Thrombin is a physiological agonist that promotes platelet aggregation and secretion. In this study we observed that thrombin can also inhibit a function of platelets related to primary hemostasis. Platelet stimulation by thrombin decreased the binding of von Willebrand factor (vWF) to glycoprotein (GP) Ib and decreased ristocetin-induced agglutination, in vitro reactions that correlate with initial platelet adhesion to the vessel wall. Binding of the monoclonal antibody API to GP Ib was also decreased. Cytoskeletal participation in the change of GP Ib was suggested because pretreatment of platelets with cytochalasin to prevent actin filament formation prevented the thrombin-induced decreases in vWF binding. API binding, and ristocetin-induced agglutination. Measurement of GP Ib in detergent extracts by electroimmunoassay demonstrated no loss after thrombin stimulation. Electroimmunoassay also demonstrated that the API epitope of GP Ib on intact thrombin-treated platelets was accessible for complete digestion by chymotrypsin. Therefore GP Ib was neither released from the platelet surface nor internalized by thrombin treatment. A previously recognized effect of thrombin is its induction of receptor sites on platelet surface GP IIb-IIIa for contact-promoting proteins, including vWF that are involved in the platelet spreading and aggregation that follow adhesion. Therefore the action on GP Ib may combine with the effect on GP IIb-IIIa to shift platelet reactivity from GP Ib-vWF-mediated initial contact with the vessel wall to GP IIb-IIIa-mediated spreading and aggregation.
IgG, IgA, IgM, and albumin are primarily known as plasma proteins. Their presence in platelets is poorly understood. The total platelet content of IgG, IgA, and albumin, measured in solubilized platelets by an enzyme-linked immunosorbent-assay (ELISA) technique, was greater than 90% secreted after stimulation by thrombin, consistent with an alpha-granule location. The platelet concentrations of these proteins correlated with their plasma concentrations in normal subjects and over a wide range of abnormalities in patients with IgG or IgA myeloma or liver cirrhosis. IgM was not detectable in normal platelets but was measurable and related to the plasma IgM concentration in patients with macroglobulinemia. In patients with idiopathic thrombocytopenic purpura (ITP), the platelet concentrations of IgG, IgA, and albumin were all twofold to threefold higher than normal despite normal plasma concentrations. Platelet surface IgG, measured by 125I-monoclonal antibody binding, constituted less than 1% of the total platelet IgG, and it appeared to be a pool distinct from the alpha-granule IgG since its concentration in normal subjects and patients did not correlate with either plasma or total platelet IgG concentrations. These observations are consistent with hypotheses that megakaryocytes incorporate plasma proteins into developing alpha-granules by pinocytosis and that the increased ratio of platelet to plasma of IgG, IgA, and albumin in ITP may reflect a younger average age of these platelets.
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