Effects of bicarbonate on fluid and electrolyte transport by guinea pig and rabbit gallbladder: Stimulation of absorption

Abstract

The effect of bicarbonate (HCO₃) on fluid absorption by guinea pig gallbladder was investigatedin vitro. Stimulation of fluid absorption was concentration dependent resulting in a fourfold increase in transport over the range 1 to 50mm. Phosphate, Tris, glycodiazine and glutamine buffers failed to substitutte for HCO₃ in stimulating absorption. Unidirectional²²Na fluxes were measured across short-circuited sheets of guinea pig and rabbit gallbladders mounted in Ussing-type chambers. In both species the net Na flux was unaffected by serosal HCO₃ alone but was stimulated by addition of HCO₃ to the mucosal bathing solution. Transepithelial electrical potential difference in rabbit gallbladder was about 1.4 mV (lumen positive) when HCO₃ was present in the mucosal or in both compartments. This fell to 0.2 mV under HCO₃-free conditions or when HCO₃ was present only in the serosal solution. The respective values for guinea pig gallbladder were −1.6 and −0.6 mV (lumen negative). HCO₃ stimulation of Na absorption by guinea pig gallbladder was abolished by increasing the bathing pH from 7.4 to 7.8, an effect resulting mainly from a reduction inJ _mis ^Na . Tris buffer (25mm) inhibited HCO₃-dependent fluid absorption in this species completely at pH 8.5 and partially at 7.5. These results indicate that HCO₃ stimulates gallbladder transport in both species by an action from the mucosal side. This effect cannot be attributed to simple buffering of H⁺ but may be explained by the participation of HCO₃ in the maintenance of intracellular H⁺ for a Na/H-exchange.