Jennifer Castro, Matthew H Daniels, David Brennan, Brian Johnston, Deepali Gotur, Young-Tae Lee, Kevin E Knockenhauer, Chuang Lu, Jie Wu, Sunaina Nayak, Cindy Collins, Rishabh Bansal, Shane M Buker, April Case, Julie Liu, Shihua Yao, Brian A Sparling, E Allen Sickmier, Serena J Silver, Stephen J Blakemore, P Ann Boriack-Sjodin, Kenneth W Duncan, Scott Ribich, Robert A Copeland
{"title":"一种强效、选择性小分子 DHX9 抑制剂可抑制错配修复缺陷的微卫星不稳定性癌症的增殖","authors":"Jennifer Castro, Matthew H Daniels, David Brennan, Brian Johnston, Deepali Gotur, Young-Tae Lee, Kevin E Knockenhauer, Chuang Lu, Jie Wu, Sunaina Nayak, Cindy Collins, Rishabh Bansal, Shane M Buker, April Case, Julie Liu, Shihua Yao, Brian A Sparling, E Allen Sickmier, Serena J Silver, Stephen J Blakemore, P Ann Boriack-Sjodin, Kenneth W Duncan, Scott Ribich, Robert A Copeland","doi":"10.1158/0008-5472.CAN-24-0397","DOIUrl":null,"url":null,"abstract":"<p><p>DHX9 is a multifunctional DExH-box RNA helicase with important roles in the regulation of transcription, translation, and maintenance of genome stability. Elevated expression of DHX9 is evident in multiple cancer types, including colorectal cancer. Microsatellite instable-high (MSI-H) tumors with deficient mismatch repair (dMMR) display a strong dependence on DHX9, making this helicase an attractive target for oncology drug discovery. In this report, we show that DHX9 knockdown increased RNA/DNA secondary structures and replication stress, resulting in cell-cycle arrest and the onset of apoptosis in cancer cells with MSI-H/dMMR. ATX968 was identified as a potent and selective inhibitor of DHX9 helicase activity. Chemical inhibition of DHX9 enzymatic activity elicited similar selective effects on cell proliferation as seen with genetic knockdown. In addition, ATX968 induced robust and durable responses in an MSI-H/dMMR xenograft model but not in a microsatellite stable/proficient MMR model. These preclinical data validate DHX9 as a target for the treatment of patients with MSI-H/dMMR. Additionally, this potent and selective inhibitor of DHX9 provides a valuable tool with which to further explore the effects of inhibition of DHX9 enzymatic activity on the proliferation of cancer cells in vitro and in vivo. Significance: DHX9 is required in cancer cells with deficient mismatch repair and can be inhibited by ATX968, providing a promising strategy for the development of precision cancer therapeutics.</p>","PeriodicalId":9441,"journal":{"name":"Cancer research","volume":" ","pages":"758-776"},"PeriodicalIF":12.5000,"publicationDate":"2025-02-17","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"https://www.ncbi.nlm.nih.gov/pmc/articles/PMC11831107/pdf/","citationCount":"0","resultStr":"{\"title\":\"A Potent, Selective, Small-Molecule Inhibitor of DHX9 Abrogates Proliferation of Microsatellite Instable Cancers with Deficient Mismatch Repair.\",\"authors\":\"Jennifer Castro, Matthew H Daniels, David Brennan, Brian Johnston, Deepali Gotur, Young-Tae Lee, Kevin E Knockenhauer, Chuang Lu, Jie Wu, Sunaina Nayak, Cindy Collins, Rishabh Bansal, Shane M Buker, April Case, Julie Liu, Shihua Yao, Brian A Sparling, E Allen Sickmier, Serena J Silver, Stephen J Blakemore, P Ann Boriack-Sjodin, Kenneth W Duncan, Scott Ribich, Robert A Copeland\",\"doi\":\"10.1158/0008-5472.CAN-24-0397\",\"DOIUrl\":null,\"url\":null,\"abstract\":\"<p><p>DHX9 is a multifunctional DExH-box RNA helicase with important roles in the regulation of transcription, translation, and maintenance of genome stability. Elevated expression of DHX9 is evident in multiple cancer types, including colorectal cancer. Microsatellite instable-high (MSI-H) tumors with deficient mismatch repair (dMMR) display a strong dependence on DHX9, making this helicase an attractive target for oncology drug discovery. In this report, we show that DHX9 knockdown increased RNA/DNA secondary structures and replication stress, resulting in cell-cycle arrest and the onset of apoptosis in cancer cells with MSI-H/dMMR. ATX968 was identified as a potent and selective inhibitor of DHX9 helicase activity. Chemical inhibition of DHX9 enzymatic activity elicited similar selective effects on cell proliferation as seen with genetic knockdown. In addition, ATX968 induced robust and durable responses in an MSI-H/dMMR xenograft model but not in a microsatellite stable/proficient MMR model. These preclinical data validate DHX9 as a target for the treatment of patients with MSI-H/dMMR. Additionally, this potent and selective inhibitor of DHX9 provides a valuable tool with which to further explore the effects of inhibition of DHX9 enzymatic activity on the proliferation of cancer cells in vitro and in vivo. 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A Potent, Selective, Small-Molecule Inhibitor of DHX9 Abrogates Proliferation of Microsatellite Instable Cancers with Deficient Mismatch Repair.
DHX9 is a multifunctional DExH-box RNA helicase with important roles in the regulation of transcription, translation, and maintenance of genome stability. Elevated expression of DHX9 is evident in multiple cancer types, including colorectal cancer. Microsatellite instable-high (MSI-H) tumors with deficient mismatch repair (dMMR) display a strong dependence on DHX9, making this helicase an attractive target for oncology drug discovery. In this report, we show that DHX9 knockdown increased RNA/DNA secondary structures and replication stress, resulting in cell-cycle arrest and the onset of apoptosis in cancer cells with MSI-H/dMMR. ATX968 was identified as a potent and selective inhibitor of DHX9 helicase activity. Chemical inhibition of DHX9 enzymatic activity elicited similar selective effects on cell proliferation as seen with genetic knockdown. In addition, ATX968 induced robust and durable responses in an MSI-H/dMMR xenograft model but not in a microsatellite stable/proficient MMR model. These preclinical data validate DHX9 as a target for the treatment of patients with MSI-H/dMMR. Additionally, this potent and selective inhibitor of DHX9 provides a valuable tool with which to further explore the effects of inhibition of DHX9 enzymatic activity on the proliferation of cancer cells in vitro and in vivo. Significance: DHX9 is required in cancer cells with deficient mismatch repair and can be inhibited by ATX968, providing a promising strategy for the development of precision cancer therapeutics.
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.
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