Abstract
We have examined the cell activation-dependent redistribution of the intracellular granule membrane protein GMP-140 of human endothelial cells. By dual-label immunofluorescence, the distribution of GMP-140 within cultured human umbilical vein endothelial cells was found to coincide with the distribution of von Willebrand factor (vWF), suggesting that GMP-140 is located in the membranes of vWF-containing storage granules. Stimulation of vWF secretion resulted in an increase in GMP-140 on the cell surface, as detected by increased binding of the monoclonal antibody S12 which recognizes the extracytoplasmic domain of GMP-140. For each agonist tested (histamine, thrombin, phorbol 12-myristate 13-acetate, and the calcium ionophore A23187) a dose-dependent redistribution of GMP-140 to the endothelial surface was observed which closely paralleled the dose-dependent secretion of vWF into the cell supernatant. When cells were maximally stimulated by histamine in the presence of antibody S12, a 4-fold increase in S12 uptake by the cells was observed. This increase occurred rapidly and reached a plateau by 10 min. In contrast, when histamine-stimulated cells were first fixed with paraformaldehyde or chilled to 4 degrees C before addition of antibody S12, only a transient increase in cell surface GMP-140 was detected. Under these conditions of arrested membrane turnover during antibody binding, cell surface GMP-140 was maximal 3 min after histamine stimulation and then declined to control levels by 20 min. These data suggest that stimulated secretion of vWF from endothelial cells entails fusion of vWF-containing storage granules with the plasma membrane. Once inserted into the plasma membrane, GMP-140 is subsequently removed from the endothelial surface, most likely by an endocytic mechanism.
Published Version
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