Synaptic and Behavioral Profile of Multiple Glutamatergic Inputs to the Nucleus Accumbens

Britt, Jonathan P.; Benaliouad, Faïza; McDevitt, Ross A.; Stuber, Garret D.; Wise, Roy A.; Bonci, Antonello

doi:10.1016/j.neuron.2012.09.040

Cited by 623 publications

(729 citation statements)

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“…Extracellular glutamate levels are tightly regulated by numerous neuronal and glial release and uptake functions. One possibility is that repeated cycles of CIE exposure produce a persistent hyperexcitable state in the NAc driven by increased activity in glutamatergic afferents arising from the prefrontal cortex and limbic (hippocampus and amygdala) nuclei (Britt et al, 2012). In the NAc, mGluR2 and mGluR3 receptors are predominantly located in the neurons, pre-and postsynaptically (Ohishi et al, 1998;Tamaru et al, 2001).…”

Section: Discussionmentioning

confidence: 99%

Increased Extracellular Glutamate In the Nucleus Accumbens Promotes Excessive Ethanol Drinking in Ethanol Dependent Mice

Griffin

Haun

Hazelbaker

et al. 2013

Neuropsychopharmacol

124

112

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Using a well-established model of ethanol dependence and relapse, this study examined adaptations in glutamatergic transmission in the nucleus accumbens (NAc) and their role in regulating voluntary ethanol drinking. Mice were first trained to drink ethanol in a free-choice, limited access (2 h/day) paradigm. One group (EtOH mice) received repeated weekly cycles of chronic intermittent ethanol (CIE) exposure with intervening weeks of test drinking sessions, whereas the remaining mice (CTL mice) were similarly treated but did not receive CIE treatment. Over repeated cycles of CIE exposure, EtOH mice exhibited significant escalation in drinking (up to B3.5 g/kg), whereas drinking remained relatively stable at baseline levels (2-2.5 g/kg) in CTL mice. Using in vivo microdialysis procedures, extracellular glutamate (GLU EX ) levels in the NAc were increased approximately twofold in EtOH mice compared with CTL mice, and this difference was observed 7 days after final CIE exposure, indicating that this hyperglutamatergic state persisted beyond acute withdrawal. This finding prompted additional studies examining the effects of pharmacologically manipulating GLU EX in the NAc on ethanol drinking in the CIE model. The non-selective glutamate reuptake antagonist, threo-b-benzyloxyaspartate (TBOA), was bilaterally microinjected into the NAc and found to dose-dependently increase drinking in nondependent (CTL) mice to levels attained by dependent (EtOH) mice. TBOA also further increased drinking in EtOH mice. In contrast, reducing glutamatergic transmission in the NAc via bilateral injections of the metabotropic glutamate receptor-2/3 agonist LY379268 reduced drinking in dependent (EtOH) mice to nondependent (CTL) levels, whereas having a more modest effect in decreasing ethanol consumption in CTL mice. Taken together, these data support an important role of glutamatergic transmission in the NAc in regulating ethanol drinking. Additionally, these results indicate that ethanol dependence produces adaptations that favor elevated glutamate activity in the NAc which, in turn, promote excessive levels of ethanol consumption associated with dependence.

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Section: Discussionmentioning

confidence: 99%

Increased Extracellular Glutamate In the Nucleus Accumbens Promotes Excessive Ethanol Drinking in Ethanol Dependent Mice

Griffin

Haun

Hazelbaker

et al. 2013

Neuropsychopharmacol

124

112

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“…Moreover, the mPFC is ideally poised to orchestrate shifts between anxiety-like and reward-motivated behaviors, as it sends projections both to the amygdala and nucleus accumbens (NAc). mPFC efferents to the latter affect information processing within striatal projection neurons 119 , and stimulation of this pathway is reinforcing 120 .…”

Section: Evaluation Of Threat: Regulation Of Interpretationmentioning

confidence: 99%

Resolving the neural circuits of anxiety

2015

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Although anxiety disorders represent a major societal problem demanding new therapeutic targets, these efforts have languished in the absence of a mechanistic understanding of this subjective emotional state. While it is impossible to know with absolute certainty the subjective experience of a rodent, rodent models hold promise in dissecting wellconserved limbic circuits. The application of modern approaches in neuroscience has already begun to unmask the neural circuit intricacies underlying anxiety by allowing direct examination of hypotheses drawn from existing psychological concepts. This information points toward an updated conceptual model for what neural circuit perturbations could give rise to pathological anxiety, and thereby provides a roadmap for future therapeutic development.3

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“…Cocaine selectively increases the presynaptic release probability of excitatory synapses within the PFCNAc pathway but not the BLA-NAc pathway, and amygdala fibers have a relatively low probability of transmitter release [7,9]. Chronic non-contingent or contingent cocaine exposure and withdrawal evoke input-and cell type-specific plasticity in the NAc, which may underlie behavioral adaptations in addiction, such as craving and relapse [7,10]. Optogenetic-mediated, pathway-specific stimulation reveals that the activation of inputs from the PFC, vHipp, and BLA to the NAc is rewarding and can reinforce instrumental behavior [6,7].…”

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confidence: 99%

“…Both positive reinforcement (rewarding effects of drugs) and negative reinforcement (aversive emotional state associated with withdrawal) have been considered to play critical roles in the etiology and maintenance of drug addiction, and NAc neurons are capable of processing both reward and aversion [4,5]. Optogenetic activation of inputs from the PFC, ventral hippocampus (vHipp), and basolateral amygdala (BLA) to the NAc drives positive reinforcement and facilitates rewardseeking behavior [6,7], but a recent paper in Nature [8] has identified another face of the NAc. The pathway from the paraventricular nucleus of the thalamus (PVT) to the NAc is key to the aversive emotional state of drug withdrawal.…”

mentioning

confidence: 99%

“…Chronic non-contingent or contingent cocaine exposure and withdrawal evoke input-and cell type-specific plasticity in the NAc, which may underlie behavioral adaptations in addiction, such as craving and relapse [7,10]. Optogenetic-mediated, pathway-specific stimulation reveals that the activation of inputs from the PFC, vHipp, and BLA to the NAc is rewarding and can reinforce instrumental behavior [6,7]. However, still unknown is the specific NAc circuitry that underlies negative emotional and motivational states after withdrawal.…”

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confidence: 99%

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The Other Face of the Nucleus Accumbens: Aversion

Han

Lü

2016

Neurosci. Bull.

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The nucleus accumbens (NAc) is thought to integrate information that is conveyed by (1) dopaminergic inputs from the midbrain and (2) glutamatergic inputs from limbic and cortical regions, including the amygdala, prefrontal cortex (PFC), hippocampus, and thalamus [1], and signal to the basal ganglia motor system to guide appropriate behaviors. Addictive drug use is proposed to hijack this system, enhancing the brain's reactivity to drug cues and triggering drug-seeking and relapse after prolonged withdrawal [2,3]. Both positive reinforcement (rewarding effects of drugs) and negative reinforcement (aversive emotional state associated with withdrawal) have been considered to play critical roles in the etiology and maintenance of drug addiction, and NAc neurons are capable of processing both reward and aversion [4,5]. Optogenetic activation of inputs from the PFC, ventral hippocampus (vHipp), and basolateral amygdala (BLA) to the NAc drives positive reinforcement and facilitates rewardseeking behavior [6,7], but a recent paper in Nature [8] has identified another face of the NAc. The pathway from the paraventricular nucleus of the thalamus (PVT) to the NAc is key to the aversive emotional state of drug withdrawal.Glutamatergic synaptic transmission within the NAc has been recognized as a primary target for addictive drugs to produce adaptive synaptic changes and modulate behavioral output. Cocaine selectively increases the presynaptic release probability of excitatory synapses within the PFCNAc pathway but not the BLA-NAc pathway, and amygdala fibers have a relatively low probability of transmitter release [7,9]. Chronic non-contingent or contingent cocaine exposure and withdrawal evoke input-and cell type-specific plasticity in the NAc, which may underlie behavioral adaptations in addiction, such as craving and relapse [7,10]. Optogenetic-mediated, pathway-specific stimulation reveals that the activation of inputs from the PFC, vHipp, and BLA to the NAc is rewarding and can reinforce instrumental behavior [6,7]. However, still unknown is the specific NAc circuitry that underlies negative emotional and motivational states after withdrawal.Using retrograde neuronal tracing, Zhu et al. [8] showed that the NAc is densely innervated by the PVT, in addition to its well-characterized inputs from the PFC, vHipp, and BLA. Brief light stimulation of fibers that project from the PVT to the NAc evoked robust a-amino-3-hydroxy-5-methyl-4-isoxazolepropionic acid receptor (AMPAR)-mediated excitatory postsynaptic currents in medium spiny neurons (MSNs), indicating that the PVT is a source of glutamatergic afferents to the NAc. Behaviorally, optogenetically activating the PVT-NAc pathway evokes avoidance of a light-paired chamber in the realtime place preference assay, which depends on glutamatergic but not dopaminergic transmission in the NAc. Thus, in contrast to other inputs to the NAc, the PVT input mediates aversion rather than reward. This suggests the possibility that this pathway is a specific neuronal circuit involved in ...

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Synaptic and Behavioral Profile of Multiple Glutamatergic Inputs to the Nucleus Accumbens

Cited by 623 publications

References 70 publications

Increased Extracellular Glutamate In the Nucleus Accumbens Promotes Excessive Ethanol Drinking in Ethanol Dependent Mice

Increased Extracellular Glutamate In the Nucleus Accumbens Promotes Excessive Ethanol Drinking in Ethanol Dependent Mice

Resolving the neural circuits of anxiety

The Other Face of the Nucleus Accumbens: Aversion

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