PIAS-1 is a checkpoint regulator which affects exit from G1 and G2 by sumoylation of p73
PIAS-1 is a checkpoint regulator which affects exit from G1 and G2 by sumoylation of p73
p73 is a recently described member of the p53 family, and, like p53, it undergoes a number of posttranslational modifications. Here we show, by yeast two-hybrid screening, pull-down assays, and coimmunoprecipitation, that p73?, -ß, and -? bind to the protein inhibitor of activated STAT-1 (PIAS-1) and that this binding stabilizes p73. PIAS-1 also sumoylates p73?, although not the C-terminally truncated isoforms p73ß and -?, and this requires the RING finger domain of PIAS-1. The ?Np73? isoform can also bind, and be sumoylated by, PIAS-1. PIAS-1-mediated sumoylation decreases p73 transcriptional activity on several target promoters, such as Bax. p73 is colocalized in the nucleus with PIAS-1, and sumoylated p73 is located exclusively in the nuclear matrix. PIAS-1 is expressed predominantly during S phase, and PIAS-1 overexpression reduces p73-mediated transcription of p21, with a reduction of cells in G1 and cell cycle reentry. Inhibition of endogenous PIAS-1 by RNA interference reduces the proportion of cells in S phase and induces G2 arrest. These data suggest that PIAS-1, acting partly through binding and sumoylation of p73, is an important component of the cell cycle machinery.
10593-10610
Munarriz, Eliana
47b51387-3d88-4012-b375-cdbfc05bc2bd
Barcaroli, Daniela
3228d5a0-5b2a-46b5-a68f-61e86ac18ae1
Stephanou, Anastasis
e9d502e8-693c-4458-a3c6-5e2844665db3
Townsend, Paul A.
a2680443-664e-46d0-b4dd-97456ba810db
Maisse, Carine
77fd2243-c257-45c1-a00e-a59aab365579
Terrinoni, Alessandro
080f98a3-333c-49e6-a047-e853b5dcb52c
Neale, Michael H.
39b57a40-4e43-404b-9bea-cc30771422e6
Martin, Seamus J.
3df02649-5634-44da-834d-098937a7ae5b
Latchman, David S.
71e9db7c-9075-4b49-afac-6413085378db
Knight, Richard A.
da6172f8-cacc-4330-871a-85dea9e893a4
Melino, Gerry
e66da1c0-b7e7-4299-ba3b-13de37efdef6
De Laurenzi, Vincenzo
279b209b-4ac1-402c-bd90-3cc0435b5d81
2004
Munarriz, Eliana
47b51387-3d88-4012-b375-cdbfc05bc2bd
Barcaroli, Daniela
3228d5a0-5b2a-46b5-a68f-61e86ac18ae1
Stephanou, Anastasis
e9d502e8-693c-4458-a3c6-5e2844665db3
Townsend, Paul A.
a2680443-664e-46d0-b4dd-97456ba810db
Maisse, Carine
77fd2243-c257-45c1-a00e-a59aab365579
Terrinoni, Alessandro
080f98a3-333c-49e6-a047-e853b5dcb52c
Neale, Michael H.
39b57a40-4e43-404b-9bea-cc30771422e6
Martin, Seamus J.
3df02649-5634-44da-834d-098937a7ae5b
Latchman, David S.
71e9db7c-9075-4b49-afac-6413085378db
Knight, Richard A.
da6172f8-cacc-4330-871a-85dea9e893a4
Melino, Gerry
e66da1c0-b7e7-4299-ba3b-13de37efdef6
De Laurenzi, Vincenzo
279b209b-4ac1-402c-bd90-3cc0435b5d81
Munarriz, Eliana, Barcaroli, Daniela, Stephanou, Anastasis, Townsend, Paul A., Maisse, Carine, Terrinoni, Alessandro, Neale, Michael H., Martin, Seamus J., Latchman, David S., Knight, Richard A., Melino, Gerry and De Laurenzi, Vincenzo
(2004)
PIAS-1 is a checkpoint regulator which affects exit from G1 and G2 by sumoylation of p73.
Molecular and Cellular Biology, 24 (24), .
(doi:10.1128/MCB.24.24.10593-10610.2004).
Abstract
p73 is a recently described member of the p53 family, and, like p53, it undergoes a number of posttranslational modifications. Here we show, by yeast two-hybrid screening, pull-down assays, and coimmunoprecipitation, that p73?, -ß, and -? bind to the protein inhibitor of activated STAT-1 (PIAS-1) and that this binding stabilizes p73. PIAS-1 also sumoylates p73?, although not the C-terminally truncated isoforms p73ß and -?, and this requires the RING finger domain of PIAS-1. The ?Np73? isoform can also bind, and be sumoylated by, PIAS-1. PIAS-1-mediated sumoylation decreases p73 transcriptional activity on several target promoters, such as Bax. p73 is colocalized in the nucleus with PIAS-1, and sumoylated p73 is located exclusively in the nuclear matrix. PIAS-1 is expressed predominantly during S phase, and PIAS-1 overexpression reduces p73-mediated transcription of p21, with a reduction of cells in G1 and cell cycle reentry. Inhibition of endogenous PIAS-1 by RNA interference reduces the proportion of cells in S phase and induces G2 arrest. These data suggest that PIAS-1, acting partly through binding and sumoylation of p73, is an important component of the cell cycle machinery.
This record has no associated files available for download.
More information
Published date: 2004
Identifiers
Local EPrints ID: 24884
URI: http://eprints.soton.ac.uk/id/eprint/24884
ISSN: 0270-7306
PURE UUID: c4e11341-7818-458b-a036-eaca5e30b9d1
Catalogue record
Date deposited: 04 Apr 2006
Last modified: 15 Mar 2024 06:59
Export record
Altmetrics
Contributors
Author:
Eliana Munarriz
Author:
Daniela Barcaroli
Author:
Anastasis Stephanou
Author:
Paul A. Townsend
Author:
Carine Maisse
Author:
Alessandro Terrinoni
Author:
Michael H. Neale
Author:
Seamus J. Martin
Author:
David S. Latchman
Author:
Richard A. Knight
Author:
Gerry Melino
Author:
Vincenzo De Laurenzi
Download statistics
Downloads from ePrints over the past year. Other digital versions may also be available to download e.g. from the publisher's website.
View more statistics