中区形成的早期事件稳定了新生双极纺锤体

Shannon Sim, Sean Moore, Khalid Al-Naemi, Ziad El-Hajj, Jackie Vogel
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摘要

在有丝分裂过程中,稳定的有丝分裂纺锤体的形成对染色体的准确分配至关重要。纺锤体中区的极间微管由驱动蛋白-5交联的反平行微管组成,当姐妹染色单体附着在微管上并处于张力状态时,极间微管产生的反作用力会稳定纺锤体。尽管极间微管非常重要,但它们是如何形成的、何时形成的以及它们的数量是由什么决定的,这些仍然是未知数。在这项研究中,我们发现γ-tubulin 突变(γtub-Y445D)破坏了驱动蛋白-5 的定位和极间微管的形成,从而导致纺锤体的不稳定性。我们发现在该突变体中驱动蛋白-5 的交联是完整的,但它不能进行随后的驱动蛋白-5 微管滑动以稳定新生纺锤体。PRC1同源物Ase1的早期激活使γtub-Y445D突变体恢复了新生纺锤体的稳定性,但不能在中心点附着期间稳定纺锤体。我们的研究表明,中区组装始于单极纺锤体中极间微管前体的形成,这些前体一直持续到分裂早期,并限制了新生纺锤体中动点系附着的形成。
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Early events in midzone formation stabilize nascent bipolar spindles
The formation of a stable mitotic spindle is critical to the accurate partitioning of the chromosomes during mitosis. Interpolar microtubules of the spindle midzone consist of antiparallel microtubules crosslinked by kinesin-5 and stabilize the spindle by opposing forces produced when sister chromatids are attached to microtubules and under tension. Despite the importance of the interpolar microtubules, how and when they form and what determines their number remain unknown. In this study, we report that a γ-tubulin mutation (γtub-Y445D) disrupts the localization of kinesin-5 and the formation of the interpolar microtubules, resulting in spindle instability. We find that kinesin-5 crosslinking is intact in this mutant, but that it is incapable of the subsequent kinesin-5 microtubule sliding needed to stabilize the nascent spindle. Early activation of the PRC1 homolog Ase1 restores nascent spindle stability to the γtub-Y445D mutant but cannot stabilize spindles during centromere attachment. Our work shows that midzone assembly begins with the formation of interpolar microtubule precursors in monopolar spindles that persist until early metaphase and limit the formation of kinetochore attachments in new spindles.
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