Lecture 21: Digestive System PDF

Summary

This lecture provides an overview of the digestive system, covering its anatomy and function. It explores components like the salivary glands, stomach, and intestines, as well as the processes of digestion and absorption. Topics include the different stages of digestion and the role of various digestive enzymes and organs.

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21.1

Anatomy of the Digestive System

21.2

Digestive Function and Processes

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The Digestive System is a Tube

Digestion carried out by intestinal enzymes aided by 2 accessory glandular organs: pancreas and liver —> secretions from these 2 enter the initial
section of the duodenum through ducts and a tonically contracted sphincter (of Oddi) keeps pancreatic fluid and bile from entering small intestine
except during a meal

•

Accessory glandular organs secrete materials that aid in digestion
Salivary glands: secretion of saliva by sublingual glands under the tongue,
glands under the mandible (jawbone) and parotid glands
– Salivary glands, pancreas, liver submandibular
lying near the hinge of the jaw

•

Chyme is the mixture of food and secretions mixing food with acid and enzymes

•

Products of digestion are absorbed
– Across epithelium into interstitial fluid
– From interstitial fluid to blood or lymph to be distributed

•

Waste is excreted from the GI tract by way of the anus

•

Digestive system is exposed to external environment
– Home to commensal microorganisms

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The Digestive System is a Tube
•

•

Digestion begins in the oral cavity
– Chewing
– Salivary glands
Esophagus

swallowed food passes through it
narrow tube that travels through thorax to abdomen
Wall: skeletal muscle initially but transition to smooth muscle about 2/3 of the way down the length

upper fundus

central

lower

•

Stomach: fundus → body → antrum

•

Pylorus with pyloric valve

•

Small intestine: duodenum → jejunum → ileum with help of pancreas and liver

•

creation of chyme

opening between stomach and small intestine guarded by pyloric valve

terminal section

skeletal muscle, voluntary control

Large intestine: colon → recturm → anus with external anal
Colon = proximal section of large intestine : watery chyme becomes semisolid feces as
sphincter
water and electrolytes are absorbed out of the chyme and into the ECF
•

Feces
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Figure 21.1(d-e) The Digestive System

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The GI Tract Wall Has Four Layers (1 of 2)
•

Modifications increase surface area
–
–
–

folds in stomach

folds in small intestine

Rugae and plicae
fingerlike extension
Villi small
projected by intestinal
mucosa into lumen

Gastric glands, crypts, and submucosal glands
intestine

stomach

•

tubular invaginations of the surface that
extend down into supporting connective tissue
(gastric glands, crypts, and submucosal
glands)

lining of
Mucosa inner
GI tract with 3

deepest, form secretory submucosal glands
that open into lumen through ducts

facing lumen
cells: enterocytes in small intestine (transporting epithelial cells), endocrine and exocrine secretory
cells, and stem cells
Secrete ions, enzymes, mucus and paracrine molecules into lumen
sub epithelial connective tissue that holds the epithelium in place
contain nerve fibres and small blood and lymph vessels
absorbed nutrient pass into blood and lymph
Peyer’s patches of the gut-associated lymphoid tissues (GALT) intestine
lymphoid aggregations of small
nodules and larger Peyer’s
thin layer of smooth muscle
patches create visible bumps in
separates lamina propria from submucosa
contraction of muscles alters effective surface area for absorption by mucosa
moving villi back and forth
middle layer of gut wall
layers

1. Mucosal epithelium

2. Lamina propria (connective tissue)
▪

3. Muscularis mucosae

•

Submucosa
–

Connective tissue with larger blood and lymph vessels running through it

–

Contains submucosal plexus of the enteric nervous system
Meissner’s plexus
innervates cells in epithelial layer as well as smooth muscle of the muscularis mucosae

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The GI Tract Wall Has Four Layers (2 of 2)
•

Submucosa – middle layer
– Connective tissue
–

•

circular layer and outer
Contains submucosa plexus of the enteric nervous systeminner
longitudinal layer, contraction of

Muscularis externa – outer wall of GI tract

circular layer decreases
diameter of lumen vs
longitudinal shortens tube
incomplete third layer of oblique
muscle between circular
muscles and submucosa

–

Consists of two layers of smooth muscle in small intestine

–

longitudinal and circular
Contains myenteric plexus of the enteric nervous systembetween
muscle layers
Auerbach’s plexus controls and coordinates motor activity of muscularis externa

•

Serosa – outer covering of digestive tract
–

connective tissue membrane

lining abdominal cavity

Continuation of the peritoneal membrane, which forms sheets of
mesentery that holds intestines in place so that they don’t tangled as they move

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Figure 21.1(f) The Digestive System

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Figure 21.2 Four processes of the digestive
system

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GI Smooth Muscle Exhibits Different
Patterns of Contraction

Perstalsis: progressive waves of contraction that move from 1 section of GI
to the next
Circular muscles contract just behind bolus of food, which pushes it forward
into a receiving segment where the circular muscles are relaxed
Receiving segment then contracts, continuing the forward movement
In esophagus propels material from pharynx to stomach
contributes to food mixing in stomach, but in normal digestion, intestinal
peristaltic waves are limited to short distances

•
Muscle
contractions
during and
following a
meal fall into
one of the 2
patterns:

Contractions occur in 3 patterns
Between meals when tract is largely empty, series of contractions begins in stomach
passes slowly from section to section, each series taking 90 minutes to reach
– Migrating motor complex and
the large intestine —> housekeeping function that sweeps food remnants and
bacteria out of the upper GI tract and into large intestine
– Peristalsis moves bolus forward
short segments of intestine alternately contract and relax
segments: circular muscles contract while longitudinal muscles relax
– Segmental contractions Contracting
May be random along the intestine or regular interval
Alternating segmental contractions churn the intestinal contents, mixing them and
keeping them in contact with absorptive epithelium
When segments contract sequentially, in an oral-to-aboral direction, intestinal contents
are propelled short distance

• Slow-wave potentials originate in interstitial cells of Cajal
cells of Cajal: pacemakers and link between GI smooth muscle and enteric and autonomic NS

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Figure 21.4(a-b) Gastrointestinal Motility

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Figure 21.4(c-d) Gastrointestinal Motility

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21.4 Integrated Function: The Cephalic
Phase
•

•

Smelling, seeing, or thinking about food
–

Reflex begins in brain

–

Anticipation of or presence of food in oral cavity activates neurons in
medulla

–

Initiates cephalic phase

Chemical and mechanical digestion begins in the mouth.
–

Salivary secretions have 4 functions
1. Soften and lubricate food

2. Digestion of starch (chemical)
3. Taste
4. Defense
–

Mechanical digestion begins with chewing
▪

Mastication
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21.5 Integrated Function: The Gastric
Phase
•

3 functions of the stomach
1. Storage
▪ Upper stomach
2. Digestion
▪ Lower stomach
▪ Lipids and proteins
▪ Acid, enzymes, paracrine signal molecules, and hormones
3. Defense
▪ Against swallowed pathogens

•

Digestive activity in stomach begins with long vagal reflex of cephalic
phase then food in stomach initiates short reflexes of gastric phase

•

The stomach stores food
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Figure 21.8 Cephalic and gastric phase
reflexes

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Gastric Secretions Protect and Digest
deep within mucosal layer

•

Gastric glands found in the gastric pits

•

Gastrin secretion
–

found deep in gastric glands

G cells secrete gastrin
▪

•

hormone

neurotransmitter that mediates short reflexes
Gastrin-releasing peptide (GRP) ENS
gastrin release by neural reflexes

Acid secretion deep in gastric glands
–

•

openings in mucus-producing epithelium

Parietal cells secrete gastric acid (HCl) into lumen

Enzyme secretion
–

pepsin carries out initial digestions of protein, particularly effective on collagen

in gastric cells

Chief cells secrete pepsinogen (activated to pepsin) and gastric lipase
Acid stimulates pepsinogen release from chief cells through short reflex mediated in ENS

•

break down TG
but less than 1/3
of fat digestion in
stomach

Paracrine secretions

from gastric mucosa

paracrine signal
in response to gastrin or acetylcholine
stimulation
stimulates acid secretion by combining with H2
receptors on parietal cells

–

Enterochromaffin-like (ECL) cells secrete histamine

–

the lumen, form complexes with vitamin B12, a step needed for
Parietal cells secrete intrinsic factor Invitamin’s
absorption in intestine

–

growth hormone-inhibiting hormone
D cells secrete somatostatin (SS) hypothalamic
secreted by D cells in stomach

protein secreted by same gastric parietal cells that secrete acid

Primary - feedback for gastric phase secretion
Shuts down acid secretion directly and indirectly by decreasing gastrin
and histamine section + pepsinogen secretion

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The Stomach Balances Digestion and
Defense
•

Stomach protects itself with a mucus-bicarbonate barrier
– Prevents autodigestion

•

Mucous cells
– Located
▪ On luminal surface
▪ Neck of gastric glands
– Secrete mucus and bicarbonate chemical buffer barrier underlying mucus

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Figure 21.9(a) Gastric Secretions

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Figure 21.9(b-c) Gastric Secretions

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Figure 21.10 Integration of cephalic and
gastric phase secretion

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21.6 Integrated Function: The Intestinal
Phase
•

Motility in the small intestine is controlled
– Segmental and peristaltic contractions
– Ensure that small intestine is not overwhelmed by chyme
– Need to complete digestive process and allow for absorption

•

Maximization of surface area
– Villi and crypts
of intestinal epithelium
– Brush border surface
bristle-like appearance of microvilli

•

Absorbed nutrients from intestinal epithelium
– Most go to circulatory system for distribution
▪ Hepatic portal system
– Fats use lymphatic circulation to enter circulatory system
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Figure 21.11 The villus and a crypt in the
small intestine

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Figure 21.12 The hepatic portal system

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Intestinal Secretions Promote Digestion
1. Digestive enzymes
2. Bile

produced by intestinal epithelium and exocrine pancreas

made in liver and released from gall bladder
nonenzymatic solution facilitating digestion of fat

3. Bicarbonate secretion

into small intestine neutralizes highly acidic chyme that enters from stomach
most comes from pancreas and is released in response to neural stimuli and secretin

4. Mucus from intestinal goblet cells protects epithelium and lubricates the gut’s contents
5. Isotonic NaCl secretion mixes with mucus to help lubricate contents of gut
– Cystic fibrosis transmembrane conductance regulator, or CFTR
from ECF enters cell via NKCC transporters, then exits into lumen via apical gated Cl- channel =
channel Chloride
CFTR which draws Na+ down the electrical gradient through leaky cell functions
Water follows Na+ along osmotic gradient created by redistribution of NaCl = secretion of isotonic saline
solution

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Figure 21.13 Isotonic NaCl secretion

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The Pancreas Secretes Enzymes and
Bicarbonate
•

Endocrine portion (islets)
– Secretes insulin and glucagon

•

Exocrine portion
– Secretes digestive enzymes (acini) and sodium bicarbonate
(duct cells)
– Enzyme secretion
▪ Brush border enteropeptidase converts trypsinogen to
trypsin then converts other pancreatic zymogens to their active fort
– Bicarbonate secretion
▪ Neutralizes gastric acid

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Figure 21.14 The Pancreas (1 of 2)

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Figure 21.14 The Pancreas (2 of 2)

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The Liver Secretes Bile
•

Bile is secreted by hepatocytes

•

Composition
1) Bile salts
2) Bile pigments
3) Cholesterol

•

Aids in fat digestion

•

Stored and concentrated in gall bladder

•

Gall bladder sends bile to duodenum through common bile duct

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Figure 21.15(a-b) The Liver

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Figure 21.15(c) The Liver

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Figure 21.15(d) The Liver

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Key words:
Chyme, salivary glands, esophagus, stomach, fundus, body,
antrum, pylorus, pyloric valve, small intestine, duodenum,
jejunum, ileum, pancreas, liver, large intestine, colon, feces,
rectum, anus, external anal sphincter, villi, gastric glands,
crypts, submucosal glands, mucosa, submucosa, muscularis
externa, serosa, mucosa, mucosal epithelium, lamina
propria, enterocytes, mucosal surface, submucosal plexus
(Meissner’s plexus), enteric nervous system, muscularis
externa, myenteric plexus, digestion, absorption, secretion,
motility, proenzyme, zymogen, mucus, mucins, mucous cells,
goblet cells. tonic contractions, phasic contractions, slow
wave potentials, interstitial cells of Cajal, migrating motor
complex, peristalsis, bolus, segmental contractions.
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