A Cl- conductance sensitive to external pH in the apical membrane of rat duodenal enterocytes

Cyclic adenosine-3',5'-monophosphate production is greater in rabbit duodenal crypt than in villus cells

BACKGROUND

Duodenal surface epithelial cells secrete bicarbonate. Agonists of duodenal alkaline secretion (such as vasoactive intestinal polypeptide (VIP), prostaglandin E2 (PGE(2)), and forskolin) increase intracellular cyclic adenosine-3', 5-monophosphate (cAMP), and cAMP stimulates Cl-HCO(3)- exchange in duodenal brush border membrane vesicles. As intestinal villus and crypt cells differ in function, our aims were to contrast cAMP generation in duodenal villus versus crypt cells in response to VIP, PGE(2), and forskolin.

METHODS

Villus and crypt rabbit duodenal enterocytes were isolated by calcium chelation. To prevent the degradation of cAMP in vitro, phosphodiesterase activity was inhibited. cAMP production was quantitated in response to VIP (10(-10)-10(-5)M), PGE(2) (10(-10)-10(-4)M), and forskolin (10(-8)-10(-3)M).

RESULTS

In crypt cells cAMP generation was approximately 10-fold greater (P < 0.001) in response to VIP, PGE(2), and forskolin than to villus cells. The relative orders of potency (that is, D(50), VIP > PGE(2) > forskolin) and efficacy (that is, V max, forskolin > VIP and PGE(2)) were similar in villus and crypt cells.

CONCLUSION

cAMP production is greater in duodenal crypt than in villus enterocytes at rest and in response to forskolin, VIP, and PGE(2), suggesting that alkaline secretion may differ along the villus-to-crypt axis.

Human proximal duodenal ion and water transport. Role of enteric nervous system and carbonic anhydrase

Intestinal ion transport is mediated by the interaction of enterocyte function, the enteric nervous system, humoral agents, and mucosal production of carbonic anhydrase. Our purpose was to examine the effect of the carbonic anhydrase inhibitor acetazolamide and inhibition of the enteric nervous system with the topical anesthetic lidocaine on basal and prostaglandin E2-stimulated ion and water transport and transmucosal electrical potential difference. At rest, mean basal (95% confidence intervals) net ion secretion into the human proximal duodenum was: Cl- 670 (288-1052), Na+ 818 (410-1225), K+ 32 (14-51) mumol/cm/hr. Basal net water transport was 30 (14.6-45.3) ml/hr, and the potential difference (PD) was 7.0 (3.6-10.9) mV, lumen negative. Intraluminal prostaglandin E2 increased the secretion of all ions, water, and the PD. After pretreatment with acetazolamide and luminal administration of lidocaine, basal ion transport was unchanged, but the response to luminal PGE2 was inhibited. It is concluded that: (1) at rest there is a net secretion of Na+, K+, Cl-, and water by the human proximal duodenum; and (2) PGE2-stimulated water electrolyte secretion is dependent in part upon mucosal carbonic anhydrase activity and the enteric nervous system.