PIN1-SUMO2/3 motif suppresses excessive RNF168 chromatin accumulation and ubiquitin signaling to promote IR resistance

Anoop S. Chauhan; Matthew J.W. Mackintosh; Joseph Cassar; Alexander J. Lanz; Mohammed Jamshad; Hannah L. Mackay; Alexander J. Garvin; Alexandra K. Walker; Satpal S. Jhujh; Teresa Carlomagno; Aneika C. Leney; Grant S. Stewart; Joanna R. Morris

doi:10.1038/s41467-025-56974-9

PIN1-SUMO2/3 motif suppresses excessive RNF168 chromatin accumulation and ubiquitin signaling to promote IR resistance

Anoop S. Chauhan, Matthew J.W. Mackintosh, Joseph Cassar, Alexander J. Lanz, Mohammed Jamshad, Hannah L. Mackay, Alexander J. Garvin, Alexandra K. Walker, Satpal S. Jhujh, Teresa Carlomagno, Aneika C. Leney, Grant S. Stewart^*, Joanna R. Morris^*

^*Corresponding author for this work

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Abstract

RNF168 is an E3 ubiquitin ligase critical to the mammalian DNA double-strand break repair response. The protein is recruited to and amplifies ubiquitin signals at damaged chromatin and, if not properly regulated, can drive an uncontrolled ubiquitin cascade potentially harmful to repair outcomes. Several indirect mechanisms restrict RNF168 positive feedback, and a longstanding question has been whether these alone suppress excessive RNF168 signaling or whether mechanisms to remove RNF168 from damaged chromatin exist. Here, we reveal a cascade of post-translational modifications which act at three adjacent amino acids, threonine-208, proline-209 and lysine-210, to process RNF168 actively. Phosphorylation at threonine-208 by CDK1/2 induces interaction with the peptidyl-prolyl isomerase PIN1. PIN1 promotes RNF168 SUMOylation at lysine-210, resulting in p97/VCP mediated removal. These actions promote RNF168 clearance and limit RNF168 chromatin build-up. Thus, single amino acid substitutions of the regulatory motif (SUMO-PIN1-assisted Chromatin Regulator, SPaCR) that restrict PIN1 interaction or SUMOylation are sufficient to drive supraphysiological accumulation of RNF168, increased ubiquitin signaling, excessive 53BP1 recruitment and radiosensitivity. Our findings define a mechanism of direct RNF168 regulation that is part of the normal damage response, promoting RNF168 dissociation from chromatin and limiting deleterious ubiquitin signaling.

Original language	English
Article number	3399
Number of pages	18
Journal	Nature Communications
Volume	16
Issue number	1
DOIs	https://doi.org/10.1038/s41467-025-56974-9
Publication status	Published - 14 Apr 2025

Bibliographical note

Publisher Copyright:
© The Author(s) 2025.

ASJC Scopus subject areas

General Chemistry
General Biochemistry,Genetics and Molecular Biology
General Physics and Astronomy

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10.1038/s41467-025-56974-9Licence: Creative Commons: Attribution (CC BY)

ChauhanA2025MotifFinal published version, 6.42 MBLicence: Creative Commons: Attribution (CC BY)

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Leverhulme International Professorship Grant
Kearns, P. (Co-Investigator), Lee, M. (Co-Investigator), Carlomagno, T. (Principal Investigator) & Cooper, H. (Co-Investigator)
Leverhulme Trust
1/10/21 → 30/09/27
Project: Research
BRCA1 pathways in cancer predisposition and treatment.
Morris, J. (Principal Investigator), Beesley, J. (Co-Investigator), Starowicz, K. (Co-Investigator), Ronson, G. (Co-Investigator) & Mackay, H. (Co-Investigator)
Cancer Research Uk
1/01/20 → 31/12/25
Project: Research
Investigating the role of arginine methylation as a critical regulator of DNA replication and genome stability
Stewart, G. (Principal Investigator)
Medical Research Council
1/01/22 → 30/06/25
Project: Research Councils
Regulation of SUMO in DNA double-strand break repair.
Morris, J. (Principal Investigator)
The Wellcome Trust
11/12/17 → 11/01/23
Project: Research
Characterising novel regulators of the PI-3-kinase-like kinase-dependent DNA damage response and their role in preventing human disease and cancer
Stewart, G. (Principal Investigator)
Cancer Research Uk
1/09/17 → 31/05/25
Project: Research

Cite this

Chauhan, A. S., Mackintosh, M. J. W., Cassar, J., Lanz, A. J., Jamshad, M., Mackay, H. L., Garvin, A. J., Walker, A. K., Jhujh, S. S., Carlomagno, T., Leney, A. C., Stewart, G. S., & Morris, J. R. (2025). PIN1-SUMO2/3 motif suppresses excessive RNF168 chromatin accumulation and ubiquitin signaling to promote IR resistance. Nature Communications, 16(1), Article 3399. https://doi.org/10.1038/s41467-025-56974-9

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title = "PIN1-SUMO2/3 motif suppresses excessive RNF168 chromatin accumulation and ubiquitin signaling to promote IR resistance",

abstract = "RNF168 is an E3 ubiquitin ligase critical to the mammalian DNA double-strand break repair response. The protein is recruited to and amplifies ubiquitin signals at damaged chromatin and, if not properly regulated, can drive an uncontrolled ubiquitin cascade potentially harmful to repair outcomes. Several indirect mechanisms restrict RNF168 positive feedback, and a longstanding question has been whether these alone suppress excessive RNF168 signaling or whether mechanisms to remove RNF168 from damaged chromatin exist. Here, we reveal a cascade of post-translational modifications which act at three adjacent amino acids, threonine-208, proline-209 and lysine-210, to process RNF168 actively. Phosphorylation at threonine-208 by CDK1/2 induces interaction with the peptidyl-prolyl isomerase PIN1. PIN1 promotes RNF168 SUMOylation at lysine-210, resulting in p97/VCP mediated removal. These actions promote RNF168 clearance and limit RNF168 chromatin build-up. Thus, single amino acid substitutions of the regulatory motif (SUMO-PIN1-assisted Chromatin Regulator, SPaCR) that restrict PIN1 interaction or SUMOylation are sufficient to drive supraphysiological accumulation of RNF168, increased ubiquitin signaling, excessive 53BP1 recruitment and radiosensitivity. Our findings define a mechanism of direct RNF168 regulation that is part of the normal damage response, promoting RNF168 dissociation from chromatin and limiting deleterious ubiquitin signaling.",

author = "Chauhan, {Anoop S.} and Mackintosh, {Matthew J.W.} and Joseph Cassar and Lanz, {Alexander J.} and Mohammed Jamshad and Mackay, {Hannah L.} and Garvin, {Alexander J.} and Walker, {Alexandra K.} and Jhujh, {Satpal S.} and Teresa Carlomagno and Leney, {Aneika C.} and Stewart, {Grant S.} and Morris, {Joanna R.}",

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doi = "10.1038/s41467-025-56974-9",

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Chauhan, AS, Mackintosh, MJW, Cassar, J , Lanz, AJ , Jamshad, M , Mackay, HL, Garvin, AJ, Walker, AK , Jhujh, SS , Carlomagno, T , Leney, AC , Stewart, GS & Morris, JR 2025, 'PIN1-SUMO2/3 motif suppresses excessive RNF168 chromatin accumulation and ubiquitin signaling to promote IR resistance', Nature Communications, vol. 16, no. 1, 3399. https://doi.org/10.1038/s41467-025-56974-9

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T1 - PIN1-SUMO2/3 motif suppresses excessive RNF168 chromatin accumulation and ubiquitin signaling to promote IR resistance

AU - Chauhan, Anoop S.

AU - Mackintosh, Matthew J.W.

AU - Cassar, Joseph

AU - Lanz, Alexander J.

AU - Jamshad, Mohammed

AU - Mackay, Hannah L.

AU - Garvin, Alexander J.

AU - Walker, Alexandra K.

AU - Jhujh, Satpal S.

AU - Carlomagno, Teresa

AU - Leney, Aneika C.

AU - Stewart, Grant S.

AU - Morris, Joanna R.

PY - 2025/4/14

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AB - RNF168 is an E3 ubiquitin ligase critical to the mammalian DNA double-strand break repair response. The protein is recruited to and amplifies ubiquitin signals at damaged chromatin and, if not properly regulated, can drive an uncontrolled ubiquitin cascade potentially harmful to repair outcomes. Several indirect mechanisms restrict RNF168 positive feedback, and a longstanding question has been whether these alone suppress excessive RNF168 signaling or whether mechanisms to remove RNF168 from damaged chromatin exist. Here, we reveal a cascade of post-translational modifications which act at three adjacent amino acids, threonine-208, proline-209 and lysine-210, to process RNF168 actively. Phosphorylation at threonine-208 by CDK1/2 induces interaction with the peptidyl-prolyl isomerase PIN1. PIN1 promotes RNF168 SUMOylation at lysine-210, resulting in p97/VCP mediated removal. These actions promote RNF168 clearance and limit RNF168 chromatin build-up. Thus, single amino acid substitutions of the regulatory motif (SUMO-PIN1-assisted Chromatin Regulator, SPaCR) that restrict PIN1 interaction or SUMOylation are sufficient to drive supraphysiological accumulation of RNF168, increased ubiquitin signaling, excessive 53BP1 recruitment and radiosensitivity. Our findings define a mechanism of direct RNF168 regulation that is part of the normal damage response, promoting RNF168 dissociation from chromatin and limiting deleterious ubiquitin signaling.

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PIN1-SUMO2/3 motif suppresses excessive RNF168 chromatin accumulation and ubiquitin signaling to promote IR resistance

Abstract

Bibliographical note

ASJC Scopus subject areas

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Projects

Leverhulme International Professorship Grant

BRCA1 pathways in cancer predisposition and treatment.

Investigating the role of arginine methylation as a critical regulator of DNA replication and genome stability

Regulation of SUMO in DNA double-strand break repair.

Characterising novel regulators of the PI-3-kinase-like kinase-dependent DNA damage response and their role in preventing human disease and cancer

Cite this