SF3B1 hotspot mutations confer sensitivity to PARP inhibition by eliciting a defective replication stress response

SF3B1 hotspot mutations are associated with a poor prognosis in several tumor types and lead to global disruption of canonical splicing. Through synthetic lethal drug screens, we identify that SF3B1 mutant (SF3B1(MUT)) cells are selectively sensitive to poly (ADP-ribose) polymerase inhibitors (PARPi...

Descripción completa

Detalles Bibliográficos
Autores principales: Bland, Philip, Saville, Harry, Wai, Patty T., Curnow, Lucinda, Muirhead, Gareth, Nieminuszczy, Jadwiga, Ravindran, Nivedita, John, Marie Beatrix, Hedayat, Somaieh, Barker, Holly E., Wright, James, Yu, Lu, Mavrommati, Ioanna, Read, Abigail, Peck, Barrie, Allen, Mark, Gazinska, Patrycja, Pemberton, Helen N., Gulati, Aditi, Nash, Sarah, Noor, Farzana, Guppy, Naomi, Roxanis, Ioannis, Pratt, Guy, Oldreive, Ceri, Stankovic, Tatjana, Barlow, Samantha, Kalirai, Helen, Coupland, Sarah E., Broderick, Ronan, Alsafadi, Samar, Houy, Alexandre, Stern, Marc-Henri, Pettit, Stephen, Choudhary, Jyoti S., Haider, Syed, Niedzwiedz, Wojciech, Lord, Christopher J., Natrajan, Rachael
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Nature Publishing Group US 2023
Materias:
Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC10412459/
https://www.ncbi.nlm.nih.gov/pubmed/37524790
http://dx.doi.org/10.1038/s41588-023-01460-5
_version_ 1785086909825941504
author Bland, Philip
Saville, Harry
Wai, Patty T.
Curnow, Lucinda
Muirhead, Gareth
Nieminuszczy, Jadwiga
Ravindran, Nivedita
John, Marie Beatrix
Hedayat, Somaieh
Barker, Holly E.
Wright, James
Yu, Lu
Mavrommati, Ioanna
Read, Abigail
Peck, Barrie
Allen, Mark
Gazinska, Patrycja
Pemberton, Helen N.
Gulati, Aditi
Nash, Sarah
Noor, Farzana
Guppy, Naomi
Roxanis, Ioannis
Pratt, Guy
Oldreive, Ceri
Stankovic, Tatjana
Barlow, Samantha
Kalirai, Helen
Coupland, Sarah E.
Broderick, Ronan
Alsafadi, Samar
Houy, Alexandre
Stern, Marc-Henri
Pettit, Stephen
Choudhary, Jyoti S.
Haider, Syed
Niedzwiedz, Wojciech
Lord, Christopher J.
Natrajan, Rachael
author_facet Bland, Philip
Saville, Harry
Wai, Patty T.
Curnow, Lucinda
Muirhead, Gareth
Nieminuszczy, Jadwiga
Ravindran, Nivedita
John, Marie Beatrix
Hedayat, Somaieh
Barker, Holly E.
Wright, James
Yu, Lu
Mavrommati, Ioanna
Read, Abigail
Peck, Barrie
Allen, Mark
Gazinska, Patrycja
Pemberton, Helen N.
Gulati, Aditi
Nash, Sarah
Noor, Farzana
Guppy, Naomi
Roxanis, Ioannis
Pratt, Guy
Oldreive, Ceri
Stankovic, Tatjana
Barlow, Samantha
Kalirai, Helen
Coupland, Sarah E.
Broderick, Ronan
Alsafadi, Samar
Houy, Alexandre
Stern, Marc-Henri
Pettit, Stephen
Choudhary, Jyoti S.
Haider, Syed
Niedzwiedz, Wojciech
Lord, Christopher J.
Natrajan, Rachael
author_sort Bland, Philip
collection PubMed
description SF3B1 hotspot mutations are associated with a poor prognosis in several tumor types and lead to global disruption of canonical splicing. Through synthetic lethal drug screens, we identify that SF3B1 mutant (SF3B1(MUT)) cells are selectively sensitive to poly (ADP-ribose) polymerase inhibitors (PARPi), independent of hotspot mutation and tumor site. SF3B1(MUT) cells display a defective response to PARPi-induced replication stress that occurs via downregulation of the cyclin-dependent kinase 2 interacting protein (CINP), leading to increased replication fork origin firing and loss of phosphorylated CHK1 (pCHK1; S317) induction. This results in subsequent failure to resolve DNA replication intermediates and G(2)/M cell cycle arrest. These defects are rescued through CINP overexpression, or further targeted by a combination of ataxia-telangiectasia mutated and PARP inhibition. In vivo, PARPi produce profound antitumor effects in multiple SF3B1(MUT) cancer models and eliminate distant metastases. These data provide the rationale for testing the clinical efficacy of PARPi in a biomarker-driven, homologous recombination proficient, patient population.
format Online
Article
Text
id pubmed-10412459
institution National Center for Biotechnology Information
language English
publishDate 2023
publisher Nature Publishing Group US
record_format MEDLINE/PubMed
spelling pubmed-104124592023-08-11 SF3B1 hotspot mutations confer sensitivity to PARP inhibition by eliciting a defective replication stress response Bland, Philip Saville, Harry Wai, Patty T. Curnow, Lucinda Muirhead, Gareth Nieminuszczy, Jadwiga Ravindran, Nivedita John, Marie Beatrix Hedayat, Somaieh Barker, Holly E. Wright, James Yu, Lu Mavrommati, Ioanna Read, Abigail Peck, Barrie Allen, Mark Gazinska, Patrycja Pemberton, Helen N. Gulati, Aditi Nash, Sarah Noor, Farzana Guppy, Naomi Roxanis, Ioannis Pratt, Guy Oldreive, Ceri Stankovic, Tatjana Barlow, Samantha Kalirai, Helen Coupland, Sarah E. Broderick, Ronan Alsafadi, Samar Houy, Alexandre Stern, Marc-Henri Pettit, Stephen Choudhary, Jyoti S. Haider, Syed Niedzwiedz, Wojciech Lord, Christopher J. Natrajan, Rachael Nat Genet Article SF3B1 hotspot mutations are associated with a poor prognosis in several tumor types and lead to global disruption of canonical splicing. Through synthetic lethal drug screens, we identify that SF3B1 mutant (SF3B1(MUT)) cells are selectively sensitive to poly (ADP-ribose) polymerase inhibitors (PARPi), independent of hotspot mutation and tumor site. SF3B1(MUT) cells display a defective response to PARPi-induced replication stress that occurs via downregulation of the cyclin-dependent kinase 2 interacting protein (CINP), leading to increased replication fork origin firing and loss of phosphorylated CHK1 (pCHK1; S317) induction. This results in subsequent failure to resolve DNA replication intermediates and G(2)/M cell cycle arrest. These defects are rescued through CINP overexpression, or further targeted by a combination of ataxia-telangiectasia mutated and PARP inhibition. In vivo, PARPi produce profound antitumor effects in multiple SF3B1(MUT) cancer models and eliminate distant metastases. These data provide the rationale for testing the clinical efficacy of PARPi in a biomarker-driven, homologous recombination proficient, patient population. Nature Publishing Group US 2023-07-31 2023 /pmc/articles/PMC10412459/ /pubmed/37524790 http://dx.doi.org/10.1038/s41588-023-01460-5 Text en © The Author(s) 2023 https://creativecommons.org/licenses/by/4.0/Open Access This article is licensed under a Creative Commons Attribution 4.0 International License, which permits use, sharing, adaptation, distribution and reproduction in any medium or format, as long as you give appropriate credit to the original author(s) and the source, provide a link to the Creative Commons license, and indicate if changes were made. The images or other third party material in this article are included in the article’s Creative Commons license, unless indicated otherwise in a credit line to the material. If material is not included in the article’s Creative Commons license and your intended use is not permitted by statutory regulation or exceeds the permitted use, you will need to obtain permission directly from the copyright holder. To view a copy of this license, visit http://creativecommons.org/licenses/by/4.0/ (https://creativecommons.org/licenses/by/4.0/) .
spellingShingle Article
Bland, Philip
Saville, Harry
Wai, Patty T.
Curnow, Lucinda
Muirhead, Gareth
Nieminuszczy, Jadwiga
Ravindran, Nivedita
John, Marie Beatrix
Hedayat, Somaieh
Barker, Holly E.
Wright, James
Yu, Lu
Mavrommati, Ioanna
Read, Abigail
Peck, Barrie
Allen, Mark
Gazinska, Patrycja
Pemberton, Helen N.
Gulati, Aditi
Nash, Sarah
Noor, Farzana
Guppy, Naomi
Roxanis, Ioannis
Pratt, Guy
Oldreive, Ceri
Stankovic, Tatjana
Barlow, Samantha
Kalirai, Helen
Coupland, Sarah E.
Broderick, Ronan
Alsafadi, Samar
Houy, Alexandre
Stern, Marc-Henri
Pettit, Stephen
Choudhary, Jyoti S.
Haider, Syed
Niedzwiedz, Wojciech
Lord, Christopher J.
Natrajan, Rachael
SF3B1 hotspot mutations confer sensitivity to PARP inhibition by eliciting a defective replication stress response
title SF3B1 hotspot mutations confer sensitivity to PARP inhibition by eliciting a defective replication stress response
title_full SF3B1 hotspot mutations confer sensitivity to PARP inhibition by eliciting a defective replication stress response
title_fullStr SF3B1 hotspot mutations confer sensitivity to PARP inhibition by eliciting a defective replication stress response
title_full_unstemmed SF3B1 hotspot mutations confer sensitivity to PARP inhibition by eliciting a defective replication stress response
title_short SF3B1 hotspot mutations confer sensitivity to PARP inhibition by eliciting a defective replication stress response
title_sort sf3b1 hotspot mutations confer sensitivity to parp inhibition by eliciting a defective replication stress response
topic Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC10412459/
https://www.ncbi.nlm.nih.gov/pubmed/37524790
http://dx.doi.org/10.1038/s41588-023-01460-5
work_keys_str_mv AT blandphilip sf3b1hotspotmutationsconfersensitivitytoparpinhibitionbyelicitingadefectivereplicationstressresponse
AT savilleharry sf3b1hotspotmutationsconfersensitivitytoparpinhibitionbyelicitingadefectivereplicationstressresponse
AT waipattyt sf3b1hotspotmutationsconfersensitivitytoparpinhibitionbyelicitingadefectivereplicationstressresponse
AT curnowlucinda sf3b1hotspotmutationsconfersensitivitytoparpinhibitionbyelicitingadefectivereplicationstressresponse
AT muirheadgareth sf3b1hotspotmutationsconfersensitivitytoparpinhibitionbyelicitingadefectivereplicationstressresponse
AT nieminuszczyjadwiga sf3b1hotspotmutationsconfersensitivitytoparpinhibitionbyelicitingadefectivereplicationstressresponse
AT ravindrannivedita sf3b1hotspotmutationsconfersensitivitytoparpinhibitionbyelicitingadefectivereplicationstressresponse
AT johnmariebeatrix sf3b1hotspotmutationsconfersensitivitytoparpinhibitionbyelicitingadefectivereplicationstressresponse
AT hedayatsomaieh sf3b1hotspotmutationsconfersensitivitytoparpinhibitionbyelicitingadefectivereplicationstressresponse
AT barkerhollye sf3b1hotspotmutationsconfersensitivitytoparpinhibitionbyelicitingadefectivereplicationstressresponse
AT wrightjames sf3b1hotspotmutationsconfersensitivitytoparpinhibitionbyelicitingadefectivereplicationstressresponse
AT yulu sf3b1hotspotmutationsconfersensitivitytoparpinhibitionbyelicitingadefectivereplicationstressresponse
AT mavrommatiioanna sf3b1hotspotmutationsconfersensitivitytoparpinhibitionbyelicitingadefectivereplicationstressresponse
AT readabigail sf3b1hotspotmutationsconfersensitivitytoparpinhibitionbyelicitingadefectivereplicationstressresponse
AT peckbarrie sf3b1hotspotmutationsconfersensitivitytoparpinhibitionbyelicitingadefectivereplicationstressresponse
AT allenmark sf3b1hotspotmutationsconfersensitivitytoparpinhibitionbyelicitingadefectivereplicationstressresponse
AT gazinskapatrycja sf3b1hotspotmutationsconfersensitivitytoparpinhibitionbyelicitingadefectivereplicationstressresponse
AT pembertonhelenn sf3b1hotspotmutationsconfersensitivitytoparpinhibitionbyelicitingadefectivereplicationstressresponse
AT gulatiaditi sf3b1hotspotmutationsconfersensitivitytoparpinhibitionbyelicitingadefectivereplicationstressresponse
AT nashsarah sf3b1hotspotmutationsconfersensitivitytoparpinhibitionbyelicitingadefectivereplicationstressresponse
AT noorfarzana sf3b1hotspotmutationsconfersensitivitytoparpinhibitionbyelicitingadefectivereplicationstressresponse
AT guppynaomi sf3b1hotspotmutationsconfersensitivitytoparpinhibitionbyelicitingadefectivereplicationstressresponse
AT roxanisioannis sf3b1hotspotmutationsconfersensitivitytoparpinhibitionbyelicitingadefectivereplicationstressresponse
AT prattguy sf3b1hotspotmutationsconfersensitivitytoparpinhibitionbyelicitingadefectivereplicationstressresponse
AT oldreiveceri sf3b1hotspotmutationsconfersensitivitytoparpinhibitionbyelicitingadefectivereplicationstressresponse
AT stankovictatjana sf3b1hotspotmutationsconfersensitivitytoparpinhibitionbyelicitingadefectivereplicationstressresponse
AT barlowsamantha sf3b1hotspotmutationsconfersensitivitytoparpinhibitionbyelicitingadefectivereplicationstressresponse
AT kaliraihelen sf3b1hotspotmutationsconfersensitivitytoparpinhibitionbyelicitingadefectivereplicationstressresponse
AT couplandsarahe sf3b1hotspotmutationsconfersensitivitytoparpinhibitionbyelicitingadefectivereplicationstressresponse
AT broderickronan sf3b1hotspotmutationsconfersensitivitytoparpinhibitionbyelicitingadefectivereplicationstressresponse
AT alsafadisamar sf3b1hotspotmutationsconfersensitivitytoparpinhibitionbyelicitingadefectivereplicationstressresponse
AT houyalexandre sf3b1hotspotmutationsconfersensitivitytoparpinhibitionbyelicitingadefectivereplicationstressresponse
AT sternmarchenri sf3b1hotspotmutationsconfersensitivitytoparpinhibitionbyelicitingadefectivereplicationstressresponse
AT pettitstephen sf3b1hotspotmutationsconfersensitivitytoparpinhibitionbyelicitingadefectivereplicationstressresponse
AT choudharyjyotis sf3b1hotspotmutationsconfersensitivitytoparpinhibitionbyelicitingadefectivereplicationstressresponse
AT haidersyed sf3b1hotspotmutationsconfersensitivitytoparpinhibitionbyelicitingadefectivereplicationstressresponse
AT niedzwiedzwojciech sf3b1hotspotmutationsconfersensitivitytoparpinhibitionbyelicitingadefectivereplicationstressresponse
AT lordchristopherj sf3b1hotspotmutationsconfersensitivitytoparpinhibitionbyelicitingadefectivereplicationstressresponse
AT natrajanrachael sf3b1hotspotmutationsconfersensitivitytoparpinhibitionbyelicitingadefectivereplicationstressresponse

Ejemplares similares