Mutational Profile of Metastatic Breast Cancers: A Retrospective Analysis

Céline Lefèbvre(Inserm), Thomas Bachelot(Inserm), Thomas Filleron(Institut Claudius Regaud), Marion Pedrero(Inserm), Mario Campone(Institut de Cancérologie de l'Ouest), Jean‐Charles Soria(Université Paris-Sud), Christophe Massard(Institut Gustave Roussy), Christelle Lévy(Centre François Baclesse), Mónica Arnedos(Institut Gustave Roussy), Magali Lacroix‐Triki(Inserm), Julie Garrabey(UniCancer Group), Yannick Boursin(Institut Gustave Roussy), Marc Deloger(Institut Gustave Roussy), Yu Fu(Inserm), Frédéric Commo(Inserm), Véronique Scott(Inserm), Ludovic Lacroix(Inserm), Maria Vittoria Dieci(University of Padua), Maud Kamal(Institut Curie), Véronique Dièras(Institut Curie), Anthony Gonçalvès(Institut Pprime), Jean-Marc Ferrerro(Centre Antoine Lacassagne), Gilles Romieu(Institut de Recherche en Cancérologie de Montpellier), Laurence Vanlemmens(Centre Oscar Lambret), Marie‐Ange Mouret‐Reynier(Centre Jean Perrin), Jean‐Christophe Théry(Centre Virchow-Villermé), Fanny Le Du(Centre Eugène Marquis), Séverine Guiu(Inserm), Florence Dalenc(Institut universitaire du cancer de Toulouse Oncopole), Gilles Clapisson(Centre Léon Bérard), Hervé Bonnefoi(Université de Bordeaux), Marta Jimenez(UniCancer Group), Christophe Le Tourneau(Université de Versailles Saint-Quentin-en-Yvelines), Fabrice André(Université Paris-Sud)
PLoS Medicine
December 27, 2016
10.1371/journal.pmed.1002201
Cited by 404Open Access
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Abstract

BACKGROUND: Major advances have been achieved in the characterization of early breast cancer (eBC) genomic profiles. Metastatic breast cancer (mBC) is associated with poor outcomes, yet limited information is available on the genomic profile of this disease. This study aims to decipher mutational profiles of mBC using next-generation sequencing. METHODS AND FINDINGS: Whole-exome sequencing was performed on 216 tumor-blood pairs from mBC patients who underwent a biopsy in the context of the SAFIR01, SAFIR02, SHIVA, or Molecular Screening for Cancer Treatment Optimization (MOSCATO) prospective trials. Mutational profiles from 772 primary breast tumors from The Cancer Genome Atlas (TCGA) were used as a reference for comparing primary and mBC mutational profiles. Twelve genes (TP53, PIK3CA, GATA3, ESR1, MAP3K1, CDH1, AKT1, MAP2K4, RB1, PTEN, CBFB, and CDKN2A) were identified as significantly mutated in mBC (false discovery rate [FDR] < 0.1). Eight genes (ESR1, FSIP2, FRAS1, OSBPL3, EDC4, PALB2, IGFN1, and AGRN) were more frequently mutated in mBC as compared to eBC (FDR < 0.01). ESR1 was identified both as a driver and as a metastatic gene (n = 22, odds ratio = 29, 95% CI [9-155], p = 1.2e-12) and also presented with focal amplification (n = 9) for a total of 31 mBCs with either ESR1 mutation or amplification, including 27 hormone receptor positive (HR+) and HER2 negative (HER2-) mBCs (19%). HR+/HER2- mBC presented a high prevalence of mutations on genes located on the mechanistic target of rapamycin (mTOR) pathway (TSC1 and TSC2) as compared to HR+/HER2- eBC (respectively 6% and 0.7%, p = 0.0004). Other actionable genes were more frequently mutated in HR+ mBC, including ERBB4 (n = 8), NOTCH3 (n = 7), and ALK (n = 7). Analysis of mutational signatures revealed a significant increase in APOBEC-mediated mutagenesis in HR+/HER2- metastatic tumors as compared to primary TCGA samples (p < 2e-16). The main limitations of this study include the absence of bone metastases and the size of the cohort, which might not have allowed the identification of rare mutations and their effect on survival. CONCLUSIONS: This work reports the results of the analysis of the first large-scale study on mutation profiles of mBC. This study revealed genomic alterations and mutational signatures involved in the resistance to therapies, including actionable mutations.

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