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极光激酶A通过调节动力蛋白MCAK与TIP150之间的动态相互作用来调控细胞自噬。

Aurora A orchestrates entosis by regulating a dynamic MCAK-TIP150 interaction.

作者信息

Xia Peng, Zhou Jinhua, Song Xiaoyu, Wu Bing, Liu Xing, Li Di, Zhang Shuyuan, Wang Zhikai, Yu Huijuan, Ward Tarsha, Zhang Jiancun, Li Yinmei, Wang Xiaoning, Chen Yong, Guo Zhen, Yao Xuebiao

机构信息

Anhui Key Laboratory of Cellular Dynamics & Chemical Biology, Department of Optics and Optical Engineering, and Hefei National Laboratory for Physical Sciences at Nanoscale, University of Science and Technology of China, Hefei 230027, China.

Anhui Key Laboratory of Cellular Dynamics & Chemical Biology, Department of Optics and Optical Engineering, and Hefei National Laboratory for Physical Sciences at Nanoscale, University of Science and Technology of China, Hefei 230027, China Molecular Imaging Center, Atlanta Clinical and Translational Science Institute, Morehouse School of Medicine, Atlanta, GA 30310, USA.

出版信息

J Mol Cell Biol. 2014 Jun;6(3):240-54. doi: 10.1093/jmcb/mju016. Epub 2014 May 20.

DOI:10.1093/jmcb/mju016
PMID:24847103
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4034728/
Abstract

Entosis, a cell-in-cell process, has been implicated in the formation of aneuploidy associated with an aberrant cell division control. Microtubule plus-end-tracking protein TIP150 facilitates the loading of MCAK onto the microtubule plus ends and orchestrates microtubule plus-end dynamics during cell division. Here we show that TIP150 cooperates with MCAK to govern entosis via a regulatory circuitry that involves Aurora A-mediated phosphorylation of MCAK. Our biochemical analyses show that MCAK forms an intra-molecular association, which is essential for TIP150 binding. Interestingly, Aurora A-mediated phosphorylation of MCAK modulates its intra-molecular association, which perturbs the MCAK-TIP150 interaction in vitro and inhibits entosis in vivo. To probe if MCAK-TIP150 interaction regulates microtubule plasticity to affect the mechanical properties of cells during entosis, we used an optical trap to measure the mechanical rigidity of live MCF7 cells. We find that the MCAK cooperates with TIP150 to promote microtubule dynamics and modulate the mechanical rigidity of the cells during entosis. Our results show that a dynamic interaction of MCAK-TIP150 orchestrated by Aurora A-mediated phosphorylation governs entosis via regulating microtubule plus-end dynamics and cell rigidity. These data reveal a previously unknown mechanism of Aurora A regulation in the control of microtubule plasticity during cell-in-cell processes.

摘要

细胞内吞作用是一种细胞中细胞的过程,与异常细胞分裂控制相关的非整倍体形成有关。微管正端追踪蛋白TIP150促进MCAK加载到微管正端,并在细胞分裂过程中协调微管正端动力学。在这里,我们表明TIP150与MCAK协同作用,通过一个涉及极光激酶A介导的MCAK磷酸化的调节回路来控制细胞内吞作用。我们的生化分析表明,MCAK形成分子内结合,这对于TIP150结合至关重要。有趣的是,极光激酶A介导的MCAK磷酸化调节其分子内结合,这在体外扰乱了MCAK-TIP150相互作用,并在体内抑制细胞内吞作用。为了探究MCAK-TIP150相互作用是否调节微管可塑性以影响细胞内吞作用期间细胞的机械性能,我们使用光镊测量活的MCF7细胞的机械刚性。我们发现MCAK与TIP150协同作用,在细胞内吞作用期间促进微管动力学并调节细胞的机械刚性。我们的结果表明,由极光激酶A介导的磷酸化精心安排的MCAK-TIP150动态相互作用,通过调节微管正端动力学和细胞刚性来控制细胞内吞作用。这些数据揭示了极光激酶A在细胞中细胞过程中控制微管可塑性方面的一种先前未知的调节机制。

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