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A CEP215-HSET complex links centrosomes with spindle poles and drives centrosome clustering in cancer.


ABSTRACT: Numerical centrosome aberrations underlie certain developmental abnormalities and may promote cancer. A cell maintains normal centrosome numbers by coupling centrosome duplication with segregation, which is achieved through sustained association of each centrosome with a mitotic spindle pole. Although the microcephaly- and primordial dwarfism-linked centrosomal protein CEP215 has been implicated in this process, the molecular mechanism responsible remains unclear. Here, using proteomic profiling, we identify the minus end-directed microtubule motor protein HSET as a direct binding partner of CEP215. Targeted deletion of the HSET-binding domain of CEP215 in vertebrate cells causes centrosome detachment and results in HSET depletion at centrosomes, a phenotype also observed in CEP215-deficient patient-derived cells. Moreover, in cancer cells with centrosome amplification, the CEP215-HSET complex promotes the clustering of extra centrosomes into pseudo-bipolar spindles, thereby ensuring viable cell division. Therefore, stabilization of the centrosome-spindle pole interface by the CEP215-HSET complex could promote survival of cancer cells containing supernumerary centrosomes.

SUBMITTER: Chavali PL 

PROVIDER: S-EPMC4802056 | biostudies-literature | 2016 Mar

REPOSITORIES: biostudies-literature

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A CEP215-HSET complex links centrosomes with spindle poles and drives centrosome clustering in cancer.

Chavali Pavithra L PL   Chandrasekaran Gayathri G   Barr Alexis R AR   Tátrai Péter P   Taylor Chris C   Papachristou Evaggelia K EK   Woods C Geoffrey CG   Chavali Sreenivas S   Gergely Fanni F  

Nature communications 20160318


Numerical centrosome aberrations underlie certain developmental abnormalities and may promote cancer. A cell maintains normal centrosome numbers by coupling centrosome duplication with segregation, which is achieved through sustained association of each centrosome with a mitotic spindle pole. Although the microcephaly- and primordial dwarfism-linked centrosomal protein CEP215 has been implicated in this process, the molecular mechanism responsible remains unclear. Here, using proteomic profiling  ...[more]

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