Dopamine Receptors Differentially Control Binge Alcohol Drinking-Mediated Synaptic Plasticity of the Core Nucleus Accumbens Direct and Indirect Pathways

Ji, Xincai; Saha, Sucharita; Kolpakova, Jenya; Guildford, Melissa J.; Tapper, Andrew R.; Martin, Gilles E.

doi:10.1523/jneurosci.3845-16.2017

Cited by 31 publications

(38 citation statements)

References 67 publications

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“…Neighbors et al concluded that time-speci c calendar events [29] and event-speci c drinking [30] were associated with increased levels of bingeing. However, neurobiological changes may occur with repetitive binge-drinking conditions [31,32], and may increase cravings [33]. Ghiţă et al reported a variability of the levels of alcohol craving in relation to the day of the week, and drinking during weekends in Spain (Friday, Saturday, or Sunday) was associated with greater craving levels in patients with alcohol use disorder [17].…”

Section: Associations Between Dependence Signs and Increased Drinkingmentioning

confidence: 99%

Examination of the daily drinking patterns and their relationships with alcohol dependence symptoms among adult users in Burkina Faso

Diendéré

Kabore

Hien

et al. 2020

Preprint

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Background: The alcohol consumption level is rising in Burkina Faso, which has the highest prevalence of heavy drinking in West Africa. This study used daily alcohol intake levels to explore drinking behaviors in regard to the days of the week and associations with dependence signs.Methods: We operated variables from the past 12-month drinkers reported by the 2013 Stepwise survey, which provided information on daily drinking and symptoms of alcohol dependence. We performed student tests, principal component analyses and logistic regression.Results: Data from 1,139 past 12-month drinkers was analyzed, and 15.9% (95%; CI: 13.8–18.1) of users had at least one sign of alcohol dependence. Both drinkers without and with dependence symptoms had a common behavior for higher intake on Thursday, Saturday and Sunday, while lower intake behavior was observed on Tuesday. Only drinkers with dependence signs had high intake behavior, especially on Monday and Friday. In multivariate analysis, alcohol dependence signs were associated with increased drinking only on Monday [adjusted odds ratio (aOR) =1.24, p=0.0001)] or Friday (aOR=1.15, p=0.003).Conclusion: For drinkers without any dependence sympoms, behaviors for higher intake were limited to Thursday, Saturday and Sunday in accordance with the “social events schedule” and the “weekly administrative time-off”, but those with dependence signs extended this kind of behavior to Monday or Friday, likely due to the increased and persistent craving triggered by the high intake the previous day.

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Section: Associations Between Dependence Signs and Increased Drinkingmentioning

confidence: 99%

Examination of the daily drinking patterns and their relationships with alcohol dependence symptoms among adult users in Burkina Faso

Diendéré

Kabore

Hien

et al. 2020

Preprint

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“…The NAc exhibits substantial synaptic alterations after voluntary drinking and passive alcohol vapor exposure. In NAc MSNs of naïve male mice, postsynaptic depolarization paired with low frequency presynaptic stimulation typically leads to long‐term depression (LTD) of excitatory transmission in D1 MSNs and long‐term potentiation (LTP) (Ji et al., ) or no change in excitatory transmission in D2 MSNs (Renteria et al., ). Voluntary binge drinking shifts this plasticity to LTP in D1 MSNs and prevents LTP induction in D2 MSNs (Ji et al., ).…”

Section: Sex Differences In Nacmentioning

confidence: 99%

“…In NAc MSNs of naïve male mice, postsynaptic depolarization paired with low frequency presynaptic stimulation typically leads to long‐term depression (LTD) of excitatory transmission in D1 MSNs and long‐term potentiation (LTP) (Ji et al., ) or no change in excitatory transmission in D2 MSNs (Renteria et al., ). Voluntary binge drinking shifts this plasticity to LTP in D1 MSNs and prevents LTP induction in D2 MSNs (Ji et al., ). In fact, even after the first drink of alcohol, enhancements in excitatory synaptic transmission in D1 cells are detected (Beckley et al., ).…”

Section: Sex Differences In Nacmentioning

confidence: 99%

“…As mentioned above, binge drinking and passive alcohol vapor exposure lead to potentiation of excitatory signaling in D1 MSNs and a dampening in D2 MSNs. Interestingly, vapor exposure appears to drive this plasticity specifically in the shell (Renteria et al., , ), while binge drinking can in both shell and core (Beckley et al., ; Ji et al., ). The study by Purohit and colleagues () is consistent with recordings done in core D2 MSNs after binge drinking and suggests that selective targeting of the NAc core (or D2 MSNs specifically) could be beneficial for humans afflicted with AUDs.…”

Section: Bidirectional Control By the Corementioning

confidence: 99%

“…Moreover, alterations in NAc circuit function are thought to underlie certain features of AUDs. Physiologic data demonstrate that alcohol exposure leads to a potentiation of excitatory transmission in D1 MSNs and weakened or unchanged excitatory transmission in D2 MSNs (Beckley et al., ; Ji et al., ; Renteria et al., , ). These data support a role for D1 MSNs in driving and D2 MSNs in inhibiting motivated behavior and suggest that synaptic modifications within NAc subcircuits might underlie escalated drinking behavior after alcohol exposure.…”

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confidence: 99%

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DREADD to the Core. Commentary on Purohit et al. (2018): Pharmacogenetic Manipulation of the Nucleus Accumbens Alters Binge‐Like Alcohol Drinking in Mice

Pomrenze

Giovanetti

2018

Alcoholism Clin & Exp Res

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A LCOHOL USE DISORDERS (AUDs) are a devastating class of addictive disorders that incur a tremendous societal and economic burden. AUDs cost an estimated annual $235 billion in the United States (Rehm et al., 2009) and are very common with a 12-month prevalence of 13.9% and lifetime prevalence of 29.1% (Grant et al., 2015). Current treatment options are limited to psychosocial intervention, 3 FDA-approved medications (disulfiram, acamprosate, and naltrexone), and a handful of other drugs approved for other indications, all with relatively small effect sizes. In addition, most of the knowledge we have on the neurobiology of alcohol drinking in animals comes from male subjects. There is a clear need for a deeper understanding of the neurobiological mechanisms underlying AUDs.The nucleus accumbens (NAc) is a key component of brain reward circuitry important for motivated behaviors related to AUDs and other addictive disorders. The NAc drives motivation with dopamine supplied by the ventral tegmental area and medium spiny neuron (MSN) populations expressing dopamine D1 (G s -coupled) or D2 (G i/o -coupled) receptors, among other neurological markers (e.g., dynorphin, enkephalin, substance P). Extensive work shows that these populations exert opposing actions, such that D1 MSNs drive while D2 MSNs suppress motivated behavior (Bock et al., 2013). Dopamine modulates physiologic responses of MSNs to glutamate released from many cortical and limbic regions. Thus, dopamine likely exerts its drive over motivation through enhancing D1 MSN responses to glutamate while dampening these responses in D2 MSNs (Surmeier et al., 2007). In line with a role in addiction, alcohol self-administration increases extracellular dopamine in the NAc (Weiss et al., 1993) and the reinforcing effects of alcohol are blocked by dopamine antagonists when delivered into the NAc, for example, Rassnick and colleagues (1992). Moreover, alterations in NAc circuit function are thought to underlie certain features of AUDs. Physiologic data demonstrate that alcohol exposure leads to a potentiation of excitatory transmission in D1 MSNs and weakened or unchanged excitatory transmission in D2 MSNs (Beckley et al., 2016;Ji et al., 2017;Renteria et al., 2017Renteria et al., , 2018. These data support a role for D1 MSNs in driving and D2 MSNs in inhibiting motivated behavior and suggest that synaptic modifications within NAc subcircuits might underlie escalated drinking behavior after alcohol exposure. Thus, the NAc plays an essential role in AUDs and may serve as a candidate brain region for therapeutic intervention.A recent study reported reduced binge drinking following inhibition of NAc neurons with genetic tools (Designer Receptors Exclusively Activated by Designer Drugs [DREADDs]) in male mice (Cassataro et al., 2014). These data are consistent with the physiologic results described above, which were collected from male NAc brain slices. Thus, DREADD inhibition of the male NAc most likely reduced alcohol consumption by attenuating enhanced D1 MSN drive ove...

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Optogenetic investigation of neural mechanisms for alcohol-use disorder

Juarez

Liu

Zhang

et al. 2019

Alcohol

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Dopamine Receptors Differentially Control Binge Alcohol Drinking-Mediated Synaptic Plasticity of the Core Nucleus Accumbens Direct and Indirect Pathways

Cited by 31 publications

References 67 publications

Examination of the daily drinking patterns and their relationships with alcohol dependence symptoms among adult users in Burkina Faso

Examination of the daily drinking patterns and their relationships with alcohol dependence symptoms among adult users in Burkina Faso

DREADD to the Core. Commentary on Purohit et al. (2018): Pharmacogenetic Manipulation of the Nucleus Accumbens Alters Binge‐Like Alcohol Drinking in Mice

Optogenetic investigation of neural mechanisms for alcohol-use disorder

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