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Upregulated energy metabolism in the Drosophila mushroom body is the trigger for long-term memory

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  • Pierre-Yves Plaçais

    (Genes and Dynamics of Memory Systems, Brain Plasticity Unit, CNRS, ESPCI Paris, PSL Research University)

  • Éloïse de Tredern

    (Genes and Dynamics of Memory Systems, Brain Plasticity Unit, CNRS, ESPCI Paris, PSL Research University)

  • Lisa Scheunemann

    (Genes and Dynamics of Memory Systems, Brain Plasticity Unit, CNRS, ESPCI Paris, PSL Research University)

  • Séverine Trannoy

    (Genes and Dynamics of Memory Systems, Brain Plasticity Unit, CNRS, ESPCI Paris, PSL Research University
    Present address: Department of Neurobiology, Harvard Medical School, Boston, Massachusetts 02115, USA)

  • Valérie Goguel

    (Genes and Dynamics of Memory Systems, Brain Plasticity Unit, CNRS, ESPCI Paris, PSL Research University)

  • Kyung-An Han

    (Border Biomedical Research Center, University of Texas at El Paso)

  • Guillaume Isabel

    (Genes and Dynamics of Memory Systems, Brain Plasticity Unit, CNRS, ESPCI Paris, PSL Research University
    Present address: Research Center on Animal Cognition, Université Paul Sabatier, Toulouse, France)

  • Thomas Preat

    (Genes and Dynamics of Memory Systems, Brain Plasticity Unit, CNRS, ESPCI Paris, PSL Research University)

Abstract

Efficient energy use has constrained the evolution of nervous systems. However, it is unresolved whether energy metabolism may resultantly regulate major brain functions. Our observation that Drosophila flies double their sucrose intake at an early stage of long-term memory formation initiated the investigation of how energy metabolism intervenes in this process. Cellular-resolution imaging of energy metabolism reveals a concurrent elevation of energy consumption in neurons of the mushroom body, the fly’s major memory centre. Strikingly, upregulation of mushroom body energy flux is both necessary and sufficient to drive long-term memory formation. This effect is triggered by a specific pair of dopaminergic neurons afferent to the mushroom bodies, via the D5-like DAMB dopamine receptor. Hence, dopamine signalling mediates an energy switch in the mushroom body that controls long-term memory encoding. Our data thus point to an instructional role for energy flux in the execution of demanding higher brain functions.

Suggested Citation

  • Pierre-Yves Plaçais & Éloïse de Tredern & Lisa Scheunemann & Séverine Trannoy & Valérie Goguel & Kyung-An Han & Guillaume Isabel & Thomas Preat, 2017. "Upregulated energy metabolism in the Drosophila mushroom body is the trigger for long-term memory," Nature Communications, Nature, vol. 8(1), pages 1-14, August.
    • Handle: RePEc:nat:natcom:v:8:y:2017:i:1:d:10.1038_ncomms15510
    DOI: 10.1038/ncomms15510
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