纤毛内转运蛋白88/北极星在细胞迁移过程中的非纤毛依赖性作用

A Cilia Independent Role of Ift88/Polaris during Cell Migration.

作者信息

Boehlke Christopher, Janusch Heike, Hamann Christoph, Powelske Christian, Mergen Miriam, Herbst Henriette, Kotsis Fruzsina, Nitschke Roland, Kuehn E Wolfgang

机构信息

Department of Nephrology, University Hospital, Freiburg, Germany.

Life Imaging Center, Center for Biosystems Analysis, Albert-Ludwig-University, Freiburg, Germany; Center for Biological Signaling Studies (bioss), Albert-Ludwig-University, Freiburg, Germany.

出版信息

PLoS One. 2015 Oct 14;10(10):e0140378. doi: 10.1371/journal.pone.0140378. eCollection 2015.

DOI:10.1371/journal.pone.0140378

PMID:26465598

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4605505/

Abstract

Ift88 is a central component of the intraflagellar transport (Ift) complex B, essential for the building of cilia and flagella from single cell organisms to mammals. Loss of Ift88 results in the absence of cilia and causes left-right asymmetry defects, disordered Hedgehog signaling, and polycystic kidney disease, all of which are explained by aberrant ciliary function. In addition, a number of extraciliary functions of Ift88 have been described that affect the cell-cycle, mitosis, and targeting of the T-cell receptor to the immunological synapse. Similarly, another essential ciliary molecule, the kinesin-2 subunit Kif3a, which transports Ift-B in the cilium, affects microtubule (MT) dynamics at the leading edge of migrating cells independently of cilia. We now show that loss of Ift88 impairs cell migration irrespective of cilia. Ift88 is required for the polarization of migrating MDCK cells, and Ift88 depleted cells have fewer MTs at the leading edge. Neither MT dynamics nor MT nucleation are dependent on Ift88. Our findings dissociate the function of Ift88 from Kif3a outside the cilium and suggest a novel extraciliary function for Ift88. Future studies need to address what unifying mechanism underlies the different extraciliary functions of Ift88.

摘要

Ift88是鞭毛内运输（Ift）复合体B的核心组成部分，对于从单细胞生物到哺乳动物的纤毛和鞭毛构建至关重要。Ift88缺失会导致纤毛缺失，并引起左右不对称缺陷、刺猬信号通路紊乱和多囊肾病，所有这些都可由异常的纤毛功能来解释。此外，还描述了Ift88的一些纤毛外功能，这些功能会影响细胞周期、有丝分裂以及T细胞受体向免疫突触的靶向定位。同样，另一种重要的纤毛分子驱动蛋白2亚基Kif3a，它在纤毛中运输Ift - B，在不依赖纤毛的情况下影响迁移细胞前沿的微管（MT）动力学。我们现在表明，无论有无纤毛，Ift88缺失都会损害细胞迁移。迁移的MDCK细胞极化需要Ift88，且Ift88缺失的细胞在前缘的微管较少。微管动力学和微管成核均不依赖于Ift88。我们的研究结果将Ift88在纤毛外的功能与Kif3a区分开来，并表明Ift88具有一种新的纤毛外功能。未来的研究需要探讨Ift88不同纤毛外功能背后的统一机制是什么。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/63c1/4605505/c3338e1c60a9/pone.0140378.g001.jpg

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纤毛内转运蛋白88/北极星在细胞迁移过程中的非纤毛依赖性作用

A Cilia Independent Role of Ift88/Polaris during Cell Migration.

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