Links between mutant p53 and genomic instability

Walter Hanel; Ute M. Moll

doi:10.1002/jcb.23400

Links between mutant p53 and genomic instability

Walter Hanel
, Ute M. Moll

Stony Brook University

Research output: Contribution to journal › Review article › peer-review

171 Scopus citations

Abstract

The tumor suppressor p53 has long been known to play a central role in maintaining a stable genome in the face of toxic insults through its role in promoting cell-cycle checkpoints, DNA repair, and apoptosis. However, p53 null cells still retain some function of certain checkpoint and repair processes, reducing the genomic changes that otherwise would occur if these mechanisms were absent. Accumulating evidence suggests that mutant forms of p53 proteins may drastically perturb these residual genome-stabilizing mechanisms through gain-of-function interactions with multiple proteins leading to a higher level of genomic instability than in p53 null cells. This review summarizes the current body of evidence that mutp53 plays a role in promoting various forms of genomic instability and provides an overview of current mechanistic proposals.

Original language	English
Pages (from-to)	433-439
Number of pages	7
Journal	Journal of Cellular Biochemistry
Volume	113
Issue number	2
DOIs	https://doi.org/10.1002/jcb.23400
State	Published - Feb 2012

Keywords

Aneuploidy
DNA damage checkpoint
Genomic instability
Mutant p53
Spindle assembly checkpoint
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10.1002/jcb.23400

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title = "Links between mutant p53 and genomic instability",

abstract = "The tumor suppressor p53 has long been known to play a central role in maintaining a stable genome in the face of toxic insults through its role in promoting cell-cycle checkpoints, DNA repair, and apoptosis. However, p53 null cells still retain some function of certain checkpoint and repair processes, reducing the genomic changes that otherwise would occur if these mechanisms were absent. Accumulating evidence suggests that mutant forms of p53 proteins may drastically perturb these residual genome-stabilizing mechanisms through gain-of-function interactions with multiple proteins leading to a higher level of genomic instability than in p53 null cells. This review summarizes the current body of evidence that mutp53 plays a role in promoting various forms of genomic instability and provides an overview of current mechanistic proposals.",

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AB - The tumor suppressor p53 has long been known to play a central role in maintaining a stable genome in the face of toxic insults through its role in promoting cell-cycle checkpoints, DNA repair, and apoptosis. However, p53 null cells still retain some function of certain checkpoint and repair processes, reducing the genomic changes that otherwise would occur if these mechanisms were absent. Accumulating evidence suggests that mutant forms of p53 proteins may drastically perturb these residual genome-stabilizing mechanisms through gain-of-function interactions with multiple proteins leading to a higher level of genomic instability than in p53 null cells. This review summarizes the current body of evidence that mutp53 plays a role in promoting various forms of genomic instability and provides an overview of current mechanistic proposals.

KW - Aneuploidy

KW - DNA damage checkpoint

KW - Genomic instability

KW - Mutant p53

KW - Spindle assembly checkpoint

KW - Translocations

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JO - Journal of Cellular Biochemistry

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Links between mutant p53 and genomic instability

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