Carcinogenesis is the process by which normal cells are transformed into cancer cells. It occurs through genetic mutations, usually involving oncogenes and tumor suppressor genes such as p53. Carcinogens like chemicals and radiation can cause these mutations by damaging DNA. Carcinogenesis involves initiation of the DNA damage and promotion of the abnormal cell growth. It is a multi-step process that takes place over many years and can involve genetic and epigenetic changes in cells. Environmental toxins, diet, and lifestyle factors can influence cancer risk by affecting carcinogenesis.
2. Carcinogenesis- Pathogenesis of cancer.
a normal cell is transformed into a malignant cell and
repeatedly divides to become a cancer. A
chemical which can initiate this process is called a
chemical carcinogen. Some chemicals which are
non-carcinogenic or only weakly carcinogenic can
greatly enhance the effectiveness of carcinogenic
chemicals. Such "helpers" are called
cocarcinogens. They may act by altering uptake or
metabolism of carcinogens by cells.
Carcinogenesis may take as long as 15-25 years in
humans and in several animal models has been
shown to involve two stages, initiation and
promotion.
-In general, carcinogens are mutagens indicating that
they have the potential to interact with DNA.
3. Carcinogenesis
Genetic mutations are largely responsible for the generation of
malignant cells.
Two major categories of mutated genes are –
1) oncogenes
2) tumor suppressor genes.
I. Oncogenes are abnormal forms of normal genes called proto-
oncogenes that regulate cell growth. Mutation of these genes may result
in direct and continuous stimulation of the molecular biologic pathways
that control cellular growth and division.
II. Tumor suppressor genes ,p53, are inherent genes that play a role in cell division
and DNA repair and are critical for detecting inappropriate growth signals in
cells. If these genes, as a result of inherited or acquired mutations, become unable
to function, genetic mutations in other genes can proceed unchecked, leading to
neoplastic transformation.
4. p53 Gene
p53 senses DNA damage, and induces G1 arrest and induces DNA repair
process.
Cell with un-repairable DNA is directed to apoptosis by p53 gene.
“P53 is a guardian of the genome.
Its loss leads to accumulation of damaged DNA may result in malignancy”
Loss of p53 is seen in virtually every type of cancer.
Over half of human malignant cells show loss of p53 gene by special tests.
5. Factors affecting carcinogenesis
These factors can be divided into three main groups:
Environmental Toxins
chemical
physical (e.g. radiation)
Dietary
natural products found in spices, etc.
additives (rarely)
Lifestyle
hormonally-mediated
other
6. Chemicals Generally Recognized as Carcinogenic in Humans
Industrial Exposures
Benzidine Urinary Bladder
Vinyl Chloride Liver
Certain tars Skin and
Asbestos Peritoneum (lungs when combined with cigarette smoking)
Benzene Lymphoid Tissue
Other Exposures
Diethylstilbestrol VaginaI
Arsenic Compounds Skin cancer
Cigarette Smoke Lungs, urinary tract
Betal Nut Buccal Mucosa
7. CarcinogenesisCarcinogenesis
Initiation
DNA damage eg.Benzpyrene
Promotion
Histologic change – eg.
Turpentine (co-carcinogens)
Malignant transformation:
Visible tumor formation –
further DNA damage.
10. Molecular Basis of Carcinogenesis:-
Genes control cell division by cytokines.
Four important classes of regulatory genes (for cell division):
1. Promotors – Proto-oncogenes
2. Inhibitors – Tumor or Cancer-suppressor genes – p53
3. Genes regulating Apoptosis.
4. DNA repair genes.
11.
12. Chemical Carcinogenesis:-
1. Biotransformation
2. Initiation:
Covalent binding
to DNA
3. Fixation: Mutation
stabilized by
mitosis
4. Gene expression,
transformation
5. Neoplastic growth,
proliferation
6. Progression, local
effects
7. Metastasis
13.
14. Radiation Carcinogenesis-
Ionizing radiation Carcinogenesis
can result from ionizing radiation and may
develop from 2 different mechanisms;
1. Direct ionization – damages DNA
and other molecules can cause direct somatic
mutations
2. Secondary effectors such as
oxygen radicals can be formed by ionizing
radiation. Oxygen free radicals can
damage and kill cells and also induce
mutations.
X Ray workers – Leukemia
Radio-isotopes – Thyroid
carcinoma
Atomic explosion – Skin cancer,
Leukemia
15.
16. Classification of Carcinogens :-
Genotoxic Carcinogen:-
Chemical capable of producing cancer by directly
altering the genetic material of target cells.
• DNA replication errors.
• Point mutations.
• Chromosomal aberration.
1- Direct carcinogens (no metabolic activation).
– Alkylating agents.
2-Indirect carcinogens (metabolic activation).
– Polycyclic aromatic hydrocarbons.
– Aromatic amines.
– Nitrosamines.
– Natural substances.
3– Inorganic carcinogens.
4- Ni, Cr, Cd, As.
Epigenetic Carcinogen:-
Non-DNA reactive.
– Potentiators.
– Ex.: hormone, immune function modifiers
Cytotoxic carcinogens.
– Nitrillotriacetate, BHA, BHT.
• Tumor promotors.
– DDT, Dioxin
• Hormones.
– Estradiol,
• Immunosuppressants.
– Cyclosporin A
• Particulates.
– Asbestos.
17. Diet & nutrients protecting from cancer :
Fruits & vegetables
* High level of fibers
* Antioxidants which decrease damaging effects caused by free radicals and
reactive oxygen species on DNA
Examples:
a- Tocopherol & β- carotene ( carotenoids), vit C : decrease tumor incidence.
b- Tomatos : contain lycopene protect against prostate cancer .
c- Green tea : contain polyphenols which act as antioxidants.
d- Red grapes : contain resveratrol which acts an antioxidant.
Principle of Treatment :-
Surgical therapy – early stage/debulk
Chemotherapy
Radiotherapy
Immunotherapy