A diverse landscape of FGFR alterations and co-mutations suggests potential therapeutic strategies in pediatric low-grade gliomas

April A. Apfelbaum; Eric Morin; Dominik Sturm; Georges Ayoub; Jeromy J. Digiacomo; Sher Bahadur; Bhavyaa Chandarana; Phoebe C. Power; Margaret Cusick; Dana Novikov; P. B. Edwin Prabhakar; Robert E. Jones; Jayne Vogelzang; Connor C. Bossi; Seth Malinowski; Lewis Woodward; T. Alwyn Jones; John Jeang; Sarah W Lamson; Jared Collins; Ke Xia Cai; Jacquelyn S. Jones; Se-hee Oh; Hyesung Jeon; Jinhua Wang; Amy Cameron; Patrick Rechter; Angela De Leon; Karthikeyan Murugesan; Meagan Montesion; Lee A. Albacker; Shakti Ramkissoon; Cornelis M. van Tilburg; Emily C. Hardin; Philipp Sievers; Felix Sahm; Kee Kiat Yeo; Tom Rosenberg; Susan Chi; Karen Wright; Steven Hébert; Sydney Peck; Alberto Pïcca; Valérie Larouche; Samuele Renzi; Sara J. Buhrlage; Tejus Bale; Amy Smith; Mehdi Touat; Nada Jabado; Eric S. Fischer; Michael J. Eck; Lissa Baird; Olaf Witt; Claudia L. Kleinman; Quang-Dé Nguyen; Denise Sheer; Sanda Alexandrescu; David Jones; Keith L. Ligon; Pratiti Bandopadhayay

doi:10.1038/s41467-025-61820-z

A diverse landscape of FGFR alterations and co-mutations suggests potential therapeutic strategies in pediatric low-grade gliomas

April A. Apfelbaum(Broad Institute), Eric Morin(Broad Institute), Dominik Sturm(German Cancer Research Center), Georges Ayoub(Brigham and Women's Hospital), Jeromy J. Digiacomo(Broad Institute), Sher Bahadur(Broad Institute), Bhavyaa Chandarana(Jewish General Hospital), Phoebe C. Power(Harvard University), Margaret Cusick(Dana-Farber/Boston Children's Cancer and Blood Disorders Center), Dana Novikov(Broad Institute), P. B. Edwin Prabhakar(Dana-Farber Cancer Institute), Robert E. Jones(Dana-Farber Cancer Institute), Jayne Vogelzang(Dana-Farber Cancer Institute), Connor C. Bossi(Dana-Farber Cancer Institute), Seth Malinowski(Dana-Farber Cancer Institute), Lewis Woodward(Queen Mary University of London), T. Alwyn Jones(Queen Mary University of London), John Jeang(Broad Institute), Sarah W Lamson(Broad Institute), Jared Collins(Broad Institute), Ke Xia Cai(Broad Institute), Jacquelyn S. Jones(Dana-Farber Cancer Institute), Se-hee Oh(Dana-Farber Cancer Institute), Hyesung Jeon(Harvard University), Jinhua Wang(Harvard University), Amy Cameron(Dana-Farber Cancer Institute), Patrick Rechter(Dana-Farber Cancer Institute), Angela De Leon(Dana-Farber/Boston Children's Cancer and Blood Disorders Center), Karthikeyan Murugesan(Boston Foundation), Meagan Montesion(Boston Foundation), Lee A. Albacker(Boston Foundation), Shakti Ramkissoon(Boston Foundation), Cornelis M. van Tilburg(German Cancer Research Center), Emily C. Hardin(German Cancer Research Center), Philipp Sievers(German Cancer Research Center), Felix Sahm(German Cancer Research Center), Kee Kiat Yeo(Harvard University), Tom Rosenberg(Harvard University), Susan Chi(Harvard University), Karen Wright(Harvard University), Steven Hébert(Jewish General Hospital), Sydney Peck(Arnold Palmer Hospital for Children), Alberto Pïcca(Centre National de la Recherche Scientifique), Valérie Larouche(Université Laval), Samuele Renzi(Centre hospitalier universitaire de Québec), Sara J. Buhrlage(Harvard University), Tejus Bale(Memorial Sloan Kettering Cancer Center), Amy Smith(Arnold Palmer Hospital for Children), Mehdi Touat(Centre National de la Recherche Scientifique), Nada Jabado(McGill University), Eric S. Fischer(Harvard University), Michael J. Eck(Harvard University), Lissa Baird(Harvard University), Olaf Witt(German Cancer Research Center), Claudia L. Kleinman(Jewish General Hospital), Quang-Dé Nguyen(Dana-Farber Cancer Institute), Denise Sheer(Queen Mary University of London), Sanda Alexandrescu(Boston Children's Hospital), David Jones(German Cancer Research Center), Keith L. Ligon(Broad Institute), Pratiti Bandopadhayay(Broad Institute)

Nature Communications

July 31, 2025

10.1038/s41467-025-61820-z

Cited by 6Open Access

Full Text

Abstract

Oncogenic alterations in fibroblast growth factor receptor (FGFR)-family proteins occur across cancers, including pediatric gliomas. Our genomic analysis of 11,635 gliomas across ages finds that 5.3% of all gliomas harbor FGFR alterations, with an incidence of almost 9% in pediatric gliomas. Alterations in FGFR proteins are differentially enriched by age, tumor grade, and histology, with FGFR1 alterations associated with glioneuronal histologies. Leveraging isogenic systems, we confirm FGFR1 alterations to induce downstream Mitogen Activated Protein Kinase (MAPK) and mTOR signaling pathways, drive gliomagenesis, activate neuronal transcriptional programs and exhibit sensitivity to MAPK pathway and pan-FGFR inhibitors. Finally, we perform a retrospective analysis of clinical responses in children diagnosed with FGFR-altered gliomas and find that treatment with currently available inhibitors is largely associated with stability of disease. This study provides key insights into the biology of FGFR1-altered gliomas, therapeutic strategies to target them and associated challenges that still need to be overcome. A subset of pediatric gliomas harbour alterations in fibroblast growth factor receptor (FGFR)-family proteins. Here, the authors characterise the genomic landscape of 11,635 gliomas across ages and use isogenic model systems to explore the underlying biology of FGFR1-altered gliomas and potential therapeutic vulnerabilities.

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