chapter 8 - GI physiology

Question 1

extrinsic component of innervation of GI tract

Answer 1

sympathetic and parasympathetic innervation

Question 2

intrinsic component of GI tract innervation

Answer 2

enteric nervous system

Question 3

enteric nervous system

Answer 3

intrinsic component of innervation of GI tract
wholly contained within the submucosal and myenteric plexuses in the wall of the GI tract
communicates extensively with the parasympathetic and sympathetic nervous systems
can direct all function of the GI tract, even in the absence of extrinsic innervation

Question 4

parasympathetic innervation of the GI tract

Answer 4

supplied by the vagus nerve and the pelvic nerve
vagus innervates upper GI tract, including striated muscle of upper third of esophagus, wall of stomach, small intestine, ascending colon
pelvic innervates lower GI tract, including striated muscle of external anal canal and the walls of the transverse, descending, and sigmoid colons
long preganglionic fibers that synapse in ganglia in or near target organs
in GI tract, ganglia in walls of organs within myenteric and submucosal plexuses
postganglionic neurons are cholinergic or peptidurgic (substance P and VIP)

Question 5

vagus

Answer 5

mixed
75% afferent - sensory info from periphery to CNS
25% efferent - deliver motor info from CNS to target tissues in periphery (smooth muscle, secretory, and endocrine cells)

Question 6

vagovagal reflexes

Answer 6

reflexes triggered by afferent info from mechanoreceptor adn chemoreceptors in GI mucosa via vagus nerve
afferent limb of reflexes is also in the vagus nerve

when both afferent and efferent limbs are contained in the vagus nerve

Question 7

sympathetic innervation of the GI tract

Answer 7

preganglionic fibers short and synpase on ganglia outside GI tract
4 ganglia: celiac, superior mesenteric, inferior mesenteric, and hypogastric
postgangionic fibers are adrenergic - leave sympathetic ganglia and synapse on ganglia in myenteric and submucosal plexuses or directly innervate SM, endocrine, or secretory cells
about 50% are afferent and 50% efferent

Question 8

NT in enteric NS (list)

Answer 8

ACh
Norepi
VIP
GRP/bombesin
enkephalins (opiates)
neuropeptide Y
substance P

Question 9

Acetylcholine (ACh)

Answer 9

produced by cholinergic neurons in interic NS
actions:
1: contraction of SM in wall
2: relaxation of sphincters
3: increase salivary secretion
4: increase gastric secretion
5: increase pancreatic secretion

binds to muscarinic (M3) receptors on parietal cells
second messengers are IP3/Ca2+
activates phospholipase C => liberates diacylglycerol and IP3 => IP3 then releases Ca2+ from intracellular stores
Ca2+ and diacylglycerol activate protein kinases that produce final physiological action = H+ secretion by parietal cells

Question 10

norepinephrine (NE)

Answer 10

produced by adrenergic neurons in enteric NS
actions:
1: relaxation of SM in wall
2: contraction of sphincters
3: increase salivary secretion

Question 11

vasoactive intestinal peptide (VIP)

Answer 11

released by neurons of mucosa and SM in enteric NS
actions:
1: relaxation of smooth muscle
2: increase intestinal secretion
3: increase pancreatic secretion
controls opening of lower esophageal sphincter during swallowing by producing relaxation of SM of the lower esophageal sphincter

Question 12

gastrin-releasing peptide (GRP)/bombesin

Answer 12

released by neurons of gastric mucosa as part of enteric NS

increases gastrin secretion

Question 13

enkephalins (opiates)

Answer 13

released by neurons of mucosa and smooth muscle as part of enteric NS
actions:
1: contraction of SM
2: decreases intestinal secretion

Question 14

neuropeptide Y

Answer 14

released by neurons of mucosa and SM as part of enteric NS

actions:
1: relaxation of SM
2: decrease intestinal secretion

Question 15

substance P

Answer 15

cosecreted with ACh by cholinergic neurons as part of enteric NS
actions:
1: contraction of SM
2: increase salivary secretion

Question 16

GI peptides that are hormones (list)

Answer 16

• gastrin
• cholecystokinin (CCK)
• secretin
• glucose-dependent insulinotropic peptide/gastric inhibitory peptide (GIP)

Question 17

GI peptides that are paracrines

Answer 17

somatostatin

histamine (but not a peptide)

Question 18

GI peptides that are neurocrines

Answer 18

ACh
norepi
VIP
GRP/bombesin
enkephalins
neuropeptide Y
substance P

Question 19

gastrin

- hormone family
- site of secretion
- stimuli for secretion
- actions

Answer 19

of the gastrin CCK hormone family
secreted by G-cells of stomach
stimulated by:
1. small peptides and AA
2: digestion of the stomach
3: vagal stimulation (GRP/bombesin)
inhibited by:
1: low pH of gastric contents
2: somatostatin
actions:
1: increase gastric H+ secretion
2: stimulates growth of gastric mucosa (trophic effect)

reaches parietal cells by endocrine mechanism
binds to cholecystokinin B (CCKb) on parietal cells => stimulates H+ secretion through IP3/Ca2+ second messenger system

Question 20

cholecystokinin (CCK)

- hormone family
- site of secretion
- stimuli for secretion
- actions

Answer 20

part of gastrin/CCK family
secreted by I cells of duodenum and jejunum
stimuli:
1: small peptides and AA
2: fatty acids
actions:
1: increase pancreatic enzyme secretion (lipases and amylase)
2: increase pancreatic HCO3 secretion, potentiates effects of secretin
3: stimulates contraction of gallbladder and relaxation of sphincter of Oddi - results in ejection of bile into small intestine
4: stimulates growth of the exocrine pancreas and gallbladder
5: inhibits gastric emptying, increases gastric emptying time - gives more time for fat digestion and absorption
slows delivery of chyme from stomach

Question 21

secretin

- hormone family
- site of secretion
- stimuli for secretion
- actions

Answer 21

part of secretin/glucagon hormone family
secreted by S cells of duodenum
stimuli:
1: H+ in the duodenum
2: fatty acids in the duodenum
actions:
1: increase pancreatic HCO3 secretion - neutralizes H+ in lumen
2: increase biliary HCO3 secretion - same as 1 - necessary because pancreatic lipases have pH optimums between 6 and 8
3: decrease gastric H+ secretion
4: inhibits trophic effect of gastrin on gastric mucosa (parietal cells)

Question 22

glucose-dependent insulinotropic peptide (GIP)

- hormone family
- site of secretion
- stimuli for secretion
- actions

Answer 22

part of secretin-glucagon hormone family
secreted in duodenum and jejunum
stimuli:
1: fatty acids
2: amino acids
3: oral glucose - allows oral glucose to be more effective at stimulating insulin secretion than IV glucose
actions:
1: increase insulin secretion from pancreatic beta cells
2: decrease gastric H+ secetion

Question 23

C terminal tetrapeptide

Answer 23

minimum fragment necessary for biologic activity of gastrin, but only 1/6th as effective as entire molecule

Question 24

effects of gastrin-secreting tumors (zollinger-ellison syndrome)

Answer 24

H+ secretion increased
trophic effect of gastrin causes gastric mucosa to hypertrophy
tumor usually in non-beta-cell pancreas
duodenal ulcers
acidification of intestinal lumen => inactivation of pancreatic lipase => dietary fats not adequately digested or absorbed and fat excreted in stool (steatorrhea)
treat with H2 receptor blockers, administration of inhibitors of H+ pump, removal of tumor, gastric resection

Question 25

somatostatin

Answer 25

secreted by D cells of GI mucosa
in response to:
1: decreased luminal pH
actions:
1: inhibits secretion of other GI hormones
2: inhibits gastric H+ secretion
also secreted by hypothalamus and by delta cells of endocrine pancreas

Question 26

histamine

Answer 26

paracrine
secreted by endocrine-type cells of GI mucosa, particularly in H+ secreting region of stomach
stimulates H+ secretion by the gastric parietal cells

binds to H2 receptors
second messenger = cAMP via adenylyl cyclase and Gs protein
cAMP activates protein kinase A => secretion of H+ by parietal cells

Question 27

saliva

- characteristics 
- factors that increase secretion
- factors that decrease secretion

Answer 27

high HCO3 and K+
hypotonic
alpha-amylase and lingual lipase
increase:
1: parasympathetic (prominent)
2: sympathetic
decrease:
1: sleep
2: dehydration
3: atropine

Question 28

gastric secretion (HCl)

- characteristics 
- factors that increase secretion
- factors that decrease secretion

Answer 28

HCl
increase:
1: gastrin
2: acetylcholine
3: histamine
decrease:
1: H+ in stomach
2: chyme in duodenum
3: somatostatin
4: atropine
5: cimetidine
6: omeprazole

Question 29

gastric secretion (pepsinogen and intrinsic factor)

Answer 29

parasympathetics increase secretion

Question 30

pancreatic secretions

- characteristics 
- factors that increase secretion
- factors that decrease secretion

Answer 30

A: high HCO3-, isotonic
increase:
1: secretin
2: CCK (potentiates secretin)
3: parasympathetic

B: pancreatic lipase, amylase, proteases
increase:
1: CCK
2: parasympathetic

Question 31

bile secretion

- characteristics 
- factors that increase secretion
- factors that decrease secretion

Answer 31

bile salts, bilirubin, phospholipids, cholesterol
increase:
1: CCK (contraction of gall bladder and relaxation of sphincter of oddi)
2: parasympathetic
decrease:
1: ileal resection

Question 32

intrinsic factor

Answer 32

required for absorption of vitamin B12 in ileum

Question 33

atropine

Answer 33

blocks muscarinic receptors on parietal cells and therefore blocks action of ACh

Question 34

cimetidine

Answer 34

blocks H2 receptors and blocks action of histamine on parietal cells