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MEMBRANE TRANSPORTERS, ION CHANNELS, AND PUMPS
Department of Internal Medicine, Yale University, New Haven, Connecticut 06520
Submitted 31 October 2003 ; accepted in final form 14 April 2004
HCO3– secretion has long been recognized in the mammalian colon, but it has not been well characterized. Although most studies of colonic HCO3– secretion have revealed evidence of lumen Cl– dependence, suggesting a role for apical membrane Cl–/HCO3– exchange, direct examination of HCO3– secretion in isolated crypt from rat distal colon did not identify Cl–-dependent HCO3– secretion but did reveal cAMP-induced, Cl–-independent HCO3– secretion. Studies were therefore initiated to determine the characteristics of HCO3– secretion in isolated colonic mucosa to identify HCO3– secretion in both surface and crypt cells. HCO3– secretion was measured in rat distal colonic mucosa stripped of muscular and serosal layers by using a pH stat technique. Basal HCO3– secretion (5.6 ± 0.03 µeq·h–1·cm–2) was abolished by removal of either lumen Cl– or bath HCO3–; this Cl–-dependent HCO3– secretion was also inhibited by 100 µM DIDS (0.5 ± 0.03 µeq·h–1·cm–2) but not by 5-nitro-3-(3-phenylpropyl-amino)benzoic acid (NPPB), a Cl– channel blocker. 8-Bromo-cAMP induced Cl–-independent HCO3– secretion (and also inhibited Cl–-dependent HCO3– secretion), which was inhibited by NPPB and by glibenclamide, a CFTR blocker, but not by DIDS. Isobutyrate, a poorly metabolized short-chain fatty acid (SCFA), also induced a Cl–-independent, DIDS-insensitive, saturable HCO3– secretion that was not inhibited by NPPB. Three distinct HCO3– secretory mechanisms were identified: 1) Cl–-dependent secretion associated with apical membrane Cl–/HCO3– exchange, 2) cAMP-induced secretion that was a result of an apical membrane anion channel, and 3) SCFA-dependent secretion associated with an apical membrane SCFA/HCO3– exchange.
chloride/bicarbonate exchange; short-chain fatty acid/bicarbonate exchange; anion channel; pH stat
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