von Willebrand factor proteolysis is deficient in classic, but not in bone marrow transplantation-associated, thrombotic thrombocytopenic purpura

Thrombotic thrombocytopenic purpura (TTP) after bone marrow transplantation (BMT) differs from classic TTP in its clinical course and therapy. A characteristic of classic TTP is the inhibition of a plasma protease that specifically cleaves von Willebrand factor (vWF), thus reducing its multimeric size. We investigated whether this protease was also inhibited in BMT-associated TTP. Plasma from patients with classic or BMT-associated TTP was incubated with recombinant vWF R834Q, a vWF mutant with enhanced sensitivity to the protease. The proteolysis of vWF multimers was analyzed and quantified on Western blot. Metalloprotease activity was strongly inhibited in the classic TTP patient group. However, metalloprotease activity was normal in the BMT-associated TrP patient group. The difference in activity between the two patient groups was highly significant (P = .0016). The results indicate that the etiologies of classic and BMT-associated TTP are indeed different and provide an explanation for the lack of success of plasma exchange in BMT-associated TTP.