Phosphomimetic Mutation Destabilizes the Central Core Domain of Human p53.

Transcriptional activity of p53 is modulated by various posttranslational modifications. Earlier studies have reported that Aurora B phosphorylation of p53 leads to loss of its transcriptional activity, subsequently leading to its ubiquitin-mediated proteasomal degradation. To decipher the fate of structural and functional stature of p53 upon phosphorylation by Aurora B, we have generated five phosphomimetic mutants of p53 core domain and characterized their biophysicochemical properties. Our biophysical studies show that the T211E, S215E, and S269E mutants are thermally unstable and show a higher propensity toward aggregation than WT with the loss of DNA binding except for S183E. These results indicate structural and functional destabilization of p53 upon phosphomimetic substitution, which provides a molecular basis toward understanding the process that drives the fate of p53 upon phosphorylation by Aurora B kinase. © 2018 IUBMB Life, 70(10):1023-1031, 2018.