Studies on the Electrical Potential Profile across Rabbit Ileum

Abstract

When isolated strips of mucosal rabbit ileum are bathed by physiological electrolyte solution the electrical potential difference (PD) across the brush border (ψ_mc) averages 36 mv, cell interior negative. Rapid replacement of Na in the mucosal solution with less permeant cations, Tris or choline, results in an immediate hyperpolarization of ψ_mc. Conversely, replacement of choline in the mucosal solution with Na results in an abrupt depolarization of ψ_mc. These findings indicate that Na contributes to the conductance across the brush border. The presence of actively transported sugars or amino acids in the mucosal solution brings about a marked depolarization of ψ_mc and a smaller increase in the transmural PD (Δψ_ms). It appears that the Na influx that is coupled to the influxes of amino acids and sugars is electrogenic and responsible for the depolarization of ψ_mc. Under control conditions Δψ_ms can be attributed to the depolarization of ψ_mc together with the presence of a low resistance transepithelial shunt, possibly the lateral intercellular spaces. However, quantitatively similar effects of amino acids on ψ_mc are also seen in tissues poisoned with metabolic inhibitors or ouabain. Under these conditions Δψ_mc is much smaller than under control conditions. Thus, the depolarization of ψ_mc might not account for the entire Δψ_ms, observed in nonpoisoned tissue. An additional electromotive force which is directly coupled to metabolic processes might contribute to the normal Δψ_ms.