Joe Sneath Thompson, Laura Madrid, Barbara Hernando, Carolin M. Sauer, Maria Vias, Maria Escobar-Rey, Wing-Kit Leung, Diego Garcia-Lopez, Jamie Huckstep, Magdalena Sekowska, Karen Hosking, Mercedes Jimenez-Linan, Marika A. V. Reinius, Abhipsa Roy, Omar Abdulle, Justina Pangonyte, Harry Dobson, Amy E. Cullen, Dilrini De Silva, David Gómez-Sánchez, Marina Torres, Ángel Fernández-Sanromán, Deborah Sanders, Filipe Correia Martins, Ionut-Gabriel Funingana, Giovanni Codacci-Pisanelli, Miguel Quintela-Fandino, Florian Markowetz, Jason Yip, James D. Brenton, Anna M. Piskorz, Geoff Macintyre
{"title":"利用染色体不稳定性特征预测化疗耐药性","authors":"Joe Sneath Thompson, Laura Madrid, Barbara Hernando, Carolin M. Sauer, Maria Vias, Maria Escobar-Rey, Wing-Kit Leung, Diego Garcia-Lopez, Jamie Huckstep, Magdalena Sekowska, Karen Hosking, Mercedes Jimenez-Linan, Marika A. V. Reinius, Abhipsa Roy, Omar Abdulle, Justina Pangonyte, Harry Dobson, Amy E. Cullen, Dilrini De Silva, David Gómez-Sánchez, Marina Torres, Ángel Fernández-Sanromán, Deborah Sanders, Filipe Correia Martins, Ionut-Gabriel Funingana, Giovanni Codacci-Pisanelli, Miguel Quintela-Fandino, Florian Markowetz, Jason Yip, James D. Brenton, Anna M. Piskorz, Geoff Macintyre","doi":"10.1038/s41588-025-02233-y","DOIUrl":null,"url":null,"abstract":"<p>Chemotherapies are often given without precision biomarkers, exposing patients to toxic side effects without guaranteed benefit. Here we present chromosomal instability signature biomarkers that identify resistance to platinum-, taxane- and anthracycline-based treatments using a single genomic test. In retrospectively emulated randomized-control biomarker clinical trials using real-world cohorts (<i>n</i> = 840), predicted resistant patients had elevated treatment failure risk for taxane (hazard ratio (HR) of 7.44) and anthracycline (HR of 1.88) in ovarian, taxane (HR of 3.98) and anthracycline (HR of 3.69) in metastatic breast and taxane (HR of 5.46) in metastatic prostate. Nonrandomized emulations showed predictive capacity for platinum resistance in ovarian (HR of 1.46) and anthracycline in sarcoma (HR of 3.59). We demonstrate feasibility using whole-genome sequencing, capture-panel sequencing and cell-free DNA. Our findings highlight the clinical value of chromosomal instability signatures in predicting resistance to chemotherapies across multiple cancer types, with the potential to transform the one-size-fits-all chemotherapy approach into precise, tailored treatment.</p>","PeriodicalId":18985,"journal":{"name":"Nature genetics","volume":"147 1","pages":""},"PeriodicalIF":31.7000,"publicationDate":"2025-06-23","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"0","resultStr":"{\"title\":\"Predicting resistance to chemotherapy using chromosomal instability signatures\",\"authors\":\"Joe Sneath Thompson, Laura Madrid, Barbara Hernando, Carolin M. Sauer, Maria Vias, Maria Escobar-Rey, Wing-Kit Leung, Diego Garcia-Lopez, Jamie Huckstep, Magdalena Sekowska, Karen Hosking, Mercedes Jimenez-Linan, Marika A. V. Reinius, Abhipsa Roy, Omar Abdulle, Justina Pangonyte, Harry Dobson, Amy E. Cullen, Dilrini De Silva, David Gómez-Sánchez, Marina Torres, Ángel Fernández-Sanromán, Deborah Sanders, Filipe Correia Martins, Ionut-Gabriel Funingana, Giovanni Codacci-Pisanelli, Miguel Quintela-Fandino, Florian Markowetz, Jason Yip, James D. Brenton, Anna M. Piskorz, Geoff Macintyre\",\"doi\":\"10.1038/s41588-025-02233-y\",\"DOIUrl\":null,\"url\":null,\"abstract\":\"<p>Chemotherapies are often given without precision biomarkers, exposing patients to toxic side effects without guaranteed benefit. Here we present chromosomal instability signature biomarkers that identify resistance to platinum-, taxane- and anthracycline-based treatments using a single genomic test. In retrospectively emulated randomized-control biomarker clinical trials using real-world cohorts (<i>n</i> = 840), predicted resistant patients had elevated treatment failure risk for taxane (hazard ratio (HR) of 7.44) and anthracycline (HR of 1.88) in ovarian, taxane (HR of 3.98) and anthracycline (HR of 3.69) in metastatic breast and taxane (HR of 5.46) in metastatic prostate. Nonrandomized emulations showed predictive capacity for platinum resistance in ovarian (HR of 1.46) and anthracycline in sarcoma (HR of 3.59). We demonstrate feasibility using whole-genome sequencing, capture-panel sequencing and cell-free DNA. 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Predicting resistance to chemotherapy using chromosomal instability signatures
Chemotherapies are often given without precision biomarkers, exposing patients to toxic side effects without guaranteed benefit. Here we present chromosomal instability signature biomarkers that identify resistance to platinum-, taxane- and anthracycline-based treatments using a single genomic test. In retrospectively emulated randomized-control biomarker clinical trials using real-world cohorts (n = 840), predicted resistant patients had elevated treatment failure risk for taxane (hazard ratio (HR) of 7.44) and anthracycline (HR of 1.88) in ovarian, taxane (HR of 3.98) and anthracycline (HR of 3.69) in metastatic breast and taxane (HR of 5.46) in metastatic prostate. Nonrandomized emulations showed predictive capacity for platinum resistance in ovarian (HR of 1.46) and anthracycline in sarcoma (HR of 3.59). We demonstrate feasibility using whole-genome sequencing, capture-panel sequencing and cell-free DNA. Our findings highlight the clinical value of chromosomal instability signatures in predicting resistance to chemotherapies across multiple cancer types, with the potential to transform the one-size-fits-all chemotherapy approach into precise, tailored treatment.
期刊介绍:
Nature Genetics publishes the very highest quality research in genetics. It encompasses genetic and functional genomic studies on human and plant traits and on other model organisms. Current emphasis is on the genetic basis for common and complex diseases and on the functional mechanism, architecture and evolution of gene networks, studied by experimental perturbation.
Integrative genetic topics comprise, but are not limited to:
-Genes in the pathology of human disease
-Molecular analysis of simple and complex genetic traits
-Cancer genetics
-Agricultural genomics
-Developmental genetics
-Regulatory variation in gene expression
-Strategies and technologies for extracting function from genomic data
-Pharmacological genomics
-Genome evolution
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