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Single-nucleus DNA sequencing reveals hidden somatic loss-of-heterozygosity in Cerebral Cavernous Malformations

Author

Listed:
  • Andrew K. Ressler

    (Duke University School of Medicine)

  • Daniel A. Snellings

    (Duke University School of Medicine)

  • Romuald Girard

    (The University of Chicago Medicine and Biological Sciences)

  • Carol J. Gallione

    (Duke University School of Medicine)

  • Rhonda Lightle

    (The University of Chicago Medicine and Biological Sciences)

  • Andrew S. Allen

    (Duke University)

  • Issam A. Awad

    (The University of Chicago Medicine and Biological Sciences)

  • Douglas A. Marchuk

    (Duke University School of Medicine)

Abstract

Cerebral Cavernous Malformations (CCMs) are vascular malformations of the central nervous system which can lead to moderate to severe neurological phenotypes in patients. A majority of CCM lesions are driven by a cancer-like three-hit mutational mechanism, including a somatic, activating mutation in the oncogene PIK3CA, as well as biallelic loss-of-function mutations in a CCM gene. However, standard sequencing approaches often fail to yield a full complement of pathogenic mutations in many CCMs. We suggest this reality reflects the limited sensitivity to identify low-frequency variants and the presence of mutations undetectable with bulk short-read sequencing. Here we report a single-nucleus DNA-sequencing approach that leverages the underlying biology of CCMs to identify lesions with somatic loss-of-heterozygosity, a class of such hidden mutations. We identify an alternative genetic mechanism for CCM pathogenesis and establish a method that can be repurposed to investigate the genetic underpinning of other disorders with multiple somatic mutations.

Suggested Citation

  • Andrew K. Ressler & Daniel A. Snellings & Romuald Girard & Carol J. Gallione & Rhonda Lightle & Andrew S. Allen & Issam A. Awad & Douglas A. Marchuk, 2023. "Single-nucleus DNA sequencing reveals hidden somatic loss-of-heterozygosity in Cerebral Cavernous Malformations," Nature Communications, Nature, vol. 14(1), pages 1-9, December.
  • Handle: RePEc:nat:natcom:v:14:y:2023:i:1:d:10.1038_s41467-023-42908-w
    DOI: 10.1038/s41467-023-42908-w
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    References listed on IDEAS

    as
    1. Aileen A. Ren & Daniel A. Snellings & Yourong S. Su & Courtney C. Hong & Marco Castro & Alan T. Tang & Matthew R. Detter & Nicholas Hobson & Romuald Girard & Sharbel Romanos & Rhonda Lightle & Thomas , 2021. "PIK3CA and CCM mutations fuel cavernomas through a cancer-like mechanism," Nature, Nature, vol. 594(7862), pages 271-276, June.
    2. Zinan Zhou & Alan T. Tang & Weng-Yew Wong & Sharika Bamezai & Lauren M. Goddard & Robert Shenkar & Su Zhou & Jisheng Yang & Alexander C. Wright & Matthew Foley & J. Simon C. Arthur & Kevin J. Whitehea, 2016. "Cerebral cavernous malformations arise from endothelial gain of MEKK3–KLF2/4 signalling," Nature, Nature, vol. 532(7597), pages 122-126, April.
    3. Po-Ru Loh & Giulio Genovese & Robert E. Handsaker & Hilary K. Finucane & Yakir A. Reshef & Pier Francesco Palamara & Brenda M. Birmann & Michael E. Talkowski & Samuel F. Bakhoum & Steven A. McCarroll , 2018. "Insights into clonal haematopoiesis from 8,342 mosaic chromosomal alterations," Nature, Nature, vol. 559(7714), pages 350-355, July.
    4. Zinan Zhou & Alan T. Tang & Weng-Yew Wong & Sharika Bamezai & Lauren M. Goddard & Robert Shenkar & Su Zhou & Jisheng Yang & Alexander C. Wright & Matthew Foley & J. Simon C. Arthur & Kevin J. Whitehea, 2016. "Correction: Corrigendum: Cerebral cavernous malformations arise from endothelial gain of MEKK3–KLF2/4 signalling," Nature, Nature, vol. 536(7617), pages 488-488, August.
    5. Po-Ru Loh & Giulio Genovese & Steven A. McCarroll, 2020. "Monogenic and polygenic inheritance become instruments for clonal selection," Nature, Nature, vol. 584(7819), pages 136-141, August.
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