CYLD mediates ciliogenesis in multiple organs by deubiquitinating Cep70 and inactivating HDAC6

Cilia are hair-like organelles extending from the cell surface with important sensory and motility functions. Ciliary defects can result in a wide range of human diseases known as ciliopathies. However, the molecular mechanisms controlling ciliogenesis remain poorly defined. Here we show that cylind...

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Bibliographic Details
Published in:Cell research 2014-11, Vol.24 (11), p.1342-1353
Main Authors: Yang, Yunfan, Ran, Jie, Liu, Min, Li, Dengwen, Li, Yuanyuan, Shi, Xingjuan, Meng, Dan, Pan, Junmin, Ou, Guangshuo, Aneja, Ritu, Sun, Shao-Cong, Zhou, Jun
Format: Article
Language:English
Subjects:
631/136/2432
631/80/128/1965
631/80/458
Acetylation
Animals
Biomedical and Life Sciences
Cell Biology
Cell Line
Centrosome - metabolism
Cilia - drug effects
Cilia - physiology
Hair
Histone Deacetylase 6
Histone Deacetylases - chemistry
Histone Deacetylases - metabolism
Humans
Hydroxamic Acids - pharmacology
Indoles - pharmacology
Life Sciences
Mice
Mice, Inbred C57BL
Mice, Inbred DBA
Mice, Knockout
Microtubule-Associated Proteins - metabolism
Original
original-article
RNA Interference
RNA, Small Interfering - metabolism
Sperm Motility - drug effects
Tubulin - metabolism
Tumor Suppressor Proteins - antagonists & inhibitors
Tumor Suppressor Proteins - genetics
Tumor Suppressor Proteins - metabolism
Ubiquitination - drug effects
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Summary:Cilia are hair-like organelles extending from the cell surface with important sensory and motility functions. Ciliary defects can result in a wide range of human diseases known as ciliopathies. However, the molecular mechanisms controlling ciliogenesis remain poorly defined. Here we show that cylindromatosis (CYLD), a tumor suppressor protein harboring deubiquitinase activity, plays a critical role in the assembly of both primary and motile cilia in multiple organs. CYLD knockout mice exhibit polydactyly and various ciliary defects, such as failure in basal body anchorage and disorganization of basal bodies and axenomes. The ciliary function of CYLD is partially attributed to its deconjugation of the polyubiquitin chain from centrosomal protein of 70 kDa (Cep70), a requirement for Cep70 to interact with γ-tubulin and localize at the centrosome. In addition, CYLD-mediated inhibition of histone deacetylase 6 (HDAC6), which promotes tubulin acetylation, constitutes another mechanism for the ciliary function of CYLD. Small-molecule inhibitors of HDAC6 could partially rescue the ciliary defects in CYLD knockout mice. These findings highlight the importance of protein ubiquitination in the modulation of ciliogenesis, identify CYLD as a crucial regulator of this process, and suggest the involvement of CYLD deficiency in ciliopathies.
ISSN:1001-0602
1748-7838
DOI:10.1038/cr.2014.136