TIP60介导的EB1动态巴豆酰化确保有丝分裂中纺锤体的精确定位。

Dynamic crotonylation of EB1 by TIP60 ensures accurate spindle positioning in mitosis.

作者信息

Song Xiaoyu, Yang Fengrui, Liu Xu, Xia Peng, Yin Wu, Wang Zhikai, Wang Yong, Yuan Xiao, Dou Zhen, Jiang Kai, Ma Mingming, Hu Bing, Zhang Rui, Xu Chao, Zhang Zhiyong, Ruan Ke, Tian Ruijun, Li Lin, Liu Tao, Hill Donald L, Zang Jianye, Liu Xing, Li Jinsong, Cheng Jinke, Yao Xuebiao

机构信息

MOE Key Laboratory for Cellular Dynamics and Hefei National Center for Physical Sciences at the Microscale, University of Science and Technology of China, Hefei, China.

Keck Center for Organoids Plasticity, Morehouse School of Medicine, Atlanta, GA, USA.

出版信息

Nat Chem Biol. 2021 Dec;17(12):1314-1323. doi: 10.1038/s41589-021-00875-7. Epub 2021 Oct 4.

DOI:10.1038/s41589-021-00875-7

PMID:34608293

Abstract

Spindle position control is essential for cell fate determination and organogenesis. Early studies indicate the essential role of the evolutionarily conserved Gαi/LGN/NuMA network in spindle positioning. However, the regulatory mechanisms that couple astral microtubules dynamics to the spindle orientation remain elusive. Here we delineated a new mitosis-specific crotonylation-regulated astral microtubule-EB1-NuMA interaction in mitosis. EB1 is a substrate of TIP60, and TIP60-dependent crotonylation of EB1 tunes accurate spindle positioning in mitosis. Mechanistically, TIP60 crotonylation of EB1 at Lys66 forms a dynamic link between accurate attachment of astral microtubules to the lateral cell cortex defined by NuMA-LGN and fine tune of spindle positioning. Real-time imaging of chromosome movements in HeLa cells expressing genetically encoded crotonylated EB1 revealed the importance of crotonylation dynamics for accurate control of spindle orientation during metaphase-anaphase transition. These findings delineate a general signaling cascade that integrates protein crotonylation with accurate spindle positioning for chromosome stability in mitosis.

摘要

纺锤体位置控制对于细胞命运决定和器官发生至关重要。早期研究表明，进化上保守的Gαi/LGN/NuMA网络在纺锤体定位中起着关键作用。然而，将星状微管动力学与纺锤体定向耦合的调节机制仍不清楚。在这里，我们描绘了一种新的有丝分裂特异性巴豆酰化调节的有丝分裂中星状微管-EB1-NuMA相互作用。EB1是TIP60的底物，EB1的TIP60依赖性巴豆酰化调节有丝分裂中精确的纺锤体定位。从机制上讲，EB1在赖氨酸66处的TIP60巴豆酰化在星状微管与由NuMA-LGN定义的细胞外侧皮质的精确附着和纺锤体定位的微调之间形成了动态联系。对表达基因编码巴豆酰化EB1的HeLa细胞中染色体运动的实时成像揭示了巴豆酰化动力学在中期-后期转换期间精确控制纺锤体定向的重要性。这些发现描绘了一个一般的信号级联，该级联将蛋白质巴豆酰化与精确的纺锤体定位整合起来，以确保有丝分裂中染色体的稳定性。

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TIP60介导的EB1动态巴豆酰化确保有丝分裂中纺锤体的精确定位。

Dynamic crotonylation of EB1 by TIP60 ensures accurate spindle positioning in mitosis.

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