NIMA家族激酶Nek1影响中心体的稳定性和纤毛生成。

The NIMA-family kinase, Nek1 affects the stability of centrosomes and ciliogenesis.

作者信息

White Mark C, Quarmby Lynne M

机构信息

Department of Molecular Biology & Biochemistry, Simon Fraser University, Burnaby, Canada.

出版信息

BMC Cell Biol. 2008 Jun 4;9:29. doi: 10.1186/1471-2121-9-29.

DOI:10.1186/1471-2121-9-29

PMID:18533026

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2442590/

Abstract

BACKGROUND

Mutations in Nek1 (NIMA-Related Kinase 1) are causal in the murine models of polycystic kidney disease kat and kat2J. The Neks are known as cell cycle kinases, but recent work in protists has revealed that in addition to roles in the regulation of cell cycle progression, some Neks also regulate cilia. In most cells, cilia are disassembled prior to mitosis and are regenerated after cytokinesis. We propose that Neks participate in the coordination of ciliogenesis with cell cycle progression. Mammalian Nek1 is a candidate for this activity because renal cysts form in response to dysfunctional ciliary signalling.

RESULTS

Here we report that over-expression of full-length mNek1 inhibited ciliogenesis without disrupting centrosomes in the murine renal epithelial cell line IMCD3. In contrast, over-expression of the kinase domain with its associated basic region, but without the acidic domain, caused loss of centrosomes. As expected, these cells also failed to grow cilia. Both defective ciliogenesis in response to too much mNek1 and disassembly of centrosomes in response to expression of the kinase lacking the presumptive regulatory domain was abrogated by kinase-inactivating mutations or by removal of the coiled-coil domain. We observed that kinase-inactive, C-terminal truncations of mNek1 retaining the coiled-coil domain localized to the cilium, and we define a ciliary targeting region within the coiled-coil domain.

CONCLUSION

Based on our data, we propose that Nek1 plays a role in centrosome integrity, affecting both ciliogenesis and centrosome stability.

摘要

背景

Nek1（NIMA相关激酶1）的突变在多囊肾病kat和kat2J的小鼠模型中是致病原因。Neks被认为是细胞周期激酶，但最近在原生生物中的研究表明，除了在调节细胞周期进程中发挥作用外，一些Neks还调节纤毛。在大多数细胞中，纤毛在有丝分裂前解体，并在胞质分裂后再生。我们提出Neks参与纤毛发生与细胞周期进程的协调。哺乳动物Nek1是这种活性的候选者，因为肾囊肿是由于纤毛信号功能失调而形成的。

结果

在此我们报告，全长mNek1的过表达在小鼠肾上皮细胞系IMCD3中抑制了纤毛发生，而不破坏中心体。相反，激酶结构域及其相关碱性区域（但没有酸性结构域）的过表达导致中心体丢失。正如预期的那样，这些细胞也无法长出纤毛。激酶失活突变或去除卷曲螺旋结构域消除了因mNek1过多导致的纤毛发生缺陷以及因缺乏假定调节结构域的激酶表达导致的中心体解体。我们观察到，保留卷曲螺旋结构域的激酶失活的mNek1 C末端截短体定位于纤毛，并且我们在卷曲螺旋结构域内定义了一个纤毛靶向区域。

结论

基于我们的数据，我们提出Nek1在中心体完整性中发挥作用，影响纤毛发生和中心体稳定性。

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NIMA家族激酶Nek1影响中心体的稳定性和纤毛生成。

The NIMA-family kinase, Nek1 affects the stability of centrosomes and ciliogenesis.

作者信息

机构信息

出版信息

BACKGROUND

RESULTS

CONCLUSION

背景

结果

结论

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