Cell Type–Specific Loss of BDNF Signaling Mimics Optogenetic Control of Cocaine Reward

Lobo, Mary Kay; Covington, Herbert E.; Chaudhury, Dipesh; Friedman, Allyson K.; Sun, HaoSheng; Damez-Werno, Diane; Dietz, David; Zaman, Samir; Koo, Ja Wook; Kennedy, Pamela; Mouzon, Ezekiell; Mogri, Murtaza; Neve, Rachael L.; Deisseroth, Karl; Han, Ming‐Hu; Nestler, Eric J.

doi:10.1126/science.1188472

articleScienceOct 14, 2010Closed access

Cell Type–Specific Loss of BDNF Signaling Mimics Optogenetic Control of Cocaine Reward

MKMary Kay Lobo HEHerbert E. Covington DCDipesh Chaudhury AKAllyson K. Friedman HSHaoSheng Sun

Icahn School of Medicine at Mount Sinai · Mount Sinai Health System · +2 more institutions

PubMed

Indexed incrossrefpubmed

Abstract

The nucleus accumbens is a key mediator of cocaine reward, but the distinct roles of the two subpopulations of nucleus accumbens projection neurons, those expressing dopamine D1 versus D2 receptors, are poorly understood. We show that deletion of TrkB, the brain-derived neurotrophic factor (BDNF) receptor, selectively from D1+ or D2+ neurons oppositely affects cocaine reward. Because loss of TrkB in D2+ neurons increases their neuronal excitability, we next used optogenetic tools to control selectively the firing rate of D1+ and D2+ nucleus accumbens neurons and studied consequent effects on cocaine reward. Activation of D2+ neurons, mimicking the loss of TrkB, suppresses cocaine reward, with opposite effects…

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889

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Topics & keywords

Topics

Keywords

Nucleus accumbens
Optogenetics
Neuroscience
Dopamine
Tropomyosin receptor kinase B
Reward system
Neurotrophic factors
Brain-derived neurotrophic factor

UN Sustainable Development Goals

Good health and well-being

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