Abstract

The human transcriptional positive coactivator 4 (PC4) activates several p53-dependent genes. It has been demonstrated that this is a consequence of direct interaction with p53. Previously, we have concluded that PC4 interacts mainly with the C-terminal negative regulatory domain of p53 through its DNA binding C-terminal half. NMR chemical shift perturbation studies with peptide fragments indicated that amino acids 380-386 of p53 are crucial for interaction with PC4. This was verified by fluorescence anisotropy and sedimentation velocity studies. A peptide consisting of p53-(380-386) sequence, when attached to a cell penetration tag and nuclear localization signal, localizes to the nucleus and inhibits luciferase gene expression from a transfected plasmid carrying a Luc gene under a p53-dependent promoter. Acetylation of lysine 382/381 enhanced the binding of this peptide to PC4 by about an order of magnitude. NMR and mutagenesis studies indicated that serine 73 of PC4 is an important residue for recognition of p53. Intermolecular nuclear Overhauser effect placed aspartate 76 in the vicinity of lysine 381, indicating that the region around residues 73-76 of PC4 is important for p53 recognition. We conclude that the 380-386 region of p53 interacts with the region around residues 73-76 of PC4, and acetylation of lysine 382/381 of p53 may play an important role in modulating p53-PC4 interaction and as a consequence PC4 mediated activation of p53 target genes.

Highlights

  • P53 is a well known tumor suppressor that is essential for cellular integrity and homeostasis

  • A number of studies have pointed toward its important role in the activation of genes targeted by p53 [10]

  • Contradictory results have been reported about the location of the part of p53 that interacts with positive coactivator 4 (PC4)

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Summary

Introduction

P53 is a well known tumor suppressor that is essential for cellular integrity and homeostasis. NMR chemical shift perturbation studies with peptide fragments indicated that amino acids 380 –386 of p53 are crucial for interaction with PC4. The TOCSY spectra with and without PC4 reveal a number of chemical shift changes, indicating interaction of the peptide and the protein (data not shown).

Results
Conclusion

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