Functional incorporation of ganglioside into intact cells: induction of choleragen responsiveness.

Abstract

NCTC 2071 cells are unable to synthesize the monosialoganglioside GM1. When grown in chemically defined medium these cells contained no detectable GM1 and did not accumulate 3': 5'-cyclic AMP in response to choleragen. Incubation of the cells with [3H]GM1 permitted quantification of ganglioside uptake which was dependent on time and concentration of [3H]GM1 in the medium. Responsiveness to choleragen was demonstrated with binding of as few as 17,000 molecules of [3H]GM1 per cell; a maximal response was observed with 10(5) molecules per cell. With increasing cellular content of GM1, the rate of rise in intracellular cyclic AMP in response to choleragen was increased. With greater than 1 X 10(5) molecules of GM1 per cell, the delay between addition of choleragen and the cyclic AMP response was inversely proportional to choleragen concentration; less than 250 molecules of choleragen per cell caused a significant increase in cyclic AMP after 8 hr of incubation. Although the responsiveness of intact cells to choleragen was dependent on GM1, choleragen activation of adenylate cyclase in homogenates with 0.6 mM NAD was independent of added ganglioside. These observations are consistent with the view that exogenous ganglioside GM1 can be functionally integrated into the surface membrane of intact cells and serve as the choleragen receptor. Furthermore, although exogenous GM1 is required for choleragen responsiveness in intact cells, the ganglioside does not play an obligatory role in cell homogenates, where the surface receptor can presumably be bypassed.