RalB uncoupled exocyst mediates endothelial Weibel-Palade body exocytosis

Moua Yang, Alexandra Boye-Doe, Salma A.S. Abosabie, Alexandra M. Barr, Lourdes M. Mendez, Anish V. Sharda
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Abstract

Ras-like (Ral) GTPases play essential regulatory roles in many cellular processes, including exocytosis. Cycling between GDP- and GTP-bound states, Ral GTPases function as molecular switches and regulate effectors, specifically the multi-subunit tethering complex exocyst. Here, we show that Ral isoform RalB controls regulated exocytosis of Weibel-Palade bodies (WPBs), the specialized endothelial secretory granules that store hemostatic protein von Willebrand factor. Remarkably, unlike typical small GTPase-effector interactions, RalB binds exocyst in its GDP-bound state in resting endothelium. Upon endothelial cell stimulation, exocyst is uncoupled from RalB-GTP resulting in WPB tethering and exocytosis. Furthermore, we report that PKC-dependent phosphorylation of the C-terminal hypervariable region (HVR) of RalB modulates its dynamic interaction with exocyst in endothelium. Exocyst preferentially interacts with phosphorylated RalB in resting endothelium. Dephosphorylation of RalB either by endothelial cell stimulation, or PKC inhibition, or expression of nonphosphorylatable mutant at a specific serine residue of RalB HVR, disengages exocyst and augments WPB exocytosis, resembling RalB exocyst-binding site mutant. In summary, it is the uncoupling of exocyst from RalB that mediates endothelial Weibel-Palade body exocytosis. Our data shows that Ral function may be more dynamically regulated by phosphorylation and may confer distinct functionality given high degree of homology and the shared set of effector protein between the two Ral isoforms.
RalB 非偶联外泌体介导内皮魏贝尔-帕拉德体外泌
Ras 样(Ral)GTP 酶在许多细胞过程(包括外吞过程)中发挥着重要的调节作用。Ral GTP 酶在 GDP 结合态和 GTP 结合态之间循环,起到分子开关和调节效应器的作用,特别是多亚基系留复合体外囊。在这里,我们发现 Ral 异构体 RalB 控制着 Weibel-Palade 体(WPBs)的调节性外渗,WPBs 是储存止血蛋白 von Willebrand 因子的特异性内皮分泌颗粒。值得注意的是,与典型的小 GTP 酶-效应器相互作用不同,RalB 在静息内皮细胞中以 GDP 结合态与外囊结合。当内皮细胞受到刺激时,外囊与 RalB-GTP 脱钩,导致 WPB 拴系和外排。此外,我们还报告了 RalB C 端超变区(HVR)的 PKC 依赖性磷酸化调节了它与内皮细胞外囊的动态相互作用。在静息内皮细胞中,外囊细胞优先与磷酸化的 RalB 相互作用。通过刺激内皮细胞、抑制 PKC 或在 RalB HVR 的一个特定丝氨酸残基上表达不可磷酸化的突变体来使 RalB 去磷酸化,可脱离外囊并增强 WPB 的外排,这与 RalB 外囊结合位点突变体相似。总之,正是外囊与 RalB 的脱钩介导了内皮细胞 Weibel-Palade 体的外泌。我们的数据表明,Ral 的功能可能更多地受磷酸化的动态调控,并且由于两种 Ral 同工型之间的高度同源性和共享效应蛋白集,可能赋予它们不同的功能。
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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