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Regulation of cilia abundance in multiciliated cells (2019)

Nanjundappa, Rashmi ; Kong, Dong ; Shim, Kyuhwan ; [et al.]

eLife Sciences Publications

In: eLife. 2019; 8: Published 2019 Apr 26. doi: 10.7554/elife.44039.

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Publication Date: 2019-04-26

Description: Multiciliated cells (MCC) contain hundreds of motile cilia used to propel fluid over their surface. To template these cilia, each MCC produces between 100-600 centrioles by a process termed centriole amplification. Yet, how MCC regulate the precise number of centrioles and cilia remains unknown. Airway progenitor cells contain two parental centrioles (PC) and form structures called deuterosomes that nucleate centrioles during amplification. Using an ex vivo airway culture model, we show that ablation of PC does not perturb deuterosome formation and centriole amplification. In contrast, loss of PC caused an increase in deuterosome and centriole abundance, highlighting the presence of a compensatory mechanism. Quantification of centriole abundance in vitro and in vivo identified a linear relationship between surface area and centriole number. By manipulating cell size, we discovered that centriole number scales with surface area. Our results demonstrate that a cell-intrinsic surface area-dependent mechanism controls centriole and cilia abundance in multiciliated cells.

Electronic ISSN: 2050-084X

Topics: Biology , Medicine , Natural Sciences in General

Published by eLife Sciences Publications

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A novel Cep120-dependent mechanism inhibits centriole maturation in quiescent cells (2018)

Betleja, Ewelina ; Nanjundappa, Rashmi ; Cheng, Tao ; [et al.]

eLife Sciences Publications

In: eLife. 2018; 7: Published 2018 May 09. doi: 10.7554/elife.35439.

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Publication Date: 2018-05-09

Description: The two centrioles of the centrosome in quiescent cells are inherently asymmetric structures that differ in age, morphology and function. How these asymmetric properties are established and maintained during quiescence remains unknown. Here, we show that a daughter centriole-associated ciliopathy protein, Cep120, plays a critical inhibitory role at daughter centrioles. Depletion of Cep120 in quiescent mouse and human cells causes accumulation of pericentriolar material (PCM) components including pericentrin, Cdk5Rap2, ninein and Cep170. The elevated PCM levels result in increased microtubule-nucleation activity at the centrosome. Consequently, loss of Cep120 leads to aberrant dynein-dependent trafficking of centrosomal proteins, dispersal of centriolar satellites, and defective ciliary assembly and signaling. Our results indicate that Cep120 helps to maintain centrosome homeostasis by inhibiting untimely maturation of the daughter centriole, and defines a potentially new molecular defect underlying the pathogenesis of ciliopathies such as Jeune Asphyxiating Thoracic Dystrophy and Joubert syndrome.

Electronic ISSN: 2050-084X

Topics: Biology , Medicine , Natural Sciences in General

Published by eLife Sciences Publications

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