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Reward signaling in a recurrent circuit of dopaminergic neurons and peptidergic Kenyon cells

Author

Listed:
  • Radostina Lyutova

    (University of Würzburg)

  • Mareike Selcho

    (University of Würzburg)

  • Maximilian Pfeuffer

    (University of Würzburg)

  • Dennis Segebarth

    (University of Würzburg
    University Hospital of Würzburg)

  • Jens Habenstein

    (University of Würzburg
    University of Würzburg)

  • Astrid Rohwedder

    (University of Leipzig)

  • Felix Frantzmann

    (University of Würzburg)

  • Christian Wegener

    (University of Würzburg)

  • Andreas S. Thum

    (University of Leipzig)

  • Dennis Pauls

    (University of Würzburg)

Abstract

Dopaminergic neurons in the brain of the Drosophila larva play a key role in mediating reward information to the mushroom bodies during appetitive olfactory learning and memory. Using optogenetic activation of Kenyon cells we provide evidence that recurrent signaling exists between Kenyon cells and dopaminergic neurons of the primary protocerebral anterior (pPAM) cluster. Optogenetic activation of Kenyon cells paired with odor stimulation is sufficient to induce appetitive memory. Simultaneous impairment of the dopaminergic pPAM neurons abolishes appetitive memory expression. Thus, we argue that dopaminergic pPAM neurons mediate reward information to the Kenyon cells, and in turn receive feedback from Kenyon cells. We further show that this feedback signaling is dependent on short neuropeptide F, but not on acetylcholine known to be important for odor-shock memories in adult flies. Our data suggest that recurrent signaling routes within the larval mushroom body circuitry may represent a mechanism subserving memory stabilization.

Suggested Citation

  • Radostina Lyutova & Mareike Selcho & Maximilian Pfeuffer & Dennis Segebarth & Jens Habenstein & Astrid Rohwedder & Felix Frantzmann & Christian Wegener & Andreas S. Thum & Dennis Pauls, 2019. "Reward signaling in a recurrent circuit of dopaminergic neurons and peptidergic Kenyon cells," Nature Communications, Nature, vol. 10(1), pages 1-14, December.
    • Handle: RePEc:nat:natcom:v:10:y:2019:i:1:d:10.1038_s41467-019-11092-1
    DOI: 10.1038/s41467-019-11092-1
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    Cited by:

    1. Xiju Xia & Yulong Li, 2025. "A high-performance GRAB sensor reveals differences in the dynamics and molecular regulation between neuropeptide and neurotransmitter release," Nature Communications, Nature, vol. 16(1), pages 1-17, December.

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