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Input-specific control of reward and aversion in the ventral tegmental area
by
Lim, Byung Kook
, Ran, Chen
, Betley, Michael J.
, Deisseroth, Karl
, Malenka, Robert C.
, Tye, Kay M.
, Lammel, Stephan
, Huang, Kee Wui
in
631/378/1697
/ 631/378/548
/ 631/601/18
/ Anatomical correlates of behavior
/ Animals
/ Avoidance Learning - drug effects
/ Avoidance Learning - physiology
/ Axons - metabolism
/ Behavioral psychophysiology
/ Biological and medical sciences
/ Brain
/ Dopamine
/ Dopamine - metabolism
/ Dopamine Antagonists - pharmacology
/ Dopaminergic Neurons - metabolism
/ Fundamental and applied biological sciences. Psychology
/ GABAergic Neurons - metabolism
/ Habenula - cytology
/ Habenula - physiology
/ Health aspects
/ Humanities and Social Sciences
/ Laboratory animals
/ Male
/ Mice
/ Mice, Inbred C57BL
/ Models, Neurological
/ multidisciplinary
/ Neural circuitry
/ Neural Pathways - physiology
/ Neurons
/ Parkinson's disease
/ Physiological aspects
/ Psychology. Psychoanalysis. Psychiatry
/ Psychology. Psychophysiology
/ Receptors, Dopamine - metabolism
/ Reward
/ Science
/ Subpopulations
/ Synapses - metabolism
/ Ventral tegmental area
/ Ventral Tegmental Area - cytology
/ Ventral Tegmental Area - physiology
2012
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Input-specific control of reward and aversion in the ventral tegmental area
by
Lim, Byung Kook
, Ran, Chen
, Betley, Michael J.
, Deisseroth, Karl
, Malenka, Robert C.
, Tye, Kay M.
, Lammel, Stephan
, Huang, Kee Wui
in
631/378/1697
/ 631/378/548
/ 631/601/18
/ Anatomical correlates of behavior
/ Animals
/ Avoidance Learning - drug effects
/ Avoidance Learning - physiology
/ Axons - metabolism
/ Behavioral psychophysiology
/ Biological and medical sciences
/ Brain
/ Dopamine
/ Dopamine - metabolism
/ Dopamine Antagonists - pharmacology
/ Dopaminergic Neurons - metabolism
/ Fundamental and applied biological sciences. Psychology
/ GABAergic Neurons - metabolism
/ Habenula - cytology
/ Habenula - physiology
/ Health aspects
/ Humanities and Social Sciences
/ Laboratory animals
/ Male
/ Mice
/ Mice, Inbred C57BL
/ Models, Neurological
/ multidisciplinary
/ Neural circuitry
/ Neural Pathways - physiology
/ Neurons
/ Parkinson's disease
/ Physiological aspects
/ Psychology. Psychoanalysis. Psychiatry
/ Psychology. Psychophysiology
/ Receptors, Dopamine - metabolism
/ Reward
/ Science
/ Subpopulations
/ Synapses - metabolism
/ Ventral tegmental area
/ Ventral Tegmental Area - cytology
/ Ventral Tegmental Area - physiology
2012
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Input-specific control of reward and aversion in the ventral tegmental area
by
Lim, Byung Kook
, Ran, Chen
, Betley, Michael J.
, Deisseroth, Karl
, Malenka, Robert C.
, Tye, Kay M.
, Lammel, Stephan
, Huang, Kee Wui
in
631/378/1697
/ 631/378/548
/ 631/601/18
/ Anatomical correlates of behavior
/ Animals
/ Avoidance Learning - drug effects
/ Avoidance Learning - physiology
/ Axons - metabolism
/ Behavioral psychophysiology
/ Biological and medical sciences
/ Brain
/ Dopamine
/ Dopamine - metabolism
/ Dopamine Antagonists - pharmacology
/ Dopaminergic Neurons - metabolism
/ Fundamental and applied biological sciences. Psychology
/ GABAergic Neurons - metabolism
/ Habenula - cytology
/ Habenula - physiology
/ Health aspects
/ Humanities and Social Sciences
/ Laboratory animals
/ Male
/ Mice
/ Mice, Inbred C57BL
/ Models, Neurological
/ multidisciplinary
/ Neural circuitry
/ Neural Pathways - physiology
/ Neurons
/ Parkinson's disease
/ Physiological aspects
/ Psychology. Psychoanalysis. Psychiatry
/ Psychology. Psychophysiology
/ Receptors, Dopamine - metabolism
/ Reward
/ Science
/ Subpopulations
/ Synapses - metabolism
/ Ventral tegmental area
/ Ventral Tegmental Area - cytology
/ Ventral Tegmental Area - physiology
2012
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Input-specific control of reward and aversion in the ventral tegmental area
Journal Article
Input-specific control of reward and aversion in the ventral tegmental area
2012
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Overview
Ventral tegmental area (VTA) dopamine neurons have important roles in adaptive and pathological brain functions related to reward and motivation. However, it is unknown whether subpopulations of VTA dopamine neurons participate in distinct circuits that encode different motivational signatures, and whether inputs to the VTA differentially modulate such circuits. Here we show that, because of differences in synaptic connectivity, activation of inputs to the VTA from the laterodorsal tegmentum and the lateral habenula elicit reward and aversion in mice, respectively. Laterodorsal tegmentum neurons preferentially synapse on dopamine neurons projecting to the nucleus accumbens lateral shell, whereas lateral habenula neurons synapse primarily on dopamine neurons projecting to the medial prefrontal cortex as well as on GABAergic (γ-aminobutyric-acid-containing) neurons in the rostromedial tegmental nucleus. These results establish that distinct VTA circuits generate reward and aversion, and thereby provide a new framework for understanding the circuit basis of adaptive and pathological motivated behaviours.
Through the use of a combination of state-of-the-art techniques, different populations of ventral tegmental area dopamine neurons in the mouse are shown to form separate circuits with distinct connectivity: neurons receiving input from the laterodorsal tegmentum and lateral habenula are found to mediate reward and aversion, respectively.
Control of reward and aversion by midbrain neurons
Dopamine neurons in the ventral tegmental area (VTA) are perhaps best known for their reward-related activity, but they can also signal aversion. Here, the authors show that different populations of VTA neurons form separate circuits with distinct connectivity for reward and aversion. Using a combination of state-of-the-art functional anatomical techniques, they find that neurons receiving input from the laterodorsal tegmentum and lateral habenula mediate reward and aversion, respectively.
Publisher
Nature Publishing Group UK,Nature Publishing Group
Subject
/ Anatomical correlates of behavior
/ Animals
/ Avoidance Learning - drug effects
/ Avoidance Learning - physiology
/ Biological and medical sciences
/ Brain
/ Dopamine
/ Dopamine Antagonists - pharmacology
/ Dopaminergic Neurons - metabolism
/ Fundamental and applied biological sciences. Psychology
/ GABAergic Neurons - metabolism
/ Humanities and Social Sciences
/ Male
/ Mice
/ Neural Pathways - physiology
/ Neurons
/ Psychology. Psychoanalysis. Psychiatry
/ Psychology. Psychophysiology
/ Receptors, Dopamine - metabolism
/ Reward
/ Science
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