A polarized multicomponent foundation upholds ciliary central microtubules.

IF 5.3 2区 生物学 Q2 CELL BIOLOGY
Qingxia Chen, Huijie Zhao, Xinwen Pan, Chuyu Fang, Benhua Qiu, Jingting Guo, Xiumin Yan, Xueliang Zhu
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Abstract

Cilia's back-and-forth beat pattern requires a central pair (CP) of microtubules. However, the mechanism by which the CP is upheld above the transition zone (TZ) remains unclear. Here, we showed that a rod-like substructure marked by Cep131 and ciliary Centrin serves as a polarized CP-supporting foundation. This CP-foundation (CPF) was assembled independently of the CP during ciliogenesis in mouse ependymal cells. It protruded from the distal end of the basal body out of the TZ to enwrap the proximal end of the CP. Through proximity labeling, we identified 26 potential CPF components, among which Ccdc148 specifically localized at the proximal region of Centrin-decorated CPF and was complementary to the Cep131-enriched distal region. Cep131 deficiency abolished the CPF, resulting in CP penetration into the TZ. Consequently, cilia became prone to ultrastructural abnormality and paralysis, and Cep131-deficient mice were susceptible to late-onset hydrocephalus. In addition to Centrin, phylogenetic analysis also indicated conservations of Ccdc131 and Ccdc148 from protists to mammals, suggesting that the CPF is an evolutionarily conserved multicomponent CP-supporting platform in cilia.

纤毛中心微管由极化的多成分基础支撑。
纤毛的前后跳动模式需要一对中央微管(CP)。然而,CP 在过渡区(TZ)上方的支撑机制仍不清楚。在这里,我们发现了一种由 Cep131 和纤毛中心蛋白标记的杆状子结构,它是极化的 CP 支撑基础。在小鼠上皮细胞的纤毛发生过程中,这种CP基础(CPF)是独立于CP组装的。它从基底体的远端伸出TZ,包裹着CP的近端。通过近距离标记,我们鉴定出了26种潜在的CPF成分,其中Ccdc148特异性定位于Centrin装饰的CPF近端区域,并与Cep131富集的远端区域互补。Cep131 缺乏会破坏 CPF,导致 CP 穿透 TZ。因此,纤毛容易出现超微结构异常和瘫痪,Cep131缺陷小鼠容易患晚期脑积水。除了Centrin之外,系统发育分析还表明从原生动物到哺乳动物都保留了Ccdc131和Ccdc148,这表明CPF是纤毛中进化保守的多组分CP支持平台。
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来源期刊
CiteScore
9.60
自引率
1.80%
发文量
1383
期刊介绍: The Journal of Molecular Cell Biology ( JMCB ) is a full open access, peer-reviewed online journal interested in inter-disciplinary studies at the cross-sections between molecular and cell biology as well as other disciplines of life sciences. The broad scope of JMCB reflects the merging of these life science disciplines such as stem cell research, signaling, genetics, epigenetics, genomics, development, immunology, cancer biology, molecular pathogenesis, neuroscience, and systems biology. The journal will publish primary research papers with findings of unusual significance and broad scientific interest. Review articles, letters and commentary on timely issues are also welcome. JMCB features an outstanding Editorial Board, which will serve as scientific advisors to the journal and provide strategic guidance for the development of the journal. By selecting only the best papers for publication, JMCB will provide a first rate publishing forum for scientists all over the world.
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