Electrophilic Prostaglandins and Lipid Aldehydes Repress Redox-sensitive Transcription Factors p53 and Hypoxia-inducible Factor by Impairing the Selenoprotein Thioredoxin Reductase

Tumor suppressor p53 exhibits an enigmatic phenotype in cells exposed to electrophilic, cyclopentenone prostaglandins of the A and J series. Namely, cells harboring a wild-type p53 gene accumulate p53 protein that is conformationally and functionally impaired. This occurs via an unknown molecular me...

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Bibliographic Details
Published in:The Journal of biological chemistry 2003-01, Vol.278 (2), p.745-750
Main Authors: Moos, Philip J., Edes, Kornelia, Cassidy, Pamela, Massuda, Edmond, Fitzpatrick, F.A.
Format: Article
Language:English
Subjects:
Aldehydes - pharmacology
Apoptosis
Cell Line
DNA-Binding Proteins - antagonists & inhibitors
Etoposide - pharmacology
Humans
Hypoxia-Inducible Factor 1
Hypoxia-Inducible Factor 1, alpha Subunit
Nuclear Proteins - antagonists & inhibitors
Oxidation-Reduction
Prostaglandins A - pharmacology
Protein Conformation
Proteins - antagonists & inhibitors
Proteins - physiology
Repressor Proteins - pharmacology
Selenoproteins
Thioredoxin-Disulfide Reductase - antagonists & inhibitors
Thioredoxin-Disulfide Reductase - physiology
Transcription Factors
Tumor Suppressor Protein p53 - antagonists & inhibitors
Tumor Suppressor Protein p53 - chemistry
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Summary:Tumor suppressor p53 exhibits an enigmatic phenotype in cells exposed to electrophilic, cyclopentenone prostaglandins of the A and J series. Namely, cells harboring a wild-type p53 gene accumulate p53 protein that is conformationally and functionally impaired. This occurs via an unknown molecular mechanism. We report that electrophilic cyclopentenone prostaglandins covalently modify and inhibit thioredoxin reductase, a selenoprotein that governs p53 and other redox-sensitive transcription factors. This mechanism accounts fully for the unusual p53 phenotype in cells exposed to electrophilic prostaglandins. Based on this mechanism we derived, tested, and affirmed several predictions regarding the kinetics of p53 inactivation; the protective effects of selenium; the structure-activity relationships for inhibition of thioredoxin reductase and impairment of p53 by electrophilic lipids; the susceptibility of hypoxia-inducible factor to inactivation by electrophilic lipids; and the equivalence of chemical inactivation of p53 to deletion of a p53 allele. Chemical precepts dictate that other electrophilic agents should also inhibit thioredoxin reductase and impair its governance of redox-sensitive proteins. Our results provide a novel framework to understand how endogenous and exogenous electrophiles might participate in carcinogenesis; how selenoproteins and selenium might confer protection against cancer; how certain tumors might acquire their paradoxical p53 phenotype; and how chronic inflammation might heighten the risk for cancer.
ISSN:0021-9258
1083-351X
DOI:10.1074/jbc.M211134200