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Hdm2 recruits a hypoxia-sensitive corepressor to negatively regulate p53-dependent transcription

Hdm2 recruits a hypoxia-sensitive corepressor to negatively regulate p53-dependent transcription
Hdm2 recruits a hypoxia-sensitive corepressor to negatively regulate p53-dependent transcription
The transcription factor p53 lies at the center of a protein network that controls cell cycle progression and commitment to apoptosis. p53 is inactive in proliferating cells, largely because of negative regulation by the Hdm2/Mdm2 oncoprotein, with which it physically associates. Release from this negative regulation is sufficient to activate p53 and can be triggered in cells by multiple stimuli through diverse pathways. This diversity is achieved in part because Hdm2 uses multiple mechanisms to inactivate p53; it targets p53 for ubiquitination and degradation by the proteosome, shuttles it out of the nucleus and into the cytoplasm, prevents its interaction with transcriptional coactivators, and contains an intrinsic transcriptional repressor activity. Here we show that Hdm2 can also repress p53 activity through the recruitment of a known transcriptional corepressor, hCtBP2. This interaction, and consequent repression of p53-dependent transcription, is relieved under hypoxia or hypoxia-mimicking conditions that are known to increase levels of intracellular NADH. CtBP proteins can undergo an NADH-induced conformational change, which we show here results in a loss of their Hdm2 binding ability. This pathway represents a novel mechanism whereby p53 activity can be induced by cellular stress.
0960-9822
1234-1239
Mirnezami, Alexander H.
b3c7aee7-46a4-404c-bfe3-f72388e0bc94
Campbell, Sandra J.
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Darley, Matthew
7be23780-a781-4dd4-a74c-f5affbb79521
Primrose, John N.
d85f3b28-24c6-475f-955b-ec457a3f9185
Johnson, Peter W.M.
3f6068ce-171e-4c2c-aca9-dc9b6a37413f
Blaydes, Jeremy P.
e957f999-fd91-4f77-ad62-5b4ef069b15b
Mirnezami, Alexander H.
b3c7aee7-46a4-404c-bfe3-f72388e0bc94
Campbell, Sandra J.
5c85ee6c-22f6-47d9-9e11-21173a9323a5
Darley, Matthew
7be23780-a781-4dd4-a74c-f5affbb79521
Primrose, John N.
d85f3b28-24c6-475f-955b-ec457a3f9185
Johnson, Peter W.M.
3f6068ce-171e-4c2c-aca9-dc9b6a37413f
Blaydes, Jeremy P.
e957f999-fd91-4f77-ad62-5b4ef069b15b

Mirnezami, Alexander H., Campbell, Sandra J., Darley, Matthew, Primrose, John N., Johnson, Peter W.M. and Blaydes, Jeremy P. (2003) Hdm2 recruits a hypoxia-sensitive corepressor to negatively regulate p53-dependent transcription. Current Biology, 13 (14), 1234-1239. (doi:10.1016/S0960-9822(03)00454-8).

Record type: Article

Abstract

The transcription factor p53 lies at the center of a protein network that controls cell cycle progression and commitment to apoptosis. p53 is inactive in proliferating cells, largely because of negative regulation by the Hdm2/Mdm2 oncoprotein, with which it physically associates. Release from this negative regulation is sufficient to activate p53 and can be triggered in cells by multiple stimuli through diverse pathways. This diversity is achieved in part because Hdm2 uses multiple mechanisms to inactivate p53; it targets p53 for ubiquitination and degradation by the proteosome, shuttles it out of the nucleus and into the cytoplasm, prevents its interaction with transcriptional coactivators, and contains an intrinsic transcriptional repressor activity. Here we show that Hdm2 can also repress p53 activity through the recruitment of a known transcriptional corepressor, hCtBP2. This interaction, and consequent repression of p53-dependent transcription, is relieved under hypoxia or hypoxia-mimicking conditions that are known to increase levels of intracellular NADH. CtBP proteins can undergo an NADH-induced conformational change, which we show here results in a loss of their Hdm2 binding ability. This pathway represents a novel mechanism whereby p53 activity can be induced by cellular stress.

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Published date: 2003
Additional Information: Report
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Local EPrints ID: 26486
URI: http://eprints.soton.ac.uk/id/eprint/26486
DOI: doi:10.1016/S0960-9822(03)00454-8
ISSN: 0960-9822
PURE UUID: c8e878f6-9cac-4e96-a82d-4fbf26e3564d
ORCID for John N. Primrose: ORCID iD orcid.org/0000-0002-2069-7605
ORCID for Peter W.M. Johnson: ORCID iD orcid.org/0000-0003-2306-4974
ORCID for Jeremy P. Blaydes: ORCID iD orcid.org/0000-0001-8525-0209

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Date deposited: 12 Apr 2006
Last modified: 16 Mar 2024 03:18

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Author: Alexander H. Mirnezami
Author: Sandra J. Campbell
Author: Matthew Darley
Author: John N. Primrose ORCID iD
Author: Peter W.M. Johnson ORCID iD
Author: Jeremy P. Blaydes ORCID iD

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