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Impaired cortico-striatal excitatory transmission triggers epilepsy

Author

Listed:
  • Hiroyuki Miyamoto

    (RIKEN Center for Brain Science, Wako
    PRESTO, Japan Science and Technology Agency
    The University of Tokyo Institutes for Advanced Study)

  • Tetsuya Tatsukawa

    (RIKEN Center for Brain Science, Wako)

  • Atsushi Shimohata

    (RIKEN Center for Brain Science, Wako)

  • Tetsushi Yamagata

    (RIKEN Center for Brain Science, Wako)

  • Toshimitsu Suzuki

    (RIKEN Center for Brain Science, Wako)

  • Kenji Amano

    (RIKEN Center for Brain Science, Wako)

  • Emi Mazaki

    (RIKEN Center for Brain Science, Wako)

  • Matthieu Raveau

    (RIKEN Center for Brain Science, Wako)

  • Ikuo Ogiwara

    (RIKEN Center for Brain Science, Wako
    Nippon Medical School)

  • Atsuko Oba-Asaka

    (The University of Tokyo Institutes for Advanced Study
    RIKEN Center for Brain Science, Wako)

  • Takao K. Hensch

    (The University of Tokyo Institutes for Advanced Study)

  • Shigeyoshi Itohara

    (RIKEN Center for Brain Science, Wako
    FIRST, Japan Science and Technology Agency)

  • Kenji Sakimura

    (Niigata University)

  • Kenta Kobayashi

    (National Institute for Physiological Sciences
    Graduate University for Advanced Studies (SOKENDAI))

  • Kazuto Kobayashi

    (Fukushima Medical University School of Medicine)

  • Kazuhiro Yamakawa

    (RIKEN Center for Brain Science, Wako)

Abstract

STXBP1 and SCN2A gene mutations are observed in patients with epilepsies, although the circuit basis remains elusive. Here, we show that mice with haplodeficiency for these genes exhibit absence seizures with spike-and-wave discharges (SWDs) initiated by reduced cortical excitatory transmission into the striatum. Mice deficient for Stxbp1 or Scn2a in cortico-striatal but not cortico-thalamic neurons reproduce SWDs. In Stxbp1 haplodeficient mice, there is a reduction in excitatory transmission from the neocortex to striatal fast-spiking interneurons (FSIs). FSI activity transiently decreases at SWD onset, and pharmacological potentiation of AMPA receptors in the striatum but not in the thalamus suppresses SWDs. Furthermore, in wild-type mice, pharmacological inhibition of cortico-striatal FSI excitatory transmission triggers absence and convulsive seizures in a dose-dependent manner. These findings suggest that impaired cortico-striatal excitatory transmission is a plausible mechanism that triggers epilepsy in Stxbp1 and Scn2a haplodeficient mice.

Suggested Citation

  • Hiroyuki Miyamoto & Tetsuya Tatsukawa & Atsushi Shimohata & Tetsushi Yamagata & Toshimitsu Suzuki & Kenji Amano & Emi Mazaki & Matthieu Raveau & Ikuo Ogiwara & Atsuko Oba-Asaka & Takao K. Hensch & Shi, 2019. "Impaired cortico-striatal excitatory transmission triggers epilepsy," Nature Communications, Nature, vol. 10(1), pages 1-13, December.
    • Handle: RePEc:nat:natcom:v:10:y:2019:i:1:d:10.1038_s41467-019-09954-9
    DOI: 10.1038/s41467-019-09954-9
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