The effect of amphotericin B on lectin-induced aggregation of cell surface receptors

Abstract

The mobility of concanavalin A (ConA) and ricin receptors from NS20 neuroblastoma and C 6 glioma cells was studied using an electrophoretic technique. Cells attached to a solid support were exposed to an electrical field (12V cm −1) at room temperature. The distribution of lectin receptors on the cell surface was revealed by fluorescent conjugates of lectins and microscopic observation of the fixed cells. This technique allowed the estimation of the mobilities of lectin receptors either in free or liganded form, depending on the time at which the cells are labeled with lectins (either after or before electrophoresis). In line with previous observations [1] it is shown that in their free form ConA and ricin receptors are mobile all over the cell surface. Ligand binding induced an apparent receptor immobilization. Immobilization of ricin receptors from C 6 glioma cells could be induced either by the multivalent or the monovalent form of the lectin indicating that cross-linking of receptors by the ligand did not play a predominant role in the process of receptor immobilization. Amphotericin B but not ionophores like valinomycin or gramicidin blocked ligand-induced receptor immobilization. It is concluded from this observation that the effect of amphotericin B is not related to its ionophoretic properties but more likely to its capacity to interact with membrane cholesterol. When cells were incubated at 37 °C extensive patching of lectin receptors could be observed. This process was also inhibited by amphotericin B. A model is proposed to account for a role of cholesterol in ligand-induced receptor immobilization and patching.