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A chromatin-independent role of polycomb-like 1 to stabilize p53 and promote cellular quiescence

A chromatin-independent role of polycomb-like 1 to stabilize p53 and promote cellular quiescence
A chromatin-independent role of polycomb-like 1 to stabilize p53 and promote cellular quiescence

Polycomb-like proteins 1-3 (PCL1-3) are substoichiometric components of the Polycomb-repressive complex 2 (PRC2) that are essential for association of the complex with chromatin. However, it remains unclear why three proteins with such apparent functional redundancy exist in mammals. Here we characterize their divergent roles in both positively and negatively regulating cellular proliferation. We show that while PCL2 and PCL3 are E2F-regulated genes expressed in proliferating cells, PCL1 is a p53 target gene predominantly expressed in quiescent cells. Ectopic expression of any PCL protein recruits PRC2 to repress the INK4A gene; however, only PCL2 and PCL3 confer an INK4A-dependent proliferative advantage. Remarkably, PCL1 has evolved a PRC2-and chromatin-independent function to negatively regulate proliferation. We show that PCL1 binds to and stabilizes p53 to induce cellular quiescence. Moreover, depletion of PCL1 phenocopies the defects in maintaining cellular quiescence associated with p53 loss. This newly evolved function is achieved by the binding of the PCL1 N-terminal PHD domain to the C-terminal domain of p53 through two unique serine residues, which were acquired during recent vertebrate evolution. This study illustrates the functional bifurcation of PCL proteins, which act in both a chromatin-dependent and a chromatin-independent manner to regulate the INK4A and p53 pathways.

Cellular quiescence, Cellular senescence, Neofunctionalization, P53, PHD reader domain, Polycomb-like
0890-9369
2231-2243
Brien, Gerard L.
02d03eeb-7bbc-499d-beb7-9f582b95f91d
Healy, Evan
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Jerman, Emilia
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Conway, Eric
083b179f-d2cd-4921-9ee8-6d29ce665dd3
Fadda, Elisa
11ba1755-9585-44aa-a38e-a8bcfd766abb
O’Donovan, Darragh
a4ff83f8-c94d-4c8e-ba77-cf72d9006ed8
Krivtsov, Andrei V.
bb896cc0-458d-4b0e-a5cc-d35fe24cd32a
Rice, Alan M.
26f479f7-0776-4e9a-9c69-687a9c7160d5
Kearney, Conor J.
ccfb5cca-e026-44bf-a58a-34eb9c1fba96
Flaus, Andrew
627c4913-a53d-4e05-8e0b-17267ffbc585
McDade, Simon S.
d64e8cbb-a460-462b-bdb4-f2ac34afcf09
Martin, Seamus J.
ebcacf8c-3032-4a3c-a197-a9b6c00c2a59
McLysaght, Aoife
d559ce8d-ec5b-404d-bc9f-55c17146ec88
O’Connell, David J.
caf81799-cbac-4db5-83cc-bc24848fcfa1
Armstrong, Scott A.
3865e7c8-4c2b-4ba0-b4f3-3013faa0435c
Bracken, Adrian P.
1c7a90f0-e305-41d1-9814-a36bc610bf18
Brien, Gerard L.
02d03eeb-7bbc-499d-beb7-9f582b95f91d
Healy, Evan
bfe48c54-d615-4a26-9f9f-32743b9a5089
Jerman, Emilia
921e6edb-7290-471c-8f77-9ba9834abda7
Conway, Eric
083b179f-d2cd-4921-9ee8-6d29ce665dd3
Fadda, Elisa
11ba1755-9585-44aa-a38e-a8bcfd766abb
O’Donovan, Darragh
a4ff83f8-c94d-4c8e-ba77-cf72d9006ed8
Krivtsov, Andrei V.
bb896cc0-458d-4b0e-a5cc-d35fe24cd32a
Rice, Alan M.
26f479f7-0776-4e9a-9c69-687a9c7160d5
Kearney, Conor J.
ccfb5cca-e026-44bf-a58a-34eb9c1fba96
Flaus, Andrew
627c4913-a53d-4e05-8e0b-17267ffbc585
McDade, Simon S.
d64e8cbb-a460-462b-bdb4-f2ac34afcf09
Martin, Seamus J.
ebcacf8c-3032-4a3c-a197-a9b6c00c2a59
McLysaght, Aoife
d559ce8d-ec5b-404d-bc9f-55c17146ec88
O’Connell, David J.
caf81799-cbac-4db5-83cc-bc24848fcfa1
Armstrong, Scott A.
3865e7c8-4c2b-4ba0-b4f3-3013faa0435c
Bracken, Adrian P.
1c7a90f0-e305-41d1-9814-a36bc610bf18

Brien, Gerard L., Healy, Evan, Jerman, Emilia, Conway, Eric, Fadda, Elisa, O’Donovan, Darragh, Krivtsov, Andrei V., Rice, Alan M., Kearney, Conor J., Flaus, Andrew, McDade, Simon S., Martin, Seamus J., McLysaght, Aoife, O’Connell, David J., Armstrong, Scott A. and Bracken, Adrian P. (2015) A chromatin-independent role of polycomb-like 1 to stabilize p53 and promote cellular quiescence. Genes and Development, 29 (21), 2231-2243. (doi:10.1101/gad.267930.115).

Record type: Article

Abstract

Polycomb-like proteins 1-3 (PCL1-3) are substoichiometric components of the Polycomb-repressive complex 2 (PRC2) that are essential for association of the complex with chromatin. However, it remains unclear why three proteins with such apparent functional redundancy exist in mammals. Here we characterize their divergent roles in both positively and negatively regulating cellular proliferation. We show that while PCL2 and PCL3 are E2F-regulated genes expressed in proliferating cells, PCL1 is a p53 target gene predominantly expressed in quiescent cells. Ectopic expression of any PCL protein recruits PRC2 to repress the INK4A gene; however, only PCL2 and PCL3 confer an INK4A-dependent proliferative advantage. Remarkably, PCL1 has evolved a PRC2-and chromatin-independent function to negatively regulate proliferation. We show that PCL1 binds to and stabilizes p53 to induce cellular quiescence. Moreover, depletion of PCL1 phenocopies the defects in maintaining cellular quiescence associated with p53 loss. This newly evolved function is achieved by the binding of the PCL1 N-terminal PHD domain to the C-terminal domain of p53 through two unique serine residues, which were acquired during recent vertebrate evolution. This study illustrates the functional bifurcation of PCL proteins, which act in both a chromatin-dependent and a chromatin-independent manner to regulate the INK4A and p53 pathways.

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More information

Published date: 1 November 2015
Additional Information: Publisher Copyright: © 2015 Stern et al.
Keywords: Cellular quiescence, Cellular senescence, Neofunctionalization, P53, PHD reader domain, Polycomb-like

Identifiers

Local EPrints ID: 499777
URI: http://eprints.soton.ac.uk/id/eprint/499777
DOI: doi:10.1101/gad.267930.115
ISSN: 0890-9369
PURE UUID: e4a93f26-c019-4ce2-9f61-9a73a7354b24
ORCID for Elisa Fadda: ORCID iD orcid.org/0000-0002-2898-7770

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Date deposited: 03 Apr 2025 16:47
Last modified: 04 Apr 2025 02:10

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Contributors

Author: Gerard L. Brien
Author: Evan Healy
Author: Emilia Jerman
Author: Eric Conway
Author: Elisa Fadda ORCID iD
Author: Darragh O’Donovan
Author: Andrei V. Krivtsov
Author: Alan M. Rice
Author: Conor J. Kearney
Author: Andrew Flaus
Author: Simon S. McDade
Author: Seamus J. Martin
Author: Aoife McLysaght
Author: David J. O’Connell
Author: Scott A. Armstrong
Author: Adrian P. Bracken

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