posted on 2015-05-26, 11:10authored bySuzanna L. Prosser, Navdeep K. Sahota, L. Pelletier, C. G. Morrison, Andrew M. Fry
Nek5 is a poorly characterized member of the NIMA-related kinase family, other members of which play roles in cell cycle progression and primary cilia function. Here, we show that Nek5, similar to Nek2, localizes to the proximal ends of centrioles. Depletion of Nek5 or overexpression of kinase-inactive Nek5 caused unscheduled separation of centrosomes in interphase, a phenotype also observed upon overexpression of active Nek2. However, separated centrosomes that resulted from Nek5 depletion remained relatively close together, exhibited excess recruitment of the centrosome linker protein rootletin, and had reduced levels of Nek2. In addition, Nek5 depletion led to loss of PCM components, including γ-tubulin, pericentrin, and Cdk5Rap2, with centrosomes exhibiting reduced microtubule nucleation. Upon mitotic entry, Nek5-depleted cells inappropriately retained centrosome linker components and exhibited delayed centrosome separation and defective chromosome segregation. Hence, Nek5 is required for the loss of centrosome linker proteins and enhanced microtubule nucleation that lead to timely centrosome separation and bipolar spindle formation in mitosis.
Funding
This work was supported by the Wellcome Trust (082828; to A.M. Fry),
the Biotechnology and Biological Sciences Research Council (A.M. Fry),
a Science Foundation Ireland Principal Investigator award 10/IN.1/B2972
(to C.G. Morrison), Canadian Institutes of Health Research (MOP-123468; to
L. Pelletier), and the Krembil Foundation (to L. Pelletier).
History
Citation
Journal of Cell Biology, 2015, 209 (3), pp. 339-348 (10)
Author affiliation
/Organisation/COLLEGE OF MEDICINE, BIOLOGICAL SCIENCES AND PSYCHOLOGY/School of Biological Sciences/Department of Biochemistry