Spatial and temporal diversity in genomic instability processes defines lung cancer evolution

Elza C. de Bruin; Nicholas McGranahan; Richard Mitter; Max Salm; David C. Wedge; Lucy Yates; Mariam Jamal‐Hanjani; Seema Shafi; Nirupa Murugaesu; Andrew J. Rowan; Eva Grönroos; Madiha A. Muhammad; Stuart Horswell; Marco Gerlinger; Ignacio Varela; David Jones; John L. Marshall; Thierry Voet; Peter Van Loo; Doris M. Rassl; Robert C. Rintoul; Sam M. Janes; Siow Ming Lee; Martin Förster; Tanya Ahmad; David Lawrence; Mary Falzon; Arrigo Capitanio; Timothy T. Harkins; Clarence Lee; Warren Tom; Enock Teefe; Shann-Ching Chen; Sharmin Begum; Adam Rabinowitz; Benjamin Phillimore; Bradley Spencer‐Dene; Gordon Stamp; Zoltán Szállási; Nik Matthews; Aengus Stewart; Peter J. Campbell; Charles Swanton

doi:10.1126/science.1253462

Spatial and temporal diversity in genomic instability processes defines lung cancer evolution

Elza C. de Bruin(Cancer Research UK), Nicholas McGranahan(Cancer Research UK), Richard Mitter(Cancer Research UK), Max Salm(Cancer Research UK), David C. Wedge(Wellcome Sanger Institute), Lucy Yates(University of Cambridge), Mariam Jamal‐Hanjani(Cancer Research UK), Seema Shafi(Cancer Research UK), Nirupa Murugaesu(Cancer Research UK), Andrew J. Rowan(Cancer Research UK), Eva Grönroos(Cancer Research UK), Madiha A. Muhammad(Cancer Research UK), Stuart Horswell(Cancer Research UK), Marco Gerlinger(Cancer Research UK), Ignacio Varela(Universidad de Cantabria), David Jones(Wellcome Sanger Institute), John L. Marshall(Wellcome Sanger Institute), Thierry Voet(Wellcome Sanger Institute), Peter Van Loo(Wellcome Sanger Institute), Doris M. Rassl(Papworth Hospital NHS Foundation Trust), Robert C. Rintoul(Papworth Hospital NHS Foundation Trust), Sam M. Janes(Living Streets), Siow Ming Lee(Royal London Hospital), Martin Förster(Royal London Hospital), Tanya Ahmad(Royal London Hospital), David Lawrence(Royal London Hospital), Mary Falzon(Royal London Hospital), Arrigo Capitanio(Royal London Hospital), Timothy T. Harkins(Thermo Fisher Scientific (United States)), Clarence Lee(Thermo Fisher Scientific (United States)), Warren Tom(Thermo Fisher Scientific (United States)), Enock Teefe(Thermo Fisher Scientific (United States)), Shann-Ching Chen(Thermo Fisher Scientific (United States)), Sharmin Begum(Cancer Research UK), Adam Rabinowitz(Cancer Research UK), Benjamin Phillimore(Cancer Research UK), Bradley Spencer‐Dene(Cancer Research UK), Gordon Stamp(Cancer Research UK), Zoltán Szállási(Boston Children's Hospital), Nik Matthews(Cancer Research UK), Aengus Stewart(Cancer Research UK), Peter J. Campbell(Wellcome Sanger Institute), Charles Swanton(Cancer Research UK)

Science

October 9, 2014

10.1126/science.1253462

Cited by 1,162Open Access

Full Text

Abstract

Spatial and temporal dissection of the genomic changes occurring during the evolution of human non-small cell lung cancer (NSCLC) may help elucidate the basis for its dismal prognosis. We sequenced 25 spatially distinct regions from seven operable NSCLCs and found evidence of branched evolution, with driver mutations arising before and after subclonal diversification. There was pronounced intratumor heterogeneity in copy number alterations, translocations, and mutations associated with APOBEC cytidine deaminase activity. Despite maintained carcinogen exposure, tumors from smokers showed a relative decrease in smoking-related mutations over time, accompanied by an increase in APOBEC-associated mutations. In tumors from former smokers, genome-doubling occurred within a smoking-signature context before subclonal diversification, which suggested that a long period of tumor latency had preceded clinical detection. The regionally separated driver mutations, coupled with the relentless and heterogeneous nature of the genome instability processes, are likely to confound treatment success in NSCLC.

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