John Freiling scite author profile

Chronic intermittent access to alcohol leads to the escalation of alcohol intake, similar to binge drinking in humans. Converging lines of evidence suggest that impairment of medial prefrontal cortex (mPFC) cognitive function and overactivation of the central nucleus of the amygdala (CeA) are key factors that lead to excessive drinking in dependence. However, the role of the mPFC and CeA in the escalation of alcohol intake in rats with a history of binge drinking without dependence is currently unknown. To address this issue, we examined FBJ murine osteosarcoma viral oncogene homolog (Fos) expression in the mPFC, CeA, hippocampus, and nucleus accumbens and evaluated working memory and anxiety-like behavior in rats given continuous (24 h/d for 7 d/wk) or intermittent (3 d/wk) access to alcohol (20% vol/vol) using a two-bottle choice paradigm. The results showed that abstinence from alcohol in rats with a history of escalation of alcohol intake specifically recruited GABA and corticotropin-releasing factor (CRF) neurons in the mPFC and produced working memory impairments associated with excessive alcohol drinking during acute (24-72 h) but not protracted (16 -68 d) abstinence. Moreover, abstinence from alcohol was associated with a functional disconnection of the mPFC and CeA but not mPFC and nucleus accumbens. These results show that recruitment of a subset of GABA and CRF neurons in the mPFC during withdrawal and disconnection of the PFC-CeA pathway may be critical for impaired executive control over motivated behavior, suggesting that dysregulation of mPFC interneurons may be an early index of neuroadaptation in alcohol dependence.A lcoholism is a chronic relapsing disorder associated with compulsive drinking, loss of control over intake, and emergence of a negative emotional state during abstinence from the drug (1). Although no known animal model of addiction fully emulates the condition in humans, some models are better suited for the investigation of specific elements of the addiction process in a clinically relevant manner. Recently, an animal model of alcohol binge drinking with good face and predictive validity for what may be considered a transition to alcoholism has been reintroduced (2, 3). Rats given extended (24 h/d) and intermittent (every other day) choice access to ethanol escalate their intake of alcohol over the course of 2-4 wk in a binge-like pattern (2-6), and alcohol drinking using this paradigm was reduced by two drugs approved by the US Food and Drug Administration for the treatment of alcoholism (i.e., naltrexone and acamprosate) (2). Moreover, escalation of alcohol drinking using this model is associated with decreased dopamine levels in the nucleus accumbens after 24 h of abstinence (7), decreased endocannabinoid signaling in the dorsolateral striatum (8), and activation of FBJ murine osteosarcoma viral oncogene homolog B (ΔFosB) in the nucleus accumbens core, dorsolateral striatum, and orbitofrontal cortex.Converging lines of evidence from human and animal studies suggest that impairm...

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VTA CRF neurons mediate the aversive effects of nicotine withdrawal and promote intake escalation

Grieder

et al. 2014

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SUMMARY Dopaminergic neurons in the ventral tegmental area (VTA) are well known for their role in mediating the positive reinforcing effects of drugs of abuse. Here, we identify in rodents and humans a population of VTA dopamine neurons co-expressing corticotropin releasing factor (CRF). We provide further evidence in rodents that chronic nicotine exposure upregulates CRF mRNA in dopaminergic neurons of the posterior VTA, activates local CRF1 receptors, and blocks nicotine-induced activation of transient GABAergic input to dopaminergic neurons. Local downregulation of CRF mRNA and specific pharmacological blockade of CRF1 receptors in the VTA reversed the effect of nicotine on GABAergic input to dopaminergic neurons, prevented the aversive effects of nicotine withdrawal, and limited the escalation of nicotine intake. These results link the brain reward and stress systems within the same brain region in signaling the negative motivational effects of nicotine withdrawal.

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John Freiling

Recruitment of medial prefrontal cortex neurons during alcohol withdrawal predicts cognitive impairment and excessive alcohol drinking

VTA CRF neurons mediate the aversive effects of nicotine withdrawal and promote intake escalation

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