The ubiquitin-dependent ATPase p97 removes cytotoxic trapped PARP1 from chromatin

Dragomir B. Krastev; Shudong Li; Yilun Sun; Andrew J. Wicks; Gwendoline Hoslett; Daniel Weekes; Luned M. Badder; Eleanor G. Knight; Rebecca Marlow; Mercedes Calvo Pardo; Lu Yu; Tanaji T. Talele; Jiri Bartek; Jyoti S. Choudhary; Yves Pommier; Stephen J. Pettitt; Andrew N.J. Tutt; Kristijan Ramadan; Christopher J. Lord

doi:10.1038/s41556-021-00807-6

The ubiquitin-dependent ATPase p97 removes cytotoxic trapped PARP1 from chromatin

Dragomir B. Krastev, Shudong Li, Yilun Sun, Andrew J. Wicks, Gwendoline Hoslett, Daniel Weekes, Luned M. Badder, Eleanor G. Knight, Rebecca Marlow, Mercedes Calvo Pardo, Lu Yu, Tanaji T. Talele, Jiri Bartek, Jyoti S. Choudhary, Yves Pommier, Stephen J. Pettitt^*, Andrew N.J. Tutt^*, Kristijan Ramadan^*, Christopher J. Lord^*

^*Corresponding author for this work

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

89 Citations (Scopus)

Abstract

Poly (ADP-ribose) polymerase (PARP) inhibitors elicit antitumour activity in homologous recombination-defective cancers by trapping PARP1 in a chromatin-bound state. How cells process trapped PARP1 remains unclear. Using wild-type and a trapping-deficient PARP1 mutant combined with rapid immunoprecipitation mass spectrometry of endogenous proteins and Apex2 proximity labelling, we delineated mass spectrometry-based interactomes of trapped and non-trapped PARP1. These analyses identified an interaction between trapped PARP1 and the ubiquitin-regulated p97 ATPase/segregase. We found that following trapping, PARP1 is SUMOylated by PIAS4 and subsequently ubiquitylated by the SUMO-targeted E3 ubiquitin ligase RNF4, events that promote recruitment of p97 and removal of trapped PARP1 from chromatin. Small-molecule p97-complex inhibitors, including a metabolite of the clinically used drug disulfiram (CuET), prolonged PARP1 trapping and enhanced PARP inhibitor-induced cytotoxicity in homologous recombination-defective tumour cells and patient-derived tumour organoids. Together, these results suggest that p97 ATPase plays a key role in the processing of trapped PARP1 and the response of tumour cells to PARP inhibitors.

Original language	English
Pages (from-to)	62-73
Number of pages	12
Journal	Nature Cell Biology
Volume	24
Issue number	1
DOIs	https://doi.org/10.1038/s41556-021-00807-6
Publication status	Published - Jan 2022
Externally published	Yes

Bibliographical note

Publisher Copyright:
© 2022, The Author(s).

ASJC Scopus Subject Areas

Cell Biology

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This output contributes to the following UN Sustainable Development Goals (SDGs)

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Krastev, D. B., Li, S., Sun, Y., Wicks, A. J., Hoslett, G., Weekes, D., Badder, L. M., Knight, E. G., Marlow, R., Pardo, M. C., Yu, L., Talele, T. T., Bartek, J., Choudhary, J. S., Pommier, Y., Pettitt, S. J., Tutt, A. N. J., Ramadan, K., & Lord, C. J. (2022). The ubiquitin-dependent ATPase p97 removes cytotoxic trapped PARP1 from chromatin. Nature Cell Biology, 24(1), 62-73. https://doi.org/10.1038/s41556-021-00807-6

@article{953652b1fbdb42d8812ec634af376a4d,

title = "The ubiquitin-dependent ATPase p97 removes cytotoxic trapped PARP1 from chromatin",

abstract = "Poly (ADP-ribose) polymerase (PARP) inhibitors elicit antitumour activity in homologous recombination-defective cancers by trapping PARP1 in a chromatin-bound state. How cells process trapped PARP1 remains unclear. Using wild-type and a trapping-deficient PARP1 mutant combined with rapid immunoprecipitation mass spectrometry of endogenous proteins and Apex2 proximity labelling, we delineated mass spectrometry-based interactomes of trapped and non-trapped PARP1. These analyses identified an interaction between trapped PARP1 and the ubiquitin-regulated p97 ATPase/segregase. We found that following trapping, PARP1 is SUMOylated by PIAS4 and subsequently ubiquitylated by the SUMO-targeted E3 ubiquitin ligase RNF4, events that promote recruitment of p97 and removal of trapped PARP1 from chromatin. Small-molecule p97-complex inhibitors, including a metabolite of the clinically used drug disulfiram (CuET), prolonged PARP1 trapping and enhanced PARP inhibitor-induced cytotoxicity in homologous recombination-defective tumour cells and patient-derived tumour organoids. Together, these results suggest that p97 ATPase plays a key role in the processing of trapped PARP1 and the response of tumour cells to PARP inhibitors.",

author = "Krastev, {Dragomir B.} and Shudong Li and Yilun Sun and Wicks, {Andrew J.} and Gwendoline Hoslett and Daniel Weekes and Badder, {Luned M.} and Knight, {Eleanor G.} and Rebecca Marlow and Pardo, {Mercedes Calvo} and Lu Yu and Talele, {Tanaji T.} and Jiri Bartek and Choudhary, {Jyoti S.} and Yves Pommier and Pettitt, {Stephen J.} and Tutt, {Andrew N.J.} and Kristijan Ramadan and Lord, {Christopher J.}",

note = "Publisher Copyright: {\textcopyright} 2022, The Author(s).",

year = "2022",

month = jan,

doi = "10.1038/s41556-021-00807-6",

language = "English",

volume = "24",

pages = "62--73",

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Krastev, DB, Li, S, Sun, Y, Wicks, AJ, Hoslett, G, Weekes, D, Badder, LM, Knight, EG, Marlow, R, Pardo, MC, Yu, L, Talele, TT, Bartek, J, Choudhary, JS, Pommier, Y, Pettitt, SJ, Tutt, ANJ, Ramadan, K & Lord, CJ 2022, 'The ubiquitin-dependent ATPase p97 removes cytotoxic trapped PARP1 from chromatin', Nature Cell Biology, vol. 24, no. 1, pp. 62-73. https://doi.org/10.1038/s41556-021-00807-6

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AU - Krastev, Dragomir B.

AU - Li, Shudong

AU - Sun, Yilun

AU - Wicks, Andrew J.

AU - Hoslett, Gwendoline

AU - Weekes, Daniel

AU - Badder, Luned M.

AU - Knight, Eleanor G.

AU - Marlow, Rebecca

AU - Pardo, Mercedes Calvo

AU - Yu, Lu

AU - Talele, Tanaji T.

AU - Bartek, Jiri

AU - Choudhary, Jyoti S.

AU - Pommier, Yves

AU - Pettitt, Stephen J.

AU - Tutt, Andrew N.J.

AU - Ramadan, Kristijan

AU - Lord, Christopher J.

PY - 2022/1

Y1 - 2022/1

N2 - Poly (ADP-ribose) polymerase (PARP) inhibitors elicit antitumour activity in homologous recombination-defective cancers by trapping PARP1 in a chromatin-bound state. How cells process trapped PARP1 remains unclear. Using wild-type and a trapping-deficient PARP1 mutant combined with rapid immunoprecipitation mass spectrometry of endogenous proteins and Apex2 proximity labelling, we delineated mass spectrometry-based interactomes of trapped and non-trapped PARP1. These analyses identified an interaction between trapped PARP1 and the ubiquitin-regulated p97 ATPase/segregase. We found that following trapping, PARP1 is SUMOylated by PIAS4 and subsequently ubiquitylated by the SUMO-targeted E3 ubiquitin ligase RNF4, events that promote recruitment of p97 and removal of trapped PARP1 from chromatin. Small-molecule p97-complex inhibitors, including a metabolite of the clinically used drug disulfiram (CuET), prolonged PARP1 trapping and enhanced PARP inhibitor-induced cytotoxicity in homologous recombination-defective tumour cells and patient-derived tumour organoids. Together, these results suggest that p97 ATPase plays a key role in the processing of trapped PARP1 and the response of tumour cells to PARP inhibitors.

AB - Poly (ADP-ribose) polymerase (PARP) inhibitors elicit antitumour activity in homologous recombination-defective cancers by trapping PARP1 in a chromatin-bound state. How cells process trapped PARP1 remains unclear. Using wild-type and a trapping-deficient PARP1 mutant combined with rapid immunoprecipitation mass spectrometry of endogenous proteins and Apex2 proximity labelling, we delineated mass spectrometry-based interactomes of trapped and non-trapped PARP1. These analyses identified an interaction between trapped PARP1 and the ubiquitin-regulated p97 ATPase/segregase. We found that following trapping, PARP1 is SUMOylated by PIAS4 and subsequently ubiquitylated by the SUMO-targeted E3 ubiquitin ligase RNF4, events that promote recruitment of p97 and removal of trapped PARP1 from chromatin. Small-molecule p97-complex inhibitors, including a metabolite of the clinically used drug disulfiram (CuET), prolonged PARP1 trapping and enhanced PARP inhibitor-induced cytotoxicity in homologous recombination-defective tumour cells and patient-derived tumour organoids. Together, these results suggest that p97 ATPase plays a key role in the processing of trapped PARP1 and the response of tumour cells to PARP inhibitors.

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The ubiquitin-dependent ATPase p97 removes cytotoxic trapped PARP1 from chromatin

Abstract

Bibliographical note

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UN SDGs

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