STAT-1 interacts with p53 to enhance DNA damage-induced apoptosis
STAT-1 interacts with p53 to enhance DNA damage-induced apoptosis
The STAT-1 transcription factor has been implicated as a tumor suppressor by virtue of its ability to inhibit cell growth and promoting apoptosis. However, the mechanisms by which STAT-1 mediates these effects remain unclear. Using human and mouse STAT-1-deficient cells, we show here that STAT-1 is required for optimal DNA damage-induced apoptosis. The basal level of the p53 inhibitor Mdm2 is increased in STAT-1(-/-) cells, suggesting that STAT-1 is a negative regulator of Mdm2 expression. Correspondingly, both basal p53 levels, and those induced by DNA damage were lower in STAT-1(-/-) cells. In agreement with this lower p53 response to DNA damage in cells lacking STAT-1, the induction of p53 responsive genes, such as Bax, Noxa, and Fas, was reduced in STAT-1-deficient cells. Conversely, STAT-1 overexpression enhances transcription of these genes, an effect that is abolished if the p53 response element in their promoters is mutated. Moreover, STAT-1 interacts directly with p53, an association, which is enhanced following DNA damage. Therefore, in addition to negatively regulating Mdm2, STAT-1 also acts as a coactivator for p53. Hence STAT-1 is another member of a growing family of protein partners able to modulate the p53-activated apoptotic pathway
5811 - 5820
Townsend, Paul A.
a2680443-664e-46d0-b4dd-97456ba810db
Scarabelli, Tiziano M.
ac96a777-880e-4e39-9884-f11a0978da35
Davidson, Sean M.
b8eeed87-5d86-42ca-8844-25bf6887253c
Knight, Richard A.
da6172f8-cacc-4330-871a-85dea9e893a4
Latchman, David S.
71e9db7c-9075-4b49-afac-6413085378db
Stephanou, Anastasis
e9d502e8-693c-4458-a3c6-5e2844665db3
February 2004
Townsend, Paul A.
a2680443-664e-46d0-b4dd-97456ba810db
Scarabelli, Tiziano M.
ac96a777-880e-4e39-9884-f11a0978da35
Davidson, Sean M.
b8eeed87-5d86-42ca-8844-25bf6887253c
Knight, Richard A.
da6172f8-cacc-4330-871a-85dea9e893a4
Latchman, David S.
71e9db7c-9075-4b49-afac-6413085378db
Stephanou, Anastasis
e9d502e8-693c-4458-a3c6-5e2844665db3
Townsend, Paul A., Scarabelli, Tiziano M., Davidson, Sean M., Knight, Richard A., Latchman, David S. and Stephanou, Anastasis
(2004)
STAT-1 interacts with p53 to enhance DNA damage-induced apoptosis.
The Journal of Biological Chemistry, 279 (7), .
(doi:10.1074/jbc.M302637200).
Abstract
The STAT-1 transcription factor has been implicated as a tumor suppressor by virtue of its ability to inhibit cell growth and promoting apoptosis. However, the mechanisms by which STAT-1 mediates these effects remain unclear. Using human and mouse STAT-1-deficient cells, we show here that STAT-1 is required for optimal DNA damage-induced apoptosis. The basal level of the p53 inhibitor Mdm2 is increased in STAT-1(-/-) cells, suggesting that STAT-1 is a negative regulator of Mdm2 expression. Correspondingly, both basal p53 levels, and those induced by DNA damage were lower in STAT-1(-/-) cells. In agreement with this lower p53 response to DNA damage in cells lacking STAT-1, the induction of p53 responsive genes, such as Bax, Noxa, and Fas, was reduced in STAT-1-deficient cells. Conversely, STAT-1 overexpression enhances transcription of these genes, an effect that is abolished if the p53 response element in their promoters is mutated. Moreover, STAT-1 interacts directly with p53, an association, which is enhanced following DNA damage. Therefore, in addition to negatively regulating Mdm2, STAT-1 also acts as a coactivator for p53. Hence STAT-1 is another member of a growing family of protein partners able to modulate the p53-activated apoptotic pathway
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Published date: February 2004
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Local EPrints ID: 24998
URI: http://eprints.soton.ac.uk/id/eprint/24998
ISSN: 0021-9258
PURE UUID: 7432f4e7-3af2-4122-b2d3-cd75dbf46794
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Date deposited: 05 Apr 2006
Last modified: 15 Mar 2024 06:59
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Contributors
Author:
Paul A. Townsend
Author:
Tiziano M. Scarabelli
Author:
Sean M. Davidson
Author:
Richard A. Knight
Author:
David S. Latchman
Author:
Anastasis Stephanou
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