Ion transport by rabbit colon

Abstract

Descending rabbit colon, stripped ofmuscularis externa, absorbs Na and Cl under short-circuit conditions and exhibits a residual ion flux, consistent with HCO₃ secretion, whose magnitude is approximately equal to the rate of active Cl absorption. Net K transport was not observed under short-circuit conditions. The results of ion replacement studies and of treatment with ouabain or amiloride suggest that the short-circuit currentI _sc is determined solely by the rate of active Na transport and that the net movements of Cl and HCO₃ are mediated by a Na-independent, electrically-neutral, anion exchange process. Cyclic AMP stimulates an electrogenic Cl secretion, abolishes HCO₃ secretion but does not affect the rate of Na absorption under short-circuit conditions. Studies of the effect of transepithelial potential difference on the serosa-to-mucosa fluxesJ _sm ⁱ of Na, K and Cl suggest thatJ _sm ^Na ,J _sm ^K and one-third ofJ _sm ^Cl may be attributed to ionic diffusion. The permeabilities of the passive conductance pathway(s) are such thatP _K∶P _Na∶P _Cl=1.0∶0.07∶0.11. Electrolyte transport byin vitro rabbit colon closely resembles that reported fromin vivo studies of mammalian colon and thus may serve as a useful model for the further study of colonic ion transport mechanisms.