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Perinatal serotonin signalling dynamically influences the development of cortical GABAergic circuits with consequences for lifelong sensory encoding

Author

Listed:
  • Gabriel Ocana-Santero

    (Oxford University
    Oxford University)

  • Hannah Warming

    (Oxford University)

  • Veronica Munday

    (Oxford University)

  • Heather A. MacKay

    (Oxford University)

  • Caius Gibeily

    (Oxford University)

  • Christopher Hemingway

    (Oxford University)

  • Jacqueline A. Stacey

    (Oxford University)

  • Abhishek Saha

    (Oxford University)

  • Ivan P. Lazarte

    (Oxford University)

  • Anjali Bachetta

    (Oxford University)

  • Fei Deng

    (Peking University School of Life Sciences
    PKU-IDG/McGovern Institute for Brain Research)

  • Yulong Li

    (Peking University School of Life Sciences
    PKU-IDG/McGovern Institute for Brain Research)

  • Adam M. Packer

    (Oxford University)

  • Trevor Sharp

    (Oxford University)

  • Simon. J. B. Butt

    (Oxford University)

Abstract

Serotonin plays a prominent role in neurodevelopment, regulating processes from cell division to synaptic connectivity. Clinical studies suggest that alterations in serotonin signalling such as genetic polymorphisms or antidepressant exposure during pregnancy are risk factors for neurodevelopmental disorders. However, an understanding of how dysfunctional neuromodulation alters systems level activity over neocortical development is lacking. Here, we use a longitudinal imaging approach to investigate how genetics, pharmacology, and aversive experience disrupt state-dependent serotonin signalling with pathological consequences for sensory processing. We find that all three factors lead to increased neocortical serotonin levels during the initial postnatal period. Genetic deletion of the serotonin transporter or antidepressant dosing results in a switch from hypo- to hyper-cortical activity that arises as a consequence of altered cortical GABAergic microcircuitry. However, the trajectories of these manipulations differ with postnatal exposure to antidepressants having effects on adult sensory encoding. The latter is not seen in the genetic model despite a similar early phenotype, and a distinct influence of maternal genotype on the development of supragranular layers. These results reveal the dynamics and critical nature of serotonin signalling during perinatal life; pharmacological targeting of which can have profound life-long consequences for cognitive development of the offspring.

Suggested Citation

  • Gabriel Ocana-Santero & Hannah Warming & Veronica Munday & Heather A. MacKay & Caius Gibeily & Christopher Hemingway & Jacqueline A. Stacey & Abhishek Saha & Ivan P. Lazarte & Anjali Bachetta & Fei De, 2025. "Perinatal serotonin signalling dynamically influences the development of cortical GABAergic circuits with consequences for lifelong sensory encoding," Nature Communications, Nature, vol. 16(1), pages 1-19, December.
    • Handle: RePEc:nat:natcom:v:16:y:2025:i:1:d:10.1038_s41467-025-59659-5
    DOI: 10.1038/s41467-025-59659-5
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    References listed on IDEAS

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    1. Seung-Hee Lee & Alex C. Kwan & Siyu Zhang & Victoria Phoumthipphavong & John G. Flannery & Sotiris C. Masmanidis & Hiroki Taniguchi & Z. Josh Huang & Feng Zhang & Edward S. Boyden & Karl Deisseroth & , 2012. "Activation of specific interneurons improves V1 feature selectivity and visual perception," Nature, Nature, vol. 488(7411), pages 379-383, August.
    2. Fong Kuan Wong & Kinga Bercsenyi & Varun Sreenivasan & Adrián Portalés & Marian Fernández-Otero & Oscar Marín, 2018. "Pyramidal cell regulation of interneuron survival sculpts cortical networks," Nature, Nature, vol. 557(7707), pages 668-673, May.
    3. Sahana Murthy & Mathieu Niquille & Nicolas Hurni & Greta Limoni & Sarah Frazer & Pascal Chameau & Johannes A. van Hooft & Tania Vitalis & Alexandre Dayer, 2014. "Serotonin receptor 3A controls interneuron migration into the neocortex," Nature Communications, Nature, vol. 5(1), pages 1-10, December.
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