AS Lecture 14 - Regulation of function: Enteric NS and gut hormones

Question 1

What are the 3 types of regulatory signal systems?

Answer 1

Nervous stimulation, paracrine and endocrine

Question 2

What is nervous stimulation?

Answer 2

Neurotransmitters released from neurones innervate target cells.

Question 3

What is paracrine?

Answer 3

Hormones released by cells in the vicinity of the target cell and reach target cell by diffusion

Question 4

What is endocrine?

Answer 4

Hormones produced by endocrine cells, released into the blood where they reach their targets via the circulation.

Question 5

What does the enteric (intrinsic) nervous system consist of?

Answer 5

Rich plexus of ganglia interconnected by tracts of fine, unmyelinated nerve fibres

Question 6

What does the enteric NS do?

Answer 6

Integrates the motor and secretory activities of the GI system - can function independently of central control

Question 7

Name 4 reasons as to what would cause enteric neural dysfunction/degeneration

Answer 7

Inflammation (ulcerative colitis/Crohn’s) Post-operative injury IBS Ageing (constipation)

Question 8

What does the enteric nervous system regulate?

Answer 8

Motility, Blood flow, water and electrolyte transport, secretion and absorption

Question 9

What are the 3 types of neurons?

Answer 9

Sensory, motor and interneurons - most are multipolar

Question 10

What does a sensory neuron do?

Answer 10

Respond to mechanical, thermal, osmotic and chemical stimuli

Question 11

What does a motor neuron do?

Answer 11

Axons terminate on smooth muscle cells of the circular or longitudinal layers, secretory cells of the gastrointestinal tract, or gastrointestinal blood vessels

Question 12

What do interneurons do?

Answer 12

Neurons between neurons integrate the sensory input and effector output.

Question 13

Fill in the blanks of the organisation of the plexi in the GIT

Answer 13

Question 14

Where is the myenteric plexus located and what is its function?

Answer 14

Located between circular and longitudinal smooth muscle layers - controls activity of muscularis externa -> gut motor function

Question 15

Where is the submucosal plexus located and what does it do?

Answer 15

Located in between submucosa and muscularis layer - senses environment in lumen such as blood flow, epithelial and endocrine cell function

Question 16

What are some minor plexuses and what do they supply?

Answer 16

Deep muscular plexus (inside muscular plexus) and the ganglia supplying the biliary system and pancreas

Question 17

What is the location of the cell bodies of the preganglionic, postganglionic neurones of the sympathetic NS?

Answer 17

Preganglionic neurons in the thoracic and lumbar spinal cord Postganglionic neurons in the pre/paravertebral ganglia

Question 18

What do the thoracic and lumbar splanchnic nerves carry?

Answer 18

Thoracic: inntervation to fore and midgut Lumbar: sympathetic innervation to the remainder of the gut

Question 19

What neurotransmitter is used in the lumbar and thoracic splanchnic nerves (sympathetic NS)?

Answer 19

Norepinephrine

Question 20

What happens when sympathetic nerves are activated?

Answer 20

Usually inhibit the activities of the GI system

Question 21

Where are the cell bodies of the pre/postganglionic neurons in the parasympathetic NS located?

Answer 21

Pre: brainstem and sacral spinal cord Post: close to target organs Pre synapse on ganglia close to gut wall/directly with enteric plexi

Question 22

What nerve branches to supply most of the GIT down to transverse colon?

Answer 22

Vagus nerve

Question 23

How is the transverse colon to the anus supplied with parasympathetic innervation?

Answer 23

Receive parasympathetic fibres from the pelvic nerves

Question 24

What neurotransmitter is used in the parasympathetic NS?

Answer 24

Acetyl Choline

Question 25

What does excitation of parasympathetic NS cause in the GIT?

Answer 25

Stimulates activities of GI

Question 26

How is the autonomic nervous system divided to include the enteric nervous system?

Answer 26

Question 27

What do the majority of sympathetic fibres not directly innervate?

Answer 27

Structures in GIT, instead they terminate on neurons in the intramural plexuses APART from vasoconstrictor sympathetic fibres directly innervate the blood vessels of the GIT (coeliac and sup/inf mesenteric)

Question 28

What does the CNS control in the GI system and what feeds back to the CNS for regulation?

Answer 28

Question 29

What is the GIT innervated by?

Answer 29

Intrinsic innervation: neurons of enteric nervous system Extrinsic innervation: afferents (pain/nausea/fullness), efferents (coordination - symp/parasymp NS) COMPLEXITY allows fine control of the gut

Question 30

How does the parasympathetic NS innervate the gut?

Answer 30

Via long preganglionic neurones (mostly vagus nerve) and short preganglionic neurones to promote gut motility, secretion and digestion

Question 31

How does the sympathetic NS innervate the gut?

Answer 31

Via short preganglionic and long postganglionic fibres to inhibit gut motility and secretion, and cause constriction of blood vessels and contraction of sphincters

Question 32

What is the function of the GI endocrine system?

Answer 32

Produced by endocrine cells in the mucosa/submucosa of the stomach, intestine and pancreas - can act as paracrine or neurocrine factors

Question 33

What are the different gut hormones and where are they secreted from?

Answer 33

Question 34

What are the hormones that are secreted from the stomach?

Answer 34

Gastrin, ghrelin, somatostatin and histamine

Question 35

What are the hormones that are secreted from the duodenum?

Answer 35

Secretin, CCK, somatostatin

Question 36

What are the hormones that are secreted from the pancreas?

Answer 36

Insulin, glucagon, somatostatin, pancreatic polypeptide

Question 37

What are the hormones that are secreted from the jejunum/ileum?

Answer 37

PYY, GIP, GLP-1, GLP-2, oxyntomodulin, neurotensis and somatostatin

Question 38

What are the hormones that are secreted from the ascending colon?

Answer 38

PYY, GLP-1, oxyntomodulin, neurotensin, somatostatin

Question 39

How do enteroendocrine cells sense nutrients?

Answer 39

They are set back behind mitotic figures as it wants to be sat in front of the blood vessel, with a ‘foot process’ which extends to the lumen of the GIT, so it can know what is happening in the gut lumen - secretory granules are present in the basal part of the cell

Question 40

What are the 2 regulatory functions of the Gastrointestinal endocrine system?

Answer 40

Regulation of mechanical processes of digestion (SM of GIT) Regulation of chemical and enzymatic processes of digestion (secretory cells loacated in wall of GIT, pancreas and liver)

Question 41

What are 2 non-regulatory functions of the gastrointestinal system?

Answer 41

Control of post absorptive processes involved in assimilation of digested food and CNS feedback regulating intake. Effects on growth and development of GIT

Question 42

What is an example of a paracrine action in the GIT?

Answer 42

Histamine released from stomach walls acts as key physiological stimulus to HCl secretion by parietal cells Somatostatin from stomach can inhibit acid secretion by paracrine mechanisms

Question 43

What is the function of Gastrin and where is it synthesised?

Answer 43

Synthesised in gastric antrum and upper small intestine Gastrin stimulates gastric acid secretion.

Question 44

What is gastrin release stimulated and inhibited by?

Answer 44

Release stimulated by: Amino acids and peptides in the lumen of the stomach, Gastric distension, Vagus nerve directly. Release inhibited when pH of stomach falls below 3

Question 45

Where is somatostatin synthesised and why is it released?

Answer 45

Synthesised in endocrine D cells of gastric and duodenal mucosa, pancreas Released in response to mixed meal (but carefully regulated by other hormones and depending on situation)

Question 46

What is the function of somatostatin?

Answer 46

Inhibits: gastric secretion, motility, intestinal and pancreatic secretions, release of gut hormones, intestinal nutrient and electrolyte transport, growth and proliferation

Question 47

What are somatostatin analogues used to treat?

Answer 47

Treat neuroendocrine tumours (difficult to pick up as they produce non specific effects, so have low 5yr survival rate)

Question 48

What is secretin and what does it do?

Answer 48

Secreted by S cells in upper duodenum and jejunum - major stimulus is presence of acid in the duodenum Stimulates pancreatic bicarbonate secretion

Question 49

What happens if there are high concentrations of secretin?

Answer 49

Inhibition of gastric acid and gastric emptying

Question 50

What is CCK and what does it do?

Answer 50

Secreted by cells most densely located in small intestine Stimulates pancreatic enzyme release, delays gastric emptying, stimulates gall bladder contraction and decreases food intake and meal size

Question 51

What is the release of CCK stimulated by?

Answer 51

Stimulated by fat and peptides in the upper small intestine - independent from vagus

Question 52

What is gastric inhibitory peptide/ glucose-dependent insulinotropic peptide and what does it do?

Answer 52

Secreted by mucosal K cells (mainly in duodenum/jejunum) Stimulates insulin secretion

Question 53

What causes the release of GIP?

Answer 53

Ingestion of a mixed meal - receptor antagonists reduce postprandial insulin release

Question 54

What is PYY and where is it found?

Answer 54

Peptide YY is found in cells throughout the mucosa of the terminal ileum, colon and rectum Released from L cells post prandially

Question 55

What is the function of PYY?

Answer 55

Reduces intestinal motility, gallbladder contraction and pancreatic exocrine secretion Inhibits intestinal fluid and electrolyte secretion PY3-36 inhibits food intake

Question 56

Why are both the sympathetic and ENS connected to blood vessels in the GIT?

Answer 56

When sympathetic is activated, usually GIT having a blood supply is not a priority. This means that sympathetic can have a constrictor effect on the vessels

Question 57

How are enteroendocrine cells specialised for nutrient sensing?

Answer 57

Receptors for all macronutrients and they respond respectively, with cells releasing certain hormones

Question 58

What is octreotide?

Answer 58

It is a somatostatin analogue used to treat gut cancers

Question 59

Why don’t we give somatostatin directly to people instead of nucleoside analogues to treat?

Answer 59

Protein hormones have really short half lives, so can be easily controlled - around 1-10 minutes BUT drugs need to have longer half lives as they don’t want to be infusing many times, also may interfere with negative feedback. Peptide binding sites for hormones are quite large, so it is difficult to find a different version. Also, can be specific to certain receptors, so can have different effects, without causing certain side effects