Syntaxin-binding protein STXBP5 inhibits endothelial exocytosis and promotes platelet secretion
Qiuyu Zhu, … , Craig N. Morrell, Charles J. Lowenstein
Qiuyu Zhu, … , Craig N. Morrell, Charles J. Lowenstein
Published September 17, 2014
Citation Information: J Clin Invest. 2014;124(10):4503-4516. https://doi.org/10.1172/JCI71245.
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Research Article

Syntaxin-binding protein STXBP5 inhibits endothelial exocytosis and promotes platelet secretion

Abstract

In humans, vWF levels predict the risk of myocardial infarction and thrombosis; however, the factors that influence vWF levels are not completely understood. Recent genome-wide association studies (GWAS) have identified syntaxin-binding protein 5 (STXBP5) as a candidate gene linked to changes in vWF plasma levels, though the functional relationship between STXBP5 and vWF is unknown. We hypothesized that STXBP5 inhibits endothelial cell exocytosis. We found that STXBP5 is expressed in human endothelial cells and colocalizes with and interacts with syntaxin 4. In human endothelial cells reduction of STXBP5 increased exocytosis of vWF and P-selectin. Mice lacking Stxbp5 had higher levels of vWF in the plasma, increased P-selectin translocation, and more platelet-endothelial interactions, which suggests that STXBP5 inhibits endothelial exocytosis. However, Stxbp5 KO mice also displayed hemostasis defects, including prolonged tail bleeding times and impaired mesenteric arteriole and carotid artery thrombosis. Furthermore, platelets from Stxbp5 KO mice had defects in platelet secretion and activation; thus, STXBP5 inhibits endothelial exocytosis but promotes platelet secretion. Our study reveals a vascular function for STXBP5, validates the functional relevance of a candidate gene identified by GWAS, and suggests that variation within STXBP5 is a genetic risk for venous thromboembolic disease.

Authors

Qiuyu Zhu, Munekazu Yamakuchi, Sara Ture, Maria de la Luz Garcia-Hernandez, Kyung Ae Ko, Kristina L. Modjeski, Michael B. LoMonaco, Andrew D. Johnson, Christopher J. O’Donnell, Yoshimi Takai, Craig N. Morrell, Charles J. Lowenstein

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Figure 4

STXBP5 cosediments, colocalizes, and coprecipitates with STX4 and SYT1.

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STXBP5 cosediments, colocalizes, and coprecipitates with STX4 and SYT1. ...
(A) STXBP5 cosedimented with STX4 and SYT1 by sucrose density gradient fractionation. HUVEC lysate was ultracentrifuged through discontinuous 5%–40% sucrose gradient, and the fractions were analyzed by SDS-PAGE. T, total proteins of the lysate before fractionation; P, pellet after fractionation. Representative of 3 separate experiments. (B) STXBP5 coprecipitated with STX4 and SYT1. HUVEC lysate treated with media (resting), histamine, or A23187 was immunoprecipitated with antibody against STXBP5 or mouse IgG1; precipitants were probed with antibody against SYT1, STX4, STX11, or SNAP23. Representative of 3 similar experiments. (C) STXBP5 colocalized with STX4 by confocal microscopy. HUVECs were stained for STXBP5 (green), STX4 (red), and DNA (DAPI; blue) (objective, oil ×40; confocal z resolution, 0.40 μm). STXBP5 partially colocalized with STX4. Pearson coefficient (green vs. red) was 0.80 ± 0.03. (D) STXBP5 colocalized with SYT1. Resting and stimulated HUVECs were stained for STXBP5 (green), SYT1 (red), and DNA (DAPI; blue) (objective, oil ×60; confocal z resolution, 0.32 μm). STXBP5 partially colocalized with SYT1, and both STXBP5 and SYT1 partially translocated to the membrane after stimulation. Pearson coefficient (green vs. red) was 0.70 ± 0.08 for resting cells, 0.69 ± 0.08 for histamine-stimulated cells. Scale bars: 20 μm.