Enteric Nervous System and Gut Hormones

Question 1

Describe the myelination pattern of the enteric nervous system fibres.

Answer 1

Unmyelinated

Question 2

What do interneurons do?

Answer 2

Integrates lots of sensory inputs to generated a coordinated response.

Question 3

State the two plexuses of the enteric nervous system and what they regulate.

Answer 3

Myenteric (Auerbach) Plexus - located between circular and longtudinal muscle - controls activity of muscularis externa- controls gut motor function
Submucosal (Meissner) Plexus - senses the environment of the lumen and controls blood flow, endothelial and endocrine function

Question 4

Where are the cell bodies of the sympathetic preganglionic fibres found?

Answer 4

In the thoracic and lumbar spinal cord

Question 5

Describe where the sympathetic innervation of the gut comes from.

Answer 5

Midgut and foregut are innervated by thoracic splanchnic nerves
Rest of the gut is innervated by lumbar splanchnic nerves

Question 6

Where are the cell bodies of the parasympathetic preganglionic fibres found?

Answer 6

In the brainstem and sacral spinal cord

Question 7

Describe where the parasympathetic innervation of the gut comes from.

Answer 7

Most of the gut is innervated by branches of the vagus nerve (down to the level of the transverse colon)
The rest of the gut receives parasympathetic fibres from the pelvic nerves

Question 8

In general, the ANS controls gut function via the enteric nervous system (through the two plexuses). What is an exception to this?

Answer 8

Sympathetic nervous system has direct control over blood flow to the GI tract. It does not have to go through the ENS to regulate blood flow.

Question 9

Which afferents take information from the chemo and mechanoreceptors in the GI tract to the CNS?

Answer 9

Vagal and splanchnic afferents

Question 10

Describe the structure of enteroendocrine cells.

Answer 10

They have a finger like protrusion that detects the environment of the lumen. They are located near blood vessels so they can release hormones into the blood. They can also talk directly to neurons via projections called neuropods.

Question 11

Which cells release GIP-1, GLP-1, GLP-2, PYY and CCK?

Answer 11

GIP-1 = K cells
GLP-1 + GLP-2 + PYY = L cells
CCK = I cells

Question 12

State some functions of the gastrointestinal endocrine system.

Answer 12

Regulation of mechanical processes of digestion
Regulation of chemical and enzymatic processes
Control of post-absorptive processes involved in the assimilation of digested food
Effects on growth and development of the GI tract (e.g. GLP-2 promotes small intestine growth)

Question 13

What is the incretin effect?

Answer 13

Release of insulin following oral glucose is much greater than the release with IV glucose because of the incretins (e.g. GIP-1). The incretins potentiate the insulin response.

Question 14

Describe paracrine actions of the GI hormones.

Answer 14

Somatostatin from the stomach can inhibit acid secretion by paracrine mechanisms.
Histamine release from stomach wall cells is a key physiological stimulus for the release of HCl from gastric parietal cells

Question 15

Where is gastrin synthesised?

Answer 15

Pyloric Antrum and upper small intestine

Question 16

What stimulates gastrin release and what is its main action? When is gastrin inhibited?

Answer 16

Stimulus: Amino acids and fatty acids
Gastric distension
Vagus nerve
Action - stimulates gastric acid secretion
Inhibited - when pH of stomach falls below 3 (don’t want it to be too acidic and ulcerate)

Question 17

Where is somatostatin synthesised?

Answer 17

D cells - found throughout the GI tract

Question 18

What does somatostatin do?

Answer 18

It is a universal inhibitor - it reduces gastric motility and secretion, intestinal and pancreatic secretions, release of gut hormones

Question 19

Name a somatostatin analogue. Why isn’t somatostatin itself used instead of the analogue?

Answer 19

Octreotide - because somatostatin is a peptide hormone which has a very short half-life meaning that it would have to be readministered regularly

Question 20

Where is secretin produced?

Answer 20

S cells found mainly in the upper duodenum and jejunum.

Question 21

What stimulates secretin production and what does it do?

Answer 21

When the pH drops below 4.5 in the duodenum.

It stimulates pancreatic bicarbonate secretion (this effect is potentiated by CCK)

Question 22

What is the effect of high concentrations of secretin?

Answer 22

Inhibition of gastric acid and gastric emptying

Question 23

Where is CCK mainly produced?

Answer 23

Densely located in the small intestine

Question 24

What stimulates CCK release and what does it do?

Answer 24

Release is stimulated by the presence of fat and peptides in the upper small intestine
Actions: gallbladder contraction, delay gastric emptying, stimulates pancreatic enzyme release
At high concentrations: decreases food intake and meal size

Question 25

Where is GIP (gastric inhibitory peptide) produced?

Answer 25

Stimulated by K cells mainly in the duodenum and jejunum

Question 26

What stimulates GIP release and what does it do?

Answer 26

GIP release follows ingestion of a mixed meal

GIP stimulates insulin secretion - causes the incretin effect

Question 27

Where is PYY produced?

Answer 27

Released from L cells found throughout the terminal ileum, colon and rectum.

Question 28

What stimulates its release and what does it do?

Answer 28

Released postprandially

Fullness hormone - reduces intestinal motility, gallbladder contraction and pancreatic exocrine secretion

Question 29

What is PYY3-36?

Answer 29

This is a truncated form of PYY that is produced when fasting
This fools your body into thinking that you’ve had a meal and inhibits food intake