2014
DOI: 10.3389/fncir.2014.00114
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Optical suppression of drug-evoked phasic dopamine release

Abstract: Brief fluctuations in dopamine concentration (dopamine transients) play a key role in behavior towards rewards, including drugs of abuse. Drug-evoked dopamine transients may result from actions at both dopamine cell bodies and dopamine terminals. Inhibitory opsins can be targeted to dopamine neurons permitting their firing activity to be suppressed. However, as dopamine transients can become uncoupled from firing, it is unknown whether optogenetic hyperpolarization at the level of the soma is able to suppress … Show more

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Cited by 22 publications
(19 citation statements)
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“…In view of recent studies that show the critical role of synaptic and dendritic pathobiology (Villalba and Smith, 2013) seen in cocaine reinstatement studies (Shen et al, 2014), such studies may be of use in future transplantation experiments to evaluate whether VTA neuronal preservation will provide reversal of dendritic changes in post-synaptic NAc neurons. Our study also provides support to the growing consensus that the VTA-NAc pathway has a significant role in reinstatement of drug-seeking behavior and, as such, adds an additional line of evidence to recent related optogenetic studies in the VTA-NAc pathway (Adrover et al, 2014; Bocklisch et al, 2013; Chandra et al, 2013; McCutcheon et al, 2014; Stefanik et al, 2013). …”
Section: Discussionsupporting
confidence: 83%
“…In view of recent studies that show the critical role of synaptic and dendritic pathobiology (Villalba and Smith, 2013) seen in cocaine reinstatement studies (Shen et al, 2014), such studies may be of use in future transplantation experiments to evaluate whether VTA neuronal preservation will provide reversal of dendritic changes in post-synaptic NAc neurons. Our study also provides support to the growing consensus that the VTA-NAc pathway has a significant role in reinstatement of drug-seeking behavior and, as such, adds an additional line of evidence to recent related optogenetic studies in the VTA-NAc pathway (Adrover et al, 2014; Bocklisch et al, 2013; Chandra et al, 2013; McCutcheon et al, 2014; Stefanik et al, 2013). …”
Section: Discussionsupporting
confidence: 83%
“…FSCV experiments using urethane anesthesia have often been used to investigate DA changes in response to cocaine [2, 3, 14, 18], but the extent to which urethane itself alters cocaine’s effect on DAT remains unknown [8]. Here we demonstrate that neither urethane nor isoflurane alters cocaine’s effects ex vivo.…”
Section: Discussionmentioning
confidence: 63%
“…To address these points, measurements of the activity of identified DA neurons using electrophysiology, deep brain calcium imaging, and FSCV can be made to determine when these neurons are activated and when DA is released relative to behavioral and drug events during learning, and temporally-specific inhibition of DA neuron activity can be conducted to counter the drug-induced putative DA-RPE to test causality. The feasibility of this latter approach was recently demonstrated in Th::Cre rats in which the light-sensitive inhibitory channel, halorhodopsin (NpHR), was expressed in DA neurons and NpHR-mediated inhibition of VTA DA somata was found to greatly reduce cocaine-induced phasic DA release in the NAc (McCutcheon et al, 2014). …”
Section: Remaining Questionsmentioning
confidence: 99%