Protein phosphatase-1α regulates centrosome splitting through Nek2

ATM is a central mediator of the cellular response to the DNA damage produced by ionizing radiation. We recently showed that protein phosphatase 1 (PP1) is activated by ATM. Because Nek2 is activated by autophosphorylation, and because its dephosphorylation is catalyzed by PP1, we asked if the radiation damage signal to Nek2 was mediated by PP1. Overexpression of Nek2 induces premature centrosome splitting probably by phosphorylating centrosome cohesion proteins C-Napl and Rootletin. In this study, we show isoform specificity of PP1 binding and regulation of Nek2. Although both PP1 alpha and PP1 gamma coimmunoprecipitated with Nek2, only PP1 alpha regulated Nek2 function. Ionizing radiation inhibited Nek2 activity, and this response was dependent on ATM and on PP1 binding to Nek2 and coincident with Thr(320) dephosphorylation of PP1. Radiation-induced inhibition of centrosome splitting was abrogated in cells expressing Nek2 mutated in the PP1-binding motif outside the kinase domain. Conversely, cells depleted of PP1 alpha by small interfering RNA showed enhanced centrosome splitting and loss of radiation-induced inhibition of centrosome splitting. The identification of a PP1-specific isoform mediating a checkpoint response opens up the possibility of selectively targeting phosphatases as novel radiation sensitizers.