Cholera toxin facilitates calcium transport in jejunal brush border vesicles

Abstract

Cholera toxin is very well characterized in terms of the activation of adenylate cyclase. In some systems, however, this cyclase activation does not seem to account for all of the physiological responses to the toxin. On the premise that cholera toxin may also exert effects through other second messenger compounds we have studied the effect of cholera toxin on the rate of Ca²⁺ movement across the membrane of intestinal brush border vesicles. Increasing concentrations of cholera toxin progressively accelerated the passive uptake of Ca²⁺ into, and the efflux of Ca²⁺ from, an osmotically active space in brush border membrane vesicles. This effect of cholera toxin was saturable by excess Ca²⁺ and was relatively specific, as the toxin did not affect vesicle permeability to an uncharged polar solute. The toxin had two high affinity Ca²⁺ binding sites on the A subunit as measured by equilibrium dialysis. Ca²⁺ transport facilitated by cholera toxin was temperature dependent, required the holotoxin, and could be inhibited by preincubation of the toxin with excess free ganglioside G_M1.This increased rate of Ca²⁺ influx caused by the in vitro addition of cholera toxin to brush border membrane vesicles may have physiological significance as it was comparable to rates observed with the Ca ionophore A23187. Similar effects occurring in vivo could permit cholera toxin to increase cytoplasmic Ca²⁺ concentrations and to produce accompanying second messenger effects.