We recently reported the characterization of a platelet granule membrane protein of molecular weight (mol wt) 40,000 called granulophysin (Gerrard et al: Blood 77:101, 1991), identified by a monoclonal antibody (MoAb D545) raised to purified dense granule membranes. Using immunoelectron-microscopic techniques on frozen thin sections, this protein was localized in resting and thrombin-stimulated platelets. In resting platelets, labeled with antigranulophysin antibodies and immunogold probes, label was localized to the membranes of one or two clear granules per platelet thin section. D545 also labeled dense granules in permeabilized whole platelets and isolated dense granule preparations examined by whole-mount techniques. Expression of granulophysin on the platelet surface paralleled dense granule secretion as measured by 14C-serotonin release under conditions in which lysosomal granule release, as measured by beta-glucuronidase secretion, was less than 5%. After thrombin stimulation, both the surface-connected canalicular system and the plasma membrane were labeled, demonstrating redistribution of granulophysin associated with degranulation. Double labeling experiments with D545 and antibodies to the alpha-granule membrane protein, P-selectin, demonstrated labeling of both P-selectin and granulophysin on dense granule membranes. Distribution of both proteins on the plasma membrane after platelet stimulation was similar. The results demonstrate that granulophysin is localized to the dense granules of platelets and is redistributed to the plasma membrane after platelet activation.
Monoclonal antibodies were raised after injecting mice with isolated human dense granules. Several of these monoclonals were found to recognize a 40-Kd dense granule membrane protein. Western blot and immunofluorescent analysis confirmed the dense-granule specificity. After thrombin activation, the protein was found in patches on the external platelet membrane. By Western blot and slot blot analysis, the protein was found to be markedly deficient in a patient with the Hermansky-Pudlak syndrome. Studies of neutrophils and endothelial cells show the presence of immunologically related granule-membrane protein(s). Western blots using four anti-synaptophysin antibodies and three antibodies to the platelet 40-Kd protein suggest that the protein may share some homology with, but is not identical to, the synaptosomal membrane protein synaptophysin.
The addition of 1-oleoyl-2-acetylglycerol (OAG), or phorbol-12- myristate-13-acetate (PMA) to platelets induced the phosphorylation of a 47,000 dalton protein (47 Kd), fusion of granule membranes with membranes of the surface connected canalicular system, the formation of large vesicles and the secretion of serotonin. 1-(5- isoquinolinesulfonyl)-2-methyl-piperazine (H7), and sphingosine, inhibitors of protein kinase C, significantly inhibited the ultrastructural changes and the phosphorylation of 47 Kd. N-(2- guanidinoethyl)-5-isoquinolinesulfonamide (HA1004), structurally similar to H7, but a weaker inhibitor of protein kinase C, did not attenuate these responses to OAG or to PMA. H7, but not HA1004, also markedly inhibited secretion induced by the synergistic combination of OAG and the calcium ionophore A23187. Amiloride and 5-(N,N dimethyl)- amiloride, inhibitors of the Na+/H+ transporter, did not inhibit the ultrastructural response and the protein phosphorylation induced by OAG, or the secretion induced by the combination of A23187 and OAG. The results link the activation of protein kinase C by diglycerides to the labilization and fusion of granule membranes important for secretion.
We recently reported the characterization of a platelet granule membrane protein of molecular weight (mol wt) 40,000 called granulophysin (Gerrard et al: Blood 77:101, 1991), identified by a monoclonal antibody (MoAb D545) raised to purified dense granule membranes. Using immunoelectron-microscopic techniques on frozen thin sections, this protein was localized in resting and thrombin-stimulated platelets. In resting platelets, labeled with antigranulophysin antibodies and immunogold probes, label was localized to the membranes of one or two clear granules per platelet thin section. D545 also labeled dense granules in permeabilized whole platelets and isolated dense granule preparations examined by whole-mount techniques. Expression of granulophysin on the platelet surface paralleled dense granule secretion as measured by 14C-serotonin release under conditions in which lysosomal granule release, as measured by beta-glucuronidase secretion, was less than 5%. After thrombin stimulation, both the surface-connected canalicular system and the plasma membrane were labeled, demonstrating redistribution of granulophysin associated with degranulation. Double labeling experiments with D545 and antibodies to the alpha-granule membrane protein, P-selectin, demonstrated labeling of both P-selectin and granulophysin on dense granule membranes. Distribution of both proteins on the plasma membrane after platelet stimulation was similar. The results demonstrate that granulophysin is localized to the dense granules of platelets and is redistributed to the plasma membrane after platelet activation.
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