TORC1信号传导通过促进Stu2的核输出对微管动力学发挥空间控制作用。

TORC1 signaling exerts spatial control over microtubule dynamics by promoting nuclear export of Stu2.

作者信息

van der Vaart Babet, Fischböck Josef, Mieck Christine, Pichler Peter, Mechtler Karl, Medema René H, Westermann Stefan

机构信息

Research Institute of Molecular Pathology, Vienna Biocenter, Vienna, Austria

Division of Cell Biology, The Netherlands Cancer Institute, Amsterdam, Netherlands.

出版信息

J Cell Biol. 2017 Nov 6;216(11):3471-3484. doi: 10.1083/jcb.201606080. Epub 2017 Sep 29.

DOI:10.1083/jcb.201606080

PMID:28972103

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5674874/

Abstract

The target of rapamycin complex 1 (TORC1) is a highly conserved multiprotein complex that functions in many cellular processes, including cell growth and cell cycle progression. In this study, we define a novel role for TORC1 as a critical regulator of nuclear microtubule (MT) dynamics in the budding yeast This activity requires interactions between EB1 and CLIP-170 plus end-tracking protein (+TIP) family members with the TORC1 subunit Kog1/Raptor, which in turn allow the TORC1 proximal kinase Sch9/S6K1 to regulate the MT polymerase Stu2/XMAP215. Sch9-dependent phosphorylation of Stu2 adjacent to a nuclear export signal prevents nuclear accumulation of Stu2 before cells enter mitosis. Mutants impaired in +TIP-TORC1 interactions or Stu2 nuclear export show increased nuclear but not cytoplasmic MT length and display nuclear fusion, spindle positioning, and elongation kinetics defects. Our results reveal key mechanisms by which TORC1 signaling controls Stu2 localization and thereby contributes to proper MT cytoskeletal organization in interphase and mitosis.

摘要

雷帕霉素靶蛋白复合物1（TORC1）是一种高度保守的多蛋白复合物，在许多细胞过程中发挥作用，包括细胞生长和细胞周期进程。在本研究中，我们确定了TORC1在芽殖酵母中作为核微管（MT）动力学关键调节因子的新作用。该活性需要EB1和CLIP - 170加端追踪蛋白（+TIP）家族成员与TORC1亚基Kog1/Raptor之间的相互作用，这反过来又使TORC1近端激酶Sch9/S6K1能够调节MT聚合酶Stu2/XMAP215。在核输出信号附近，Sch9依赖的Stu2磷酸化可防止细胞进入有丝分裂前Stu2的核积累。+TIP - TORC1相互作用或Stu2核输出受损的突变体显示核MT长度增加，但胞质MT长度未增加，并表现出核融合、纺锤体定位和伸长动力学缺陷。我们的结果揭示了TORC1信号传导控制Stu2定位的关键机制，从而有助于在间期和有丝分裂中正确组织MT细胞骨架。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/a8e2/5674874/7b13055bba39/JCB_201606080_Fig1.jpg

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TORC1信号传导通过促进Stu2的核输出对微管动力学发挥空间控制作用。

TORC1 signaling exerts spatial control over microtubule dynamics by promoting nuclear export of Stu2.

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