Tetraspanin-enriched membrane domains regulate vascular leakage by altering membrane cholesterol accessibility to balance antagonistic GTPases.

IF 10.8 Q1 CARDIAC & CARDIOVASCULAR SYSTEMS

Nature cardiovascular research Pub Date : 2025-07-29 DOI:10.1038/s44161-025-00686-2

Yingjun Ding, Junxiong Chen, Songlan Liu, Jennifer M Hays, Xiaowu Gu, Jonathan D Wren, Constantin Georgescu, Darlene N Reuter, Beibei Liu, Furong He, Xuejun Wang, Quan Wei, Jie Wang, Bharathiraja Subramaniyan, Zhiping Wu, Kiran Kodali, Alaina M Reagan, Willard M Freeman, Cindy K Miranti, Anna Csiszar, Zoltan Ungvari, Kamiya Mehla, Matthew S Walters, Michael H Elliott, Junmin Peng, Tomoharu Kanie, James F Papin, Franklin A Hays, Xin A Zhang

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引用次数: 0

Abstract

Tetraspanins affect metastasis, stemness and angiogenesis, but their roles in inflammation remain to be further clarified. Here we show that endothelial ablation of tetraspanin Cd82 markedly reduces vascular inflammation by mitigating endothelial leakage. Mechanistically, by limiting the anchorages of Cdc42 activator FARP1 and RhoA inhibitor Rnd3 to the plasma membrane (PM), CD82 confines Cdc42 but maintains RhoA activity in endothelial cells, to facilitate endothelium activation. These signaling regulatory effects depend on the ability of CD82 to coalesce and retain accessible cholesterol (AC) at the PM, whereas simvastatin overturns CD82 effects by lowering AC. CD82 supports non-vesicular transfer of AC to the PM through oxysterol-binding protein-related proteins (ORPs). Thus, CD82 and AC promote vascular leakage, whereas statin and ORP inhibitor restrain vascular leakage by decreasing AC. These findings reveal an unconventional anti-inflammation role and mechanism for statin and conceptualize tetraspanin-mediated, AC-mediated and cholesterol transfer-mediated balancing of antagonistic GTPase signaling pathways as regulatory mechanisms for vascular leakage.

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富四联蛋白的膜结构域通过改变膜胆固醇的可及性来平衡拮抗gtpase，从而调节血管渗漏。

四联蛋白影响转移、干细胞和血管生成，但其在炎症中的作用仍有待进一步阐明。在这里，我们显示四aspanin Cd82的内皮消融通过减轻内皮渗漏显著减少血管炎症。机制上，通过限制Cdc42激活剂FARP1和RhoA抑制剂Rnd3锚定在质膜（PM）上，CD82限制了Cdc42，但维持了内皮细胞中RhoA的活性，促进了内皮细胞的激活。这些信号调节作用依赖于CD82在PM处凝聚和保留可及胆固醇（AC）的能力，而辛伐他汀通过降低AC来推翻CD82的作用。CD82通过氧甾醇结合蛋白相关蛋白（orp）支持AC向PM的非囊性转移。因此，CD82和AC促进血管渗漏，而他汀和ORP抑制剂通过降低AC抑制血管渗漏。这些发现揭示了他汀类药物的非常规抗炎作用和机制，并将四联蛋白介导、AC介导和胆固醇转移介导的拮抗GTPase信号通路的平衡作为血管渗漏的调节机制。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Nature cardiovascular research

CiteScore

5.70

自引率

0.00%

发文量