Hzf Determines Cell Survival upon Genotoxic Stress by Modulating p53 Transactivation

Sanjeev Das; Lakshmi Raj; Bo Zhao; Yuki Kimura; Alan Bernstein; Stuart A. Aaronson; Sam W. Lee

doi:10.1016/j.cell.2007.06.013

Hzf Determines Cell Survival upon Genotoxic Stress by Modulating p53 Transactivation

Sanjeev Das, Lakshmi Raj, Bo Zhao, Yuki Kimura, Alan Bernstein, Stuart A. Aaronson, Sam W. Lee

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

129 Scopus citations

Abstract

A critical unresolved issue about the genotoxic stress response is how the resulting activation of the p53 tumor suppressor can lead either to cell-cycle arrest and DNA repair or to apoptosis. We show here that hematopoietic zinc finger (Hzf), a zinc-finger-containing p53 target gene, modulates p53 transactivation functions in an autoregulatory feedback loop. Hzf is induced by p53 and binds to its DNA-binding domain, resulting in preferential transactivation of proarrest p53 target genes over its proapoptotic target genes. Thus, p53 activation results in cell-cycle arrest in Hzf wild-type MEFs, while in Hzf^-/- MEFs, apoptosis is induced. Exposure of Hzf null mice to ionizing radiation resulted in enhanced apoptosis in several organs, as compared to in wild-type mice. These findings provide novel insights into the regulation of p53 transactivation function and suggest that Hzf functions as a key player in regulating cell fate decisions in response to genotoxic stress.

Original language	English
Pages (from-to)	624-637
Number of pages	14
Journal	Cell
Volume	130
Issue number	4
DOIs	https://doi.org/10.1016/j.cell.2007.06.013
State	Published - 24 Aug 2007

Keywords

CELLCYCLE
DNA
SIGNALING

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@article{4d093a0107354c21a26e243855e34658,

title = "Hzf Determines Cell Survival upon Genotoxic Stress by Modulating p53 Transactivation",

abstract = "A critical unresolved issue about the genotoxic stress response is how the resulting activation of the p53 tumor suppressor can lead either to cell-cycle arrest and DNA repair or to apoptosis. We show here that hematopoietic zinc finger (Hzf), a zinc-finger-containing p53 target gene, modulates p53 transactivation functions in an autoregulatory feedback loop. Hzf is induced by p53 and binds to its DNA-binding domain, resulting in preferential transactivation of proarrest p53 target genes over its proapoptotic target genes. Thus, p53 activation results in cell-cycle arrest in Hzf wild-type MEFs, while in Hzf-/- MEFs, apoptosis is induced. Exposure of Hzf null mice to ionizing radiation resulted in enhanced apoptosis in several organs, as compared to in wild-type mice. These findings provide novel insights into the regulation of p53 transactivation function and suggest that Hzf functions as a key player in regulating cell fate decisions in response to genotoxic stress.",

keywords = "CELLCYCLE, DNA, SIGNALING",

author = "Sanjeev Das and Lakshmi Raj and Bo Zhao and Yuki Kimura and Alan Bernstein and Aaronson, {Stuart A.} and Lee, {Sam W.}",

note = "Funding Information: We would like to thank the Cutaneous Biology Research Center at MGH for supporting this work; S. Boswell, A. Mandinova, and L. Brown for reading the manuscript; and Y. Minamishima for initiation of the project. We also thank J. Manfredi (Mount Sinai School of Medicine) for providing the mutant p53 constructs. This work was supported by NIH grants 2RO1 CA085681, 1RO1 CA097216, and 2RO1 CA078356 to S.W.L.; NIH grants 2RO1 CA085214 and PO1 CA80058 and a Breast Cancer Research Foundation grant to S.A.A.; and Shiseido Research Core funding to S.W.L. ",

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AU - Das, Sanjeev

AU - Raj, Lakshmi

AU - Zhao, Bo

AU - Kimura, Yuki

AU - Bernstein, Alan

AU - Aaronson, Stuart A.

AU - Lee, Sam W.

N1 - Funding Information: We would like to thank the Cutaneous Biology Research Center at MGH for supporting this work; S. Boswell, A. Mandinova, and L. Brown for reading the manuscript; and Y. Minamishima for initiation of the project. We also thank J. Manfredi (Mount Sinai School of Medicine) for providing the mutant p53 constructs. This work was supported by NIH grants 2RO1 CA085681, 1RO1 CA097216, and 2RO1 CA078356 to S.W.L.; NIH grants 2RO1 CA085214 and PO1 CA80058 and a Breast Cancer Research Foundation grant to S.A.A.; and Shiseido Research Core funding to S.W.L.

PY - 2007/8/24

Y1 - 2007/8/24

N2 - A critical unresolved issue about the genotoxic stress response is how the resulting activation of the p53 tumor suppressor can lead either to cell-cycle arrest and DNA repair or to apoptosis. We show here that hematopoietic zinc finger (Hzf), a zinc-finger-containing p53 target gene, modulates p53 transactivation functions in an autoregulatory feedback loop. Hzf is induced by p53 and binds to its DNA-binding domain, resulting in preferential transactivation of proarrest p53 target genes over its proapoptotic target genes. Thus, p53 activation results in cell-cycle arrest in Hzf wild-type MEFs, while in Hzf-/- MEFs, apoptosis is induced. Exposure of Hzf null mice to ionizing radiation resulted in enhanced apoptosis in several organs, as compared to in wild-type mice. These findings provide novel insights into the regulation of p53 transactivation function and suggest that Hzf functions as a key player in regulating cell fate decisions in response to genotoxic stress.

AB - A critical unresolved issue about the genotoxic stress response is how the resulting activation of the p53 tumor suppressor can lead either to cell-cycle arrest and DNA repair or to apoptosis. We show here that hematopoietic zinc finger (Hzf), a zinc-finger-containing p53 target gene, modulates p53 transactivation functions in an autoregulatory feedback loop. Hzf is induced by p53 and binds to its DNA-binding domain, resulting in preferential transactivation of proarrest p53 target genes over its proapoptotic target genes. Thus, p53 activation results in cell-cycle arrest in Hzf wild-type MEFs, while in Hzf-/- MEFs, apoptosis is induced. Exposure of Hzf null mice to ionizing radiation resulted in enhanced apoptosis in several organs, as compared to in wild-type mice. These findings provide novel insights into the regulation of p53 transactivation function and suggest that Hzf functions as a key player in regulating cell fate decisions in response to genotoxic stress.

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Hzf Determines Cell Survival upon Genotoxic Stress by Modulating p53 Transactivation

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Keywords

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