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Metabotropic signaling within somatostatin interneurons controls transient thalamocortical inputs during development

Author

Listed:
  • Deepanjali Dwivedi

    (Department of Neurobiology
    Stanley Center for Psychiatric Research)

  • Dimitri Dumontier

    (Cold Spring Harbor)

  • Mia Sherer

    (Department of Neurobiology
    Stanley Center for Psychiatric Research)

  • Sherry Lin

    (Department of Neurobiology)

  • Andrea M. C. Mirow

    (Department of Neurobiology
    Stanley Center for Psychiatric Research
    Cold Spring Harbor)

  • Yanjie Qiu

    (Department of Neurobiology
    Stanley Center for Psychiatric Research)

  • Qing Xu

    (Department of Neurobiology
    Stanley Center for Psychiatric Research
    New York University Abu Dhabi)

  • Samuel A. Liebman

    (Cold Spring Harbor)

  • Djeckby Joseph

    (Cold Spring Harbor)

  • Sandeep R. Datta

    (Department of Neurobiology)

  • Gord Fishell

    (Department of Neurobiology
    Stanley Center for Psychiatric Research)

  • Gabrielle Pouchelon

    (Department of Neurobiology
    Stanley Center for Psychiatric Research
    Cold Spring Harbor)

Abstract

During brain development, neural circuits undergo major activity-dependent restructuring. Circuit wiring mainly occurs through synaptic strengthening following the Hebbian “fire together, wire together” precept. However, select connections, essential for circuit development, are transient. They are effectively connected early in development, but strongly diminish during maturation. The mechanisms by which transient connectivity recedes are unknown. To investigate this process, we characterize transient thalamocortical inputs, which depress onto somatostatin inhibitory interneurons during development, by employing optogenetics, chemogenetics, transcriptomics and CRISPR-based strategies in mice. We demonstrate that in contrast to typical activity-dependent mechanisms, transient thalamocortical connectivity onto somatostatin interneurons is non-canonical and involves metabotropic signaling. Specifically, metabotropic-mediated transcription, of guidance molecules in particular, supports the elimination of this connectivity. Remarkably, we found that this process impacts the development of normal exploratory behaviors of adult mice.

Suggested Citation

  • Deepanjali Dwivedi & Dimitri Dumontier & Mia Sherer & Sherry Lin & Andrea M. C. Mirow & Yanjie Qiu & Qing Xu & Samuel A. Liebman & Djeckby Joseph & Sandeep R. Datta & Gord Fishell & Gabrielle Pouchelo, 2024. "Metabotropic signaling within somatostatin interneurons controls transient thalamocortical inputs during development," Nature Communications, Nature, vol. 15(1), pages 1-17, December.
    • Handle: RePEc:nat:natcom:v:15:y:2024:i:1:d:10.1038_s41467-024-49732-w
    DOI: 10.1038/s41467-024-49732-w
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    References listed on IDEAS

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