Concanavalin A binding to human erythrocytes leads to alterations in properties of the membrane skeleton

Abstract

Three properties related to the erythrocyte membrane skeleton are found to be altered after the binding of concanavalin A (Con A) to erythrocytes or their isolated membranes. Con A binding to normal erythrocytes imparts resistance to heat (49 degrees C)-induced fragmentation of the cells. The fragmentation, due to denaturation of spectrin at 49 degrees C, is prevented by Con A in a dose-dependent manner, but levels off at concentrations of Con A in excess of 100 micrograms/ml. The binding of Con A to ghosts isolated from normal, trypsin- or Pronase-treated cells prevents (completely or substantially) the elution of the skeletal protein complex when the membranes are extracted under low-ionic-strength conditions in the cold. The Con A-agglutinated membranes of trypsin- and Pronase-treated, but not normal, cells show cross-linking of skeletal proteins and band 3 with dimethyl adipimidate, a 0.86 nm (8.6 A)-span bifunctional reagent. The extent of cross-linking is greater in the Pronase-treated membrane than in the less-agglutinable trypsin-treated membranes. The results show that, after Con A has bound, rearrangements occur in the membrane that alter properties of the skeletal proteins. Additionally, redistribution of the skeletal proteins and the Con A receptor occurs in the lectin-agglutinated membranes.