E6 oncoprotein represses p53-dependent gene activation via inhibition of protein acetylation independently of inducing p53 degradation

Mary C. Thomas; Cheng Ming Chiang

doi:10.1016/j.molcel.2004.12.016

E6 oncoprotein represses p53-dependent gene activation via inhibition of protein acetylation independently of inducing p53 degradation

Mary C. Thomas, Cheng Ming Chiang

Research output: Contribution to journal › Article › peer-review

178 Scopus citations

Abstract

The mechanism employed by DNA tumor viruses to inhibit p53-dependent transcription from chromatin is poorly understood. Here, we use in vitro-reconstituted chromatin and UV-irradiated cells to define the mechanism of human papillomavirus E6 oncoprotein in repressing p53-dependent transcription. We demonstrate that E6 does not prevent p53 or p300 recruitment to the chromatin but inhibits p300-mediated acetylation on p53 and nucleosomal core histones. This suppression of protein acetylation requires the E6-interacting regions of p300. Moreover, E6 mutants unable to interact with p53 or p300, but not deficient in inducing p53 degradation, fail to inhibit p53-mediated activation, indicating that a p53-E6-p300-containing protein complex is critical for repressing p53-targeted gene activation. That E6 acts as a molecular switch converting p53-p300 from an activating complex to a repressing entity on the chromatin, which occurs independently of E6AP-mediated protein degradation pathway, may represent a general mechanism for gene regulation.

Original language	English (US)
Pages (from-to)	251-264
Number of pages	14
Journal	Molecular cell
Volume	17
Issue number	2
DOIs	https://doi.org/10.1016/j.molcel.2004.12.016
State	Published - Jan 21 2005

ASJC Scopus subject areas

Molecular Biology
Cell Biology

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10.1016/j.molcel.2004.12.016

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@article{9c3ffaf882d24c0bbb0a746a98229259,

title = "E6 oncoprotein represses p53-dependent gene activation via inhibition of protein acetylation independently of inducing p53 degradation",

abstract = "The mechanism employed by DNA tumor viruses to inhibit p53-dependent transcription from chromatin is poorly understood. Here, we use in vitro-reconstituted chromatin and UV-irradiated cells to define the mechanism of human papillomavirus E6 oncoprotein in repressing p53-dependent transcription. We demonstrate that E6 does not prevent p53 or p300 recruitment to the chromatin but inhibits p300-mediated acetylation on p53 and nucleosomal core histones. This suppression of protein acetylation requires the E6-interacting regions of p300. Moreover, E6 mutants unable to interact with p53 or p300, but not deficient in inducing p53 degradation, fail to inhibit p53-mediated activation, indicating that a p53-E6-p300-containing protein complex is critical for repressing p53-targeted gene activation. That E6 acts as a molecular switch converting p53-p300 from an activating complex to a repressing entity on the chromatin, which occurs independently of E6AP-mediated protein degradation pathway, may represent a general mechanism for gene regulation.",

author = "Thomas, {Mary C.} and Chiang, {Cheng Ming}",

note = "Funding Information: We thank E.J. Androphy for pGEX-3X-16E6 and pLXSN-16E6.L37S plasmids; M.L. Harter for HAT p300 and ΔHAT p300 viral stocks; P.M. Howley for E6AP antibody; J.T. Kadonaga for FLAG-Acf1 baculovirus transfer plasmid and untagged Acf1 viral stock; A.E. Koromilas for HT1080 cells harboring pcDNA3 and 11E6- and 18E6-expressing cell lines; D.J. McCance for pcDNA-E6.16, pcDNA-E6.1645Y/47Y/49H, and pcDNA-E6.16G134V plasmids; Y. Nakatani for pCxhGCN5 and p300 and PCAF baculovirus expression plasmids; Z. Nawaz for E6AP-knockout cells; S.-Y. Shieh for pBS-WTp53 and pWAFMLT plasmids; K.A. Siminovitch for T2-hNAP plasmid; R. Tjian for FLAG-tagged CBP baculovirus transfer plasmid; E.-M. de Villiers for HPV-16 and HPV-18 genomes; B. Vogelstein for PG13-Luc and pWWP-Luc plasmids; C. Wu for FLAG-ISWI baculovirus transfer plasmid; and S.-Y. Wu for providing purified HeLa core histones and 16E6 mutants. We are also grateful to our lab members, especially P. Kaur and S.-Y. Wu, for technical advice on chromatin assembly and transcription systems as well as to I.K. Gordon, M.L. Harter, P. Kaur, D. Samols, and S.-Y. Wu for comments on the manuscript. C.-M.C. is a Mt. Sinai Health Care Foundation Scholar. This work was supported by grant CA103867 from the National Institutes of Health.",

year = "2005",

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doi = "10.1016/j.molcel.2004.12.016",

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T1 - E6 oncoprotein represses p53-dependent gene activation via inhibition of protein acetylation independently of inducing p53 degradation

AU - Thomas, Mary C.

AU - Chiang, Cheng Ming

N1 - Funding Information: We thank E.J. Androphy for pGEX-3X-16E6 and pLXSN-16E6.L37S plasmids; M.L. Harter for HAT p300 and ΔHAT p300 viral stocks; P.M. Howley for E6AP antibody; J.T. Kadonaga for FLAG-Acf1 baculovirus transfer plasmid and untagged Acf1 viral stock; A.E. Koromilas for HT1080 cells harboring pcDNA3 and 11E6- and 18E6-expressing cell lines; D.J. McCance for pcDNA-E6.16, pcDNA-E6.1645Y/47Y/49H, and pcDNA-E6.16G134V plasmids; Y. Nakatani for pCxhGCN5 and p300 and PCAF baculovirus expression plasmids; Z. Nawaz for E6AP-knockout cells; S.-Y. Shieh for pBS-WTp53 and pWAFMLT plasmids; K.A. Siminovitch for T2-hNAP plasmid; R. Tjian for FLAG-tagged CBP baculovirus transfer plasmid; E.-M. de Villiers for HPV-16 and HPV-18 genomes; B. Vogelstein for PG13-Luc and pWWP-Luc plasmids; C. Wu for FLAG-ISWI baculovirus transfer plasmid; and S.-Y. Wu for providing purified HeLa core histones and 16E6 mutants. We are also grateful to our lab members, especially P. Kaur and S.-Y. Wu, for technical advice on chromatin assembly and transcription systems as well as to I.K. Gordon, M.L. Harter, P. Kaur, D. Samols, and S.-Y. Wu for comments on the manuscript. C.-M.C. is a Mt. Sinai Health Care Foundation Scholar. This work was supported by grant CA103867 from the National Institutes of Health.

PY - 2005/1/21

Y1 - 2005/1/21

N2 - The mechanism employed by DNA tumor viruses to inhibit p53-dependent transcription from chromatin is poorly understood. Here, we use in vitro-reconstituted chromatin and UV-irradiated cells to define the mechanism of human papillomavirus E6 oncoprotein in repressing p53-dependent transcription. We demonstrate that E6 does not prevent p53 or p300 recruitment to the chromatin but inhibits p300-mediated acetylation on p53 and nucleosomal core histones. This suppression of protein acetylation requires the E6-interacting regions of p300. Moreover, E6 mutants unable to interact with p53 or p300, but not deficient in inducing p53 degradation, fail to inhibit p53-mediated activation, indicating that a p53-E6-p300-containing protein complex is critical for repressing p53-targeted gene activation. That E6 acts as a molecular switch converting p53-p300 from an activating complex to a repressing entity on the chromatin, which occurs independently of E6AP-mediated protein degradation pathway, may represent a general mechanism for gene regulation.

AB - The mechanism employed by DNA tumor viruses to inhibit p53-dependent transcription from chromatin is poorly understood. Here, we use in vitro-reconstituted chromatin and UV-irradiated cells to define the mechanism of human papillomavirus E6 oncoprotein in repressing p53-dependent transcription. We demonstrate that E6 does not prevent p53 or p300 recruitment to the chromatin but inhibits p300-mediated acetylation on p53 and nucleosomal core histones. This suppression of protein acetylation requires the E6-interacting regions of p300. Moreover, E6 mutants unable to interact with p53 or p300, but not deficient in inducing p53 degradation, fail to inhibit p53-mediated activation, indicating that a p53-E6-p300-containing protein complex is critical for repressing p53-targeted gene activation. That E6 acts as a molecular switch converting p53-p300 from an activating complex to a repressing entity on the chromatin, which occurs independently of E6AP-mediated protein degradation pathway, may represent a general mechanism for gene regulation.

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U2 - 10.1016/j.molcel.2004.12.016

DO - 10.1016/j.molcel.2004.12.016

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JO - Molecular Cell

JF - Molecular Cell

IS - 2

ER -

E6 oncoprotein represses p53-dependent gene activation via inhibition of protein acetylation independently of inducing p53 degradation

Abstract

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