<p><i>BRCA</i>-associated homologous recombination deficiency (HRD) is present in ~50% of high-grade serous carcinomas (HGSC) and predicts sensitivity to platinum-based therapy. However, there is little understanding of why some patients with <i>BRCA</i>-deficient tumors experience poor outcomes. In a large HGSC cohort (n = 1389) including 282 individuals with pathogenic germline <i>BRCA</i> variants (g<i>BRCA</i>pv), residual disease after primary surgery has limited prognostic effect in g<i>BRCA</i>pv-carriers compared to non-carriers, and prognostic outcomes differ based on the mutation location within functional domains of the <i>BRCA</i> genes. Multi-omic profiling is performed on 154 tumors, enriched for patients with <i>BRCA</i>-deficient tumors that experienced short overall survival ( ≤ 3 years, n = 42). Patients with <i>BRCA2</i>-deficient HGSC and loss of <i>NF1</i> survive twice as long as those without <i>NF1</i> loss, whereas <i>PIK3CA</i>, <i>RAD21</i> and <i>MYC</i> amplification define <i>BRCA2</i>-deficient HGSC with exceptionally short survival. Patients with <i>BRCA1</i>-deficient HGSC and a more elevated HRD score survive significantly longer. <i>BRCA1</i>-deficient tumors in short survivors have evidence of immunosuppressive c-kit signaling and EMT. Our findings confirm that outcome is not determined by <i>BRCA</i> status alone, but rather a combination of co-occurring genomic alterations, the extent of DNA repair deficiency, and the tumor-immune microenvironment.</p>

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Clinicopathologic and molecular predictors of survival in BRCA-deficient tubo-ovarian high-grade serous carcinoma

  • Tibor A. Zwimpfer,
  • Sian Fereday,
  • Ahwan Pandey,
  • Dinuka Ariyaratne,
  • Madawa W. Jayawardana,
  • Laura Twomey,
  • Céline M. Laumont,
  • Catherine J. Kennedy,
  • Adelyn Bolithon,
  • Nicola S. Meagher,
  • Katy Milne,
  • Phineas Hamilton,
  • Jennifer Alsop,
  • Antonis C. Antoniou,
  • George Au-Yeung,
  • Matthias W. Beckmann,
  • Amy Berrington de Gonzalez,
  • Christiani Bisinotto,
  • Freya Blome,
  • Clara Bodelon,
  • Jessica Boros,
  • Alison H. Brand,
  • Michael E. Carney,
  • Alicia Cazorla-Jiménez,
  • Derek S. Chiu,
  • Elizabeth L. Christie,
  • Anita Chudecka-Głaz,
  • Penny Coulson,
  • Kara L. Cushing-Haugen,
  • Cezary Cybulski,
  • Kathleen M. Darcy,
  • Cath David,
  • Trent Davidson,
  • Arif B. Ekici,
  • Esther Elishaev,
  • Julius Emons,
  • Tobias Engler,
  • Rhonda Farrell,
  • Anna Fischer,
  • Montserrat García-Closas,
  • Aleksandra Gentry-Maharaj,
  • Prafull Ghatage,
  • Rosalind Glasspool,
  • Philipp Harter,
  • Andreas D. Hartkopf,
  • Arndt Hartmann,
  • Sebastian Heikaus,
  • Brenda Y. Hernandez,
  • Anusha Hettiaratchi,
  • Sabine Heublein,
  • David G. Huntsman,
  • Mercedes Jimenez-Linan,
  • Michael E. Jones,
  • Eunyoung Kang,
  • Ewa Kaznowska,
  • Tomasz Kluz,
  • Felix K. F. Kommoss,
  • Gottfried Konecny,
  • Roy F. P. M. Kruitwagen,
  • Jessica Kwon,
  • Diether Lambrechts,
  • Cheng-Han Lee,
  • Jenny Lester,
  • Samuel C. Y. Leung,
  • Yee Leung,
  • Anna Linder,
  • Jolanta Lissowska,
  • Liselore Loverix,
  • Jan Lubiński,
  • Constantina Mateoiu,
  • Iain A. McNeish,
  • Malak Moubarak,
  • Gregg S. Nelson,
  • Nikilyn Nevins,
  • Alexander B. Olawaiye,
  • Siel Olbrecht,
  • Sandra Orsulic,
  • Ana Osorio,
  • Carmel M. Quinn,
  • Ganendra Raj Mohan,
  • Isabelle Ray-Coquard,
  • Cristina Rodríguez-Antona,
  • Patricia Roxburgh,
  • Matthias Ruebner,
  • Stuart G. Salfinger,
  • Spinder Samra,
  • Minouk J. Schoemaker,
  • Hans-Peter Sinn,
  • Gabe S. Sonke,
  • Linda Steele,
  • Colin J. R. Stewart,
  • Aline Talhouk,
  • Adeline Tan,
  • Christopher M. Tarney,
  • Sarah E. Taylor,
  • Koen K. Van de Vijver,
  • Maaike A. van der Aa,
  • Toon Van Gorp,
  • Els Van Nieuwenhuysen,
  • Lilian Van-Wagensveld,
  • Andrea E. Wahner-Hendrickson,
  • Christina Walter,
  • Chen Wang,
  • Julia Welz,
  • Nicolas Wentzensen,
  • Lynne R. Wilkens,
  • Stacey J. Winham,
  • Boris Winterhoff,
  • Michael S. Anglesio,
  • Andrew Berchuck,
  • Francisco J. Candido dos Reis,
  • Paul A. Cohen,
  • Thomas P. Conrads,
  • Philip Crowe,
  • Jennifer A. Doherty,
  • Peter A. Fasching,
  • Renée T. Fortner,
  • María J. García,
  • Simon A. Gayther,
  • Marc T. Goodman,
  • Jacek Gronwald,
  • Holly R. Harris,
  • Florian Heitz,
  • Hugo M. Horlings,
  • Beth Y. Karlan,
  • Linda E. Kelemen,
  • G. Larry Maxwell,
  • Usha Menon,
  • Francesmary Modugno,
  • Susan L. Neuhausen,
  • Joellen M. Schildkraut,
  • Annette Staebler,
  • Karin Sundfeldt,
  • Anthony J. Swerdlow,
  • Ignace Vergote,
  • Anna H. Wu,
  • James D. Brenton,
  • Paul D. P. Pharoah,
  • Celeste Leigh Pearce,
  • Malcolm C. Pike,
  • Ellen L. Goode,
  • Susan J. Ramus,
  • Martin Köbel,
  • Brad H. Nelson,
  • Anna DeFazio,
  • Michael L. Friedlander,
  • David D. L. Bowtell,
  • Dale W. Garsed

摘要

BRCA-associated homologous recombination deficiency (HRD) is present in ~50% of high-grade serous carcinomas (HGSC) and predicts sensitivity to platinum-based therapy. However, there is little understanding of why some patients with BRCA-deficient tumors experience poor outcomes. In a large HGSC cohort (n = 1389) including 282 individuals with pathogenic germline BRCA variants (gBRCApv), residual disease after primary surgery has limited prognostic effect in gBRCApv-carriers compared to non-carriers, and prognostic outcomes differ based on the mutation location within functional domains of the BRCA genes. Multi-omic profiling is performed on 154 tumors, enriched for patients with BRCA-deficient tumors that experienced short overall survival ( ≤ 3 years, n = 42). Patients with BRCA2-deficient HGSC and loss of NF1 survive twice as long as those without NF1 loss, whereas PIK3CA, RAD21 and MYC amplification define BRCA2-deficient HGSC with exceptionally short survival. Patients with BRCA1-deficient HGSC and a more elevated HRD score survive significantly longer. BRCA1-deficient tumors in short survivors have evidence of immunosuppressive c-kit signaling and EMT. Our findings confirm that outcome is not determined by BRCA status alone, but rather a combination of co-occurring genomic alterations, the extent of DNA repair deficiency, and the tumor-immune microenvironment.