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Anhedonia requires MC4R-mediated synaptic adaptations in nucleus accumbens

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  • Byung Kook Lim

    (Nancy Pritzker Laboratory, Stanford University School of Medicine, 265 Campus Drive)

  • Kee Wui Huang

    (Nancy Pritzker Laboratory, Stanford University School of Medicine, 265 Campus Drive)

  • Brad A. Grueter

    (Nancy Pritzker Laboratory, Stanford University School of Medicine, 265 Campus Drive)

  • Patrick E. Rothwell

    (Nancy Pritzker Laboratory, Stanford University School of Medicine, 265 Campus Drive)

  • Robert C. Malenka

    (Nancy Pritzker Laboratory, Stanford University School of Medicine, 265 Campus Drive)

Abstract

Chronic stress is a strong diathesis for depression in humans and is used to generate animal models of depression. It commonly leads to several major symptoms of depression, including dysregulated feeding behaviour, anhedonia and behavioural despair. Although hypotheses defining the neural pathophysiology of depression have been proposed, the critical synaptic adaptations in key brain circuits that mediate stress-induced depressive symptoms remain poorly understood. Here we show that chronic stress in mice decreases the strength of excitatory synapses on D1 dopamine receptor-expressing nucleus accumbens medium spiny neurons owing to activation of the melanocortin 4 receptor. Stress-elicited increases in behavioural measurements of anhedonia, but not increases in measurements of behavioural despair, are prevented by blocking these melanocortin 4 receptor-mediated synaptic changes in vivo. These results establish that stress-elicited anhedonia requires a neuropeptide-triggered, cell-type-specific synaptic adaptation in the nucleus accumbens and that distinct circuit adaptations mediate other major symptoms of stress-elicited depression.

Suggested Citation

  • Byung Kook Lim & Kee Wui Huang & Brad A. Grueter & Patrick E. Rothwell & Robert C. Malenka, 2012. "Anhedonia requires MC4R-mediated synaptic adaptations in nucleus accumbens," Nature, Nature, vol. 487(7406), pages 183-189, July.
  • Handle: RePEc:nat:nature:v:487:y:2012:i:7406:d:10.1038_nature11160
    DOI: 10.1038/nature11160
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    Cited by:

    1. Yun-Feng Zhang & Jialiang Wu & Yingqi Wang & Natalie L. Johnson & Janardhan P. Bhattarai & Guanqing Li & Wenqiang Wang & Camilo Guevara & Hannah Shoenhard & Marc V. Fuccillo & Daniel W. Wesson & Mingh, 2023. "Ventral striatal islands of Calleja neurons bidirectionally mediate depression-like behaviors in mice," Nature Communications, Nature, vol. 14(1), pages 1-17, December.
    2. Tommaso Ianni & Sedona N. Ewbank & Marjorie R. Levinstein & Matine M. Azadian & Reece C. Budinich & Michael Michaelides & Raag D. Airan, 2024. "Sex dependence of opioid-mediated responses to subanesthetic ketamine in rats," Nature Communications, Nature, vol. 15(1), pages 1-15, December.
    3. Jeroen P. H. Verharen & Johannes W. Jong & Yichen Zhu & Stephan Lammel, 2023. "A computational analysis of mouse behavior in the sucrose preference test," Nature Communications, Nature, vol. 14(1), pages 1-13, December.

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