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Abstract
We previously found that the pro-apoptotic DNA damaging agent, cisplatin, mediated the proteasome-dependent degradation of DeltaNp63alpha associated with its increased phosphorylated status. Since DeltaNp63alpha usually plays an opposite role to p53 and TAp63 in human cancers, we tested the notion that phosphorylation events induced by DNA damage would affect the protein degradation of DeltaNp63alpha in HNSCC cells upon cisplatin exposure. We found that DeltaNp63alpha is phosphorylated in the time-dependent fashion at the following positions: S385, T397, and S466, which were surrounded by recognition motifs for ATM, CDK2 and p70s6K kinases, respectively. We showed that chemical agents or siRNA inhibiting the activity of ATM, CDK2 and p70s6K kinases blocked degradation of DeltaNp63alpha in HNSCC cells after cisplatin exposure. Site-specific mutagenesis of DeltaNp63alpha residues targeted for phosphorylation by ATM, CDK2 or p70s6k led to dramatic modulation of DeltaNp63alpha degradation. Finally, we demonstrated that the DeltaNp63alpha protein is a target for direct in vitro phosphorylation by ATM, CDK2 or p70s6K. Our results implicate specific kinases, and target phosphorylation sites in the degradation of DeltaNp63alpha following DNA damage.