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Systematic analysis of exonic germline and postzygotic de novo mutations in bipolar disorder

Author

Listed:
  • Masaki Nishioka

    (RIKEN Center for Brain Science)

  • An-a Kazuno

    (RIKEN Center for Brain Science)

  • Takumi Nakamura

    (RIKEN Center for Brain Science
    Juntendo University Graduate School of Medicine)

  • Naomi Sakai

    (RIKEN Center for Brain Science)

  • Takashi Hayama

    (Yokohama Mental Clinic Totsuka)

  • Kumiko Fujii

    (Shiga University of Medical Science)

  • Koji Matsuo

    (Saitama Medical University)

  • Atsuko Komori

    (RIKEN Center for Brain Science)

  • Mizuho Ishiwata

    (RIKEN Center for Brain Science)

  • Yoshinori Watanabe

    (Ichigaya Himorogi Clinic)

  • Takashi Oka

    (Juzen Hospital)

  • Nana Matoba

    (RIKEN Center for Brain Science
    The University of North Carolina at Chapel Hill)

  • Muneko Kataoka

    (RIKEN Center for Brain Science
    Tokyo Metropolitan Health and Hospitals Corporation)

  • Ahmed N. Alkanaq

    (Yokohama City University Graduate School of Medicine)

  • Kohei Hamanaka

    (Yokohama City University Graduate School of Medicine)

  • Takashi Tsuboi

    (The University of Tokyo)

  • Toru Sengoku

    (Yokohama City University Graduate School of Medicine)

  • Kazuhiro Ogata

    (Yokohama City University Graduate School of Medicine)

  • Nakao Iwata

    (Fujita Health University)

  • Masashi Ikeda

    (Fujita Health University)

  • Naomichi Matsumoto

    (Yokohama City University Graduate School of Medicine)

  • Tadafumi Kato

    (RIKEN Center for Brain Science
    Juntendo University Graduate School of Medicine)

  • Atsushi Takata

    (RIKEN Center for Brain Science
    Yokohama City University Graduate School of Medicine
    RIKEN Center for Brain Science)

Abstract

Bipolar disorder is a severe mental illness characterized by recurrent manic and depressive episodes. To better understand its genetic architecture, we analyze ultra-rare de novo mutations in 354 trios with bipolar disorder. For germline de novo mutations, we find significant enrichment of loss-of-function mutations in constrained genes (corrected-P = 0.0410) and deleterious mutations in presynaptic active zone genes (FDR = 0.0415). An analysis integrating single-cell RNA-sequencing data identifies a subset of excitatory neurons preferentially expressing the genes hit by deleterious mutations, which are also characterized by high expression of developmental disorder genes. In the analysis of postzygotic mutations, we observe significant enrichment of deleterious ones in developmental disorder genes (P = 0.00135), including the SRCAP gene mutated in two unrelated probands. These data collectively indicate the contributions of both germline and postzygotic mutations to the risk of bipolar disorder, supporting the hypothesis that postzygotic mutations of developmental disorder genes may contribute to bipolar disorder.

Suggested Citation

  • Masaki Nishioka & An-a Kazuno & Takumi Nakamura & Naomi Sakai & Takashi Hayama & Kumiko Fujii & Koji Matsuo & Atsuko Komori & Mizuho Ishiwata & Yoshinori Watanabe & Takashi Oka & Nana Matoba & Muneko , 2021. "Systematic analysis of exonic germline and postzygotic de novo mutations in bipolar disorder," Nature Communications, Nature, vol. 12(1), pages 1-15, December.
    • Handle: RePEc:nat:natcom:v:12:y:2021:i:1:d:10.1038_s41467-021-23453-w
    DOI: 10.1038/s41467-021-23453-w
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