Yue Limin(岳利民ccftp.scu.edu.cn/Download/20180613001040650.pdfIntroduction Characteristics of...

Gastrointestinal Physiology

Yue Limin(岳利民)

Department of Physiology

School of Preclinical and Forensic Medicine

Sichuan University

参考资料

Textbook of Medical Physiology. Guyton & Hall. 北京医科

大学出版社(影印),2002

医学生理学（从临床导向到基础医学生理学的途径）。秦

晓群等翻译，科学出版社，2005

http://en.wikibooks.org/wiki/Human_Physiology/The_gastrointestinal_system

http://en.wikipedia.org/wiki/Gastrointestinal_physiology

http://www.vivo.colostate.edu/hbooks/pathphys/digestion/basics/index.html

生理学课程网址：http://cc.scu.edu.cn/G2S/Template/View.aspx?course

Id=43&topMenuId=118273&action=view&type=&n

ame=&menuType=1

A old saying"you are what you eat""you are what you absorb and digest".

Introduction

Characteristics of the smooth muscle of

gastrointestinal tract

Neural control of gastrointestinal tract

Secretory function of digestive gland

Endocrine function of gastrointestinal tract

Concepts of digestion and absorption

Ⅰ. Concepts of digestion and absorption

The main types of foods

Carbohydrads, fat , protein large molecules

Vitamine, inorganic salt, water small

molecules

fiber

Digestion:

The breakdown of proteins, fats and carbohydrates

into absorbable molecules in the gastrointestinal tract.

Absorption:

The movement of the digested products ,water and

electrolytes from the lumen of digestive tract into the

lymph or the blood.

Protein amino acid

Carbohydrate monosaccharide

Fat fatty acid and glycerol

closed relationship between digestion and absorption

How are the foodstuffs digested ?

Mechanical Digestion:

The motility of smooth muscle in gastrointestinal

tract grinds food and mixes it with digestive

juice to prepare it for chemical digestion and

absorption, and then propels the food

along the gastrointestinal tract.

Chemical Digestion:

Nutrients in the food are broken down by the

enzymes in digestive juice secreted by the

secretory glands.

1. General physiological characteristics

Ⅱ.Characteristics of Gastrointestinal

Smooth Muscle

➢low excitibility and slow contraction

➢high extensibility

➢tonicity

➢Sensitive for chemical, thermal and mechanical stretch stimulation

➢autorhythmicity

2. Electrophysiological characteristics

Slow wave potential

Action potential

Resting potential

机械阈电阈

Resting potential of smooth muscle IN GI

Value: -50 -60mV

Formation:

out flow of K+ ; Na+ Ca2+

electrogenic Na+ -K+ pump

Slow wave or basic electric rhythm (BER)

Size: 5-15mV (from –65 to-45mV)

Definition: Spontaneous, slow and rhythmic

fluctuation ( depolarization and repolarization)

on resting potential in gastrointestinal smooth

muscle cells.

Frequency: 3-12/min

stomach--- 3; duodenum---12; ileum---8，9

Size and frequency is influenced by neural and

humoral regulation.

Function: weak contraction

the base of AP formation

Mechanism: cyclic changes of the activity of

Na+ -K+ pump

Origin: interstitial Cajal cells, which serve as

pacemaker for GI smooth muscle

mechanical threshold

Action Potential

Inducing: the depolarization of slow wave

reaches TP（electrical threshold）

by stimulation

Characteristics: 10-20ms, 60-70mV

single or mutiple spikes

Action: the number of spike potential determine

contraction

Mechanism:

depolarization: slow Ca2+-Na+channels

Ca2+ inward flow , Na+ inward flow

repolarization:

K+ outward flow

Relationship among RP, BER and contraction

AP Muscle ContractionRP

frequencydirectionspeed

strength

3. Basic types of movements in digestive tractmastication

swallowing:

Oral phase: voluntary movement

Pharyngeal phase: reflex

Esophageal phase

Peristaltic contraction: a series of coordinated sequential

contraction.

Tonic contraction: a constant level of contraction,

without regular period of relaxation

Segmentation contraction: alternate contraction and

relaxation of a section of intestine

Migration motor complex (MMC)

Mass movement

Receptive relaxation: stimulation of food on pharynx and

esophagus produce relaxation of the lower esophageal

sphincter and the orad stomach.

contraction

relaxation

Peristalsis

Segmentation contraction

Ⅲ. Secretory function of digestive glands

Main digestive gland:

Secretion is the addition of fluids, enzymes

and mucus from the digestive glands to the

lumen of gastrointestinal tract.

salivary glands saliva, 1500 ml/day

gastric gland gastric juice, 2500 ml/day

exocrine cells of pancreas pancreatic

juice, 1500 ml/day

liver bile, 500 ml/day

Main Effects of Digestive Juice

Dilute the food in favor of absorption

Change the pH value in digestive cavity to

meet the need of digestive enzymes

Hydrolyze nutrients into absorbable units

Mucous, antibodies and fluid in digestive

juice protect gastrointestinal mucosa from

physical and chemical injuries

Major digestive enzymes in main digestive juice

Source enzyme substrate products

saliva a-amylase starch maltose,dextrin

maltotriose

Gastric

juice

pepsin protein polypeptide

Pancreticjuice

a-amylase

lipase

starchmaltose, dextrinmaltotriose

triglycerides monoglyceridefatty acids

trypsin

chymotrypsincarboxypolypeptidase

polypeptide

amino acid

proteinpolypeptides

bile no enzyme

bile salts

Carbohydrate (CHO) Digestion

Digestion of Fat

• Emulsification

by bile salts

• Pancreatic

lipase

• Micelles are

water-soluble

colipase

Ⅳ. Neural control of gatrointestinal tract

1. Central Nervous System (CNS)

medulla oblongata: maintain basic function of

gastrointestinal tract

hypothalamus: higher nervous center for gastrointestinal

activities. e.g. feeding center, satiety center

limbic cortex in cerebral cortex (hippocampus, amygdala):

control the activities of hypothalamus

Positions:

2. Extrinsic nervous system

sympathetic innervation

celiac ganglionsuperior mesenteric~ inferior mesenteric~

ACh NE

postganglionic N.

adrenergic N.

thoracic andlumbar spinal cord segments

(T5—L2)

Preganglionic N.

Cholinergic N.

enteric neuron

smooth muscle

endocrine cell

secretory cell

Inhibition

sphincters+

Parasympathetic innervation

Vagus nerve

ACh

preganglionic N.

cholinergic N.

motor nucleus of vagual nerve in medulla

oblongata

myenteric and

submucosal plexuses

in the wall of gut

postganglionic N.

peptidergic

cholinergic N.ACh

Peptides

excitation

vessels

relaxation

upper parts

stomach

small intestine

ascending colon

right transverse

colon

sphincters-

ACh

preganglionic N.

cholinergic N.

sacral spinal Cord(S2--S4)

myenteric and

submucosal plexuses

in the wall of gut

postganglionic N.

peptidergic

cholinergic N.ACh

Peptides

excitation

relaxation

Pelvic nerve

lower partsleft 1/3

transverse

colon

Salivary glands

stomach

liver

pancreas

intestine

pelvic nervePelvic N

3. Intrinsic or Enteric Nervous System (ENS)

myenteric plexus: between the longitudinal

and circular muscle layers

submucosal plexus: between the middle

circular muscle layer and the mucosa

The nervous networks of neurons and nerve

fibers in the wall of gastrointestinal tract

Components:

characteristics

local reflexes

being controlled by extrinsic nerves

sympathetic parasympatheticSpinal cord

Brain sterm

myenteric

plexus

submucosal

plexus

epitheliumSensoryneurons

conditoned stimuli

Center

Long reflex

receptor plexusmuscle

gland

Short reflex

contraction

secretionUnconditioned Stimuli

Afferent N. Efferent N.

eye,nose,earⅠⅡⅧ

prevertebral

ganglia

Ⅴ. Endocrine function of gastrointestinal tract

the biggest endocrine organ

more than 40 types of endocrine cells

first discovered hormone – Starling and Bayliss , 1902

mucosa ofduodenum

extract

blood

blood∥

HClSecretion of

pancreatic juice

Intestine without

nerve innervation

Ernest Starling

John Henderson: Ernest Starling and ‘Hormones’: an

historical commentary. Journal of Endocrinology

2005，184, 5-10

William Bayliss

1. Gastrointestinal Hormones:

The biologically active polypeptides secreted by

the endocrine cells （amine precursor uptake and

decarboxylation ，APUD） in gastrointestinal tract

which influence the motility and secretion of

gastrointestinal tract.

2. Pathways of gastrointestinal hormones secretion

• endocrine

• paracrine

• neurocrine

• autocrine

• solinocrine

3. Functions of Gastrointestinal Hormones

Regulating activities of the

gastrointestinal tract

Trophic act ion

Regulating the secretion of other

hormones

4. Brain-gut peptide : exists both in CNS and

gastrointestinal tract

more than 20 kinds: gastrin, CCK, motilin,

neurotensin

Regulating immune function

Stimulus and Response of a few Gastrointestinal Hormones

hormone secretion effects

Gastrin Antrum,upper small

intestine

(+) Gastric juice

(+) pancreatic enzymes

(+) Gastric motility

(+) Trophic to mucosa

Secretin Upper small

intestine

(+) Pancreatic juice HCO一3

(+) Bile flow

(-) Gastric acid

CCK

cholecystokinin

Upper small

intestine

(+) Pancreatic enzyme

(+) Gallbladder

contractionI cell

G cell

S cell

GIP Upper small intestine

K cell

(-) gastric juice secretion

(-)motility of stomach

(+) insulin secretion

.

Motilin Mo cell (-/+) Gastric and small

intestinal motility

Ⅰ. Secretion of Gastric Juice

Gastric juice: the fluid secreted by the cells of the gastric

mucosa

Digestive function of Stomach

Parietal cells body HCl, intrinsic factor

Chief cells body pepsinogen

G cell antrum gastrin

Neck mucous cell antrum mucus; pepsinogen

Major exocrine glands in mucosa

oxyntic gland in the body: 4 cell types

pyloric gland in the antrum: G cell; mucous cell

mucous gland: mucus

1. Hydrochloric acid(gastric acid)

action: pepsinogen pepsin

kill bacteria

secretion of secretin

absorption of Ca2+ and Fe2+

HCl

Production: parietal cell

The components and their functions of gatric juice

Warren and Marshall discovered Helicobacter

pylori, In 1983, and got Noble prize in 2005

Gastric parietal cell BloodLumen

Cellular mechanism of HCl secretion

-Cl

Na+

ATPK+

K+

HCl is

secreted

K+

ATPProton pump

alkaline tide

HCO3

_

Cl_

CO2

H2O+

Carbonicanhydrase

H2CO3

H+

HCO3-

2. Pepsinogen:

Production: chief cell and mucous cell

pepsinogen pepsinHCl

+Activation:

Action: Hydrolyze protein

3. Mucus:

Production: epithelial cell, mucous neck

cell, pyloric gland

Action: to form mucus-bicarbonate barrier

with HCO3- that protects the gastric

epithelium from damage of H+and pepsin

HCl

HCO3-－

H+

Layer of mucus

pH2

pH7

Characteristics: glycoproteins; viscid; gel

mucosal barrier

4. Intrinsic factor:

Production: parietal cell，glycoprotein

Action: the absorption of vitamine B12 in ileum

pernicious anemia

H2

M ?

Substances that stimulate HCl secretion in the body

ACh Gastrin

Ⅱ. Regulation of gastric secretion

Histamine

Enterochromaffin-like cell

H+

cAMP

Cholinergicneuron

ACh IP3

Ca2+

G cell

Gastrin

Ca2+

IP3

paracrine

endocrine

Substances that inhibit gastric secretion in the body

secretin

somatostatin:

epidermal growth factor

Gi (-) AC cAMP

neurotensin

GIP

food

Conditoned stimuliⅠⅡⅧ

unconditioned Stimuli ⅤⅦⅨⅩ

Gastric phase

Distension of fundus ,body

Distension of antrum

Chemical stimuli

Ⅹ

Gastric

gland

Ⅹ

Mecho-chemical stimuliEntero-oxyntin

cephalic phase: large amount(30%); high acid intensity

large amount of enzymegastric phase: large amount(60%); less acid intensity

less amount of enzyme

G cell

gastrin

Regulation of gastric secretion during the digestive period

plexus

Ⅲ. Inhibition of gastric secretion during the

digestive period

In stomach:

inhibit secretion of gastrin from G cell

in the antrum of stomach

stimulate the release of somatostatin

from D cell

HCl negative feedback

In duodenum:

promote release of secretin

release of bulbogastrone

Fat

enterogastrone

Hyper-osmotic fluid

Entero-gastric reflex

one or a few kinds of hormones

Ⅳ. Gastric emptying

Definition: The process that the gastric contents

are delivered to the duodenum.

Factors influencing gastric emptying:

Physical and chemical characteristics of food

Liquids＞solid;

isotonic＞hypotonic or hypertonic

Carbohydrate＞protein＞fat

Driving force: Difference of pressure between

stomach and duodenum

Characteristic: discontinued

Regulation of stomach emptying

Gastric factors that promote emptying:

Stretching and chemical stimuli

vagovagal reflex

gastrin

local reflexes

Duodenal factors that inhibit emptying

Mechanical and chemical stimuli

Entero-gastric reflexes

secretin; gastric inhibitory peptide(GIP)

Cholecystokinin(CCK);

enterogastric reflexes are sensitive to pH,

products of protein digestion and hypertonic fluid

Absorption

The location of absorption:

structure

digested degree of food

time of food staying

Small intestine is ideally

suited for absorption of

quantities of nutrients

fat-solubleVit

panreatic enzymes

stomach

Small intestine

colon

Ca2+

Mg2+

Fe2+

monosaccharidessaccharobiose

Water soluble Vit

Vit B12bile salt

bile

amino acid

glycerol,fatty acid

Absorption in the small intestine

Structural basis:

microvilli

villi

fold ofkerckring

increse ofsurface area

surface areacm2

central lacteal

blood

capiliaries

Two pathes for absorption:

Cellular path: cross the apical(luminal) membrane

enter epithelial cell extruded from the

cell cross the basolateral membrane

into blood.

Paracellular path: across the tight junction between

intestinal epithelial cells through

intercellular spaces into blood

Basic ways of absorption:

active transport

passive transport

exocytosis and endocytosis

Carbohydrate (CHO) Absorption

Absorption of Fat

• Monoglycerides and long

FAs enter cells by diffusion

• Triglyceride synthesis

• Add protein

• Chylomicrons

• To lacteal (lymph)

• Short FAs diffuse into

blood

Defecation

A reflex initiated by the stimulation of strech

receptors in the rectum

The elimination of fecal waste through the anus

Prarsympathetic N.

Pudendal N.

Pelvic N.

S2-4

contraction of rectal muscles

relaxation of the internal anal

sphincter

relaxation of the external anal

sphincter.

Pudendal N.

hypogastric N.

Constipation:

Prolonged distention of the L. intestine.

Too dry feces due to absorption of water.

Causes:

Ignoring the urge.

Reduced intestinal motility.

Obstruction due to (tumor, or spasm).

Impairment of the defecation reflex.

Problems

❖Explain: digestion ; absorption; chemical digestion;

mechanical digestion; slow wave or basic electric rhythm

(BER); brain-gut peptide; gastrointestinal hormones;

mucus-bicarbonate barrier in stomach

❖What is relationship among RP, BER and contraction of

smooth muscle in GIT

❖What’s major components and their functions of gastric

juice, saliva; pancreatic juice and bile and describe the

regulation of the secretion of these digestive juices

❖Describe the regulation of gastric secretion during the

digestive period and the characteristics of each phase

❖Why is small intestine a main location of absorption

❖What’s the functions of major gastrointestinal

hormones

❖Describe the innervation of gastrointestinal tract

❖Supposing you ate a fried egg and a loaf of bread

in your breakfast, please think about how are the

foods digested and the nutrients in the foods absorbed

❖In clinic, some drugs inhibiting the H+ secretion of

stomach are used to treat gastric or duodenal ucler.

Can you design some drugs for this.

❖The basic process of defecation

Clinical Case

A 36-years –old woman had 75% of her ileum

resected following a perforation caused by severe

Crohn’s disease (chronic inflammatory disease of the

intestine). Her postsurgical management included

monthly injections of vitamin B12. After surgery, she

experienced diarrhea and noted oil droplets in her

stool. Her physician prescribed the drug

colestyramine(消胆胺） to control her diarrhea, but

she continues to have steatorrhea（脂肪便）.

Question: Could you please explain the woman’s

symptoms and why injections of vitamin B12 was

needed after surgery

相关知识：

• 胆汁的主要成分和作用

• 胆盐的肠肝循环

• 胃液中内因子的主要作用及作用机制

参考资料

Textbook of Medical Physiology. Guyton & Hall. 北京医科

大学出版社(影印),2002

医学生理学（从临床导向到基础医学生理学的途径）。秦

晓群等翻译，科学出版社，2005

http://en.wikibooks.org/wiki/Human_Physiology/The_gastrointestinal_system

http://en.wikipedia.org/wiki/Gastrointestinal_physiology

http://www.vivo.colostate.edu/hbooks/pathphys/digestion/basics/index.html

Structure of digestive system

Digestive tract: mouth, esophagus, stomach,

intestine(small, large, rectum ),

anus

Digestive glands:

Large ~: salivary gland ,liver

pancreas

Small ~: gastric glands ,

intestinal glands

Enzyme Produced In Site of Release pH Level

Carbohydrate Digestion:

Salivary amylase Salivary glands Mouth Neutral

Pancreatic amylase Pancreas Small intestine Basic

Maltase Small intestine Small intestine Basic

Protein Digestion:

Pepsin Gastric glands Stomach Acidic

Trypsin Pancreas Small intestine Basic

Peptidases Small intestine Small intestine Basic

Nucleic Acid Digestion:

Nuclease Pancreas Small intestine Basic

Nucleosidases Pancreas Small intestine Basic

Fat Digestion:

Lipase Pancreas Small intestine Basic

• 大纲要求Teaching guide

• 内容组织Teaching content：有限时间，重点讲规律

• 启发思维develop the mind and creativity ：

• Helicobacter pylori; How to protect stomach

• Drug for inhibiting the secretion of HCl

• Process of digestion for your breakfast ( milk, egg, bread)

• Why do you feel hunger at noon

discovery of secretin

clinic problem: esophagitis, acute pancreatitis，ulcer

• 难点difficulty point：bioelectrical activities and motility

• 进展new development ：CCK/gastrin receptor

Physiol Rev 86: 805– 847, 2006

• 学生问题：gastric empting rate

pyloric pump, pyloric sphincter

gastrin for gastric empting

• 病案Clinical Case ：after ileum resected回肠切除

Cholecystokinin and Gastrin Receptors

Because of the sequence similarity in their

bioactive region, CCK and gastrin share

some biological and pharmacological

effects.

Two types of CCK receptors （GPCR）

CCK-A (CCK1R“alimentary), was first

characterized in pancreatic acini from

rodents

CCK-B （CCK2R“brain”) was first found

in the brain

In the periphery, the CCK2R can be considered

as the gastrin receptor

消化道平滑肌的电活动和收缩

平滑肌肌肉收缩：

周期性phasic：有节律 ; 紧张性tonic ：持续，强度可变

电活动：RP（可波动）、慢波、锋电位

慢波：控制节律（分节运动和蠕动），受神经、激素

调节

AP：引起周期性收缩，没有twich，多个twich总和

tonic 收缩：两种说法

1. 阈下慢波达收缩阈，也可使电压门控钙通道开

2. Medical physiology: 慢波不引起钙内流

a.持续的锋电位

b.激素或其他因素使膜电位一定程度去极

c.与膜电位无关的持续钙内流，原因不清

Clinical Case

A 36-years –old woman had 75% of her ileum

resected following a perforation caused by severe

Crohn’s disease (chronic inflammatory disease of the

intestine). Her postsurgical management included

monthly injections of vitamin B12. After surgery, she

experienced diarrhea and noted oil droplets in her

stool. Her physician prescribed the drug

colestyramine(消胆胺） to control her diarrhea, but

she continues to have steatorrhea（脂肪便）.

Question: Could you please explain the woman’s

symptoms and why injections of vitamin B12 was

needed after surgery