We analyzed the immunological characteristics of patients with idiopathic thrombocytopenic purpura (ITP) and antiglycoprotein (GP) IIb/IIIa or GPIb autoantibodies. Among 101 ITP patients, 32 had anti-GPIIb/IIIa and 19 had anti-GPIb autoantibodies. Thrombocytopenia was more severe in patients with anti-GPIb autoantibodies than in patients without these autoantibodies, whereas ITP patients with anti-GPIIb/IIIa autoantibodies did not develop severe thrombocytopenia. Patients with anti-GPIb autoantibodies showed significant increases of platelet-associated IgM and platelet-associated C3 in comparison with patients without the autoantibodies, despite there being no significant difference in the platelet-associated IgG levels. The lymphocyte subsets and the blastogenic response in patients with anti-GPIb autoantibodies were also significantly different from those in the patients without these autoantibodies. Furthermore, severe purpura and a poor response to prednisolone were far more common in the patients with anti-GPIb autoantibodies. Activation of the complement system and/or functional abnormalities of lymphocytes thus appear to be involved in the development of thrombocytopenia in ITP patients with anti-GPIb autoantibodies, and such antibodies may be associated with a particularly severe form of ITP.
In a patient with immune thrombocytopenic purpura (ITP), we found a novel platelet-activating IgG (act-IgG) and an inhibitory IgG (inhi-IgG) that prevented activation induced by both CD9 monoclonal antibody (mAb) and the act-IgG. Purified IgG from the patient plasma caused a rise in [Ca2+]i and the aggregation of normal platelets, and bound to a 24 kD membrane protein. This aggregation was inhibited by aspirin, staurosporine, an inhibitor of protein kinase C, and F(ab')2 fragments of MALL13, a CD9 mAb. When the platelet count of this patient rose to normal range, the act-IgG disappeared. About 2 weeks later, the relapse of thrombocytopenia was observed. The purified IgG obtained in this period did not activate platelets but inhibited both the rise in [Ca2+]i and platelet aggregation stimulated by NNKY 1-19, a CD9 mAb, as well as the act-IgG, and bound to a 40 kD membrane protein. The inhi-IgG prevented the binding of IV-3, a mAb against Fc gamma receptor II (Fc gamma RII), but did not prevent the binding of NNKY 1-19 to its antigen. We suggest that the activating autoantibody recognized CD9 antigen and activated both the thromboxane- and phospholipase C-dependent pathways, while the inhibitory autoantibody recognized the Fc gamma RII and inhibited CD9 antibody-induced platelet activation mediated via this receptor.
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