Quinine‐ and quinidine platelet antibodies can react with GPIIb/IIIa

Abstract
Quinine- and quinidine-dependent antiplatelet antibodies are generally believed to bind to the membrane glycoprotein complex, GPIb/IX. However, we and others have found that some drug-dependent antibodies bind to platelets from patients with the Bernard-Soulier syndrome which lack these glycoproteins. We therefore studied the reactions of a group of these antibodies with normal and Bernard-Soulier platelets and their membrane proteins. As indicated by rosette formation of the sensitized platelets around protein A-Sepharose beads, two quinine- and two quinidine-dependent antibodies reacted with both normal and Bernard-Soulier syndrome platelets at a high (300 .mu.M) concentration of drug. At a pharmacologic drug concentration (10 .mu.M), all four antibodies reacted with normal platelets, but only the two qunine-induced antibodies reacted with Bernard-Soulier platelets. Immunoprecipitation studies with solubilized, tritium-labelled normal platelets, at both high and low drug concentrations, showed that each of the four antibodies precipitated proteins corresponding to GPIb and GPIX. Fainter bands corresponding to glycoproteins IIb and IIIa, which do not label well with tritium, were also detected. With radioiodinated normal platelets, it was found that each of the four antibodies was capable of precipitating GPIIb/IIIa, but only in the presence of drug. The four antibodies also promoted drug-dependent precipitation of GPIIb and GPIIIa from lysates of radioiodinated Bernard-Soulier platelets. The two quinine-dependent antibodies precipitated these glycoproteins at both high and low drug concentrations, while the quinidine-dependent antibodies reacted much more strongly at the higher drug concentration. Precipitation of GPIb/IX was not observed with BSS platelets. Absorption of a quinine-induced antibody with Bernard-Soulier platelets in the presence of drug eliminated its ability to precpitate GPIIb and GPIIIa. However, the absorbed antibody retained the ability to precipitate GPIb from solubilized normal platelets. Thus, at least two drug-dependent antibodies were present, one specific for GPIb/IX and the other for GPIIb/IIIa. These findings indicate that glycoproteins IIb and/or IIIa, in addition to the GPIb/IX complex, can serve as targets for drug-dependent antibodies in both intact and detergent-solubilized platelet preparations.