Identification of human erythrocyte endogenous protease(s), triggered by sphingomyelinases D form Loxosceles spiders venom, involved in the phenomenon of complement-dependent hemolysis.

Intravascular hemolysis caused by poisoning by spiders Loxosceles, is dependent on the sphingomyelinase D action, a toxin that binds to the erythrocytes membrane and activates proteases responsible for the glycophorins cleavage, rendering the cells sensitive to the lytic action of the autologous complement system. This study aimed to identify possible membrane proteases involved in this process. The toxin was expressed, purified and showed to be functionally active. Treatment of human erythrocytes with the toxin caused the removal of the membrane glycophorins, but did not act on Kell, CD59, DAF and CR1 and induced deposition of C1q, C3, C4, C5b-9, factor B and properdin. Pretreatment of cells with inhibitors galardin, phenanthroline and bestatin reduced the complement-dependent hemolysis. The action of membrane proteases upon the fluorescent substrate Abz-FRSSR-EDDnp, induced by the toxin, was prevented by PMSF, simvastatin, and phenanthroline, suggesting the involvement of metallo- and serine proteases in this complement-dependent hemolysis model. (AU)