Rodger P. McEver

THE ENDOTHELIUM has long been viewed as an inert cellophane-like membrane that lines the circulatory system with its primary essential function being the maintenance of vessel wall permeability. Shortly after the first description of circulating blood by William Harvey in 1628, the existence of a

We used an immunoperoxidase procedure to examine the tissue distribution of the platelet alpha-granule membrane protein, GMP-140. In addition to its presence in megakaryocytes and platelets, GMP-140 antigen was found in vascular endothelial cells of diverse human organs, but it was not detected in other types of secretory cells. [35S]Cysteine-labeled human umbilical vein endothelial cells synthesized a GMP-140 molecule containing complex N-linked oligosaccharides similar to those previously demonstrated in platelets and the megakaryocytic HEL cell line. Using an immunogold procedure on frozen thin sections of endothelial cells, we found GMP-140 antigen to be localized to membranes of electron-dense storage granules. In double-label experiments there was colocalization of GMP-140 with vWf, indicating that these granules are Weibel-Palade bodies. When endothelial cells were stimulated with histamine, GMP-140 rapidly redistributed to the plasma membrane. Immunoassays of cell lysates indicated that, relative to total cell protein, less GMP-140 is present in human umbilical vein endothelial cells than in platelets. The restricted expression of GMP-140 in secretory granules of platelets and endothelium suggests that it has a specific function in the vascular system rather than a general role related to inducible secretion.

We have previously characterized a monoclonal antibody, S12, that binds only to activated platelets (McEver, R.P., and M.N. Martin, 1984, J. Biol. Chem., 259:9799-9804). It identifies a platelet membrane protein of Mr 140,000, which we have designated as GMP-140. Using immunocytochemical techniques we have now localized this protein in unstimulated and thrombin-stimulated platelets. Polyclonal antibodies to purified GMP-140 were used to enhance the sensitivity of detection. Nonpermeabilized, unstimulated platelets, incubated with anti-GMP-140 antibodies, and then with IgG-gold probes, showed very little label for GMP-140 along their plasma membranes. In contrast, thrombin-stimulated platelets exhibited at least a 50-fold increase in the amount of label along the plasma membrane. On frozen thin sections of unstimulated platelets we observed immunogold label along the alpha-granule membranes. We also employed the more sensitive technique of permeabilizing with saponin unstimulated platelets in suspension, and then incubating the cells with polyclonal anti-GMP-140 antibodies and Fab-peroxidase conjugate. Alpha-granule membranes showed heavy reaction product, but no other intracellular organelles were specifically labeled. These results demonstrate that GMP-140 is an alpha-granule membrane protein that is expressed on the platelet plasma membrane during degranulation.