pancreas Flashcards
pancreas function: summarise the endocrine and exocrine functions of the pancreas
where are blood vessels located in relation to duct cells
below in interstitium
what connects adjacent duct cells
tight junctions
mechanism of HCO3- production
CO2 enters cell from blood in interstitial capillaries → reacts with water in cell in presense of carbonic anyhdrase → carbonic acid → dissociates into H+ and HCO3-
simultaneous mechanism of watery secretion into duct lumen
Na+ and water move from interstitial capillaries through paracellular pathways and tight junction into lumen → watery secretion in duct lumen
mechanism of HCO3- secretion
Cl- within cell moves out via primary active transport through CFTR → Cl-/HCO3- anion exchanger in apical membrane activates as Cl- moves down concentration gradient back into cell, and HCO3- moves out down its concentration gradient (secondary active transport)
fate of H+ in duct cells
move out through basolateral membrane into bloodstream via Na+/H+ exchange down concentrations gradient (secondary active transport); no change in membrane potential as both have a single charge
fate of Na+ in duct cells
Na+/K+ ATPase pumps K+ in and Na+ out to maintain Na+ and osmotic gradient
fate of K+ in duct cells
move out via primary active transport through K+ channels
movement of ions in duct cells vs parietal cells
duct cell: H+ into blood, HCO3- into lumen; parietal cells: H+ into lumen, HCO3- into blood
effect of movement of ions on stomach and pancreatic venous blood
stomach venous blood is more alkali, pancreatic venous blood is more acidic
mixutre of zymogens
protease, trypsinogen, procolipase (coenzyme for lipid digestion)
example of protease zymogens
chymotrypsinogen, procarboxypeptidase
active enzymes in zymogens
pancreatic amylase, lipase
active form of trypsinogen
trypsin
what converts trypsinogen to trypsin in duodenum
brush border enzyme enterokinase
