Literature DB >> 23664810

Neurocircuitry of drug reward.

Satoshi Ikemoto1, Antonello Bonci.   

Abstract

In recent years, neuroscientists have produced profound conceptual and mechanistic advances on the neurocircuitry of reward and substance use disorders. Here, we will provide a brief review of intracranial drug self-administration and optogenetic self-stimulation studies that identified brain regions and neurotransmitter systems involved in drug- and reward-related behaviors. Also discussed is a theoretical framework that helps to understand the functional properties of the circuitry involved in these behaviors. The circuitry appears to be homeostatically regulated and mediate anticipatory processes that regulate behavioral interaction with the environment in response to salient stimuli. That is, abused drugs or, at least, some may act on basic motivation and mood processes, regulating behavior-environment interaction. Optogenetics and related technologies have begun to uncover detailed circuit mechanisms linking key brain regions in which abused drugs act for rewarding effects. This article is part of a Special Issue entitled 'NIDA 40th Anniversary Issue'. Published by Elsevier Ltd.

Entities:  

Keywords:  Dopamine; Drug reward; Emotion; Median raphe nucleus; Motivation; Supramammillary nucleus; Ventral striatum; Ventral tegmental area

Mesh:

Substances:

Year:  2013        PMID: 23664810      PMCID: PMC3772961          DOI: 10.1016/j.neuropharm.2013.04.031

Source DB:  PubMed          Journal:  Neuropharmacology        ISSN: 0028-3908            Impact factor:   5.250


  126 in total

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Authors:  Simon Hong; Thomas C Jhou; Mitchell Smith; Kadharbatcha S Saleem; Okihide Hikosaka
Journal:  J Neurosci       Date:  2011-08-10       Impact factor: 6.167

2.  Rewarding injections of the cholinergic agonist carbachol into the ventral tegmental area induce locomotion and c-Fos expression in the retrosplenial area and supramammillary nucleus.

Authors:  Satoshi Ikemoto; Brian M Witkin; Marisela Morales
Journal:  Brain Res       Date:  2003-04-18       Impact factor: 3.252

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Authors:  Zachary A Rodd; Victoria E Gryszowka; Jamie E Toalston; Scott M Oster; Dong Ji; Richard L Bell; William J McBride
Journal:  J Pharmacol Exp Ther       Date:  2007-02-26       Impact factor: 4.030

6.  The mesopontine rostromedial tegmental nucleus: A structure targeted by the lateral habenula that projects to the ventral tegmental area of Tsai and substantia nigra compacta.

Authors:  Thomas C Jhou; Stefanie Geisler; Michela Marinelli; Beth A Degarmo; Daniel S Zahm
Journal:  J Comp Neurol       Date:  2009-04-20       Impact factor: 3.215

Review 7.  Dopamine reward circuitry: two projection systems from the ventral midbrain to the nucleus accumbens-olfactory tubercle complex.

Authors:  Satoshi Ikemoto
Journal:  Brain Res Rev       Date:  2007-05-17

8.  Self-administration of morphine into the lateral hypothalamus in the mouse.

Authors:  P Cazala; C Darracq; M Saint-Marc
Journal:  Brain Res       Date:  1987-07-28       Impact factor: 3.252

9.  Intracranial self-administration of MDMA into the ventral striatum of the rat: differential roles of the nucleus accumbens shell, core, and olfactory tubercle.

Authors:  Rick Shin; Mei Qin; Zhong-Hua Liu; Satoshi Ikemoto
Journal:  Psychopharmacology (Berl)       Date:  2008-04-05       Impact factor: 4.530

10.  Striatal dopamine release is triggered by synchronized activity in cholinergic interneurons.

Authors:  Sarah Threlfell; Tatjana Lalic; Nicola J Platt; Katie A Jennings; Karl Deisseroth; Stephanie J Cragg
Journal:  Neuron       Date:  2012-07-12       Impact factor: 17.173
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  41 in total

Review 1.  The ventral pallidum: Subregion-specific functional anatomy and roles in motivated behaviors.

Authors:  David H Root; Roberto I Melendez; Laszlo Zaborszky; T Celeste Napier
Journal:  Prog Neurobiol       Date:  2015-04-06       Impact factor: 11.685

Review 2.  Basal ganglia circuit loops, dopamine and motivation: A review and enquiry.

Authors:  Satoshi Ikemoto; Chen Yang; Aaron Tan
Journal:  Behav Brain Res       Date:  2015-04-20       Impact factor: 3.332

3.  Regional Heterogeneity of D2-Receptor Signaling in the Dorsal Striatum and Nucleus Accumbens.

Authors:  Pamela F Marcott; Sheng Gong; Prashant Donthamsetti; Steven G Grinnell; Melissa N Nelson; Amy H Newman; Lutz Birnbaumer; Kirill A Martemyanov; Jonathan A Javitch; Christopher P Ford
Journal:  Neuron       Date:  2018-04-12       Impact factor: 17.173

4.  Nucleus Accumbens Subnuclei Regulate Motivated Behavior via Direct Inhibition and Disinhibition of VTA Dopamine Subpopulations.

Authors:  Hongbin Yang; Johannes W de Jong; YeEun Tak; James Peck; Helen S Bateup; Stephan Lammel
Journal:  Neuron       Date:  2018-01-04       Impact factor: 17.173

Review 5.  Major diencephalic inputs to the hippocampus: supramammillary nucleus and nucleus reuniens. Circuitry and function.

Authors:  Robert P Vertes
Journal:  Prog Brain Res       Date:  2015-05-16       Impact factor: 2.453

Review 6.  Sex differences in drug addiction and response to exercise intervention: From human to animal studies.

Authors:  Yuehui Zhou; Min Zhao; Chenglin Zhou; Rena Li
Journal:  Front Neuroendocrinol       Date:  2015-07-13       Impact factor: 8.606

Review 7.  Dopamine's Effects on Corticostriatal Synapses during Reward-Based Behaviors.

Authors:  Nigel S Bamford; R Mark Wightman; David Sulzer
Journal:  Neuron       Date:  2018-02-07       Impact factor: 17.173

Review 8.  Illicit dopamine transients: reconciling actions of abused drugs.

Authors:  Dan P Covey; Mitchell F Roitman; Paul A Garris
Journal:  Trends Neurosci       Date:  2014-03-20       Impact factor: 13.837

9.  Negative allosteric modulation of GABAA receptors inhibits facilitation of brain stimulation reward by drugs of abuse in C57BL6/J mice.

Authors:  Matthew E Tracy; Matthew L Banks; Keith L Shelton
Journal:  Psychopharmacology (Berl)       Date:  2015-11-27       Impact factor: 4.530

10.  Glutamate and dopamine transmission from midbrain dopamine neurons share similar release properties but are differentially affected by cocaine.

Authors:  Martín F Adrover; Jung Hoon Shin; Veronica A Alvarez
Journal:  J Neurosci       Date:  2014-02-26       Impact factor: 6.167
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