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  • Title: Deoxycholic acid (DOC) affects the transport properties of distal colon.
    Author: Mauricio AC, Slawik M, Heitzmann D, von Hahn T, Warth R, Bleich M, Greger R.
    Journal: Pflugers Arch; 2000 Mar; 439(5):532-40. PubMed ID: 10764211.
    Abstract:
    Secondary bile acids can induce diarrhea. In the present study we examined the effects of deoxycholic acid (DOC) on equivalent short-circuit current (Isc) in rabbit colon and the cellular mechanisms involved in DOC action (rabbit and rat). Luminal DOC inhibited amiloride-sensitive Na+ absorption. In the presence of amiloride luminal DOC had a concentration dependent effect on Isc. Low concentrations (1-10 micromol/l) induced a lumen-positive current (51+/-3 microA/cm2, 10 micromol/l, n=7) which was inhibited by luminal Ba2+ suggesting the activation of a luminal K+ conductance. Higher luminal concentrations induced a lumen-negative current (-76+/-9 microA/cm2, 100 micromol/l, n=11). Basolateral application of DOC, also in the presence of amiloride, only induced lumen-negative Isc, (-58+/-10 microA/cm2, 100 micromol/l, n=6, EC50= 3 micromol/l). This current could be abolished completely by the K+ channel blocker 293B, a selective inhibitor of cAMP-dependent Cl- secretion. This action of DOC on Isc was additive to the effect of carbachol (CCH) but not additive to that of cAMP. In intact rat colon mucosa pre-treated with DOC a significant increase in cAMP production was observed. Fura-2 measurements of cytosolic Ca2+ activity ([Ca2+]i) in isolated colonic crypts (rabbit and rat) showed that 100 micromol/l DOC induced a weak [Ca2+]i increase. Whole-cell measurements of membrane voltage in isolated rat colonic crypts revealed a hyperpolarization by DOC (4.9+/-0.8 mV, 100 micromol/l, n=8) but a depolarization by prostaglandin E2 (PGE2, via cAMP) (24+/-7 mV, n=8). The present data show that DOC acts at more than one target in the colon: in the intact mucosa it activates luminal K+ channels and Cl- secretion and this is paralleled by an increase in cAMP production. In isolated crypts DOC probably activates a Ca(2+)-regulated K+ conductance but has no effect on cAMP. Hence DOC probably activates ion channels or channel-regulating factors in colonocytes and acts on non-epithelial cells to activate Cl- secretion indirectly.
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