranded RNA which is commonly
found in viral genomes ranging from the Orthomyxoviridae
viruses such as Influenza virus, to Rhabdoviridae family
viruses such as Rabies virus [37]. Both NOD and
caspase proteins are considered to be part of the
inflammasome constituent of nucleotide-binding domain,
leucine rich containing (NLR) family proteins [37]. It is
because of these complex innate immunological
intersecting pathways that knockout and transgenic
mouse models become so applicable to the study of
these disease syndromes [36,38].
Another important limb of the innate immune system
are the Pathogen Associated Molecular Patterns (PAMP)
molecules, of which the TLR protein molecules are
excellent examples of their activities. TLRs are trans-
membrane cell surface receptors that are associated with
cell membranes [30] and are important mechanisms by
which pathogen-associated molecular patterns are
recognized in the activation of innate immune responses,
especially to bacteria, but also to viruses and fungi [39-
43]. They were initially recognized as genetic homologues
to the Drosophila Toll gene family. In humans, there are
ten different TLRs that have been characterized, all of
which recognize different pathogen-associated molecular
patterns [40]. The TLRs recognize different aspects of
pathogen structure. TLR9 recognizes unmethylated CpG
dinucleotides in bacterial DNA; TLR2 recognizes diacyl
lipopeptides present in gram negative cell walls; and
TLR4 binds to lipopolysaccharide extracellular cell
5. Transgenic rodent IBD models 51
Lab Anim Res | June, 2015 | Vol. 31, No. 2
domains and stimulates signaling cascades as demonstrated
by recent crystal structures demonstrating the protein in
complex with a functional antagonist [40]. The TLR
family functions appear to be conserved in vertebrates,
and were most likely established as a part of the early
innate immune defense system allowing detection of
lipoprotein, peptidoglycan, lipopolysaccharides, flagellin,
double or single strand RNA and cytosine poly-guanine
(CpG) DNA as pathogen associated molecular patterns
early in evolution [40].
Adaptive immune system functional associations for
CD and UC appear to function through IL23 receptor
signaling and Th17 cell subsets (Abraham C and Cho JH
2009). They include interleukin 12A (IL12A, p40) and
Signal transducer and activator of transcription 3
(STAT3) proteins (Abraham C and Cho JH 2009) among
others. STAT3 protein phosphorylation activation roles
in IBD are likely to be both complex and confounding
given that this protein family is downstream of pro- and
anti-inflammatory cytokines and is activated directly by
IL23 signaling through the IL23R complex [25]. There
is continuous cross talk and regulation between Th1,
Th2, Th17 and FoxP3+ CD4+ T regulatory subset
populations in association with changes in IBD disease
phenotype expression [3]. Within the Th17 functional
pathway, Th17 cells defend against Gram positive and
Gram negative bacteria and upon activation secrete
IL17A, IL17E, IL17F, IL21, IL22, IL26, TNF alpha,
interferon gamma, and various chemokines [3,25]. IL21
expressing effector cells in this pathway, typically
mucosal epithelia and skin, function as a part of
enhancing barrier immunity [3].
Other Th17 associated genes expressed in CD phenotypes
include C-C motive chemokine receptor 6 (CCR6) in
dendritic cells and memory T cells where they mediate
B cell differentiation, dendritic and memory T cell
migration; and tumor necrosis factor ligand superfamily
member 15 (TNFSF15), which facilitates Th17, Th1 and
Th2 cell differentiation [25]. Similarly, the combined
presence of IL1, IL6, IL21 and TGF beta will induce
IL23R upregulation, resulting in Th17 cell differentiation
in some settings [3], and highlighting linkage between
autoimmunity and IBD [2]. TGFβ functions in this
manner through reciprocal induction of forkhead box P3
(FoxP3) and retinoid-related orphan receptor gamma
(RORγ) [2]. FoxP3 interactions with RORγt suppress
IL17 transcription, while the presence of IL6, IL21 and
IL23 will decrease FoxP3 inhibition by RORγt [2].
Through these mechanisms which are dysregulated by
IBD, Th17 and T regulatory cells are reciprocally
regulated, and homeostatic expression levels determine
self-tolerance and absence of bowel inflammation
[2,3,25]. The Th17 functional pathway is important in
modulating mucosal responses to pathogen exposure. It
exerts considerable effect in inflammatory bowel disease as
well as inflammatory diseases affecting the lung and skin
[3]. Two CD associated genes, chemokine receptor 6
(CCR6) and tumor necrosis factor ligand superfamily
member 15 (TNFSF15) (http://www.ncbi.nlm.nih.gov/
gene/9966), enhance IL17 expression in Th17, Th1 and
Th2 cells. These variants appear to be important factors
in CD development among people of European and
Asian ancestry [3]. BothCCR6 and TNFSF15 have been
linked to Th17 cell differentiation and function [25]. It
is worth noting that there are differences in Th17 cell
development between mice and humans resulting in
variable IL1β and other pro-inflammatory cytokine
spectra and expression levels between species [3].
TGFβ and IL1β appear to contribute to Th17 cell
development and differentiation at different levels
between species [3]. Th17 cells can differentiate into
interferon-gamma producing effector cell populations
that resemble Th1 cells under certain conditions, but
their contribution to UC and CD has not been fully
demonstrated [3]. Overall, however, cross regulations of
Th17, Th1 and Treg cells are important modifiers of
disease expression, with TGFβ causing activation of
both T17 and Treg cell subsets [25]. TGFβ alone
stimulates Treg cell differentiation, while the presence of
IL1, IL6 and IL21 causes induction of IL23R expression,
and differentiation of Treg cell subsets [25]. Based on
recent studies, it appears that there are gene perturbations,
in common, between CD and UC, namely, those
activated along the IL23 pathway (IL23R, IL12B, and
STAT3) [25]. Ongoing studies continue to define single
nucleotide polymorphisms in these regions as well as
elsewhere throughout the human genome [2,33] and in
animal models of this disease [18,22,25].
UC syndromes are associated with IL10 and actin-
related protein 2/3 complex subunit 2 (ARPC2) regulatory
pathways, intestinal epithelial cell function extracellular
matrix 1 (ECM1) and activation of the E3 ubiquitin
ligase containing hect domain and RLD 2 (HERC2 ) [2]
that is important in DNA repair function and share a
common immune dysregulation genetic association with
human leucocyte antigen regions of the major histo-
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Lab Anim Res | June, 2015 | Vol. 31, No. 2
compatibility complex [2]. Inflammatory bowel associated
immune related genes have also been shown to be
associated with other diseases in humans [2] including
diabetes mellitus types 1 and 2, psoriasis, systemic lupus
erythematosus, Graves’ Disease and rheumatoid arthritis
among others. This association suggests that a more
general tendency to develop immune related disease
may exist in some individuals that when exacerbated by
additional environmental or epigenetic factors activates
a pathway resulting in an individual and specific disease
syndrome(s) among different human populations [2].
Because the clinical expression and therapeutic response
characteristics of inflammatory bowel disease is similar
across patient populations investigators have suggested
that there is a limited disease phenotypic range for these
diseases in humans [2].
There is an increased risk for colonic adenocarcinoma
in infectivity models such as Helicobacter hepaticas,
Citrobacter rodentium, Lawsonia intracellular, use of
chemical mutagens, and the presence of predisposing
genetic mutations including adenomatous polyposis coli
-multiple intestinal neoplasia (APCmin
and Cdx2 genes)
[2,21,22,33]. Equally important appears to be the
developing interest in associating microbiota population
characteristics with disease induction, expression and
progression, as enterocolitis and colonic cancer expression
can vary in rodent models in part in accordance with the
presence or absence of defined bowel microbial species
and load [2,4,5,18,44]. However, the complex and
sometimes confounding pathologic responses observed
clinically in human patients and in relevant animals
models reflect putative variation in pathogenic disease
mechanisms, suggesting that these two disease phenotypes
may represent a disease continuum, rather than distinct
entities, and highlight our need for further delineation of
cell reactivity lineages, functional pathways and resultant
phenotype expression in these diseases [2]. Transgenic
rodent models can serve as excellent model systems for
mechanistic studies to further define underlying pathogenic
disease factors, and in initial proof of concept studies to
determine therapeutic approaches for future clinical
efficacy.
Transgenic Animal Models of
Crohn’s Disease
Spontaneous inflammatory bowel disease has been
noted in a number of rodent models which differ in
genetic strain background, induced mutation, microbiota
influences and immunopathogenic pathways [2]. There
are now many different inflammatory bowel disease
animal models, with recent publications identifying in
excess of 1800 recent individual publications in this area
within the past three years [9,21,22,45,46]. One
comprehensive review by Neurath in 2012 has identified
over 69 spontaneous and induced rodent models in
which clinicopathologic and therapeutic models of either
CD or UC, or both, was invoked [9]. Animal models of
inflammatory bowel disease continue to be very useful
in examining basic pathogenic mechanisms of disease as
well as in developing and evaluating new types of
biological therapies such as anti-tumor necrosis factor,
anti-integrin and anti-interleukin therapies [19,28,33,46-
49]. Many IBD animal models exhibit Th1 cell dominant
immune reactivity (Mizoguchi A and Mizoguchi E
2010),withassociatedpro-inflammatorycytokineexpression
profiles, e.g. interferon γ, tumor necrosis factor-α and
IL2 [50]. Non-T cellular monocytic cell populations are
important regulators of bowel mucosal immunity so that
when modified they can result in disease expression.
Antigen presenting cells seem to be important determinants
of Th2 cell immune response induction when challenged
with infectious agents, thus providing a linkage between
adaptive and innate immune responses in IBD disease
onset [33]. There are significant and complex interactions
between adaptive immunity, innate immunity and intestinal
microbiota (including aspects of microbial species
population as well as metabolic compound assessment)
and external environmental influences, suggesting that
there are many opportunities for future basic and
translational animal model development in this area.
One of the earliest transgenic mouse models involved
driving control of TGFβ via us of a dominant negative
mutant of the TGFβ type II receptor, the ITF-dnRII
transgenic mouse, first described in 2001 to explore the
effects of TGFβ1 on bowel immunity, extracellular matrix
protein expression, and carcinogenesis [51-53]. This
model examined the hypothesis that modified TGFβ
signaling was responsible for intestinal epithelial cell
degradation and subsequent IBD disease development in
mice similar to human inflammatory bowel disease
expression [51-53]. The role of the TGFβ signaling
pathway was initially examined in ITF-dnRII mice through
overexpression of mutant dominant negative TGF-β
receptor II, resulting in functional inactivation of
TGFβRII receptor proteins under the control of intestinal
7. Transgenic rodent IBD models 53
Lab Anim Res | June, 2015 | Vol. 31, No. 2
trefoil peptide promoter (ITF/TFF3) in a tissue restricted
fashion. Resulting ITF/dnRII transgenic mice exhibited
clinical IBD disease when not maintained in specific
pathogen free conditions, including weight loss, ruffled
coat, diarrhea, hematochezia and anal/rectal prolapse
[51]. Loss of TGFβRII expression was noted throughout
the epithelial and muscular layers in transgenic mice.
When maintained in specific pathogen free conditions
these mice exhibited similar signs only after treatment
with dextran sodium sulfate in drinking water which has
been shown previously to produce acute and chronic
ulcerative colitis in mice [51]. Characteristic histo-
pathogical changes were noted including severe, extensive
mucosal ulceration, severe inflammatory cell infiltration
and increased myeloperoxidase reactivity indicative of
the presence of granulocytic cells. Additional clinico-
pathologic characteristics included generation of major
histocompatibility complex class II antibodies in sera,
increased matrix metalloproteinase activity within bower
epithelium and autoantibody generated against intestinal
goblet cells [51]. In subsequent additional studies of
dominant negative TGFβII reception constructs expressing
downregulation of TGFβIIR in the intestine, their
absence was associated with higher cell nuclear antigen
proliferation indexes following infection with Helicobacter
pylori. When treated with azoxymethane, a colon
carcinogenic agent, these mice also exhibited increased
numbers of aberrant crypt foci and higher incidences of
dysplastic precancerous aberrant crypt foci and colonic
cancer [52]. Loss of TGFβ intestinal signaling appears to
increase organotypic susceptibility to UC, appears to
influence level of tissue injury during inflammatory
disease and may be associated with associated colonic
neoplastic changes [51]. Later studies have examined
inflammatory colitis induced through dextran sodium
sulfate and azoxymethane treatment of Smad3-/-
mice,
which are deficient in TGFβ signaling molecule smad3
[53]. The outcome of these studies suggest that it most
closely models CD and is significantly associated with
subsequent carcinogenesis, including colonic epithelial
crypt herniation, chronic-active repair characterized by
epithelialhyperplasia,cryptherniation,squamousmetaplasia,
epithelial dysplasia, and subsequent tumor development
[19,53]. Neoplastic lesions ranged from adenomatous
polyps to mucinous adenocarcinoma [53].
The double transgenic mouse dominant-negative
knockout (dnKO) construct develop fulminant UC that
is sensitive to anti-cytokine treatment and broad spectrum
antibiotics [54]. dnKO transgenic mice were constructed
on C57B6 background with dominant negative TGFβRII
mice that were crossed with class II cytokine receptor
family member 2 [CRF2-4-deficient (IL10R2-/-
)] mice
[55] that also resided on C57B6 background, resulting in
mice that were null mutants for IL-10R2 and expressed
dominant negative phenotypic expression of TGFβRII in
the CD4+ and CD8+ compartments. Further breeding of
dnTGFβRII mice with IL10R2-/-
mice resulted in the
development of the dnKO transgenic mouse, with restricted
lymphocytic phenotypic expression as a result, with three
other control conditions generated similarly: IL10R2-/-
,
dnTGFβRII and IL10R2+/-
[54]. dnKO mice exhibit
failure to thrive at an early age with rapid weight loss
and early mortality, a much earlier and more severe
expression of disease than is commonly found in single
transgenic mutants, and in parallel with human patient
clinical presentation in a subgroup of IBD affected
individuals [54]. The pathological presentation of this
model is most consistent with UC forms of IBD. Gross
pathological changes included focal punctate ulceration,
mucosal thickening in the cecum, descending colon and
rectum, and milder changes in the ascending colon with
minimal inflammatory change or damage noted in deeper
intestinal layers and the absence of granulomata, colonic
fistulas and strictures [54]. Severe inflammation was
noted histologically and featured predominantly T cell
infiltrates with additional immature myeloid/monocytic,
neutrophilic, natural killer and B cell infiltrates as assessed
using immunohistochemistry [54]. Histopathological
changes were consistent with mucosal responses to
inflammatory injury and included epithelial hyperplasia
characterized by elevated crypt wall height and M-phase
bodies per crypt ratios, statistically significant decreases
in crypt numbers accompanied by increased crypt width
and microabcessation, reduced numbers of goblet cells
and eroded surface epithelium [54]. Cellular infiltrates
consisted of mixed cell infiltrates into the mucosa and
submucosa of the cecum, descending colon and rectum;
leukocytic infiltrates were also detected in the ascending
colon but epithelial and goblet cells escaped severe
injury [54]. Proinflammatory Th1 cytokine expression
(interferon γ, TNFα, and IL6) was marked with elevated
sera concentrations, and was consistent with the present
of large numbers of expanded T cell populations among
the inflammatory infiltrate. Expression of colitis in these
mice could be reversed through anti-cytokine (interferon
γ and TNFα) antibody treatment and inhibited following
8. 54 Susan Prattisand Abdo Jurjus
Lab Anim Res | June, 2015 | Vol. 31, No. 2
high dose ciprofloxacin and metronidazole antibiotic
treatment [54]. Treated animals gained weight, did not
exhibit any clinical or histological signs of inflammation
and injury, and produced minimal proinflammatory
cytokine levels, demonstrating the efficacy of these two
therapeutic interventions and the important role the
luminal bacterial exert in the pathogenesis of UC in this
model.
In their review DeVoss and Diehl identify two
transgenic mice that exhibit clinical signs of ileitis were
identified as being commonly used IBD animal models
[21]. One of these is the tumor necrosis factor (TNF)
deficient TNF∆ARE
transgenic mouse, which was generated
from an original single TNF mutation on a C57/Bl6
background as a model of rheumatoid arthritis and other
inflammatory arthridities [56]. The development of a
double mutant mouse using Cre-Lox recombinant
technology and carrying a deletion of the AU-rich
elements 3' untranslated region (ARE 3'UTR) regulatory
element for tumor necrosis factor resulted in an effective
double disease model that can be used for investigative
pathogenesis inquiry as well as for preclinical drug
discovery [57]. ARE consist of a class of regulatory
sequence characterized by the presence of an AUUUA
pentanucleotide that acts to regulate mRNA stability and
translation in TNF and other biologically active molecules
[57]. Differential substitution of this mutant nucleotide
into either a TNF type I or II receptor mutant genetic
background mouse resulted in loss of posttranscriptional
regulation of this gene. While double homozygous mice
developed in a completely normal fashion (TNF∆ARE/
∆ARE
/TNFRI-/-
), TNF∆ARE
produced animals that exhibit
inflammatory polyarthritis and bowel disease [57]
(Biomedcode www.biomedcode.com/gr/en/content/tnfdare-
dual-disease-model). Heterozygous and homozygous
TNF∆ARE/-
and TNF∆ARE/∆ARE
mice exhibit signs of arthritis
(joint swelling, paw distortion and severe movement
abnormalities) and inflammatory bowel disease consistent
with chronic inflammation and CD. These include
severe weight loss (to 6-7 grams) and early onset of
disease by 12 days postnatally, and early mortality in
homozygous mice by 5-12 weeks of age for TNF∆ARE/
∆ARE
mice suggesting that they must be monitored closely
to alleviate potential animal welfare and husbandry
concerns.
Histopathologic intestinal lesions were first noted at 2
to 4 weeks of age in TNF∆ARE
and were localized to the
distal ileum with occasional colonic involvement. Lesions
progressed from mucosal injury characterized by villus
blunting and broadening and chronic-active mucosal and
submucosal infiltrates composed of scattered neutrophils,
mononuclear lymphocytes and plasma cells [57]. Severe
intestinal inflammation was noted by 4 weeks of age in
TNF∆ARE/∆ARE
and by 8 weeks of age for TNF∆ARE/+
,
progressing by 4-7 months of age to severe transmural
inflammation characterized by submucosal lymphoid
aggregates and follicles, granulomata that resembled
non-caseating granulomatous change in human IBD, and
multinucleated giant cells, with superficial epithelial
layers exhibiting loss of villus structures. [57]. Subsequent
studies have found that this phenotype occurs secondary
to expression of Th-1 cytokine activation patterns including
IL-12, interferon and requiring CD8+ T cell activation,
with additional influences from redundant downstream
cellular kinase activation pathways [58].
Mice deficient in both TNF and IL-10 (T/I mice) that
were developed from knockout IL-10-/-
on a C57B6
background (B6.129P2-Il10tm1Cgn
/J) held under specific
pathogen free conditions do not develop colitis. However,
when this transgenic mouse is crossed with knockout
TNF-deficient mice on a C57B6 background the result
is a double knockout transgenic mouse (B6.129S6-
Tnftm1Gkl
/J) (Tnf+/-Il10-/-
[T-het/I] and Tnf-/-
Il10-/-
/J) (http:/
jaxmice.jax.org/strain/003008.html) that exhibits a UC
phenotype and develops spontaneous colonic tumors
without any exogenous triggers shortly after weaning
[59]. This UC phenotype preferentially affected the
terminal colon and rectum after 15 weeks of age with
linear continuous inflammation involving the colon.
Histopathological lesions consisted of large numbers of
neutrophils within the lamina propria, crypt abscesses
and mucosal ulceration that generally did not affect
tissue deeper than the muscularis mucosae and submucosa
[59]. Inflammatory bowel disease in this model was
completed prevented in T/I mice using a drug cocktail
consisting of amoxicillin, clarithromycin, metronidazole
antibiotics and omeprazole acid suppression agent to
modify the luminal environment and suppress or eradicate
colitogenic bacteria [59]. Colon cancer phenotypes
generated in this model ranged from invasive mucinous
adenocarcinoma to locally advanced transmural invasive
tumor breeching the exterior colonic mesenteric serosal
surface in mice older than 25 weeks of age, and without
accompanying metastases. This model suggests that
relative TNF insufficiency may result in mucosal
compromise in a primary or secondary fashion resulting
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Lab Anim Res | June, 2015 | Vol. 31, No. 2
in expression of UC IBD, with concomitant elevated risk
of colonic cancer development in the face of intestinal
inflammation in this double knockout transgenic mouse
strain [59].
Similarly,SAMP1/Yit/Fctransgenic miceweregenerated
on an AKR/J background and exhibit elevated numbers
of macrophages, neutrophils and lymphocytes within the
ileum indicative of immune activation in this site [60-
62]. SAMP1/Yit/Fc mice exhibit spontaneous small
intestinal inflammation characterized by early secretary
cell expansion, e.g. goblet, paneth and intermediate
phenotype cells, within the epithelium of the ileum and
discontinuous “skip” pattern of transmural and segmental
chronic-active cellular infiltrates. These cells include
lymphocytes, macrophages and neutrophils with initial
crypt elongation. Inflammatory infiltrates target epithelial
crypt epithelial locations and subsequently promote
development of cryptitis, microabcessation, focal
granulomatous inflammation and basal plasmacytosis
with progressive disruption of the epithelium and tissue
atrophy [62]. This granulomatous inflammation is observed
under specific pathogen free conditions, commencing at
10 weeks of age with 100 % penetrance by 30 weeks of
age and severe bowel strictures noted in mice older than
40 weeks of age [61,62]. This is an unusual aspect of this
model as clinicopathologic signs rarely develop under
specific pathogen free conditions in many IBD rodent
models, and especially those that are dependent in part
on chemical induction of intestinal inflammation.
Additional pathologies have been noted in SAMP1/Tit/
Fc transgenic mice, including chronic Helicobacter-
negative Crohn’s like gastritis and autoimmune hepatitis
[62]. The pathogenesis of this animal model is similar to
that observed with human IBD disease in that early
activation of Th1 mediated pathways are associated with
disease induction and intraluminal commensal bacteria
act as antigenic stimulants that result in immunological
dysregulation, or dysbiosis, of mucosal immunity in
these mice [62]. STAT3 is activated over the course of
disease progression in SAMP1/Yit/Fc mice; accordingly,
it is considered an important regulator of the inflammation
in the SAMP1/Yit/Fc mouse as well as a potential
therapeutic target [61].
Cytokine-associated murine colitis has been described
in IBD animal models [43,50,63]. These include one of
the only Th2 cytokine predominant murine colitis IBD
model described in the literature, Wiskott-Aldrich
Syndrome protein (WASP) deficient mice [50,64]. The
WASP molecule is primarily expressed in hematopoietic
cells where it integrates surface receptor and actin
cytoskeleton signaling networks, and is absent, changed
or diminished in WASP human patients. An X-linked
disease, human patients affected with this deletion exhibit
eczema, thrombocytopenia, lymphoreticular cancers,
recurrent infections and autoimmune diseases [50].
Affected mice exhibit weight loss, diarrhea, rectal
prolapse and early mortality by 3 months, and all
surviving mice tend to be affected by 6 months of age.
Clinicopathologic signs include lymphopenia, thrombo-
cytopenia, cytoskeletal abnormalities characterized by
cellular migration defects, T cell signaling defects and
decreased regulator T cell quantity and diminished
function [50].
This model is histologically characterized by the
presence of neutrophils; CD8+, CD4+ and Treg cells;
increased macrophage and dendritic cell populations
within the colonic lamina propria by 3 months; crypt
elongation followed by abcessation, goblet cell depletion,
epithelial hyperplasia, and the absence of granulomata.
In addition, a thickened bowel wall is noted accompanied
by increased Th2 cytokine expression and dysfunctional
natural regulatory T cell function that closely mimics
human disease in all aspects. Interestingly, the WASP
transgenic mice express normal TCR α+
β+
peripheral T
cells, and elevated IL13 expression thought to originate
from natural killer T cells, which are also thought to be
a colitogenic stimulus. It is not known if these cells are
important actors in immune dysregulation associated
with WASP deficiency in this model, however [50].
WASP transgenic mice have been shown to also lack the
ability to fully polymerize cellular actin and express
colitis following Helicobacter species infection [65].
The presence of Helicobacter appears to be necessary
for subsequent development of colonic cancer in these
mice [65].
The transgenic rat model, the HLA-B27 rat is the only
transgenic rat model in this class [66,67]. HLA-B27
transgenic rats contain multiple inserted integrated copies
of the HLA-B27 gene on a Lewis rat (LEW) or Fisher
344 (F344) rat genome background [66]. These animals
exhibit a dose responsive significant association with
several chronic inflammatory diseases categorized as
Spondyloarthropathies (SpA), a complex of diseases that
affect the bowel (IBD), joints and axial skeleton
(arthritis), and skin, and which involve the major
histocompatibility complex class I gene for human
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Lab Anim Res | June, 2015 | Vol. 31, No. 2
leukocyte antigen (HLA) [66,67]. At least two different
lines of HLA-B27 rats have been developed, the 21-4H
lines and the 33-3 lines HLA-B27. Disease does not
occur in animals maintained under specific pathogen
free conditions. Modulating diet to include increased
levels of non-digestible carbohydrates have been shown
moderate intestinal microbiome populations and decrease
chronic intestinal inflammation in this model [67].
Recent evidence in experimental cell construct has
demonstrated that human HLA-B27 misfolds in HLA-
B2 rat macrophages during these inflammatory episodes
[68]. It is noted that increased protein misfolding can act
in a proinflammatory manner and that inappropriate
unfolded protein responses to normal levels of misfolding
can initiate inflammatory pathways [68].
HLA-B27 transgenic rats exhibit UC and CD phenotypes
with intestinal inflammation noted within the epithelium
of the stomach, large and small intestine, with histological
ulceration typical of UC and expression of Th1 cytokines
usually associated with CD, including interferon γ, IL2,
IL1α, IL1β, TNFα and macrophage inflammatory
protein 2 (MIP2) within the bowel mucosa and elevated
levels of TNF-α and IL6 within affected rat sera [66].
Experimental rats also exhibit functionally defective
dendritic cell populations that is HLA-B27 dose
dependent. Clinical signs with associated evidence of
histological inflammation include onset of diarrhea after
10 weeks of age, followed by peripheral arthritis.
Administration of fructo-oligosaccharides (FOS) followed
by examination of bacterial species using 16S RNA
prevalence demonstrated decreased the total overall
number of bacteria noted in fecal samples. Among the
fecal microbiota examined were elevated amounts of
Bifidobacteria spp., significantly decreased numbers of
Enterobacteriaceae spp. and C. Difficile spp. toxin B.
Inulin decreased the level of Lactobacillus spp. group
and Clostridia spp. cluster organisms found. All of these
effects were less pronounced in cecal microbiota, but the
cecal bifidobacterial, clostridial clusters I and IV I FOS
treated animals were quite different than those treated
with inulin [67]. It appears that 1) Bifidobacteria spp. are
consistently and negatively correlated with chronic
intestinal inflammation, 2) Bacterioides spp. bacteria can
induce colitis in germ free rats but can act to protect
against E.coli induced colitis under those conditions also
[67]. Bifidobacterium spp. correlated negatively and
Cloistridium spp. cluster XI correlated positively with
inflammatory bowel disease in these studies [67].
Consequently, the role of this organism in IBD
pathogenesis is not clear despite the observation that
human IBD patients more frequently carry abundant
amounts of Bacterioides spp. organisms within their
intestine.
The first human genetic risk factor associated with
IBD syndromes was the NOD2 gene (NOD2), which
encodes the intracellular receptor for bacterial wall
component muramyl dipeptide, and three deficiency
models generated by deletion of exons 1, 3, and a
frameshift deletion, respectively, have been developed to
model IBD [33]. NOD2-deficient mice are susceptible to
intestinal inflammation following dextran sodium sulfate
chemical injury and exhibit acute intestinal inflammation
that is worsened in the absence of normal commensal
bacteria, unlike most murine IBD models [33]. NOD2
deficient mice also exhibit altered TLR2 signaling,
suggesting that this gene functions in part by inhibiting
Th1 cell mediated responses [33]. TLRs are linked to
myeloid differentiation factor 88 (MyD 88) [69], and
together promote mucosal integrity, barrier function and
tissue repair by recognizing and combating the effects of
bacterial products prior to injury [70]. TLR2 appears to
regulate tight junction barriers found in intestinal stroma,
and serve a more protective role [70] while in a Citrobacter
rodentium infection-mediated IBD model in TLR chimeric
mice, TLR4 was active in recruiting fibroblast like cells
to colonic crypts, stimulating apoptosis in that location,
stimulating hematopoietic cell populations, and activating
STAT3 transcription factors, thus promoting inflammatory
changes [70]. Further study in this area is especially
warranted, because investigators have suggested that this
dual protective and injurious effect incurred by TLR
signaling in the bowel may underlie the inability of
tumor necrosis factor α antibody therapy to effectively
treat a substantial minority of IBD patients, and, subsequent
induction of IL11 cytokine and STAT3 signaling [70].
The X-linked gene encoding NF-κB essential modulator
(NEMO) is an important regulator of intestinal homeostatic
growth, inflammation and tight junctional permeability.
It has been suggested that NF-κB activation is a key
mediator of mucosal homeostatic barrier function through
STAT5 mediated maintenance of zonula occulens protein:
cytoskeletal junctional stability and resultant colonic
barrier integrity [26]. Absence of STAT5 in stat5IECKO
intestinal epithelial cell knockout deficient mice results
in increased susceptibility to dextran sodium sulfate-
induced chemical colitis and severe ileitis with associated
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Lab Anim Res | June, 2015 | Vol. 31, No. 2
severe inflammation and elevated numbers of CD4+
CD25+ Foxp3+ regulatory T cells, CD4+ T cells, and
macrophages accompanied by elevated proinflammatory
cytokine expression [26]. In addition, rectal bleeding,
shortened colon, slow weight gain, stool quality that was
soft to frank diarrhea, and inflamed intestinal epithelial
cells were observed [26]. These mice also exhibited
increased NF-κB activation in epithelial nuclei accompanied
by decreased zonula occulens abundance, upregulation
of myosin light chain kinase in epithelial cells, increased
focal colonic apoptosis of epithelial cells, and increased
epithelial proliferation [26]. The result is a persistent
mucosal barrier dysfunction and impairment of mucosal
wound healing in this model [26].
IKK-γNEMO/IKKαβ deficient mice exhibit severe
chronic pancolitis from neonatal life due to conditional
targeting of the NRMO regulatory complex governing
NF-κB signaling [45]. TLR mediated bacterial recognition
is also thought to play a major role in crypt destruction
exhibited by NEMOIEC-/-
knockout mice [45]. Similarly,
NEMO mice also express differences in expression of
myosin light chain kinase, which modifies epithelial
barrier function and promotes intestinal inflammation
[26]. Dual knockout mice expressing defective TGFβRII
and IL10RII exhibit severe, fulminant ulcerative colitis
and Crohn’s disease that is similar to that experienced by
human patients, and which has been, despite the many
types of genetically modified models now available,
difficult to replicate in rodent models [54]. It is thought
that the cause of the severe colitis is overactive T cell
populations; unlike other models, this one can be
completely reversed with broad spectrum antibiotics
illustrating the importance of the intestinal microbiome
in development, progression, severity and cessation of
IBD symptomatology and pathogenic changes [54], as
well as the efficacy of IL10 and TGFβ pathway synergism
in disease pathogenesis [54].
Another example of a dysfunctional mucosal permeability
IBD model is the K8-/-
keratin null transgenic mouse [71].
Human IBD has been associated with abnormalities in
intestinal epithelial cell-specific intermediate filament
class keratin 8, 18 and 19 expression [71]. Intermediate
filaments are one of three cellular cytoskeleton classes
(the other two being microfilaments and microtubules)
forming a type and cell-specific strong scaffold within
animal cells [71]. It is thought that keratins 8 and 18 co-
localize in cells with the cytoplasmic domain of TNFRII
where they function to moderate TNF-induced transcription
factor signaling and activation [71]. Several different
transgenic mice have been constructed that are keratin
deficient; one, the K8-/-
null transgenic mouse, will develop
colitis without additional stimulation and exhibits diarrhea
with electrophysiological modifications such as reduced
short circuit current production that is thought to be
associated with reversed net CL-/-
intestinal secretion. In
addition, altered epithelial marker expression from basal
crypts to apical and lateral locations, and abnormal ion
transporter distribution have been noted [71]. Some of
these changes are thought to correspond to mistargeted
protein translocation, which could promote imbalanced
lumen microbiota growth rate and species distributions.
Both UC and CD human patients have documented
keratin filament mutations, including K8 (K464N), K8
(I63V), K8 (G62C) [26].
The endoplasmic reticulum is the cellular organelle
responsible for polypeptide synthesis, posttranslational
modification and peptide folding in the process of
producing functional proteins [68]. Endoplasmic reticulum
stress has been associated with excess levels of proteins
with abnormal folding patterns (“misfolded proteins”), a
phenomena that is linked with a variety of different
sporadic and inherited human diseases including neuro-
degenerative, developmental, metabolic, carcinogenic,
infectious and inflammatory diseases [68]. Intestinal
secretory epithelial cells are particularly important in
these processes and as described in this article, are
frequently deleteriously affected during waxing and
waning IBD episodes. As discussed in an in-depth and
excellent review, McGuckin and colleagues defined the
complex cellular pathophysiologic pathways involving
the unfolded protein response (UPR) and endoplasmic
reticulum associated protein degradation (ERAD) [68].
These pathways are becoming increasingly important in
defining underlying stressors in these types of diseases
through induction of endoplasmic reticulum stress related
proteins, chaperones, autophagy and protein degradation.
X box-binding protein 1 (XBP1) transcription factor
mRNA is the major substrate for inositol-requiring
enzyme (IRE) 1-α/β, which is one of several initiating
molecule for unfolded protein response pathways [68].
Under normal conditions, IRE1 splices XBP1 mRNA
which results in coding for a transcription factor
inducing UPR target genes and ERAD molecules.
Unspliced XBP1 mRNA codes for a transcription factor
that suppresses UPR target genes; accordingly, one
measure of UPR activation is the ratio of spliced to
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Lab Anim Res | June, 2015 | Vol. 31, No. 2
unspliced XBP1 mRNA. This is particularly important
because the UPR affects translation, protein folding and
degradation of misfolded proteins, a complex process
under normal conditions that is crucial in normal
homeostasis for removal of abnormal proteins and
polypeptides whose accumulation can be a significant
cause of morbidity and mortality in a diverse array of
inherited or spontaneous disease syndromes [68].
Intestinal secretory cells such as colonic goblet which
produce mucin, and small intestinal crypt paneth cells,
which produce defensins, lysozyme, antimicrobial lectins
and collectins and so are extensively involved in protein
manufacture, processing and granular storage of proteins
that must maintain normal folding patterns for exit from
the endoplasmic reticulum and targeting to appropriate
cellular locations. Paneth cell metaplasia has been noted
with UC and CD, and inflammatory cytokines, PAMP
molecules, growth factors and NOD proteins are all
known to increase cellular transcription in intestinal
secretory cells,thus placing increasedstress onendoplasmic
reticular systems. McGuckin MA and colleagues propose
that ER stress should be considered an emerging pathway
in intestinal inflammation that influences disease
development, progression, and response by decreasing
mucosal barrier integrity and functional effectiveness,
and through UPR-initiated proinflammatory signals
released by stressed secretory cells [68].
Several different transgenic mice have been proposed
as examples of this pathway. X-box binding protein
(XBP1) deficient mice are inducible XBP1 UPR
transcription factor Cre-recombinase knockout constructs
using the villin promoter (Xbp1villinCre
) that suppress
colitis development and develop abnormal unfolded
protein during expression of their intestinal inflammatory
episodes [33,68]. XBP-1 transgenic mice exhibit paneth
and goblet cell apoptosis, spontaneous ileal inflammation
[68]. These mice express defective UPR and partial
Xbp1 deficiency in the colon resulting in goblet cell loss,
absence of spontaneous colitis but increased sensitivity
to dextran sodium sulfate colitis induction. Ire1β-/-
mice
are knockout mice with loss of the Ire1β UPR endo-
nuclease that cleaves Xbpr mRNA, and were the first
transgenic mice to demonstrate linkage between
inappropriate UPR and intestinal inflammation [68].
This isoform of Ire1 is expressed in colonic and gastric
epithelial cells. Interestingly, Ire1 knockout mice do not
develop spontaneous intestinal inflammation but are
more sensitive to dextran sodium sulfate induced colitis
also.
Agr2-/-
mice are germline (Agr2loxP
) conditional allele
or inducible knockout mice that abolish Muc2 biosynthesis,
resulting in spontaneous intestinal inflammation, paneth
and goblet cell apoptosis, and severe inflammation [68].
Protein folding is determined in part by primary
sequence but also by the presence of intermolecular
disulfide bond formation, and reduction of these bonds
is necessary to correct misfolded proteins and to remove
them from the endoplasmic reticulum. There is a family
of isomerases that are important facilitators of this task,
the protein disulfide isomerase (PDI) family, of which
one member, the anterior gradient 2 (Agr2) isomerase
appears to be highly upregulated during endoreticular
stress in intestinal cells [68]. AGR2 also is important in
stimulating cell proliferation, cell adhesion, motility; and
in inhibiting apoptosis [72]. The presence of high levels
of Agr2 mRNA and protein is associated with cell
proliferation and inhibited apoptosis in gastrointestinal
and mammary gland adenocarcinoma [72] while decreased
expression in humans is associated with increased risk of
UC and CD [72].
Accordingly, Agr2-/-
germline knockout mice generated
in FVB/NTgN(ACTB-Cre)2Mrt strain mice [73] have
abrogated anterior gradient 2 isomerase expression in
Muc2 produced in goblet cells, and do not produce
mucus within the intestine [73]. There is apparently mild
endoplasmic reticulum stress in these mice, which
suggests that UPR-mediated mechanisms may cause
differentiating goblet cells to cease their production of
this mucin [68]. Inducible Agr2 knockout mouse were
constructed using a nested approach. These investigators
first developed Agr2flox/
mice with deletions of Agr 2
exons 2, 3 and 4 derived from intestinal mRNA by
crossing protamine-Cre transgenic mice [72,74] with Tg
PRM-Cre mice that exhibited Agr2 deletions in the male
germline. The resulting heterozygotes were selectively
bred to generate Agr 2-/-
mice germline deletion mice
[72,74]. Inducible Agr 2-/-
mice were developed using a
Rosa26-CreER strain with inducible systemic Cre
recombinase activation responsive to tamoxifen. These
Tg Tam-Cre transgenic mice crossed with Agr2flox/flox
generated Agr2flox/flox
and inducible Agr2/
mice [72,75].
Transgenic Agr2flox/flox
: TgTam-Cre tamoxifen inducible
Cre loxP mice were combined, and then induced to stop
expressing Agr 2 following tamoxifen injection by
stimulating the Cre-loxP system that takes advantage of
using nuclear hormonal receptor import mechanisms to
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Lab Anim Res | June, 2015 | Vol. 31, No. 2
import targeted Cre-fusion proteins into the nucleus
while avoiding lethality [72,76]. In these experiments
inducible strain Agr 2 null allele mice exhibited
expanded paneth cell populations and ectopic paneth cell
locations within intestinal villi, with mature secretory
cells that appear to experience severe endoplasmic
reticulum stress, resulting in major epithelial damage
[68,72]. Germlineandinducibleknockoutmouseconstructs
develop severe terminal ileitis and colitis characterized
by neutrophillic infiltrates surrounding crypt base and in
submucosal perivascular spaces, peyers patch lymphoid
follicular hyperplasia with granulomatous inflammation
consisting of large numbers of multinucleated giant cells
locater within interfollicular areas [72]. Colonic immuno-
pathology was characterized by the presence of mixed
inflammatory infiltrates with isolated lymphoid follicles
distributed within the colonic lamina propria [72]. Tam-
cre control mice did not exhibit these severe ileocolonic
pathological lesions [72]. Paneth cells exhibited cell
hypertrophy and expansion following induction of
decreased Agr2 expression in inducible transgenic mice
within 24 hours of tamoxifen injection followed by
goblet cell degeneration, acute neutrophillic inflammatory
infiltrates into the lamina propria, further loss of paneth
cells, villus enterocyte blunting [72]. These histopathologic
changes correlate with increasing apoptosis within all
regions of the small intestine and colon [72].
While there is limited biochemical evidence for ER
stress and UPR initiation influences in UC and CD, it
has been suggested through genome wide association
studies that autophagy allele are directly linked with CD
(ATG16L1 and IRGM1) and UC (ATG16L1), and that
NOD2, which is strongly linked to ileal CD, activates
autophagy processes [68]. The presence of these factors
could result in dysbiosis, or loss of intestinal homeostasis,
and a tendency towards ongoing inflammatory reactivity
result in UC and CD [68]. Because there are limited
investigative efforts currently in this are exploration of
the role of ER stress could potentially be a fruitful area
for future examination of mechanisms of disease and
potential therapeutic targets within these cellular pathways.
Bridging Integrator (BinI) transgenic mice exhibit
modified intestinal permeability through the action on
intestinal tight junctional maintenance [77]. Interestingly,
ablating BIN1 does not appear to modify histological
appearance of tissues alone, but does increase functional
resistance of mice to action by dextran sodium sulfate-
induced colitis: treated mice exhibited increased survival,
and decreased clinical manifestations of IBD such as
hematochezia, diarrhea, and weight loss that was
specifically associated with immune dysfunction, and
not with general disruption of tight junction permeability
as documented by treatment of control mice with
phorbol ester or sodium caprate [77].
Murine Colitis and the IL-23 Pathway
Interleukin 23 (IL23) is an important factor in
developing IBD in engineered rodent models but it is not
yet fully understood how this signaling pathway affects
IBD onset, progression, or cessation [25,45]. An intact
IL23 signaling pathway is required for intestinal
inflammation development in IBD mouse models and
human [42]. IL23/Th17 cell pathways have been
implicated in IBD pathogenesis during human genetic
investigations, suggesting that mucosal epithelial defense
is a key component of disease protection [33]. Important
functional partners in regulatory networks that govern
mucosal immunity in response to commensal bacterial
populations are Th17 cell function and CD4+ T reg Fox
3+
cell function [33]. In addition, IL12B (p40) forms a
core basis of IL12B and IL23; JAK 2 binds and causes
phosphorylation of IL23R, which then results in STAT3
activation, phosphorylation and nuclear translocation
[6,61,78]. IL12 was previously thought to be an essential
component in IBD pathogenesis involving both adaptive
and innate immunities but more recent studies have
shown that it is IL23 that is crucial. Using IL23p19
knockout mice and Il12p35 knockout mice to assess the
role of each of these cytokines in IBD models has
demonstrated the IL12 is an essential mediator of disease
expression [33].
Spontaneous transmural enterocolitis and colonic
adenocarcinoma are also observed in mice carrying
specific disruption and concomitant deficiency of the
signal transducer and activator of transcription 3
(STAT3) in STAT3 deficiency transgenic mice [45,78].
STAT3 inducible deficient mice are generated using an
intercross between the MX-1 Cre transgenic mouse with
Cre recombinase controlled by the interferon-responsive
Mx1 promoter, and, STAT2 “floxed” allele strain mice,
with experimental adult M+/STAT3fl/fl
mice carrying the
STAT3 allele deletion, and MX-/STAT3fl/fl
mice serving
as controls [78]. Following type 1 interferon stimulation
by repeated intraperitoneal injections of synthetic double
stranded RNA immunostimulant preparation polyinosinic:
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Table 1. Selected Spontaneous and Transgenic Rodent IBD Models
Mouse Nomenclature Genetic
Modification
Resultant Pathophysiologic
Outcome
Clinical Disease Pathologic Disease Expression LAR Health Status require for
IBD expression
ITF-dnRII1
Overexpression of the
dominant-negative TGFβ
type II receptor
Functional inactivation of
TGFβRII protein
expression
Weight loss, diarrhea,
hematochezia, anal /
rectal prolapse
Severe ulcerative mucosal ulceration;
severe inflammation
Specific Pathogen Free
+Dextran Sodium Sulfate
Smad-32
Deficient in TGFβ
signaling molecule smad3
Disruption of exon 2,
smad3 TGFβRII
sequence
Diminished size,
diarrhea, gastric and
deeply invasive colorectal
tumors
Colonic epithelial crypt herniation,
chronic – active repair, colonic
neoplasia
Specific pathogen free
dnKO3
Dominant negative
TGFβRII mice crossed
with class II cytokine
receptor family member 2
Deficient in TGFβRII and
cytokine receptor family m
ember; null mutants for IL-
10RII
Failure to thrive, rapid
weight loss and early
mortality
Severe UC with Focal ulceration,
mucosal thickening in the cecum,
descending colon and rectum; mild
ascending colonic change with
minimal inflammation; severe
mucosal inflammation with mixed
infiltrates
TNF∆ARE 4
Deletion ARE 3’UTR
regulatory element for
tumor necrosis factor
Loss of posttranscriptional
regulation for TNF type I
or II receptors
Severe weight loss, early
disease onset by D10
postnatal and mortality by
5 weeks; inflammatory
polyarthritis and CD bowel
disease
Ileitis with minimal colonic
involvement; consistent with Th-1
cytokine activation pattern expression
T/I mice- (B6.129S6-
Tnftm1Gkl /J)
(Tnf+/-
Il10-/-
[T-het/I] and
Tnf-/-
Il10-/-
/J)5
IL-10-/-
KO crossed with
knockout TNF-deficient
KO
Deficient in IL10 and TNF
resulting in mucosal
compromise and
increased inflammation
Spontaneous colonic
tumors immediately after
weaning
UC-linear continuous inflammation of
the terminal colon and rectum after 15
weeks of age. Neutrophilic lamina
propria infiltrates, crypt abscesses
and mucosal ulceration; colonic
cancer various phenotypes
Specific pathogen free;
phenotype prevented by
exogenous treatment with drug
cocktail consisting of
amoxicillin, clarithromycin,
metronidazole antibiotics and
omeprazole acid suppression
agent
SAMP1,
SAMP1/Yit/Fc TG mice6
STAT3 activation and
inflammation
Early activation of Th1
mediated pathways;
mucosa immunity
dysbiosis; recent
suggestion of Th2
activation also
Diarrhea UC-spontaneous ileitis with skip
lesions, mixed chronic active
inflammation infiltrates. G
granulomatous inflammation at 10
weeks of age, 100 % penetrance by
30 weeks; severe bowel strictures
mature adults in older than 40 weeks
of age CD-spontaneous gastritis and
autoimmune hepatitis
Specific pathogen free
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Table 1. Continued
Mouse Nomenclature Genetic
Modification
Resultant Pathophysiologic
Outcome
Clinical Disease Pathologic Disease Expression LAR Health Status require for
IBD expression
Wiskott-Aldrich Syndrome
protein (WASP) deficient
Tg mice7
Deletion of WASP
sequence
Absence of WASP
expression in
hematopoietic cells with
lack of integration
between surface receptor
and actin cytoskeleton
signaling networks
Weight loss, diarrhea,
rectal prolapse; include
lymphopenia,
thrombocytopenia,
cytoskeletal
abnormalities;
T cell signaling defects
and l quantity; early
mortality by 3 months;
100 % penetrance by 6
months in surviving mice
Mixed cell infiltrates in colonic lamina
propria; crypt abscesses, absence of
granulomas; increased cytokine
expression and abnormal Treg
number and activity
HLA-B27 Tg rat8
Multiple inserted
integrated, HLA-B27
gene; multiple Tg rat
strain constructs
HLA protein misfolding
promotes inflammation
Diarrhea by 10 weeks of
age followed by peripheral
arthritis;
spondyloarthropathies
with multifocal severe
arthritis; severe
inflammation of the bowel,
bone, joints and skin
CD: Marked inflammation in
epithelium of the stomach, large and
small intestine
UC-mucosal ulceration; Th1 cytokine
expression
Requires conventional health
status management for disease
expression
NOD2 Tg mice9
Deletion of exons 1, 3,
and a frameshift deletion
Deficiency of intracellular
receptor for bacterial wall
component muramyl
dipeptide; altered TLR2
expression; deficient NOD
expression; loss of
mucosal barrier function
Increased susceptibility to
infection
Model severity is increased with
specific pathogen free or
gnotobiotic health status;
associated with administration
of dextran sodium sulfate;
NF-κB essential
modulator (NEMO) Tg
mice10
Loss of regulation for
intestinal homeostatic
growth, inflammation and
tight junctional
permeability
In some Nemo/mice
strains early mortality;
related strains Ikk2/mice
die in utero at embryonic
day 12.5
Massive apoptosis in the liver; in Ikk1/
mice, skeletal defects, thickening of
the skin and impaired limb outgrowth,
but normal liver development
stat5IECKO
KO mice11
Deficiency of STAT5 and
increased NF- κB
activation
Deficient maintenance of
zonula occulens protein:
cytoskeletal junctional
stability; loss of colonic
barrier function
Rectal bleeding,
shortened colon, slow
weight gain, stool quality
that was soft to frank
diarrhea
Severe ileitis and colitis due to
persistent barrier dysfunction and
impairment of mucosal wound healing
Requires dextran sodium
sulfate for model expression
IKK-NEMO/IKKαβ10,12
Double knockout with
conditional targeting of the
NRMO regulatory
complex governing NFκB
signaling
Defective TGFβRII and
IL10RII; overactive T cell
populations
Diarrhea and weight loss UC and CD: Severe chronic fulminant
ulcerative pancolitis
Completely reversible with
broad spectrum antibiotics
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Table 1. Continued
Mouse Nomenclature Genetic
Modification
Resultant Pathophysiologic
Outcome
Clinical Disease Pathologic Disease Expression LAR Health Status require for
IBD expression
K8-/-
keratin TG mice 13
Several Tg constructs
available;
Defective intermediate
filament class keratin 8,
18 and 19 expression;
Defective TNFRII-
mediated and TNF-
induced transcription
factor signaling and
activation; mistargeted
protein translocation;
abnormal intestinal
microbiota growth rates
and species distribution
Diarrhea; abnormal Cl−
transport
Colonic inflammation; epithelial
marker expression relocated from
basal crypts to apical and lateral
locations
Human IBD associated with
abnormal intermediate filament
expression for keratins 8, 18
and 19
XBP-1 Tg mice14
Defective UPR and partial
Xbp1 deficiency in the
colon
Develop abnormal
unfolded protein during
intestinal inflammation
Suppressed colitis development;
paneth and goblet cell apoptosis,
spontaneous ileal inflammation;
MGUS and multiple myeloma
Increased sensitivity to dextran
sodium sulfate colitis induction
Ire1β-/-
KO mice15
No cleavage of Xbpr
mRNA
Loss of the Ire1β UPR
endonuclease
No spontaneous intestinal
inflammation
Increased sensitivity to dextran
sodium sulfate colitis induction
Agr2-/-
mice16
Conditional allele or
inducible knockout mice
for expression of a the
protein disulfide
isomerase (PDI)
Loss of intermolecular
disulfide bond formation
reduction for correction of
misfolded proteins prior to
removal; Deficient Muc2
biosynthesis
Rectal prolapse; diarrhea,
weight loss and
hematochezia with colitis
induction
Lack of mucus production in the
intestine; paneth and goblet cell
apoptosis Endoplasmic reticular
stress; Inducible and germline KO
mice: spontaneous severe terminal
ileitis and colitis with neutrophillic and
granulomatous responses
BIN Tg mice17
Ablate BIN1 sequence Protective effect-no
clinical signs with use of
physiological stressors
No histopathological changes noted Increased functional resistance
to dextran sodium sulfate-
induced colitis
IL23p19 KO and Il12p35
KO mice18
Ablate cytokine sequence Variation in T cell
populations and cytokine
release patterns
Modified immunoreaction
to enteric commensal
bacterial populations and
mucosal epithelial
defense
17. TransgenicrodentIBDmodels63
LabAnimRes|June,2015|Vol.31,No.2
Table 1. Continued
Mouse Nomenclature Genetic
Modification
Resultant Pathophysiologic
Outcome
Clinical Disease Pathologic Disease Expression LAR Health Status require for
IBD expression
STAT3 deficiency Tg
mice19
Ablate STAT3 sequence STAT3 deficiency;
nonspecific transcription
factor that opposes
cytokine expression and
induces IL23R expression
and Th17 differentiation.
Severe dehydration,
lethargy, weight loss,
diarrhea, anal bleeding
and prolapse by day 11;
Severe mixed
inflammatory infiltrate in
multiple sites; colon
enlargement,
hematochezia and
diarrhea
Responsive to polyI:polyC
Immunostimulant treatment:
clinical wasting syndrome with
severe fatal enterocolitis within
2 to 3 weeks after treatment
-Inflammatory Response is
obliterated by neutralizing anti-
p40 antibodies
IL10-/-
and TCRα-/-
Tg
mice20
Multiple constructs.
Deficient in IL10 and
TCRá sequence;
alternative strain
construction available for
IL10 and TCRβ
Variable phenotype
depending on construct;
IL10-/-
when expressed on
129/SvEv, BALB/c, and
C3H/HeJBir backgrounds
exhibit increased IBD
phenotypical susceptibility
UC-TCRα-/-
mice exhibit
mucosal inflammation
andTh2 associated
immunoreactivity at 12
weeks of age
CD: IL10-/-
mice exhibit
chronic enterocolitis and
Th1 associated
immunoreactivity
Spontaneous intestinal inflammation
with STAT3 present in circulating
macrophages
Limited IL10-/-
and/or TCRα-/-
model disease expression
when maintained under germ
free or defined enteric
commensal conditions
Non Obese Diabetic
(NOD) based IL10
deficient Tg21
mice
Many constructs
available.
Rectal prolapse; Absence
of diabetes mellitus and
decreased
sialodacryadenitis
Conventional facility health
status management
References to each model are as follows: 1
[51-53]. 2
http://jaxmice.jax.org/strain/003451.html; 3
[54]; 4
[56]; 5
http:/jaxmice.jax.org/strain/003008.html; 6
[61,62,87]; 7
[50,65]; 8
[68]; 9
[33]; 10
[26,45,88];
11
[26]; 12
[54]; 13
[71]; 14
[33,68]; 15
[68], http://www.ncbi.nlm.nih.gov/geo/query/acc.cgi?acc=GSE6980; 16
[68,72], http://jaxmice.jax.org/strain/025630.html;17
[77]; 18
[33]; 19
[7,45,78]; 20
[8,45,59], http:/
/jaxmice.jax.org/list/ra1655.html, http://jaxmice.jax.org/jaxnotes/502/502a.html; 21
[8,59]
18. 64 Susan Prattisand Abdo Jurjus
Lab Anim Res | June, 2015 | Vol. 31, No. 2
polycytidylic acid (pIpC) [79,80] exhibit a clinical
wasting syndrome that is associated with severe fatal
enterocolitis within 2 to 3 weeks after treatment [78].
Experimental mice exhibited severe dehydration, lethargy,
weight loss, diarrhea, anal bleeding and prolapse by day
11 and were typically sacrificed by day 17 due to
significant morbidity. Clinicopathological indices included
elevated circulating monocytes and neutrophils; multifocal
macrophage and lymphocytic aggregates in peritoneal
tissues; and colon enlargement, hematochezia and
diarrhea. Histologic examination revealed the presence
of mixed cell infiltrates consisting of lymphocytes and
neutrophils that extended into the lamina propria and
submucosa of the colon and were accompanied by
ulceration, bleeding, lymphoid follicles, crypt abcesses
with increased epithelial mitoses and ultimately
destruction of intestinal glands and secretory cell
populations. Lesions were more severe in the rectum
than in more proximal colonic segments. Immuno-
histochemical evaluation identified predominantly CD4+
T lymphocytes among the lymphoid population,
accompanied by proinflammatory cytokines and endothelial
adhesion molecules in areas of reactive cell infiltration:
IL-1β, TNFα, interferon, vascular cell adhesion
molecule-1 (VCAM-1) and inflammatory cell adhesion
molecule-1 (ICAM-1); and, monocyte chemoattractant
protein-1 and nitric oxide [78]. STAT3 expression was
detected in inflammatory infiltrate and colonic epithelial
cell nuclei where it is constitutively phosphorylated and
was noted for a slightly extended period following the
first pIpC stimulant injection only. The disease course in
this model could not be modified with antibiotic
treatment, but was obliterated by neutralizing IL12/IL23
effects using anti-p40 antibodies, including the well
documented role that this molecule plays in Th1
responses as well as suggesting that IL12 may stimulate
natural killer effector cells and endothelial ICAM and
VCAM expression, contributing to the overall immune
dysbiosis found in IBD disease and animal models.
STAT3, while considered to be a nonspecific trans-
cription factor, will bind downstream of many infla-
mmatory cytokines that exhibit opposing actions, as well
as inducing IL23R expression and Th17 differentiation.
This complex combination of actions involving both
pro- and anti-inflammatory mechanisms are undoubtedly
activated in IBD, reflecting the presence of a broadly
inflammatory environment as well as in STAT3 deficiency
mouse models, demonstrating the suppressive/regulatory
effects of this transcription factor [7]. Similarly, STAT4
is specifically associated with IL12/IL23 receptor signaling,
and increased STAT4 expression through construction of
overexpression transgenic mice under the control of
cytomegalovirus promotor systems targeting elevated
STAT4 levels to splenic and lamina propria CD4+ T
cells [45] When immunostimulated with hapten-linked
antigens these mice exhibit severe transmural colitis that
is thought to be in part due to abnormal activation of T
helper 1 cell pathways.
Many of the transgenic strains were developed to
assess mechanisms of inflammation, injury and repair.
One example of this type of model is the IL10 transgenic
mice; TCRα-/-
transgenic mice. These mice develop
severe mucosal inflammation at 12-16 weeks of age,
possibly due to Th2 cell dysregulation [45]. Recent
studies have also identified familial early-onset Crohn’s
disease in some human populations that is associated
with homozygous IL-10 receptor mutations present in
hematopoietic cells, based on disease rescue observed
following allogeneic stem cell transplantation in human
patients. In mice transgenic mice IL10-/-
, IL10rb-/-
and in
those carrying a Stat3 in circulating macrophages
individuals develop spontaneous intestinal inflammation
[59,81]. IL10-/-
mice exhibit a significant increase in
splenic macrophages when generated on Non-Obese
Diabetic (NOD) strain backgrounds, but not on C57B6
genetic strain backgrounds. NOD based IL10 deficient
mice housed under conventional husbandry conditions
also exhibited high levels of rectal prolapse and
histological evidence of colitis in comparison to control
mice, along with abrogation of spontaneous diabetes and
reduced sialoadenitis usually observed in a subset of
NOD mice housed in conventional facilities [81]. Using
TLR CpG motif oligonucleotides as agonists in this IL-
10 deficient NOD model resulted in elevated proin-
flammatory sera levels for TNFα, interferon γ, and IL7
while IL12p70 was unaffected (Rajagopalan G et al
2006).
Il10 is thought to be an important factor in regulating
aspects of intestinal homeostasis. Actually, mice that are
IL10 deficient as well as those that have been treated
with anti-IL10 antibody both develop significant chronic
intestinal inflammation [27]. Similarly, IL10 supple-
mentation is protective against colitis disease development
and appears to be associated with TGFβ1 potentiation of
activated T cell effector and regulatory CD4+ T cell
populations [27]. Also, in IL10-/-
double null mice, tumor
19. Transgenic rodent IBD models 65
Lab Anim Res | June, 2015 | Vol. 31, No. 2
necrosis factor inducible nitric oxide synthase (iNOS)
appears to activate the intestinal epithelial cell apoptosis
pathway normally responsible for crypt replenishment of
epithelial bowel cells, contributing to increased epithelial
degeneration and colitis in humans afflicted with IBD,
and in these transgenic mice constructs [23]. SAMP1/Yit
mice exhibit spontaneous colitis without genetic mani-
pulation which is also thought to be mediated through
Stat3 activation pathways [22,61]. STAT3 expression is
also important for epithelial restitution and enterocyte
survival with induced somatic inactivation of this gene
resulting in fulminant colitis [78]. Expression of epithelial
E-cadherin (CD324, associated with UC gene CDH1,
and clinically, UC) mediates adhesion between epithelial
cells and formation of an effective barrier. An interruption
of these fundamental homeostatic mechanisms can
predispose towards developing IBD. E-cadherin is
expressed in dendritic cells that are considered to be
important in maintaining a balance between self-tolerance
and expression of autoimmunity through intestinal portals
[82]. The IL23 pathway appears to be responsible for the
onset and progression of spontaneous colitis in IL10
deficient mice [6,47,83]. Multiple murine colitis models
have been identified with IL23 pathway-mediated colitis
due to expression blockade or deficiency [25]. Additionally,
both IL-10 deficient mice and Gαi2 mice, which are
missing G protein subunit Gαi2 that normally regulates
the inhibitory control of adenylyl cyclase, and negatively
regulate TLR2 and TLR4 -induced cytokine expression
with subsequent decreased TNFα and IL6 expression
[43], have been associated with colon cancer development
[84].
Salient Features for Future
Research Endeavors
As a result of many recent large scale, individual and
collaborative genome wide association scanning studies
assessing IBD patients and experimental models for
disease correlation with susceptibility loci, the number
of known association loci has increased from 3 to 100
[34]. Now that genetic susceptibility data have been
categorized and identified it is time to put this
information into a clinical context through translational
medicine, with a goal of finding appropriate cellular and
molecular targets for therapeutic intervention, and, to
better understand this complex disease pathogenesis at
the level of the nucleic acid, protein assembly, microbiomic,
metagenomic and ecological levels. The proliferation of
different genetically engineered rodent IBD models
which produce different aspects of this disease syndrome
it would be prudent to consider areas in which less has
yet been clearly described in the pathogenesis of the IBD
syndromes, but which appear to greatly influence disease
outcomes and patient therapeutic responses. One important
aspect going forward in this line of research would be to
ensure that rodent models under development and
evaluation as putative IBD animal models exhibit well
characterized intestinal microbiome prior to induction of
this disease [85]. In particular, models should be negative
for Helicobacter spp. Infection, as this infection with this
organism has been clearly associated with IBD disease
expression in one transgenic rodent model [86]. Equally
important is appropriate institutional animal care and use
committee (IACUC) attention to investigator knowledge,
experience and consideration of the medical implications
involved in developing these types of animals’ models.
It will be very important to make provision for adequate
veterinary care and animal husbandry aspects involving
accommodation of induced putative deficits in activities
of daily living (such as motor ability, food and water
ingestion, and bodily functions); and, assessment of
discomfort and pain as several of the IBD transgenic
murine models induce significant morbidity, and for
some strains, mortality.
These studies also suggest that it is important to further
delineate gut microbiota as a way of characterizing
conventional and specific pathogen free facilities [44],
including those in which serological testing has suggested
that common mouse and rat pathogens and commensal
organisms are absent. Epigenetic, environmental (micro-
biome, metabolome) and nutritional factors are important
in IBD pathogenesis, and evaluating ways in which they
influence disease expression represent potential
investigative approaches with the greatest potential for
new discoveries. These iterative approaches may produce
new insights into underlying pathogenic mechanisms
affecting IBD syndrome onset, progression, and cessation
as observed in human and animal patients, and in animal
disease models.
Conflict of interests The authors declare that there is
no financial conflict of interests to publish these results.
20. 66 Susan Prattisand Abdo Jurjus
Lab Anim Res | June, 2015 | Vol. 31, No. 2
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