2 Digestion Absorption Proteins Carbohydrates.pptx

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RCSI Royal College of Surgeons in Ireland Coláiste Ríoga na Máinleá in
Éirinn

Digestion and Absorption of Proteins and
Carbohydrates

Class DEM Y2
Course Gastrointestinal Biology
Lecturer Dr. Sarah O’Neill ([email protected])
Date September 12th 2023
LEARNING OUTCOMES
At the end of this lecture you will be able to:
1. Describe the sources of the digestive enzymes involved in the digestion
of proteins and carbohydrates in the body
2. Discuss the catalytic mechanisms of protein and carbohydrate digestive
enzymes
3. Describe the products of protein and carbohydrate digestion
4. Describe the basic mechanisms of absorption
5. Explain the absorption of the products of protein and carbohydrate
digestion in the body
DIGESTION

Complex dietary molecules
(Protein, Fat, Carbohydrates)

Hydrolytic
cleavage
via
Digestive
Enzymes

Small molecules
PROTEIN DIGESTION OVERVIEW
Principles sites:
Stomach
Small intestine
Proteolytic enzymes
Secreted into the stomach
Released from the
pancreas into the small
intestine
PROTEIN DIGESTION IN THE STOMACH
Pepsin
Enzymes are proteases
pH = 2.0
Released by chief cells in the
form of pepsinogen
Pepsinogen HCl Pepsin Pepsinogen
Pepsin
– Endopeptidase
– Cleaves at amino side of
hydrophobic aa
PROTEIN DIGESTION IN THE SMALL INTESTINE
Enzymes released by pancreas as zymogens

Trypsinogen Enteropeptidase Trypsin
Trypsin
Chymotrypsinogen Chymotrypsin
Trypsin
Proelastase Elastase
Trypsin
Procarboxypeptidase Carboxypeptidase
PANCREATIC ENZYME TYPE AND CATALYTIC
MECHANISM
Trypsin
Type: Endopeptidase
Chymotrypsin
Mechanism: Serine protease
Elastase

Carboxypeptidase A Type: Carboxypeptidase
Mechanism: Metalloprotease
Carboxypeptidase B (Zn2+)
CLEAVAGE SPECIFICITY
Trypsin
– Peptide bonds adjacent to basic amino acids
Chymotrypsin
– Peptide bonds adjacent to hydrophobic amino acids
Elastase
– Peptide bonds adjacent to small amino acids
Carboxypeptidase A
– Hydrophobic amino acids at C-terminus
Carboxypeptidase B
– Basic amino acids at C-terminus
Refer back to lecture on Proteins in FFP1 module
CLEAVAGE SPECIFICITY
PRODUCTS OF PROTEIN DIGESTION

Tetra-peptides
Cleaved by peptidases
Tri-peptides

Amino acids
PROTEIN DIGESTION SUMMARY
Site of digestion:
– Stomach Products generated:
– Amino acids
– Small intestine – Di-peptides
– Tri-peptides
– Tetra-peptides

Enzymes:
– Pepsin
– Trypsin
– Chymotrypsin
– Elastase
– Carboxypeptidase A and B
CARBOHYDRATE DIGESTION SITES

The mouth: this is where
carbohydrate digestion
starts

The small intestine

No carbohydrate digestion
takes place in the stomach
CARBOHYDRATE DIGESTION IN THE MOUTH
Sources of carbohydrates in our diet: starch, lactose,
sucrose, trehalose, cellulose
Mechanical digestion: chewing
Chemical digestion:
– Salivary glands in the oral cavity secrete saliva
– Saliva contains the enzyme salivary amylase
– Salivary amylase hydrolyses only starch into maltose and dextrin
– pH in mouth is ~ 6.8 – 7.0
– Only about 5% of starch is broken down in the mouth
 SMALL INTESTINE CARBOHYDRATE
DIGESTIVE ENZYMES

Pancreatic enzyme: a-amylase
Brush border enzymes: disaccharidases and oligsaccharidases
 THE ACTION OF PANCREATIC ALPHA AMYLASE

= glucose

Pancreatic a-amylase is an endoglycosidase: does not act on terminal
glycosidic bonds
It is specific for a1,4 linkages and does not act on a1,6 linkages
The hydrolytic products are maltose, maltotriose and a-limit dextrins
THE ACTION OF BRUSH BORDER CARBOHYDRATE
ENZYMES

Maltase
Maltose and maltotriose Glucose + glucose

Sucrase
Sucrose Glucose + fructose

Lactase
Lactose Galactose + glucose

Trehalase
Trehalose Glucose + glucose
CARBOHYDRATE DIGESTION ENZYMES

Enzyme Type of enzyme Substrate
⍺-amylase Salivary and pancreatic* Polysaccharides
Disaccharidase Intestinal Disaccharides
Isomaltase Branch points of oligo-
Intestinal
⍺ (1,6) glucosidase and di-saccharides

*Most of the digestion is due to pancreatic ⍺-amylase because food
does not stay in the mouth for a long time.
CARBOHYDRATE DIGESTION SUMMARY

Site of digestion:
– Mouth
– Intestinal brush border Products generated:
– Maltose
– Maltotriose
– a-limit dextrins
Enzymes: – Glucose
– (Gluco)amylase – Galactose
– Isomaltase
–
– Fructose
Sucrase
– Lactase
– Trehalase
INTRODUCTION TO MECHANISMS OF
ABSORPTION

Transportation of the products of digestion and other small
dissolved molecules, with ions and water across the epithelial
cell membranes, mainly in the small intestine
THE UNIT OF ABSORPTION
The villus
Length varies between 0.5 and 1.5mm
Covered by simple columnar epithelium
These have cytoplasmic extensions at the lumen:
brush border
EPITHELIAL CELLS IN INTESTINE: ENTEROCYTE
SOME ENZYMES ARE ANCHORED TO THE
MICROVILLI
Brush border extends to 200 m2
Catalytic domains of these enzymes protrude into the intestine
– Aminopeptidase
– Endopeptidase 200m2 = approximately 1/2 of a
FIBA basketball court
– Carboxypeptidase
– Dipeptidase
– Disaccharidases
– Oligsaccharidases
ABSORPTION MECHANISMS

Passive diffusion:
– Down a concentration gradient
Facilitated diffusion:
– Uses membrane proteins in the enterocyte
Active transport:
– Energy dependent membrane proteins in the enterocyte
REVIEW OF CO-TRANSPORT ACROSS THE MEMBRANE

Click here for the link if above is not working
PROTEIN DIGESTION AND ABSORPTION

Source: http://www.austincc.edu/apreview/PhysText/Digestive.html
PEPTIDE ABSORPTION:
ENTRY INTO THE ENTEROCYTE
Form in which the majority of
protein is absorbed
More rapid than absorption of
free amino acids
Coupled to H+ gradient
Na+/H+ exchange maintains
gradient
Metabolised into free amino
acids in enterocyte
Only free amino acids absorbed
into blood
TRANSPORT ACROSS THE BASOLATERAL
MEMBRANE
Released into interstitial fluid by facilitated
diffusion and co-transport
Transported to the liver via the hepatic portal vein
Glutamate and aspartate are utilised as energy in
the enterocyte
PROTEIN ABSORPTION SUMMARY
Enterocytes Interstitial Fluid
ABSORPTION OF MONOSACCHARIDES:
ENTRY INTO ENTEROCYTE

By passive diffusion (very slow)

By membrane-associated transporters:
– Na+/glucose co-transporter (SGLT1)
– Na+ independent transporter (GLUT5)
TRANSPORT OF MONOSACCHARIDES INTO AND OUT
OF THE ENTEROCYTE
 REFERENCES

Medical Sciences by Jeannette Naish, Chapter 15