Abstract
p53 protein has about thirty phosphorylation sites located at the N- and C-termini and in the core domain. The phosphorylation sites are relatively less mutated than other residues in p53. To understand why and how p53 phosphorylation sites are rarely mutated in human cancer, using a bioinformatics approaches, we examined the phosphorylation site and its nearby flanking residues, focusing on the consensus phosphorylation motif pattern, amino-acid correlations within the phosphorylation motifs, the propensity of structural disorder of the phosphorylation motifs, and cancer mutations observed within the phosphorylation motifs. Many p53 phosphorylation sites are targets for several kinases. The phosphorylation sites match 17 consensus sequence motifs out of the 29 classified. In addition to proline, which is common in kinase specificity-determining sites, we found high propensity of acidic residues to be adjacent to phosphorylation sites. Analysis of human cancer mutations in the phosphorylation motifs revealed that motifs with adjacent acidic residues generally have fewer mutations, in contrast to phosphorylation sites near proline residues. p53 phosphorylation motifs are mostly disordered. However, human cancer mutations within phosphorylation motifs tend to decrease the disorder propensity. Our results suggest that combination of acidic residues Asp and Glu with phosphorylation sites provide charge redundancy which may safe guard against loss-of-function mutations, and that the natively disordered nature of p53 phosphorylation motifs may help reduce mutational damage. Our results further suggest that engineering acidic amino acids adjacent to potential phosphorylation sites could be a p53 gene therapy strategy.
Highlights
IntroductionThe phosphorylation sites are relatively less mutated than other residues in p53
What are the sequence and structural features in p53 phosphorylation motifs? Why and how p53 phosphorylation sites are rarely mutated in human cancer? In our study, we focused on the phosphorylation sites and nearby flanking residues and computationally examined the consensus phosphorylation motif pattern, amino acid correlations within the phosphorylation motifs, the propensity of structural disorder of the phosphorylation motifs, and cancer-related mutations observed within the phosphorylation motifs
Among the many factors potentially contributing to the safeguarding mechanism against mutations in p53, we found two patterns that appear unique and correlated with p53 mutations. p53 proteins have high propensities for acidic amino acids adjacent to potential phosphorylation sites
Summary
The phosphorylation sites are relatively less mutated than other residues in p53. The phosphorylation sites match 17 consensus sequence motifs out of the 29 classified. In addition to proline, which is common in kinase specificity-determining sites, we found high propensity of acidic residues to be adjacent to phosphorylation sites. Human cancer mutations within phosphorylation motifs tend to decrease the disorder propensity. 2014, 15 against loss-of-function mutations, and that the natively disordered nature of p53 phosphorylation motifs may help reduce mutational damage. Our results further suggest that engineering acidic amino acids adjacent to potential phosphorylation sites could be a p53 gene therapy strategy. Phosphorylation of S46 may induce p53-regulated apoptosis inducing protein 1) (p53AIP-1) expression and apoptotic response to DNA damage [18,19]. Phosphorylation of S149, T150 and T155 lead to degradation of p53 through the COP9 (constitutive phofomorphogenesis 9)
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