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Functional characterization of SMARCA4 variants identified by targeted exome-sequencing of 131,668 cancer patients

Author

Listed:
  • Tharu M. Fernando

    (Discovery Oncology, Genentech)

  • Robert Piskol

    (Bioinformatics and Computational Biology, Genentech)

  • Russell Bainer

    (Bioinformatics and Computational Biology, Genentech)

  • Ethan S. Sokol

    (Cancer Genomics Research, Foundation Medicine)

  • Sally E. Trabucco

    (Cancer Genomics Research, Foundation Medicine)

  • Qing Zhang

    (Product Development Personalized Healthcare Data Science, Genentech)

  • Huong Trinh

    (Product Development Personalized Healthcare Data Science, Genentech)

  • Sophia Maund

    (Oncology Biomarker Development, Genentech)

  • Marc Kschonsak

    (Structural Biology, Genentech)

  • Subhra Chaudhuri

    (Molecular Biology, Genentech)

  • Zora Modrusan

    (Molecular Biology, Genentech)

  • Thomas Januario

    (Discovery Oncology, Genentech)

  • Robert L. Yauch

    (Discovery Oncology, Genentech)

Abstract

Genomic studies performed in cancer patients and tumor-derived cell lines have identified a high frequency of alterations in components of the mammalian switch/sucrose non-fermentable (mSWI/SNF or BAF) chromatin remodeling complex, including its core catalytic subunit, SMARCA4. Cells exhibiting loss of SMARCA4 rely on its paralog, SMARCA2, making SMARCA2 an attractive therapeutic target. Here we report the genomic profiling of solid tumors from 131,668 cancer patients, identifying 9434 patients with one or more SMARCA4 gene alterations. Homozygous SMARCA4 mutations were highly prevalent in certain tumor types, notably non-small cell lung cancer (NSCLC), and associated with reduced survival. The large sample size revealed previously uncharacterized hotspot missense mutations within the SMARCA4 helicase domain. Functional characterization of these mutations demonstrated markedly reduced remodeling activity. Surprisingly, a few SMARCA4 missense variants partially or fully rescued paralog dependency, underscoring that careful selection criteria must be employed to identify patients with inactivating, homozygous SMARCA4 missense mutations who may benefit from SMARCA2-targeted therapy.

Suggested Citation

  • Tharu M. Fernando & Robert Piskol & Russell Bainer & Ethan S. Sokol & Sally E. Trabucco & Qing Zhang & Huong Trinh & Sophia Maund & Marc Kschonsak & Subhra Chaudhuri & Zora Modrusan & Thomas Januario , 2020. "Functional characterization of SMARCA4 variants identified by targeted exome-sequencing of 131,668 cancer patients," Nature Communications, Nature, vol. 11(1), pages 1-13, December.
  • Handle: RePEc:nat:natcom:v:11:y:2020:i:1:d:10.1038_s41467-020-19402-8
    DOI: 10.1038/s41467-020-19402-8
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    Cited by:

    1. Xianbing Zhu & Zheng Fu & Shary Y. Chen & Dionzie Ong & Giulio Aceto & Rebecca Ho & Jutta Steinberger & Anie Monast & Virginie Pilon & Eunice Li & Monica Ta & Kyle Ching & Bianca N. Adams & Gian L. Ne, 2023. "Alanine supplementation exploits glutamine dependency induced by SMARCA4/2-loss," Nature Communications, Nature, vol. 14(1), pages 1-16, December.

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