Aurélie Mangon, Danièle Salaün, Mohamed Lala Bouali, Mira Kuzmić, Sabine Quitard, Sylvie Thuault, Daniel Isnardon, Stéphane Audebert, Pierre-Henri Puech, Pascal Verdier-Pinard, Ali Badache
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引用次数: 7
摘要
iASPP是一种蛋白质,通常被认为是p53促凋亡活性的抑制剂,也是PP1磷酸酶的一个可预测的调控亚基,在肿瘤中经常过表达。我们报道iASPP与微管正端结合蛋白EB1(微管动力学的中心调节因子)通过sip基序结合。iASPP沉默或sip基序突变导致有丝分裂细胞皮层微管捕获缺陷,导致有丝分裂纺锤体定位异常。这些影响通过敲低膜-皮质连接物肌球蛋白- ic (Myo1c)来重现,我们将其确定为iASPP的新伙伴。此外,iASPP或Myo1c敲低的细胞在有丝分裂时不能聚集,因为皮质硬度有缺陷。我们提出,通过增加皮质刚性,iASPP有助于癌细胞保持适合有丝分裂纺锤体定位和染色体分配的球形几何形状。
iASPP contributes to cell cortex rigidity, mitotic cell rounding, and spindle positioning.
iASPP is a protein mostly known as an inhibitor of p53 pro-apoptotic activity and a predicted regulatory subunit of the PP1 phosphatase, which is often overexpressed in tumors. We report that iASPP associates with the microtubule plus-end binding protein EB1, a central regulator of microtubule dynamics, via an SxIP motif. iASPP silencing or mutation of the SxIP motif led to defective microtubule capture at the cortex of mitotic cells, leading to abnormal positioning of the mitotic spindle. These effects were recapitulated by the knockdown of the membrane-to-cortex linker Myosin-Ic (Myo1c), which we identified as a novel partner of iASPP. Moreover, iASPP or Myo1c knockdown cells failed to round up upon mitosis because of defective cortical stiffness. We propose that by increasing cortical rigidity, iASPP helps cancer cells maintain a spherical geometry suitable for proper mitotic spindle positioning and chromosome partitioning.
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