Lipids are digested and absorbed in a multi-step process involving enzymes in the mouth, stomach, and small intestine. In the mouth, lingual lipase begins hydrolysis of triglycerides. In the stomach, gastric lipase continues this process. In the small intestine, pancreatic lipase works with bile salts to further digest triglycerides into fatty acids and monoglycerides. Bile salts emulsify lipids and facilitate absorption. Fatty acids and monoglycerides are absorbed into intestinal cells and re-esterified into triglycerides. These triglycerides are packaged into chylomicrons and enter the lymphatic system for transport.
Digestion and absorption of lipids ppt
what is lipid ppt
digestion of lipid ppt
phase of digestion and absorption ppt
phases of lipids ppt
digestion in mouth and stomach ppt
digestion in small intestine ppt
secretion of lipids ppt
enzyme involved in lipid digestion ppt
transportation phases of lipids ppt
principles of lipid digestion ppt
Lipid metabolism entails the oxidation of fatty acids to either generate energy or synthesize new lipids from smaller constituent molecules. Lipid metabolism is associated with carbohydrate metabolism, as products of glucose (such as acetyl CoA) can be converted into lipids.
Absorption of proteins ppt
composition of protein ppt
digestion of protein ppt
Absorption of protein ppt
absorption of amino acid ppt
function of protein ppt
amino acid ppt
role enzyme ppt
Lipid metabolism is the synthesis and degradation of lipids in cells.
It involves the breakdown or storage of fats for energy and the synthesis of structural and functional lipids, such as those involved in the construction of cell membranes.
In animals, these fats are obtained from food or synthesized by the liver.
Digestion and absorption of lipids ppt
what is lipid ppt
digestion of lipid ppt
phase of digestion and absorption ppt
phases of lipids ppt
digestion in mouth and stomach ppt
digestion in small intestine ppt
secretion of lipids ppt
enzyme involved in lipid digestion ppt
transportation phases of lipids ppt
principles of lipid digestion ppt
Lipid metabolism entails the oxidation of fatty acids to either generate energy or synthesize new lipids from smaller constituent molecules. Lipid metabolism is associated with carbohydrate metabolism, as products of glucose (such as acetyl CoA) can be converted into lipids.
Absorption of proteins ppt
composition of protein ppt
digestion of protein ppt
Absorption of protein ppt
absorption of amino acid ppt
function of protein ppt
amino acid ppt
role enzyme ppt
Lipid metabolism is the synthesis and degradation of lipids in cells.
It involves the breakdown or storage of fats for energy and the synthesis of structural and functional lipids, such as those involved in the construction of cell membranes.
In animals, these fats are obtained from food or synthesized by the liver.
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2. Lipids
Lipids are heterogeneous group of water insoluble organic
molecules that can be extracted from tissues by non polar
solvents.
Major source of energy for the body
Also provide the hydrophobic barriers that permit partitioning
of aqueous contents of cells and sub cellular structures.
Fat soluble vitamins have regulatory or coenzyme role in the
body.
Prostaglandins and steroid hormones play major roles in the
control of body’s homeostasis.
Give shape and contour to the body and protect internal
organs by providing a cushioning effect.
3. Dietary fat Composition
More than 95% are triglycerides,
the other are
Cholesterol,
Cholesteryl esters,
Phospholipids, and
Unesterified fatty acids.
4. Dietary sources of Lipids
Animal Sources
Dairy products- Meat, butter, ghee
Meat and Fish, Pork, eggs
Vegetable Sources
Cooking oils- Sun flower oil, Mustard oil,
Ground nut oil
Fats from other vegetable sources
5. Digestion in Mouth
Hydrolysis of triacylglycerols is initiated by
lingual and gastric lipases, which attack the sn-3
ester bond forming 1,2-diacylglycerols and free
fatty acids, aiding emulsification.
Lingual lipase:
Secreted by dorsal surface of tongue
Active at low pH (pH 2.0 – 7-5)
optimum pH 4.0-4.5
Ideal substrate-Short chain TGS.
Milk fat contains short chain fatty acids which
are esterified at -3 position, thus it is the best
substrate for lingual lipase
Enzymatic action continues in stomach
Short chain fatty acids, released are absorbed
directly from the stomach wall and enter the
portal vein.
7. Digestion in Stomach
Gastric Lipase- secreted in small quantities
More effective at alkaline p H (Average p H
7.8)
Requires the presence of Ca++
Less effective in stomach due to acidic p H
except when intestinal contents are
regurgitated in to the gastric lumen
Not effective for long chain fatty acids, most
effective for short and medium chain fatty acids
Milk, egg yolk and fats containing short chain
fatty acids are suitable substrates for its action
8. Role of fats in gastric
emptying
Fats delay the rate of emptying of
stomach
Action is brought about by secretion of
Enterogastrone
Enterogastrone inhibits gastric motility
and retards the discharge of bolus of food
from the stomach.
Thus fats have a high satiety value.
9. Significance of Lingual and
Gastric Lipases
Play important role in lipid digestion in neonates
since milk is the main source of energy
Important digestive enzymes in pancreatic
insufficiency such as Cystic fibrosis or other
pancreatic disorders
Lingual and gastric lipases can degrade
triglycerides with short and medium chain fatty
acids in patients with pancreatic disorders
despite a near or complete absence of
pancreatic lipase
10. Emulsification and digestion
Lipids are hydrophobic, and thus are
poorly soluble in the aqueous
environment of the digestive tract.
The digestive enzyme, lipase, is
water soluble and can only work at
the surface of fat globules.
Digestion is greatly aided
by emulsification, the breaking up of
fat globules into much
smaller emulsion droplets.
11. Emulsification and digestion
Triacylglycerol digestion occurs at
lipid-water interfaces
Rate of TAG digestion depends on
surface area of this interface which is
increased by churning peristaltic
movements of the intestine ,
combined with the emulsifying action
of bile salts
The critical process of emulsification
takes place in the duodenum.
12. Digestion in small intestine
Major site of fat digestion
Effective digestion due to the presence
of Pancreatic lipase and bile salts.
Bile salts act as effective emulsifying
agents for fats
Secretion of pancreatic juice is
stimulated by-
Passage of acid gastric contents in to the
duodenum
By secretion of Secretin, Cholecystokinin
and Pancreozymin, the gastro intestinal
hormones
13. Gastro Intestinal hormones
Secretin- Increases the secretion of
electrolytes and fluid components of
pancreatic juice
Pancreozymin of CCK -PZ stimulates the
secretion of the pancreatic enzymes
Cholecystokinin of CCK-PZ- causes the
contraction of the gall bladder and
discharges the bile in to the duodenum.
Hepatocrinin- Released by intestinal
mucosa, stimulates more bile formation
which is relatively poor in bile acid content
14. Contents of Pancreatic Juice
Pancreatic Lipase- For the digestion of
triglycerides
Phospholipase A2- for the digestion of
Phospholipids
Cholesterol esterase-For the digestion of
Cholesteryl esters
15. Bile Salts
Bile salts are required for the proper
functioning of the pancreatic lipase
enzyme
Bile salts help in combination of lipase
with two molecules of a small protein
called as Colipase. This combination
enhances the lipase activity.
Bile salts also help in the emulsification
of fats
TG particle
Colipase
lipase
16. Bile Salts
Bile salts are synthesized in the liver and
stored in the gall bladder
They are derivatives of cholesterol
They consist of a sterol ring structure with a
side chain to which a molecule of glycine or
Taurine is covalently attached by an amide
linkage
17. Bile Salts
Bile salts are formed from bile acids
The primary bile acids are cholic
acid (found in the largest amount) and
chenodeoxycholic acid .
The primary bile acids enter the bile
as glycine or taurine conjugates.
In the alkaline bile, the bile acids
and their conjugates are assumed to
be in a salt form—hence the term
"bile salts.“
18. Synthesis of bile salts
In humans, the ratio of the glycine to the taurine
conjugates is normally 3:1.
19. Bile Salts
A portion of the primary bile acids in the
intestine is subjected to further changes by
the activity of the intestinal bacteria.
These include deconjugation and 7-alpha
dehydroxylation, which produce the
secondary bile acids, deoxycholic acid and
lithocholic acid.
20. Enterohepatic circulation of
Bile salts
The bile salts present in the body are not sufficient to fully
process the fats in a typical meal, thus they need to be
recycled.
This is achieved by the enterohepatic circulation.
Specific transporters in the terminal ileum move bile salts
from the lumen of the digestive tract to the intestinal
capillaries.
They are then transported directly to the liver via
the hepatic portal vein.
Hepatocytes take up bile salts from the blood, and increase
the secretion of bile salts into the bile canaliculi, small
passage ways that convey bile into the larger bile ducts.
95% of the bile that is released to the small intestine is
recycled via the enterohepatic circulation, while 5% of the
bile salts are lost in the feces.
22. Emulsification by bile salts
Bile salts as emulsifying agents interact with the dietary lipid particles and
the aqueous duodenal contents, thereby stabilizing the lipid particles as
they become smaller, and preventing them from coalescing.
23. Triacyl glycerol degradation
by pancreatic lipase
Pancreatic lipase is specific for the
hydrolysis of primary ester linkages(Fatty
acids present at position 1 and 3)
It can not hydrolyze the ester linkages of
position -2
Digestion of Triglycerides proceeds by
removal of a terminal fatty acid to produce
an α,β diglyceride.
The other terminal fatty acid is then
removed to produce β mono glyceride.
25. Triacyl glycerol degradation
by pancreatic lipase
The last fatty acid is linked by secondary ester
group, hence can not be hydrolyzed by
pancreatic lipase.
β- Mono acyl glycerol can be converted to α-
Mono acyl glycerol by isomerase enzyme and
then hydrolyzed by Pancreatic lipase.
The primary product of hydrolysis are β-
Mono acyl glycerol (78%), α- Mono acyl glycerol
(6%) with free fatty acids and glycerol (14%)
27. Significance of Pancreatic
lipase
The enzyme is present in high
concentration in pancreas. Only very
severe pancreatic deficiency such as cystic
fibrosis results in malabsorption of fats
due to impaired digestion.
Orlistat, an antiobesity drug inhibits ,
gastric and pancreatic lipases, there by
decreasing fat digestion and absorption
resulting in weight loss.
28. Cholesteryl ester degradation
Dietary cholesterol is mainly present in the
free (Non esterified) form
Only 10-15% is present in the esterified form
Cholesteryl esters are hydrolyzed by
pancreatic Cholesteryl esterase (Cholesterol
ester Hydrolase) to produce cholesterol and free
fatty acid
The enzymatic activity is greatly increased in
the presence of bile salts.
30. Phospholipid degradation
The enzyme – Phospholipase A 2requires
bile salts for optimum activity.
Removes one fatty acid from carbon 2 of
Phospholipid to form lysophospholipid.
The remaining fatty acid at position 1 can
be removed by lysophospholipase , leaving a
glycerylphosphoryl base that may be excreted
in the feces, further degraded or absorbed.
32. Absorption of Lipids
Glycerol, short and medium chain fatty
acids (Chain length less than 14 carbons)
are directly absorbed from the intestinal
lumen in to the portal vein and taken to
liver for further utilization.
Long chain fatty acids, free cholesterol
and β- acyl glycerol together with bile salts
form mixed micelles.
33. Micelles
Micelles are disk shaped
clusters of amphipathic lipids
that coalesce with their
hydrophobic groups on the
inside and their hydrophilic
groups on the outside of
clusters
Mixed micelles are soluble in
the aqueous environment of
the intestinal lumen
The micelles approach the
brush border membrane of the
enterocytes
34. Micelles
• Micelles constantly break down and re-form,
• It is the monoglycerides and fatty acids that are free in solution that
are absorbed, NOT the micelles.
• Because of their nonpolar nature, monoglycerides and fatty acids
can just diffuse across the plasma membrane of the enterocyte.
• Some absorption may be facilitated by specific transport proteins
35. Clinical Significance of
Cholesterol Absorption
The drug ezetimibe blocks a protein that specifically
mediates cholesterol transport across the apical plasma
membrane of enterocytes.
Ezetimibe has been shown to be effective at reducing
levels of LDL cholesterol, particularly when combined
with a statin, a drug that inhibits cholesterol synthesis in
the liver.
However, several clinical trials have shown that further
cholesterol lowering with ezetimibe does not improve
measures of atherosclerotic plaque.
Clinical trials are in progress to determine whether
ezetimibe (alone or combined with a statin) is beneficial
for preventing cardiovascular events.
36. Resynthesis of Triacyl glycerol
and Cholesteryl esters
Within the intestinal epithelium, 1-
monoacyglycerols are hydrolyzed to fatty acids and
glycerol and 2-monoacylglycerols are re-acylated to
triacylglycerols via the monoacylglycerol pathway.
Lysophospholipids are recycled to form
phospholipids.
Cholesterol is re acylated to form Cholesteryl
esters
Long chain fatty acids are used for esterification to
form TGs, phospholipids and cholesteyl esters.
Short and medium chain fatty acid are released in
to the portal circulation and are carried by serum
albumin to liver.
38. Lipid
Malabsorption(Steatorrhea)
Lipid malabsorption results in increased lipids
including fat soluble vitamins A,D E and K in the
feces.
Cause may be pancreatic insufficiency, including
cystic fibrosis , chronic diseases of pancreas or
surgical removal of pancreas
Shortened bowel, Celiac diseases, sprue or
crohn’s disease
May be bile duct obstruction due to gall stones,
tumor of head of pancreas, enlarged lymph nodes
etc.
Milk and coconut oil are used therapeutically
since they contain medium chain fatty acids.
39. Secretion of lipids from
enterocytes
Once inside the enterocyte, monoglycerides and fatty acids
are re-synthesized into TAG.
The TAG is packaged, along with cholesterol and fat soluble
vitamins, into chylomicrons.
Chylomicrons are lipoproteins, special particles that are
designed for the transport of lipids in the circulation.
Chylomicrons are released by exocytosis at the basolateral
surface of the enterocytes. Because they are particles, they are
too large to enter typical capillaries.
Instead they enter lacteals, lymphatic capillaries that poke
up into the center of each villus.
Chylomicrons then flow into the circulation via lymphatic
vessels.
40. Structure of Chylomicron
Size: 0.1–1 µm
Average
composition
o TG (84%)
o Cholesterol(2%)
o Ester Cholesterol
(4%)
o Phospholipid (8%)
o Apo lipoproteins (2%)
42. Clinical significance of Chylomicron
synthesis and utilization
Defective synthesis- Due to deficiency of apo-B
48 protein. The triglyceride may accumulate in
intestinal cells.
Chyluria- Due to an abnormal connection
between urinary tract and lymphatic drainage
system of the intestines, forming Chylous
fistula. Characterized by passage of Milky urine.
Chylothorax- There is an abnormal connection
between pleural space and the lymphatic
drainage of small intestine resulting in
accumulation of lymph in pleural cavity giving
Milky pleural effusion
43. Physiologically important lipases
Lipase Site of action Preferred Product(s)
substrate
Lingual / acid Mouth , stomach TAGS with FFA+DAG
stable lipase medium chain
FAS
Pancreatic lipase Small intestine TAGS with long FFA+2MAG
+ co-lipase chain FAS
Intestinal lipase Small intestine TAGS with 2FFA+glycerol
with bile acids medium chain
FAS
Phospholipase A2 Small intestine PLs with unsat. Unsat FFA
+ bile acids FA at position 2 lysolecithin
Lipoprotein Capillary walls TAGs in FFA+ glycerol
lipase insulin (+) chylomicron or
VLDL
Hormone Adipose cell TAG stored in FFA+ glycerol
sensitive lipase adipose cells
44. Summary of lipid digestion and
Absorption
Chylomicrons deliver absorbed TAG to the body's cells. TAG in
chylomicrons and other lipoproteins are hydrolyzed
by lipoprotein lipase, an enzyme that is found in capillary
endothelial cells. Monoglycerides and fatty acids released from
digestion of TAG then diffuse into cells.