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Rabies screen reveals GPe control of cocaine-triggered plasticity

Author

Listed:
  • Kevin T. Beier

    (Nancy Pritzker Laboratory, Stanford University School of Medicine
    Stanford University)

  • Christina K. Kim

    (Neurosciences Program, Stanford University)

  • Paul Hoerbelt

    (Nancy Pritzker Laboratory, Stanford University School of Medicine)

  • Lin Wai Hung

    (Nancy Pritzker Laboratory, Stanford University School of Medicine)

  • Boris D. Heifets

    (Nancy Pritzker Laboratory, Stanford University School of Medicine
    Perioperative and Pain Medicine, Stanford University School of Medicine)

  • Katherine E. DeLoach

    (Stanford University
    Howard Hughes Medical Institute, Stanford University)

  • Timothy J. Mosca

    (Stanford University
    Thomas Jefferson University)

  • Sophie Neuner

    (Nancy Pritzker Laboratory, Stanford University School of Medicine)

  • Karl Deisseroth

    (Stanford University
    Stanford University School of Medicine
    Howard Hughes Medical Institute, Stanford University)

  • Liqun Luo

    (Stanford University
    Howard Hughes Medical Institute, Stanford University)

  • Robert C. Malenka

    (Nancy Pritzker Laboratory, Stanford University School of Medicine)

Abstract

Identification of neural circuit changes that contribute to behavioural plasticity has routinely been conducted on candidate circuits that were preselected on the basis of previous results. Here we present an unbiased method for identifying experience-triggered circuit-level changes in neuronal ensembles in mice. Using rabies virus monosynaptic tracing, we mapped cocaine-induced global changes in inputs onto neurons in the ventral tegmental area. Cocaine increased rabies-labelled inputs from the globus pallidus externus (GPe), a basal ganglia nucleus not previously known to participate in behavioural plasticity triggered by drugs of abuse. We demonstrated that cocaine increased GPe neuron activity, which accounted for the increase in GPe labelling. Inhibition of GPe activity revealed that it contributes to two forms of cocaine-triggered behavioural plasticity, at least in part by disinhibiting dopamine neurons in the ventral tegmental area. These results suggest that rabies-based unbiased screening of changes in input populations can identify previously unappreciated circuit elements that critically support behavioural adaptations.

Suggested Citation

  • Kevin T. Beier & Christina K. Kim & Paul Hoerbelt & Lin Wai Hung & Boris D. Heifets & Katherine E. DeLoach & Timothy J. Mosca & Sophie Neuner & Karl Deisseroth & Liqun Luo & Robert C. Malenka, 2017. "Rabies screen reveals GPe control of cocaine-triggered plasticity," Nature, Nature, vol. 549(7672), pages 345-350, September.
    • Handle: RePEc:nat:nature:v:549:y:2017:i:7672:d:10.1038_nature23888
    DOI: 10.1038/nature23888
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    Cited by:

    1. Federico Rocchi & Carola Canella & Shahryar Noei & Daniel Gutierrez-Barragan & Ludovico Coletta & Alberto Galbusera & Alexia Stuefer & Stefano Vassanelli & Massimo Pasqualetti & Giuliano Iurilli & Ste, 2022. "Increased fMRI connectivity upon chemogenetic inhibition of the mouse prefrontal cortex," Nature Communications, Nature, vol. 13(1), pages 1-15, December.
    2. Arpiar Saunders & Kee Wui Huang & Cassandra Vondrak & Christina Hughes & Karina Smolyar & Harsha Sen & Adrienne C. Philson & James Nemesh & Alec Wysoker & Seva Kashin & Bernardo L. Sabatini & Steven A, 2022. "Ascertaining cells’ synaptic connections and RNA expression simultaneously with barcoded rabies virus libraries," Nature Communications, Nature, vol. 13(1), pages 1-18, December.
    3. Qingtao Sun & Jianping Zhang & Anan Li & Mei Yao & Guangcai Liu & Siqi Chen & Yue Luo & Zhi Wang & Hui Gong & Xiangning Li & Qingming Luo, 2022. "Acetylcholine deficiency disrupts extratelencephalic projection neurons in the prefrontal cortex in a mouse model of Alzheimer’s disease," Nature Communications, Nature, vol. 13(1), pages 1-22, December.

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