Platelet damaging factor, a fifth activity of staphylococcal alpha-toxin.

Abstract

Crude and purified staphylococcal alpha-toxin were used to demonstrate that the platelet-damaging effect of crude alpha-toxin represents a fifth activity of the alpha-toxin molecule. The homogeneity of the purified toxin employed was demonstrated by ultracentrifugation, Ouchterlony, and immunoelectrophoretic methods. Continuous-flow electrophoretic migration studies demonstrated under a variety of conditions that the platelet-damaging and the alpha-hemolytic activities migrated as a unit. Fractionation studies with the use of Sephadex G-100, carboxymethyl cellulose, and diethylaminoethyl cellulose failed to separate these two activities. Further, when alpha-toxin of demonstrated purity and crude toxin were adjusted to the same hemolytic activity, they possessed the same platelet-damaging activity. In addition, heat-reactivation studies with crude alpha-toxin revealed that the platelet-damaging effect was inactivated and reactivated in parallel with alpha-hemolytic activity. Comparable studies with purified alpha-toxin showed parallel inactivation of both activities at 60 C. Additional heating at 100 C failed to reactivate either activity. Electron micrographs revealed that purified alpha-toxin produced distinct degenerative changes in rabbit platelets. These studies also provided definite evidence that purified alpha-toxin has a damaging effect on human platelets. Monovalent alpha-antisera prevented platelet damage.