Evolutionary trajectories of small cell lung cancer under therapy

Julie George(University of Cologne), Lukas Maas(University of Cologne), Nima Abedpour(University of Cologne), Maria Cartolano(University of Cologne), Laura Kaiser(University of Cologne), Rieke Fischer(University Hospital Cologne), Andreas H. Scheel(University of Cologne), Jan-Philipp Weber(University Hospital Cologne), Martin Hellmich(University of Cologne), Graziella Bosco(University of Cologne), Caroline Volz(University of Cologne), Christian Mueller(University of Cologne), Ilona Dahmen(University of Cologne), Felix John(University Hospital Cologne), Cleidson P. Alves(University of Cologne), Lisa Werr(University of Cologne), Jens Panse(Integrated Oncology (United States)), Martin Kirschner(Integrated Oncology (United States)), Walburga Engel-Riedel(University Hospital Cologne), Jessica Jürgens(University Hospital Cologne), Erich Stoelben, Michael Brockmann(Witten/Herdecke University), Stefan Grau(Fulda University of Applied Sciences), Martin Sebastian(Goethe University Frankfurt), Jan Stratmann(Goethe University Frankfurt), Jens Kern(Klinikum Würzburg Mitte), Horst-Dieter Hummel(Comprehensive Cancer Center Mainfranken), Balázs Hegedűs(Ruhrlandklinik), Martin Schüler(German Cancer Research Center), Till Plönes(University Hospital Carl Gustav Carus), Clemens Aigner(Vienna General Hospital), Thomas Elter(Düsseldorf University Hospital), Karin Toepelt(Düsseldorf University Hospital), Yon‐Dschun Ko, S Kurz(Evangelische Lungenklinik Berlin), Christian Grohé(Evangelische Lungenklinik Berlin), Monika Serke(Lungenklinik Hemer), Katja Höpker(University of Cologne), Lars Hagmeyer(Krankenhaus Bethanien), Fabian Doerr(Ruhrlandklinik), Khosro Hekmath(University Hospital Cologne), Judith Strapatsas(Düsseldorf University Hospital), K Kambartel(Krankenhaus Bethanien), Geothy Chakupurakal(Praxis für Hämatologie und Onkologie), Annette Busch(University Hospital Bonn), Franz‐Georg Bauernfeind(University Hospital Bonn), Frank Griesinger(Pius Hospital Oldenburg), Anne Luers(Pius Hospital Oldenburg), Wiebke Dirks(Pius Hospital Oldenburg), Rainer Wiewrodt(University Hospital Münster), Andrea Luecke(University Hospital Münster), Ernst Rodermann(Praxis für Hämatologie und Onkologie), Andreas Diel(Praxis für Hämatologie und Onkologie), Volker Hagen(St.-Johannes-Hospital Dortmund), K. Severin, Roland T. Ullrich(University of Cologne), Hans Christian Reinhardt(Essen University Hospital), Alexander Quaas(University of Cologne), Magdalena Bogus(University of Cologne), Cornelius Courts(University of Cologne), Peter Nürnberg(University of Cologne), Kerstin Becker(University of Cologne), Viktor Achter(University of Cologne), Reinhard Büttner(University of Cologne), Jürgen Wolf(University Hospital Cologne), Martin Peifer(TH Köln - University of Applied Sciences), Roman K. Thomas(German Cancer Research Center)
Nature
March 13, 2024
10.1038/s41586-024-07177-7
Cited by 102Open Access
Full Text

Abstract

. Here we determined tumour phylogenies at diagnosis and throughout chemotherapy and immunotherapy by multiregion sequencing of 160 tumours from 65 patients. Treatment-naive SCLC exhibited clonal homogeneity at distinct tumour sites, whereas first-line platinum-based chemotherapy led to a burst in genomic intratumour heterogeneity and spatial clonal diversity. We observed branched evolution and a shift to ancestral clones underlying tumour relapse. Effective radio- or immunotherapy induced a re-expansion of founder clones with acquired genomic damage from first-line chemotherapy. Whereas TP53 and RB1 alterations were exclusively part of the common ancestor, MYC family amplifications were frequently not constituents of the founder clone. At relapse, emerging subclonal mutations affected key genes associated with SCLC biology, and tumours harbouring clonal CREBBP/EP300 alterations underwent genome duplications. Gene-damaging TP53 alterations and co-alterations of TP53 missense mutations with TP73, CREBBP/EP300 or FMN2 were significantly associated with shorter disease relapse following chemotherapy. In summary, we uncover key processes of the genomic evolution of SCLC under therapy, identify the common ancestor as the source of clonal diversity at relapse and show central genomic patterns associated with sensitivity and resistance to chemotherapy.

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