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尾部结构域中的序列调节无动力驱动蛋白-4 KIF7 的自动抑制和纤毛尖端定位。

Sequences in the stalk domain regulate auto-inhibition and ciliary tip localization of the immotile kinesin-4 KIF7.

机构信息

Department of Cell and Developmental Biology, University of Michigan Medical School, Ann Arbor, MI 48109, USA.

Department of Anatomy and Structural Biology and Gruss-Lipper Biophotonics Center, Albert Einstein College of Medicine, New York, NY 10461, USA.

出版信息

J Cell Sci. 2021 Jul 1;134(13). doi: 10.1242/jcs.258464. Epub 2021 Jul 8.

DOI:10.1242/jcs.258464
PMID:34114033
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC8277141/
Abstract

The kinesin-4 member KIF7 plays critical roles in Hedgehog signaling in vertebrate cells. KIF7 is an atypical kinesin as it binds to microtubules but is immotile. We demonstrate that, like conventional kinesins, KIF7 is regulated by auto-inhibition, as the full-length protein is inactive for microtubule binding in cells. We identify a segment, the inhibitory coiled coil (inhCC), that is required for auto-inhibition of KIF7, whereas the adjacent regulatory coiled coil (rCC) that contributes to auto-inhibition of the motile kinesin-4s KIF21A and KIF21B is not sufficient for KIF7 auto-inhibition. Disease-associated mutations in the inhCC relieve auto-inhibition and result in strong microtubule binding. Surprisingly, uninhibited KIF7 proteins did not bind preferentially to or track the plus ends of growing microtubules in cells, as suggested by previous in vitro work, but rather bound along cytosolic and axonemal microtubules. Localization to the tip of the primary cilium also required the inhCC, and could be increased by disease-associated mutations regardless of the auto-inhibition state of the protein. These findings suggest that loss of KIF7 auto-inhibition and/or altered cilium tip localization can contribute to the pathogenesis of human disease.

摘要

驱动蛋白-4 家族成员 KIF7 在脊椎动物细胞中的 Hedgehog 信号通路中发挥关键作用。KIF7 是一种非典型的驱动蛋白,因为它与微管结合但不运动。我们证明,与传统的驱动蛋白一样,KIF7 受到自身抑制的调节,因为全长蛋白在细胞中对微管结合没有活性。我们确定了一个片段,即抑制性卷曲螺旋(inhCC),它是 KIF7 自身抑制所必需的,而相邻的调节性卷曲螺旋(rCC)有助于运动性驱动蛋白-4 KIF21A 和 KIF21B 的自身抑制,但不足以抑制 KIF7 的自身抑制。inhCC 中的疾病相关突变解除了自身抑制,导致与微管的强烈结合。令人惊讶的是,未被抑制的 KIF7 蛋白并没有像先前的体外研究表明的那样优先结合或追踪生长微管的正极,而是沿着细胞质和轴丝微管结合。定位于初级纤毛的顶端也需要 inhCC,并且即使在蛋白自身抑制状态下,疾病相关突变也可以增加其定位。这些发现表明,KIF7 自身抑制的丧失和/或纤毛尖端定位的改变可能导致人类疾病的发病机制。

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