The accurate definition of surface glycoprotein abnormalities in circulating platelets may provide better understanding of bleeding and thrombotic disorders. Platelet surface glycoproteins were measured on intact platelets in whole blood and platelet membrane microparticles were assayed in cell-free plasma using 125I-monoclonal antibodies. The glycoproteins (GP) studied were: GP lb and GP Ilb-Illa, two of the major intrinsic plasma membrane glycoproteins; GMP-140, an a-granule membrane glycoprotein that becomes exposed on the platelet surface following secretion; and thrombospondin (TSP), an a-granule secreted glycoprotein that rebinds to the platelet surface. Thrombin-induced secretion in normal platelets caused the appearance of GMP-140 and TSP on the platelet surface, increased exposure of GP Ilb-Illa, and decreased antibody binding to GP lb. Patients with adult respiratory distress syndrome had an increased concentration of GMP-140 and TSP on the surface of their platelets, demonstrating in vivo platelet secretion, but had no increase of platelet microparticles in their plasma. In contrast, patients after cardiac surgery with cardiopulmonary bypass demonstrated changes consistent with membrane fragmentation without secretion: a decreased platelet surface concentration of GP lb and GP 1Ib with no increase of GMP-140 and TSP, and an increased plasma concentration of platelet membrane microparticles. These methods will help to define acquired abnormalities of platelet surface glycoproteins.
It has been known for 27 yr that blood platelets contain IgG, yet its subcellular location and significance have never been clearly determined. In these studies, the location of IgG within human platelets was investigated by immunocytochemical techniques and by the response of platelet IgG to agents that cause platelet secretion. Using frozen thin-sections of platelets and an immunogold probe, IgG was located within the a-granules. Thrombin stimulation caused parallel secretion of platelet IgG and two known a-granule proteins, platelet factor 4 and ftthromboglobulin, beginning at 0.02 U/ml and reaching 100% at 0.5 U/ml. Thrombin-induced secretion of all three proteins was inhibited by prostglandin El and dibutyryl-cyclic AMP. Calcium ionophore A23187 also caused parallel secretion of all three proteins, whereas ADP caused virtually no secretion of any of the three. From these data and a review of the literature, we hypothesize that plasma IgG is taken up by megakaryocytes and delivered to the a-granules, where it is stored for later secretion by mature platelets.
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.
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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