Arf-induced turnover of the nucleolar nucleophosmin-associated SUMO-2/3 protease Senp3


The stabilization and subcellular localization of the p19Arf tumor suppressor protein and the SUMO-2/3 deconjugating protease Senp3 each depend upon their binding to the abundant nucleolar protein nucleophosmin (Npm/B23). Senp3 and p19Arf antagonize each other’s functions in regulating the SUMOylation of target proteins including Npm itself. The p19Arf protein triggers the sequential phosphorylation, polyubiquitination, and rapid proteasomal degradation of Senp3, and this ability of p19Arf to accelerate Senp3 turnover also depends on the presence of Npm. In turn, endogenous p19Arf and Senp3 are both destabilized in viable Npm-null mouse embryo fibroblasts (that also lack p53), and reintroduction of the human NPM protein into these cells reverses this phenotype. NPM mutants that retain their acidic and oligomerization domains can re-stabilize both p19Arf and Senp3 in this setting, but the nucleolar localization of NPM is not strictly required for these effects. Knockdown of Senp3 with shRNAs mimics the anti-proliferative functions of p19Arf in cells that lack p53 alone or in triple knock-out cells that lack the Arf, Mdm2 and p53 genes. These findings reinforce the hypothesis that the p53-independent tumor suppressive functions of p19Arf may be mediated by its ability to antagonize Senp3, thereby inducing cell cycle arrest by abnormally elevating the cellular levels of SUMOylated proteins.

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Arf-induced turnover of the nucleolar nucleophosmin-associated SUMO-2/3 protease Senp3