Dopamine neurons projecting to medial shell of the nucleus accumbens drive heroin reinforcement

Corre, Julie; Zessen, Ruud van; Loureiro, Michaël; Patriarchi, Tommaso; Tian, Lin; Pascoli, Vincent; Lüscher, Christian

doi:10.7554/elife.39945

Cited by 130 publications

(98 citation statements)

References 83 publications

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“…PKA, CREB), (2) Gβγ-mediated activation of G protein-coupled inwardly rectifying K + (GIRK) channels, (3) Gβγ-mediated inactivation of voltage-gated Ca 2+ channels, and (4) Gβγ-mediated inhibition of SNARE-dependent vesicle release (Bourinet et al, 1996;Blanchet and Lüscher, 2002;Blackmer et al, 2005;Al-Hasani and Bruchas, 2011;Zamponi and Currie, 2013). Acute exposure to opioids inhibits VTA GABA neurons (Johnson and North, 1992;Corre et al, 2018), resulting in subsequent disinhibition of VTA DA neurons and phasic DA release into the NAc (Hemby et al, 1995;Pontieri et al, 1995). Nonetheless, although opioids facilitate DA release into the striatum, whether this DA transmission is necessary for opioid reward remains a point of debate (Badiani et al, 2011).…”

Section: Opioidsmentioning

confidence: 99%

One Is Not Enough: Understanding and Modeling Polysubstance Use

et al. 2020

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Substance use disorder (SUD) is a chronic, relapsing disease with a highly multifaceted pathology that includes (but is not limited to) sensitivity to drug-associated cues, negative affect, and motivation to maintain drug consumption. SUDs are highly prevalent, with 35 million people meeting criteria for SUD. While drug use and addiction are highly studied, most investigations of SUDs examine drug use in isolation, rather than in the more prevalent context of comorbid substance histories. Indeed, 11.3% of individuals diagnosed with a SUD have concurrent alcohol and illicit drug use disorders. Furthermore, having a SUD with one substance increases susceptibility to developing dependence on additional substances. For example, the increased risk of developing heroin dependence is twofold for alcohol misusers, threefold for cannabis users, 15fold for cocaine users, and 40-fold for prescription misusers. Given the prevalence and risk associated with polysubstance use and current public health crises, examining these disorders through the lens of co-use is essential for translatability and improved treatment efficacy. The escalating economic and social costs and continued rise in drug use has spurred interest in developing preclinical models that effectively model this phenomenon. Here, we review the current state of the field in understanding the behavioral and neural circuitry in the context of co-use with common pairings of alcohol, nicotine, cannabis, and other addictive substances. Moreover, we outline key considerations when developing polysubstance models, including challenges to developing preclinical models to provide insights and improve treatment outcomes.

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Section: Opioidsmentioning

confidence: 99%

One Is Not Enough: Understanding and Modeling Polysubstance Use

et al. 2020

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“…54,55 We hypothesized that activation of TRPM8 by testosterone in the amygdala causes excitatory transmissions to the VTA, which further impacts dopamine release in the NAc. This represents the main pathway of endogenous reward mechanism 52 or drug-induced reinforcement, 56 known to impact sexual experience. 51 To test this hypothesis, we assessed activation of DA neurons before and immediately after mating events of age-matched TRPM8 +/+ and TRPM8 −/− littermates using cFos as a marker of neuron activation.…”

Section: Postmating Activation Of Dopaminergic Neurons Is Impairedmentioning

confidence: 99%

TRPM8 as the rapid testosterone signaling receptor: Implications in the regulation of dimorphic sexual and social behaviors

et al. 2020

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“…In freely behaving mice, GPCR‐based sensors have been used to report sensory stimulation‒evoked acetylcholine release and behavior‐related dopamine and norepinephrine release using fiber photometry recording and in vivo two‐photon imaging (Fig. c and d) (Jing et al ; Sun et al ; Patriarchi et al ; Corre et al ; Dong et al ; de Jong et al ; Feng et al ; Mohebi et al ). In principle, the GPCR‐based sensors could also be used together with mini‐scopes to achieve real‐time imaging of neurochemicals in free‐behaving animals.…”

Section: In Vivo Applications For Gpcr‐based Sensorsmentioning

confidence: 99%

G‐protein‐coupled receptor‐based sensors for imaging neurochemicals with high sensitivity and specificity

Jing

Zhang

Wang

et al. 2019

Journal of Neurochemistry

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Neurotransmitters and neuromodulators are key neurochemicals that mediate cell-cell communication, maintain the body's homeostasis, and control a wide range of biological processes. Thus, dysregulation of neurochemical signaling is associated with a range of psychiatric disorders and neurological diseases. Understanding the physiological and pathophysiological functions of neurochemicals, particularly in complex biological systems in vivo, requires tools that can probe their dynamics with high sensitivity and specificity. Recently, genetically encoded fluorescent sensors for visualizing specific neurochemicals were developed by coupling neurochemical-sensing G-protein-coupled receptors (GPCRs) with a circular-permutated fluorescent protein. These GPCR-based sensors can monitor the dynamics of neurochemicals in behaving animals with high spatiotemporal resolution. Here, we review recent progress regarding the development and application of GPCR-based sensors for imaging neurochemicals, and we discuss future perspectives.

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Dopamine neurons projecting to medial shell of the nucleus accumbens drive heroin reinforcement

Cited by 130 publications

References 83 publications

One Is Not Enough: Understanding and Modeling Polysubstance Use

One Is Not Enough: Understanding and Modeling Polysubstance Use

TRPM8 as the rapid testosterone signaling receptor: Implications in the regulation of dimorphic sexual and social behaviors

G‐protein‐coupled receptor‐based sensors for imaging neurochemicals with high sensitivity and specificity

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