CEP55 promotes cilia disassembly through stabilizing Aurora A kinase.

Yu-Cheng Zhang , Yun-Feng Bai , Jin-Feng Yuan , Xiao-Lin Shen , Yu-Ling Xu , Xiao-Xiao Jian , Sen Li , Zeng-Qing Song , Huai-Bin Hu , Pei-Yao Li , Hai-Qing Tu , Qiu-Ying Han , Na Wang , Ai-Ling Li , Xue-Min Zhang , Min Wu , Tao Zhou , Hui-Yan Li

J Cell Biol

State Key Laboratory of Proteomics, National Center of Biomedical Analysis, Beijing, China.

Published: February 2021

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Primary cilia protrude from the cell surface and have diverse roles during development and disease, which depends on the precise timing and control of cilia assembly and disassembly. Inactivation of assembly often causes cilia defects and underlies ciliopathy, while diseases caused by dysfunction in disassembly remain largely unknown. Here, we demonstrate that CEP55 functions as a cilia disassembly regulator to participate in ciliopathy. Cep55-/- mice display clinical manifestations of Meckel-Gruber syndrome, including perinatal death, polycystic kidneys, and abnormalities in the CNS. Interestingly, Cep55-/- mice exhibit an abnormal elongation of cilia on these tissues. Mechanistically, CEP55 promotes cilia disassembly by interacting with and stabilizing Aurora A kinase, which is achieved through facilitating the chaperonin CCT complex to Aurora A. In addition, CEP55 mutation in Meckel-Gruber syndrome causes the failure of cilia disassembly. Thus, our study establishes a cilia disassembly role for CEP55 in vivo, coupling defects in cilia disassembly to ciliopathy and further suggesting that proper cilia dynamics are critical for mammalian development.

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http://www.ncbi.nlm.nih.gov/pmc/articles/PMC7829976	PMC
http://dx.doi.org/10.1083/jcb.202003149	DOI Listing

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