BIOM2012 GIT - Lecture 1 (4) PDF

Summary

This document contains lecture notes on the gastrointestinal system, covering topics like the organs of the digestive tract and their functions, digestive enzymes, and gastric secretion phases. It is intended for an undergraduate level.

Full Transcript

BIOM2012: Systems Physiology
Module: Gastrointestinal System

Ben Weger, PhD ([email protected])
Institute of Molecular Bioscience
Physiology of Circadian Rhythms
 BIOM2012 GI Module

Lecture 1: Overview of digestion and absorption processes in the GIT, phases
of gastric secretions, secretions of the Gastrointestinal system and their
functions, digestive enzymes

Lectures 2 & 3: The remaining GI system secretions and their functions, the
intestinal phase of gastric secretion, motility in the GIT, the enteric nervous
system

Lecture 4: Liver anatomy and structure, functions of the liver, circadian clock
and the Gastrointestinal system
The Gastrointestinal system

What is the Gastrointestinal system or Digestive system?

It consists of the Gastrointestinal tract (GIT) or Alimentary Canal
A long, continuous hollow tube that starts at the mouth and ends at the anus

Accessory organs that aid in digestion

Primary function (simplified):

1. Extract nutrients that we take in as food
2. Excrete waste products
Organs of the Digestive System

Major Organs of the Accessory Organs of
Digestive Tract the Digestive System

Oral Cavity (Mouth): 30 - 40 s
Teeth
Pharynx (throat): Tongue
Esophagus: 4 - 10 s
Salivary Glands
Stomach: Liver
1-4h
Small Intestine Gallbladder
4-6h
(Duodenum, Jejenum, Ileum ) Pancreas
Large Intestine 7-15 h
(Colon, Cecum/Appendix, Colon
Rectum, Anus)

Rectum
4
Organs of the Digestive System
Major Organs of the Digestive Tract
Oral Cavity (Mouth): Food
Ingestion, mechanical digestion with accessory
Pharynx
organs (teeth and tongue), moistening, mixing with
salivary secretions.
Pharynx (throat):
Muscular propulsion of materials into the Bolus
esophagus.
Esophagus:
Transport of materials to the stomach.
Stomach:
Engages in both chemical digestion (via digestive
enzymes) and mechanical digestion (muscular Chyme “juice”
contractions). Colon
Small Intestine (duodenum, jejenum and ileum):
Enzymatic digestion, absorption of water, organic
substrates, vitamins, and ions. Nutrients
Large Intestine (colon, rectum and anus):
Dehydration and compaction of indigestible
Faeces Rectum
materials in preparation for elimination.
5
Organs of the Digestive System
Accessory Organs of the Digestive System

Teeth:
Mechanical digestion by chewing (mastication).
Tongue:
Assists mechanical digestion with teeth; sensory
analysis.
Salivary Glands:
Secretion of lubricating fluid containing enzymes
that break down carbohydrates.
Liver:
Secretion of bile (important for lipid digestion),
storage of nutrients, and many other vital
functions.
Gallbladder:
Storage and concentration of bile.
Pancreas:
Exocrine cells secrete buffers and digestive
enzymes; endocrine cells secrete hormones.

6
Smooth and skeletal muscle sphincters control the passage
of food along the GIT
Upper Esophageal Sphincter:
Allows food to pass from the mouth into the esophagus.

Lower Esophageal Sphincter:
Lets food pass from the esophagus into the stomach and
allows air to escape from the stomach when burping.

Pyloric Sphincter:
Opens to allow partially digested food to pass from the
stomach into the duodenum.

Ileocecal Sphincter:
A muscle valve that separates the small intestine from the
large intestine.

Internal Anal Sphincter:
An involuntary muscle that prevents stool from leaking out.

External Anal Sphincter:
A voluntary muscle that allows to control the passage of stool. 7
Sphincter of Oddi

Sphincter of Oddi is a valve which allows bile and
pancreatic juice to flow into the small intestine.

It ensures that the right amounts are released
when food passes into the duodenum.
Anatomy of the wall of the GI tract – a common organizational theme

The anatomy of the GI tract wall varies along its length but
shares common organizational themes across all segments:

Mucosa: Epithelial layer with connective
tissue (lamina propria), capillaries,
neurons, immune cells, and smooth
muscle.

Submucosa: Loose connective tissue
with larger blood vessels, may have
Lumen glands.

Muscle Layer: Two smooth layers (inner
circular, outer longitudinal) with neurons
in between.

Muscle Serosa: Outer connective tissue with
layer squamous epithelial cells.
9
Basic Function of the GI Tract

6 steps and four processes

Ingestion (eating/intake)

Secretion
(e.g., enzymes, mucus, chemicals, hormones)
Digestion (mechanical + chemical)
Absorption
Motility (mixing and propulsion)

Defecation
Four processes of the digestive system in different parts of the GI tract
 Digestive enzymes

Digestive enzymes are enzymes that break down polymeric
macromolecules into their smaller building blocks, to facilitate
their absorption by the GIT.

Carbohydrates
Proteins Fats (triglycerides) DNA, RNA

Proteases, Lipase
Peptidases Nuclease

Mono/Di- mono
Amino Acids, glycerides, Fatty
Peptides glycerol acids Nucleotides

Where in the GIT do these enzymes act?
Stomach Stomach Oral Cavity/stomach
Small Intestine Small Intestine Small Intestine Small Intestine
 Digestive enzymes

Digestive enzymes are classified based on their substrates:

proteases and peptidases split proteins into small peptides and
amino acids.

lipases break triglycerides into fatty acids and glycerol or
monoglycerides (which is glycerol attached to a single fatty acid)
diglycerides (which is glycerol attached to two fatty acids)

amylases digest starch/glycogen into smaller molecules yielding
maltose, which in turn is cleaved into two glucose molecules by
maltase

nucleases split DNA/RNA into nucleotides.
Fun fact: How much DNA do we eat per year?

Not examinable https://padletuq.padlet.org/bweger/git-n5g2hmcn9ncwlise 16
Organs of the Digestive System

Major Organs of the Accessory Organs of
Digestive Tract the Digestive System

Oral Cavity (Mouth): Teeth
Pharynx (throat): Tongue
Esophagus: Salivary Glands
Stomach: Liver
Small Intestine Gallbladder
Large Intestine Pancreas

Colon

Rectum
17
Digestive process in the oral cavity
Digestion: Carbohydrates
Absorption: None
There are three pairs of major salivary glands:
the parotid glands, the submandibular glands,
and the sublingual glands

In the Mouth:

Saliva contains salivary amylase mainly from
parotid glands, starting starch breakdown into
maltose.
Only about 5% of starches are hydrolyzed before
swallowing.

In the Stomach:

Digestion continues for up to 1 hour until food mixes
with gastric acid.
Salivary amylase becomes inactive in acidic
conditions (pH < 4.0).
By this point, app. 30% of starches are digested. 18
Organs of the Digestive System

Major Organs of the Accessory Organs of
Digestive Tract the Digestive System

Oral Cavity (Mouth): Teeth
Pharynx (throat): Tongue
Esophagus: Salivary Glands
Stomach: Liver
Small Intestine Gallbladder
Large Intestine Pancreas

Colon

Rectum
19
Stomach secretion from gastric glands
Digestion: Proteins and fats (minimal)
Absorption: alcohol, aspirin (lipid soluble substances)
Secretions:
Acid
HCl (hydrochloric acid)
Decreases pH; kills bacteria and pathogens; denature proteins;
activates pepsin (pepsinogen → pepsin)

Mucus
Viscous secretion composed primarily of water, bicarbonate
(HCO3-) and glycoproteins called mucins
protects wall of stomach from acid

GI hormone

Gastrin regulates digestive activity by stimulating acid production and promoting
stomach muscle contractions

Digestive enzymes

remove only one fatty acid from each
Triglyceride
Gastric secretion and food processing is traditionally divided into 3 phases:

Cephalic Gastric Intestinal
Phase Phase Phase
 Gastric secretion and food processing is traditionally divided into 3 phases:

Cephalic Gastric Intestinal
Phase Phase Phase
sight, smell, taste, Presence of food Presence of food
Stimulus: or thought in the stomach in the duodenum

1. Cephalic Phase
Triggered by: The sight, smell, taste, or thought of food before it even
enters the stomach.

Mechanism: The brain (specifically, the hypothalamus and medulla)
stimulates the vagus nerve (CN X), which sends signals to the stomach to
begin the secretion of gastric juices and gastrin.

Outcome: This phase prepares the stomach for digestion by stimulating the
release of gastric juice production (e.g., hydrochloric acid (HCl), and
pepsinogen), as well as increasing gastric motility.
Take-home message from this slide:

Each phase has also input from the CNS

The parasympathetic nervous system
stimulates gastric secretion, while the
sympathetic nervous system generally
inhibits gastric secretion.
2. Gastric Phase
Triggered by: The presence of food in the stomach,
which causes stomach distension (stretching) and the
presence of proteins and amino acids.
Gastric phase
Mechanism:
The distension activates stretch receptors, and
partially digested proteins stimulate the release of
gastrin.

pH > 4 gastrin release ↑
pH < 3 gastrin release ↓

Increased gastrin leads to an increase in gastric juice
production (including HCl and pepsinogen) and
enhances stomach contractions.

Outcome: This phase is responsible for the majority
(about 60-70%) of gastric secretion, ensuring the
proper breakdown of ingested food.

The intestinal phase will be discussed in the next lecture! 26
Organs of the Digestive System

Major Organs of the Accessory Organs of
Digestive Tract the Digestive System

Oral Cavity (Mouth): Teeth
Pharynx (throat): Tongue
Esophagus: Salivary Glands
Stomach: Liver
Small Intestine Gallbladder
Large Intestine Pancreas

Colon

Rectum
27
The Pancreas

Composition of pancreatic juice
- Watery, alkaline solution (pH 8)
- Electrolytes, primarily HCO3− (bicarbonate) → neutralize stomach acid
- 1200–1500 ml/day is produced

- Digestive enzymes

Proteases

Converts triglycerides into
monoglycerides and fatty acids

Nucleases Pancreas Converts DNA/RNA into nucleotides
Liver & Gallbladder
The Gallbladder

Gallbladder: A small, pear-shaped, thin-walled muscular
sac located on the underside (ventral surface) of the liver.

Primary Function: Stores and concentrates bile by
absorbing water and electrolytes.

Structure: Contains many honeycomb folds, allowing it to
expand as it fills with bile.

Bile Release: When stimulated (by CCK), the gallbladder
contracts, releasing bile into the cystic duct, which then
flows into the common bile duct and into the duodenum.
Gall bladder - Bile
Bile:
is produced in the liver
Contains bile salts that are amphipathic (hydrophobic and hydrohilic regions)

Bile facilitates lipid absorption and digestion by

Emulsification: Bile salts surround fat
droplets; hydrophobic side binds to fat,
hydrophilic side interacts with water, breaking
them into smaller droplets (emulsion
droplets). Ce
Increased Surface Area: Enhances fat
exposure to enzymes (e.g., pancreatic lipase)
for digestion. Cell of small intestine
Micelle Formation: Bile salts form micelles to
transport digested fats for absorption.
 GI Lecture 1
Learning objectives

Now make sure you have a solid understanding of

Organs of the GIT

Digestion and absorption processes in the GIT

GI tract secretions and their function (digestive enzymes)

Phases of gastric secretions (cephalic and the gastric phase)
 Gastrointestinal Lecture 1: Test your knowledge

Following this GI lecture, you should be able to…

Describe the organs of the GIT and their functions

Name digestive enzymes, their functions, where they act, and organ
of secretion

Describe two phases of gastric secretion (trigger, mechanism)
 [email protected]

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