Mechanisms of Platelet Activation by Antithymocyte Globulin (ATG).

We have previously shown that polyclonal rabbit ATG from Fresenius (ATG-F) can induce non-overt DIC in patients undergoing hematopoietic stem cell transplantation (HSCT) [Weber et al. 2003]. The compensated state of the coagulopathy suggested that the severe drop in platelet counts (>60%) observed in patients with normal pretreatment levels was not solely due to thrombin generation and platelet consumption. We thus further investigated the mechanisms of ATG-F-induced thrombocytopenia, hypothesizing that ATG-F had direct platelet-stimulating activity. Using an indirect flow cytometric binding assay we found that, compared to control IgG, ATG-F dose-dependently (1–100 μg/ml) bound to the surface of resting and TRAP-activated platelets, showing an up to 50fold increase in MFI at 50–100 μg/ml. In a washed platelet system, in which baseline positivity for CD62P was generally 51 ng/ml (mean+2SD of 23 controls). In these patients, an ATG-F-induced drop in platelet count to 38 and 19% of baseline was associated with a 1.7 and 2.2fold increase in sCD62P, respectively, indicating further platelet activation. In summary, strong binding of ATG-F to resting platelets may accelerate their clearance by the reticulo-endothelial system, thus contributing to the pathophysiology of thrombocytopenia. While ATG-F alone had negligible effects on resting platelets, it significantly enhanced activation of prestimulated platelets. Patients with normal-to-high platelet counts and evidence of in vivo platelet activation may especially be prone to this potentially hazardous side effect.