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Dual-site Interactions of p53 Protein Transactivation Domain with Anti-apoptotic Bcl-2 Family Proteins Reveal a Highly Convergent Mechanism of Divergent p53 Pathways

2013; Elsevier BV; Volume: 288; Issue: 10 Linguagem: Inglês

10.1074/jbc.m112.400754

1083-351X

Ji‐Hyang Ha, Jae‐Sun Shin, Mi‐Kyung Yoon, Min‐Sung Lee, Fahu He, Kwang‐Hee Bae, Ho Sup Yoon, Chong‐Kil Lee, Sung Goo Park, Y. Muto, Seung‐Wook Chi,

Cancer Research and Treatments

Molecular interactions between the tumor suppressor p53 and the anti-apoptotic Bcl-2 family proteins play an important role in the transcription-independent apoptosis of p53. The p53 transactivation domain (p53TAD) contains two conserved ΦXXΦΦ motifs (Φ indicates a bulky hydrophobic residue and X is any other residue) referred to as p53TAD1 (residues 15–29) and p53TAD2 (residues 39–57). We previously showed that p53TAD1 can act as a binding motif for anti-apoptotic Bcl-2 family proteins. In this study, we have identified p53TAD2 as a binding motif for anti-apoptotic Bcl-2 family proteins by using NMR spectroscopy, and we calculated the structures of Bcl-XL/Bcl-2 in complex with the p53TAD2 peptide. NMR chemical shift perturbation data showed that p53TAD2 peptide binds to diverse members of the anti-apoptotic Bcl-2 family independently of p53TAD1, and the binding between p53TAD2 and p53TAD1 to Bcl-XL is competitive. Refined structural models of the Bcl-XL·p53TAD2 and Bcl-2·p53TAD2 complexes showed that the binding sites occupied by p53TAD2 in Bcl-XL and Bcl-2 overlap well with those occupied by pro-apoptotic BH3 peptides. Taken together with the mutagenesis, isothermal titration calorimetry, and paramagnetic relaxation enhancement data, our structural comparisons provided the structural basis of p53TAD2-mediated interaction with the anti-apoptotic proteins, revealing that Bcl-XL/Bcl-2, MDM2, and cAMP-response element-binding protein-binding protein/p300 share highly similar modes of binding to the dual p53TAD motifs, p53TAD1 and p53TAD2. In conclusion, our results suggest that the dual-site interaction of p53TAD is a highly conserved mechanism underlying target protein binding in the transcription-dependent and transcription-independent apoptotic pathways of p53.Background: Interactions between p53 and Bcl-2 family proteins serve a critical role in transcription-independent p53 apoptosis.Results: We studied the interactions of p53TAD2 with anti-apoptotic Bcl-2 family proteins at the atomic level by NMR, mutagenesis, and structure calculation.Conclusion: Bcl-XL/Bcl-2, MDM2, and CBP/p300 share similar modes of binding to the dual p53TAD motifs.Significance: Dual-site interaction of p53TAD is a highly conserved mechanism in the transcription-dependent and transcription-independent p53 apoptotic pathways. Molecular interactions between the tumor suppressor p53 and the anti-apoptotic Bcl-2 family proteins play an important role in the transcription-independent apoptosis of p53. The p53 transactivation domain (p53TAD) contains two conserved ΦXXΦΦ motifs (Φ indicates a bulky hydrophobic residue and X is any other residue) referred to as p53TAD1 (residues 15–29) and p53TAD2 (residues 39–57). We previously showed that p53TAD1 can act as a binding motif for anti-apoptotic Bcl-2 family proteins. In this study, we have identified p53TAD2 as a binding motif for anti-apoptotic Bcl-2 family proteins by using NMR spectroscopy, and we calculated the structures of Bcl-XL/Bcl-2 in complex with the p53TAD2 peptide. NMR chemical shift perturbation data showed that p53TAD2 peptide binds to diverse members of the anti-apoptotic Bcl-2 family independently of p53TAD1, and the binding between p53TAD2 and p53TAD1 to Bcl-XL is competitive. Refined structural models of the Bcl-XL·p53TAD2 and Bcl-2·p53TAD2 complexes showed that the binding sites occupied by p53TAD2 in Bcl-XL and Bcl-2 overlap well with those occupied by pro-apoptotic BH3 peptides. Taken together with the mutagenesis, isothermal titration calorimetry, and paramagnetic relaxation enhancement data, our structural comparisons provided the structural basis of p53TAD2-mediated interaction with the anti-apoptotic proteins, revealing that Bcl-XL/Bcl-2, MDM2, and cAMP-response element-binding protein-binding protein/p300 share highly similar modes of binding to the dual p53TAD motifs, p53TAD1 and p53TAD2. In conclusion, our results suggest that the dual-site interaction of p53TAD is a highly conserved mechanism underlying target protein binding in the transcription-dependent and transcription-independent apoptotic pathways of p53. Background: Interactions between p53 and Bcl-2 family proteins serve a critical role in transcription-independent p53 apoptosis. Results: We studied the interactions of p53TAD2 with anti-apoptotic Bcl-2 family proteins at the atomic level by NMR, mutagenesis, and structure calculation. Conclusion: Bcl-XL/Bcl-2, MDM2, and CBP/p300 share similar modes of binding to the dual p53TAD motifs. Significance: Dual-site interaction of p53TAD is a highly conserved mechanism in the transcription-dependent and transcription-independent p53 apoptotic pathways.