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Optogenetics-integrated gut organ culture system connects enteric neurons dynamics and gut homeostasis

Author

Listed:
  • Gitali Naim

    (Bar-Ilan University
    Bar-Ilan University)

  • Hadar Romano-Zadaka

    (Bar-Ilan University
    Bar-Ilan University)

  • Sivan Amidror

    (Bar-Ilan University
    Bar-Ilan University)

  • David Jessula Levy

    (Bar-Ilan University
    Bar-Ilan University)

  • Adva Cohen

    (Bar-Ilan University
    Bar-Ilan University)

  • Carmel Sochen

    (Weizmann Institute of Science)

  • Hadar Gilberg

    (Bar-Ilan University
    Bar-Ilan University)

  • Nairouz Farah

    (Bar-Ilan University
    Bar-Ilan University)

  • Vladislav Rudenko

    (Weizmann Institute of Science)

  • Yasmin Yarden

    (Massachusetts Institute of Technology)

  • Mengyang Feng

    (Massachusetts Institute of Technology)

  • Rotem Tsentsarevsky

    (Bar-Ilan University
    Bar-Ilan University)

  • Ziv Brodie

    (Bar-Ilan University
    Bar-Ilan University)

  • Yasmin Reich

    (Bar-Ilan University
    Bar-Ilan University)

  • Ariel Simon

    (Bar-Ilan University
    Bar-Ilan University)

  • Einat Toister

    (Bar-Ilan University
    Bar-Ilan University)

  • Irit Shoval

    (Bar-Ilan University)

  • Leah Armon

    (Bar-Ilan University)

  • Maya Schiller

    (The Chaim Sheba Medical Center)

  • Yossi Mandel

    (Bar-Ilan University
    Bar-Ilan University)

  • Moshe Biton

    (Weizmann Institute of Science)

  • Nissan Yissachar

    (Bar-Ilan University
    Bar-Ilan University)

Abstract

The enteric nervous system (ENS) senses microbiota-derived signals and orchestrates mucosal immunity and epithelial barrier functions. However, mechanistic dissections of intestinal neuro-immune-microbiota communications remain challenging. Here, we present an optogenetics-integrated gut organ culture system that enables real-time, whole-tissue stimulation of defined ENS lineages, and detailed analysis of their functional impact. We demonstrate that optogenetic activation of enteric cholinergic neurons rapidly modulates intestinal physiology. Interestingly, distinct neuronal firing patterns differentially modulate neuro-immunological gene expression and epithelial barrier integrity. Furthermore, diverse enteric neuronal lineages exert distinct regulatory roles. While cholinergic activation enhances gene-sets associated with type-2 immunity, tachykininergic neurons modulate distinct mucosal defense programs. Intriguingly, luminal introduction of the immunomodulatory bacterium Thomasclavelia ramosa remodeled cholinergic-induced neuro-immunological transcription. These findings suggest that microbial and neuronal signals are locally integrated to fine-tune gut immunity and barrier defense. Collectively, we provide a powerful platform for systematic discovery and mechanistic exploration of functional neuroimmune connections, and their potential modulation by microbes, drugs or metabolites.

Suggested Citation

  • Gitali Naim & Hadar Romano-Zadaka & Sivan Amidror & David Jessula Levy & Adva Cohen & Carmel Sochen & Hadar Gilberg & Nairouz Farah & Vladislav Rudenko & Yasmin Yarden & Mengyang Feng & Rotem Tsentsar, 2025. "Optogenetics-integrated gut organ culture system connects enteric neurons dynamics and gut homeostasis," Nature Communications, Nature, vol. 16(1), pages 1-15, December.
    • Handle: RePEc:nat:natcom:v:16:y:2025:i:1:d:10.1038_s41467-025-64995-7
    DOI: 10.1038/s41467-025-64995-7
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    References listed on IDEAS

    as
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