Asuka Kawai-Kawachi, Madison M. Lenormand, Clémence Astier, Noé Herbel, Meritxell B. Cutrona, Carine Ngo, Marlène Garrido, Thomas Eychenne, Nicolas Dorvault, Laetitia Bordelet, Fei Fei Song, Ryme Bouyakoub, Anastasia Loktev, Antonio Romo-Morales, Clémence Henon, Léo Colmet-Daage, Julien Vibert, Marjorie Drac, Rachel Brough, Etienne Schwob, Oliviano Martella, Guillaume Pinna, Janet M. Shipley, Sibylle Mittnacht, Astrid Zimmermann, Aditi Gulati, Olivier Mir, Axel Le Cesne, Matthieu Faron, Charles Honoré, Christopher J. Lord, Roman M. Chabanon, Sophie Postel-Vinay
{"title":"复制应激是脱鳞小圆形细胞瘤中一种可操作的遗传脆弱性","authors":"Asuka Kawai-Kawachi, Madison M. Lenormand, Clémence Astier, Noé Herbel, Meritxell B. Cutrona, Carine Ngo, Marlène Garrido, Thomas Eychenne, Nicolas Dorvault, Laetitia Bordelet, Fei Fei Song, Ryme Bouyakoub, Anastasia Loktev, Antonio Romo-Morales, Clémence Henon, Léo Colmet-Daage, Julien Vibert, Marjorie Drac, Rachel Brough, Etienne Schwob, Oliviano Martella, Guillaume Pinna, Janet M. Shipley, Sibylle Mittnacht, Astrid Zimmermann, Aditi Gulati, Olivier Mir, Axel Le Cesne, Matthieu Faron, Charles Honoré, Christopher J. Lord, Roman M. Chabanon, Sophie Postel-Vinay","doi":"10.1158/0008-5472.can-23-3603","DOIUrl":null,"url":null,"abstract":"Desmoplastic small round cell tumor (DSRCT) is an aggressive sarcoma subtype that is driven by the EWS-WT1 chimeric transcription factor. The prognosis for DSRCT is poor, and major advances in treating DSCRT have not occurred for over two decades. To identify effective therapeutic approaches to target DSRCT, we conducted a high-throughput drug sensitivity screen in a DSRCT cell line assessing chemosensitivity profiles for 79 small-molecule inhibitors. DSRCT cells were sensitive to PARP and ATR inhibitors (PARPi, ATRi), as monotherapies and in combination. These effects were recapitulated using multiple clinical PARPi and ATRi in three biologically distinct, clinically-relevant models of DSRCT, including cell lines, a patient-derived xenograft (PDX)-derived organoid model, and a cell line-derived xenograft mouse model. Mechanistically, exposure to a combination of PARPi and ATRi caused increased DNA damage, G2/M checkpoint activation, micronuclei accumulation, replication stress, and R-loop formation. EWS-WT1 silencing abrogated these phenotypes and was epistatic with exogenous expression of the R-loop resolution enzyme RNase H1 in reversing the sensitivity to PARPi and ATRi monotherapies. The combination of PARPi and ATRi also induced EWS-WT1-dependent cell-autonomous activation of the cGAS/STING innate immune pathway and cell surface expression of PD-L1. Taken together, these findings point towards a role for EWS-WT1 in generating R-loop-dependent replication stress that leads to a targetable vulnerability, providing a rationale for the clinical assessment of PARPi and ATRi in DSRCT.","PeriodicalId":9441,"journal":{"name":"Cancer research","volume":"209 1","pages":""},"PeriodicalIF":12.5000,"publicationDate":"2024-10-16","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"0","resultStr":"{\"title\":\"Replication Stress is an Actionable Genetic Vulnerability in Desmoplastic Small Round Cell Tumors\",\"authors\":\"Asuka Kawai-Kawachi, Madison M. Lenormand, Clémence Astier, Noé Herbel, Meritxell B. Cutrona, Carine Ngo, Marlène Garrido, Thomas Eychenne, Nicolas Dorvault, Laetitia Bordelet, Fei Fei Song, Ryme Bouyakoub, Anastasia Loktev, Antonio Romo-Morales, Clémence Henon, Léo Colmet-Daage, Julien Vibert, Marjorie Drac, Rachel Brough, Etienne Schwob, Oliviano Martella, Guillaume Pinna, Janet M. Shipley, Sibylle Mittnacht, Astrid Zimmermann, Aditi Gulati, Olivier Mir, Axel Le Cesne, Matthieu Faron, Charles Honoré, Christopher J. Lord, Roman M. Chabanon, Sophie Postel-Vinay\",\"doi\":\"10.1158/0008-5472.can-23-3603\",\"DOIUrl\":null,\"url\":null,\"abstract\":\"Desmoplastic small round cell tumor (DSRCT) is an aggressive sarcoma subtype that is driven by the EWS-WT1 chimeric transcription factor. The prognosis for DSRCT is poor, and major advances in treating DSCRT have not occurred for over two decades. To identify effective therapeutic approaches to target DSRCT, we conducted a high-throughput drug sensitivity screen in a DSRCT cell line assessing chemosensitivity profiles for 79 small-molecule inhibitors. DSRCT cells were sensitive to PARP and ATR inhibitors (PARPi, ATRi), as monotherapies and in combination. These effects were recapitulated using multiple clinical PARPi and ATRi in three biologically distinct, clinically-relevant models of DSRCT, including cell lines, a patient-derived xenograft (PDX)-derived organoid model, and a cell line-derived xenograft mouse model. Mechanistically, exposure to a combination of PARPi and ATRi caused increased DNA damage, G2/M checkpoint activation, micronuclei accumulation, replication stress, and R-loop formation. EWS-WT1 silencing abrogated these phenotypes and was epistatic with exogenous expression of the R-loop resolution enzyme RNase H1 in reversing the sensitivity to PARPi and ATRi monotherapies. The combination of PARPi and ATRi also induced EWS-WT1-dependent cell-autonomous activation of the cGAS/STING innate immune pathway and cell surface expression of PD-L1. 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Replication Stress is an Actionable Genetic Vulnerability in Desmoplastic Small Round Cell Tumors
Desmoplastic small round cell tumor (DSRCT) is an aggressive sarcoma subtype that is driven by the EWS-WT1 chimeric transcription factor. The prognosis for DSRCT is poor, and major advances in treating DSCRT have not occurred for over two decades. To identify effective therapeutic approaches to target DSRCT, we conducted a high-throughput drug sensitivity screen in a DSRCT cell line assessing chemosensitivity profiles for 79 small-molecule inhibitors. DSRCT cells were sensitive to PARP and ATR inhibitors (PARPi, ATRi), as monotherapies and in combination. These effects were recapitulated using multiple clinical PARPi and ATRi in three biologically distinct, clinically-relevant models of DSRCT, including cell lines, a patient-derived xenograft (PDX)-derived organoid model, and a cell line-derived xenograft mouse model. Mechanistically, exposure to a combination of PARPi and ATRi caused increased DNA damage, G2/M checkpoint activation, micronuclei accumulation, replication stress, and R-loop formation. EWS-WT1 silencing abrogated these phenotypes and was epistatic with exogenous expression of the R-loop resolution enzyme RNase H1 in reversing the sensitivity to PARPi and ATRi monotherapies. The combination of PARPi and ATRi also induced EWS-WT1-dependent cell-autonomous activation of the cGAS/STING innate immune pathway and cell surface expression of PD-L1. Taken together, these findings point towards a role for EWS-WT1 in generating R-loop-dependent replication stress that leads to a targetable vulnerability, providing a rationale for the clinical assessment of PARPi and ATRi in DSRCT.
期刊介绍:
Cancer Research, published by the American Association for Cancer Research (AACR), is a journal that focuses on impactful original studies, reviews, and opinion pieces relevant to the broad cancer research community. Manuscripts that present conceptual or technological advances leading to insights into cancer biology are particularly sought after. The journal also places emphasis on convergence science, which involves bridging multiple distinct areas of cancer research.
With primary subsections including Cancer Biology, Cancer Immunology, Cancer Metabolism and Molecular Mechanisms, Translational Cancer Biology, Cancer Landscapes, and Convergence Science, Cancer Research has a comprehensive scope. It is published twice a month and has one volume per year, with a print ISSN of 0008-5472 and an online ISSN of 1538-7445.
Cancer Research is abstracted and/or indexed in various databases and platforms, including BIOSIS Previews (R) Database, MEDLINE, Current Contents/Life Sciences, Current Contents/Clinical Medicine, Science Citation Index, Scopus, and Web of Science.