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Vesicular and non-vesicular extracellular small RNAs direct gene silencing in a plant-interacting bacterium

Author

Listed:
  • Antinéa Ravet

    (Université PSL, CNRS, INSERM)

  • Jérôme Zervudacki

    (ImmunRise Technologies (IRT)
    ENgreen Technologies)

  • Meenu Singla-Rastogi

    (Université PSL, CNRS, INSERM)

  • Magali Charvin

    (Université PSL, CNRS, INSERM)

  • Odon Thiebeauld

    (ImmunRise Technologies (IRT))

  • Alvaro L. Perez-Quintero

    (Université PSL, CNRS, INSERM
    University of Montpellier, CIRAD, INRAE, Institut Agro, IRD)

  • Lucas Courgeon

    (Université PSL, CNRS, INSERM)

  • Adrien Candat

    (Université PSL, CNRS, INSERM)

  • Liam Lebeau

    (Université PSL, CNRS, INSERM)

  • Antonio Emidio Fortunato

    (ImmunRise Technologies (IRT)
    ENgreen Technologies)

  • Venugopal Mendu

    (Université PSL, CNRS, INSERM)

  • Lionel Navarro

    (Université PSL, CNRS, INSERM)

Abstract

Extracellular plant small RNAs (sRNAs) and/or double-stranded RNA (dsRNA) precursors act as triggers of RNAi in interacting filamentous pathogens. However, whether any of these extracellular RNA species direct gene silencing in plant-interacting bacteria remains unknown. Here, we show that Arabidopsis transgenic plants expressing sRNAs directed against virulence factors of a Pseudomonas syringae strain, reduce its pathogenesis. This Antibacterial Gene Silencing (AGS) phenomenon is directed by Dicer-Like (DCL)-dependent antibacterial sRNAs, but not cognate dsRNA precursors. Three populations of active extracellular sRNAs were recovered in the apoplast of these transgenic plants. The first one is mainly non-vesicular and associated with proteins, whereas the second one is located inside Extracellular Vesicles (EVs). Intriguingly, the third population is unbound to proteins and in a dsRNA form, unraveling functional extracellular free sRNAs (efsRNAs). Both Arabidopsis transgene- and genome-derived efsRNAs were retrieved inside bacterial cells. Finally, we show that salicylic acid (SA) promotes AGS, and that a substantial set of endogenous efsRNAs exhibits predicted bacterial targets that are down-regulated by SA biogenesis and/or signaling during infection. This study thus unveils an unexpected AGS phenomenon, which may have wider implications in the understanding of how plants regulate microbial transcriptome, microbial community composition and genome evolution of associated bacteria.

Suggested Citation

  • Antinéa Ravet & Jérôme Zervudacki & Meenu Singla-Rastogi & Magali Charvin & Odon Thiebeauld & Alvaro L. Perez-Quintero & Lucas Courgeon & Adrien Candat & Liam Lebeau & Antonio Emidio Fortunato & Venug, 2025. "Vesicular and non-vesicular extracellular small RNAs direct gene silencing in a plant-interacting bacterium," Nature Communications, Nature, vol. 16(1), pages 1-22, December.
    • Handle: RePEc:nat:natcom:v:16:y:2025:i:1:d:10.1038_s41467-025-57908-1
    DOI: 10.1038/s41467-025-57908-1
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    References listed on IDEAS

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    3. Keqiong Ye & Lucy Malinina & Dinshaw J. Patel, 2003. "Recognition of small interfering RNA by a viral suppressor of RNA silencing," Nature, Nature, vol. 426(6968), pages 874-878, December.
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