Francesca Zappa, Cathal Wilson, Giuseppe Di Tullio, Michele Santoro, Piero Pucci, Maria Monti, Davide D'Amico, Sandra Pisonero-Vaquero, Rossella De Cegli, Alessia Romano, Moin A Saleem, Elena Polishchuk, Mario Failli, Laura Giaquinto, Maria Antonietta De Matteis
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引用次数: 0
摘要
TRAnsport 蛋白颗粒(TRAPP)复合体控制着多个膜转运步骤,其战略地位是介导细胞适应各种环境条件,包括急性应激。我们已经确定,TRAPP 复合物是影响早期分泌途径的综合应激反应分支的一个组成部分。TRAPP 复合物与应激颗粒(SGs)的 COPII 涂层结合并驱动 COPII 涂层的招募,从而导致高尔基复合体的囊泡化并阻止 ER 的输出。TRAPP 复合物和 COPII 向 SGs 的迁移只发生在循环细胞中,并且是 CDK1/2 依赖性的,是由 TRAPP 与 hnRNPK 的相互作用驱动的,hnRNPK 是 CDK 的底物,当磷酸化时会与 SGs 结合。此外,CDK1/2抑制会影响TRAPP复合物/COPII迁移到SG,同时使它们稳定在ER出口位点。重要的是,TRAPP 复合物控制着 SG 的成熟。在去除了 TRAPP 的细胞中聚集的 SG 较小,并且不再能够招募 RACK1 和 Raptor(两种 TRAPP 交互作用的信号蛋白),从而使细胞对应激诱导的细胞凋亡敏感。
The TRAPP complex mediates secretion arrest induced by stress granule assembly.
The TRAnsport Protein Particle (TRAPP) complex controls multiple membrane trafficking steps and is strategically positioned to mediate cell adaptation to diverse environmental conditions, including acute stress. We have identified the TRAPP complex as a component of a branch of the integrated stress response that impinges on the early secretory pathway. The TRAPP complex associates with and drives the recruitment of the COPII coat to stress granules (SGs) leading to vesiculation of the Golgi complex and arrest of ER export. The relocation of the TRAPP complex and COPII to SGs only occurs in cycling cells and is CDK1/2-dependent, being driven by the interaction of TRAPP with hnRNPK, a CDK substrate that associates with SGs when phosphorylated. In addition, CDK1/2 inhibition impairs TRAPP complex/COPII relocation to SGs while stabilizing them at ER exit sites. Importantly, the TRAPP complex controls the maturation of SGs. SGs that assemble in TRAPP-depleted cells are smaller and are no longer able to recruit RACK1 and Raptor, two TRAPP-interactive signaling proteins, sensitizing cells to stress-induced apoptosis.
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