Gastric Motility And Secretions

Question 1

Gastric accommodation

Answer 1

The ability of the stomach to relax when in the presence of high amounts of food
- vagus nerve controls this

different from receptive relaxation in that this is NOT automatic when initiating swallowing

Question 2

Mechanical actions of the stomach

Answer 2

1) propulsion
- peristaltic wave moves food bolus towards a pyloris

2) grinding
- antrum cells stimulated by gastrin increase contractions of stomach and churn the chyme better

3) retropulsion
- minimal amounts of the chyme in the stomach gets through the pyloric sphincter, whereas the rest is sent back into the stomach to repeat 1-2 steps.

Question 3

How does the body regulate motility of the stomach?

Answer 3

1) Parasympathetics and hormones gastrin and motilin
- all three of these work to increase the frequency of action potentials and force of contractions

2) Sympathetics and hormones secretin and GIP
- all three work to decrease the frequency of action potentials and force of contractions

Question 4

Migrating myoelectric complexes

Answer 4

Motilin mediated gastric contractions that occur in 90-minute intervals
- function to clear stomach of any remaining residues left over

Question 5

What two factors are major in slowing/inhabiting gastric emptying?

Answer 5

Fat and H+ ions
- both stimulate CCK release

Also H+ ions stimulate ENS reflexes which slows gastric smooth muscle down, permitting time for pancreatic bicarbonate to come in and decrease acid before duodenum

Question 6

Regulation of pepsinogen

Answer 6

Zymogen that is released in the presence of peptides
- strongest stimulant of pepsinogen secretion is ACh

Is spontaneously lyzed into pepsin at pH less than 5
- however pepsin only functions at pH lower than 3 (hence why the stomach is usually less than 2 pH where as the duodenum is >4 pH

Question 7

Vitamin B12 (cobalamin) absorption

Answer 7

Mediated by intrinsic factor (IF)

Cobalamin is cleaved by pepsin from dietary proteins and released into the stomach

Gastric glands secrete haptocorrin (R-protein) => binds to cobalamin

Gastric parietal cells secretes IF and the pancreas secretes bicarbonate and proteases

Haptocorrin complex, bicarbonate and proteases all go into the small intestine
- complex is released due to degradation of haptocorrin

Cobalamin binds to IF and forms a complex which allows it to be absorbed by small intestine by Ileal enterocytes

Question 8

Gastric acid secretion steps

Answer 8

• requires parietal cells*
  1) carbon dioxide and water combine to form carbonic acid in parietal cells
  2) carbonic acid spontaneously loses H+ ions in parietal cells and becomes bicarbonate
  3) H+/K+ ATPase pumps H+ ions into the lumen and K+ ions into the parietal cells

4) bicarbonate leaves parietal cells via HCO/Cl- channels
- Cl comes in, HCO goes out

5) chloride diffuses through the membrane of parietal cells into the stomach lumen and combines with H+ ions to form HCL

Question 9

Regulation of gastric acid secretion

Answer 9

ACh, histamine, gastrin somatostatin, and PG2 all help regulate this

ACh = muscarinic nerves on M3 receptors (increases IP3/DAG)
- Gq channels

Gastrin = G-cells and bind to CCK2 PLC receptors (increase IP3/DAG)

• **can also bind to ECL cells and release histamine to help its effect
• Gq channels

Histamine = ECL cells and binds to H2 AC receptors (increases cAMP)
- Gs channels

Somatostatin and PG1 = binds to their own receptors but works to inhibit Adenylate Cyclase in parietal cells
- GI channels

Question 10

What is the cephalad phase of gastric acid secretion?

Answer 10

Is what occurs in the stomach once swallowing has initiated

Vagus nerve stimulates parietal cells via ACh and G cells via GRP
- G cells = makes gastrin to further stimulate parietal cells

Question 11

Gastric phase of gastric acid secretion

Answer 11

Vagovagal reflexes based on distention of stomach and presence of amino acids and peptides

Stimulates the same things as seen in the cephalic phase, but requires afferents to get sent to vagus first and then the vagus goes.

Question 12

Effects of eating on acid secretion

Answer 12

1) within 1 hr of digesting food
- stomach is full and buffers the H+ ions in the stomach
- total levels of H+ ions tanks (<100mL)
- H+ secretion rate starts to increase

2) within 1-2 hrs
- stomach begins to empty
- total levels of H+ ions very slightly increases
- H+ secretion rates are at max magnitude (very high)

3) >3hrs
- stomach is empty
- total levels of H+ ions are very high z(back to resting level = 800mL)
- H+ secretion rates tank (super low)

Question 13

Why are total numbers of H+ ions and rate of H+ secretion inversely related?

Answer 13

Because gastrin is the prime mover in H+ secretion and it is inhabited in low pH (high H+ concentrations)

Also low pH = increases somatostatin release