Alkaline secretion by Necturus proximal duodenal mucosa

Abstract

Proximal duodenum from the amphibian Necturus was stripped of muscle layers and the mucosa was mounted as a tube for studies of alkali transport or as a flat sheet for intracellular impalement by voltage-sensitive glass micro-electrodes. The mucosa alkalinized the unbuffered luminal perfusate at a high rate (3.4 muequiv. cm-1 h-1) and developed a transepithelial electric potential difference of 5.7 mV (lumen negative). Transport was inhibited by 2,4-dinitrophenol (10(-4) M) and by furosemide (10(-3) M) and SITS (10(-3) M) on the seros but not on the mucosal side, indicating dependence on tissue metabolism and on serosal membrane Cl-/HCO3- exchange. Prostaglandin E2 (10(-7)-10(-5) M) and dibutyryl cyclic AMP (10(-6)-10(-4) M) had no effects on the secretion or transepithelial electrical potential difference. removal of serosal HCO3- decreased luminal alkalinization by 75%, indicating a contribution by passive migration of HCO3- and/or a dependence of transcellular transport on the nutrient supply of this ion. Administration of HCO3- (17.8 mM) to the luminal perfusate affected neither the transepithelial nor transmembrane electrical potential differences nor the resistance ratio. It is thus unlikely that the luminal membrane possesses any major HCO3- conductance.