4.8 Article

Graded enhancement of p53 binding to CREB-binding protein (CBP) by multisite phosphorylation

Publisher

NATL ACAD SCIENCES
DOI: 10.1073/pnas.1013078107

Keywords

competitive binding; protein-protein interaction; transcriptional coactivator; tumor suppressor

Funding

  1. National Institutes of Health [CA96865]
  2. Skaggs Institute for Chemical Biology
  3. Korean Ministry of Education and Human Resource [KRF-2004-214-C00207]
  4. Leukemia and Lymphoma Society
  5. National Institute of Neurological Disorders and Stroke
  6. MEXT, Japan
  7. Skaggs training grant

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The transcriptional activity of p53 is regulated by a cascade of posttranslational modifications. Although acetylation of p53 by CREB-binding protein (CBP)/p300 is known to be indispensable for p53 activation, the role of phosphorylation, and in particular multisite phosphorylation, in activation of CBP/p300-dependent p53 transcriptional pathways remains unclear. We investigated the role of single site and multiple site phosphorylation of the p53 transactivation domain in mediating its interaction with CBP and with the ubiquitin ligase HDM2. Phosphorylation at Thr18 functions as an on/off switch to regulate binding to the N-terminal domain of HDM2. In contrast, binding to CBP is modulated by the extent of p53 phosphorylation; addition of successive phosphoryl groups enhances the affinity for the TAZ1, TAZ2, and KIX domains of CBP in an additive manner. Activation of p53-dependent transcriptional pathways requires that p53 compete with numerous cellular transcription factors for binding to limiting amounts of CBP/p300. Multisite phosphorylation represents a mechanism for a graded p53 response, with each successive phosphorylation event resulting in increasingly efficient recruitment of CBP/p300 to p53-regulated transcriptional programs, in the face of competition from cellular transcription factors. Multisite phosphorylation thus acts as a rheostat to enhance binding to CBP/p300 and provides a plausible mechanistic explanation for the gradually increasing p53 response observed following prolonged or severe genotoxic stress.

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