Neuroimaging of opioid exposure: a review of preclinical animal models to inform addiction research.

Opioid use results in thousands of overdose deaths each year. To address this crisis, we need a better understanding of the neurobiological mechanisms that drive opioid abuse. The noninvasive imaging tools positron emission tomography (PET), functional magnetic resonance imaging (fMRI), and manganese-enhanced magnetic resonance imaging (MEMRI) can be used to identify how brain activity responds to acute opioid exposure and adapts to chronic drug treatment. These techniques can be performed in humans and animal models, and brain networks identified in animals closely map to the human brain. Animal models have the advantage of being able to systematically examine the independent effects of opioid exposure in a controlled environment accounting for the complex factors that drive opioid misuse in humans. This review synthesizes literature that utilized noninvasive neuroimaging tools (PET, fMRI, and MEMRI) measuring brain activity correlates in animals to understand the neurobiological consequences of exposure to abused opioids. A PubMed search in September 2023 identified 25 publications. These manuscripts were divided into 4 categories based on the route and duration of drug exposure (acute/chronic, active/passive administration). Within each category, the results were generally consistent across drug and imaging protocols. These papers cover a 20-year range and highlight the advancements in neuroimaging methodology during that time. These advances have enabled researchers to achieve greater resolution of brain regions altered by opioid exposure and to identify patterns of brain activation across regions (i.e., functional connectivity) and within subregions of structures. After describing the existing literature, we suggest areas where additional research is needed.

The role of nicotinic receptors in alcohol consumption.

The use of alcohol causes significant morbidity and mortality across the globe. Alcohol use disorder (AUD) is defined by the excessive use of this drug despite a negative impact on the individual's life. While there are currently medications available to treat AUD, they have limited efficacy and several side effects. As such, it is essential to continue to look for novel therapeutics. One target for novel therapeutics is nicotinic acetylcholine receptors (nAChRs). Here we systematically review the literature on the involvement of nAChRs in alcohol consumption. Data from both genetic and pharmacology studies provide evidence that nAChRs modulate alcohol intake. Interestingly, pharmacological modulation of all nAChR subtypes examined can decrease alcohol consumption. The reviewed literature demonstrates that nAChRs should continue to be investigated as novel therapeutics for AUD.

The effect of stress on opioid addiction-related behaviors: A review of preclinical literature.

Opioid misuse is a critical public health crisis in the United States that results in over 50,000 deaths per year and a substantial economic burden to society. Human epidemiological data suggest that exposure to stress is one of many risk factors for opioid misuse; however, opioid abusers tend to have multiple risk factors and use other drugs in addition to opioids. To identify causal mechanisms by which stress may increase risk, preclinical animal experiments provide a means to conduct experimental manipulations and maintain precise controls over environmental and drug exposures. The current review examines how stressful experiences alter opioid addiction-related behaviors in animal models, with a focus on how age of stress exposure affects drug outcomes. The findings summarized here suggest that neonatal or adult stress increase behaviors indicative of opioid intake and reward in rodent models, but that adolescent social stress may protect against later opioid addiction-related behaviors, which contradicts human epidemiological literature. We highlight three important areas to consider across this body of literature: the species and/or strain used, stressor type, and inclusion of both sexes. Finally, we suggest areas where additional research is warranted. (PsycInfo Database Record (c) 2023 APA, all rights reserved).

Adolescent Stress Reduces Adult Morphine-Induced Behavioral Sensitization in C57BL/6J Mice.

Deaths related to opioid use have skyrocketed in the United States, leading to a public health epidemic. Research has shown that both biological (genes) and environmental (stress) precursors are linked to opioid use. In particular, stress during adolescence-a critical period of frontal lobe development-influences the likelihood of abusing drugs. However, little is known about the biological mechanisms through which adolescent stress leads to long-term risk of opioid use, or whether genetic background moderates this response. Male and female C57BL/6J and BALB/cJ mice were exposed to chronic variable social stress (CVSS) or control conditions throughout adolescence and then tested for morphine locomotor sensitization or morphine consumption in adulthood. To examine possible mechanisms that underlie stress-induced changes in morphine behaviors, we assessed physiological changes in response to acute stress exposure and prefrontal cortex (PFC) miRNA gene expression. Adolescent stress did not influence morphine sensitization or consumption in BALB/cJ animals, and there was limited evidence of stress effects in female C57BL/6J mice. In contrast, male C57BL/6J mice exposed to adolescent CVSS had blunted morphine sensitization compared to control animals; no differences were observed in the acute locomotor response to morphine administration or morphine consumption. Physiologically, C57BL/6J mice exposed to CVSS had an attenuated corticosterone recovery following an acute stressor and downregulation of twelve miRNA in the PFC compared to control mice. The specificity of the effects for C57BL/6J vs. BALB/cJ mice provides evidence of a gene-environment interaction influencing opioid behaviors. However, this conclusion is dampened by limited locomotor sensitization observed in BALB/cJ mice. It remains possible that results may differ to other doses of morphine or other behavioral responses. Long-term differences in stress reactivity or miRNA expression in C57BL/6J mice suggests two possible biological mechanisms to evaluate in future research.

Transcriptome Analyses of Heart and Liver Reveal Novel Pathways for Regulating Songbird Migration.

Many birds undertake long biannual voyages during the night. During these times of the year birds drastically reduce their amount of sleep, yet curiously perform as well on tests of physical and cognitive performance than during non-migrating times of the year. This inherent physiological protection disappears when birds are forced to stay awake at other times of the year; thus these protective changes are only associated with the nocturnal migratory state. The goal of the current study was to identify the physiological mechanisms that confer protection against the consequences of sleep loss while simultaneously allowing for the increased physical performance required for migration. We performed RNA-seq analyses of heart and liver collected from birds at different times of day under different migratory states and analyzed these data using differential expression, pathway analysis and WGCNA. We identified changes in gene expression networks implicating multiple systems and pathways. These pathways regulate many aspects of metabolism, immune function, wound repair, and protection of multiple organ systems. Consequently, the circannual program controlling the appearance of the migratory phenotype involves the complex regulation of diverse gene networks associated with the physical demands of migration.

The influence of adolescent nicotine exposure on ethanol intake and brain gene expression.

Nicotine and alcohol are often co-abused. Adolescence is a vulnerable period for the initiation of both nicotine and alcohol use, which can lead to subsequent neurodevelopmental and behavioral alterations. It is possible that during this vulnerable period, use of one drug leads to neurobiological alterations that affect subsequent consumption of the other drug. The aim of the present study was to determine the effect of nicotine exposure during adolescence on ethanol intake, and the effect of these substances on brain gene expression. Forty-three adolescent female C57BL/6J mice were assigned to four groups. In the first phase of the experiment, adolescent mice (PND 36-41 days) were exposed to three bottles filled with water or nicotine (200 µg/ml) for 22 h a day and a single bottle of water 2 h a day for six days. In the second phase (PND 42-45 days), the 4-day Drinking-in-the-Dark paradigm consisting of access to 20% v/v ethanol or water for 2h or 4h (the last day) was overlaid during the time when the mice did not have nicotine available. Ethanol consumption (g/kg) and blood ethanol concentrations (BEC, mg %) were measured on the final day and whole brains including the cerebellum, were dissected for RNA sequencing. Differentially expressed genes (DEG) were detected with CuffDiff and gene networks were built using WGCNA. Prior nicotine exposure increased ethanol consumption and resulting BEC. Significant DEG and biological pathways found in the group exposed to both nicotine and ethanol included genes important in stress-related neuropeptide signaling, hypothalamic-pituitary-adrenal (HPA) axis activity, glutamate release, GABA signaling, and dopamine release. These results replicate our earlier findings that nicotine exposure during adolescence increases ethanol consumption and extends this work by examining gene expression differences which could mediate these behavioral effects.

Severity of Nicotine Addiction and Disruptions in Sleep Mediated by Early Awakenings.

INTRODUCTION: Sleep disruption is common among smokers, however, extant studies primarily explore differences between smokers and nonsmokers. The time to smokers' first cigarette of the day (TTFC) after waking, a strong indicator of addiction severity, is inversely associated with numerous health outcomes. The present study tests the hypotheses that, in a representative sample of daily smokers, the severity of nicotine addiction is associated with shorter habitual sleep duration and excessive daytime sleepiness. METHODS: We examined the associations between TTFC and sleep outcomes (sleep duration and daytime excessive sleepiness) and the mediating effects of specific sleep disruption pathways (delayed sleep onset, awakenings at night, and early awakening) using structural equation modeling. Analyses included cross-sectional data from 2015 current daily smokers aged 16-85 years who participated in the 2005-2006 and 2007-2008 National Health and Nutrition Examination Survey. RESULTS: Among daily smokers, earlier TTFC was associated with both shorter sleep duration and excessive daytime sleepiness (p values < .001, R 2 values = .15 and .29, respectively). Of sleep disruption pathways, only early awakening mediated the associations of TTFC with both outcomes (sleep duration: b = .02, 95% confidence interval [CI]: 0.006 to 0.042; daytime sleepiness: b = -.01, 95% CI: -0.03 to -0.004), even after controlling for variables confounded with smoking status and sleep outcomes. CONCLUSIONS: Findings suggest that early awakening may be the mechanism responsible for the association between nicotine addiction severity and poor sleep outcomes of shorter sleep duration and excessive daytime sleepiness. These data may inform cessation strategies, risk assessment, and future longitudinal studies on the relations between sleep and nicotine addiction. IMPLICATIONS: Smokers have impaired sleep quality and quantity as compared to nonsmokers; however, that severity of nicotine addiction is an important factor in sleep quality, not just smoking status. Higher levels of addiction lead to less sleep and more daytime sleepiness. The relation between addiction severity and sleep is mediated by waking too early in the morning, and not by difficulty falling asleep or waking during the night. These findings could play an important role in supplementing cessation efforts; sleep disruption may interact with other negative physiological and emotional symptoms related to nicotine withdrawal and could result in more cessation failure.

Melatonin administration alters nicotine preference consumption via signaling through high-affinity melatonin receptors.

RATIONALE: While it is known that tobacco use varies across the 24-h day, the time-of-day effects are poorly understood. Findings from several previous studies indicate a potential role for melatonin in these time-of-day effects; however, the specific underlying mechanisms have not been well characterized. Understanding of these mechanisms may lead to potential novel smoking cessation treatments. OBJECTIVE: The objective of this study is examine the role of melatonin and melatonin receptors in nicotine free-choice consumption METHODS: A two-bottle oral nicotine choice paradigm was utilized with melatonin supplementation in melatonin-deficient mice (C57BL/6J) or without melatonin supplementation in mice proficient at melatonin synthesis (C3H/Ibg) compared to melatonin-proficient mice lacking both or one of the high-affinity melatonin receptors (MT1 and MT2; double-null mutant DM, or MT1 or MT2). Preference for bitter and sweet tastants also was assessed in wild-type and MT1 and MT2 DM mice. Finally, home cage locomotor monitoring was performed to determine the effect of melatonin administration on activity patterns. RESULTS: Supplemental melatonin in drinking water significantly reduced free-choice nicotine consumption in C57BL/6J mice, which do not produce endogenous melatonin, while not altering activity patterns. Independently, genetic deletion of both MT1 and MT2 receptors in a melatonin-proficient mouse strain (C3H) resulted in significantly more nicotine consumption than controls. However, single genetic deletion of either the MT1 or MT2 receptor alone did not result in increased nicotine consumption. Deletion of MT1 and MT2 did not impact taste preference. CONCLUSIONS: This study demonstrates that nicotine consumption can be affected by exogenous or endogenous melatonin and requires at least one of the high-affinity melatonin receptors. The fact that expression of either the MT1 or MT2 melatonin receptor is sufficient to maintain lower nicotine consumption suggests functional overlap and potential mechanistic explanations.

Diurnal variation in nicotine sensitivity in mice: role of genetic background and melatonin.

Despite the evidence that there is a daily rhythm in smoking behavior and that the effects of drugs of abuse exhibit diurnal variations, very few studies have explored the extent to which sensitivity to the effects of nicotine vary over the course of the day. In the studies described in this report, the melatonin proficient mouse strain C3H/Ibg and the melatonin deficient mouse strains C57BL/6J and DBA/2J were assessed for diurnal variations in sensitivity to the effects of nicotine. Results indicated that there is significant variation in sensitivity to both activity and body temperature depressant effects of nicotine in the melatonin proficient C3H/Ibg strain with maximal sensitivity occurring during the latter third of the light period of the light cycle and minimal sensitivity taking place during the last third of the dark phase of the light cycle. The melatonin deficient strains did not exhibit diurnal differences in sensitivity to the effects of nicotine suggesting a potential role for melatonin in modulating the effects of nicotine. Experiments with knockout mice lacking both the Mtnr1a and Mtnr1b melatonin receptors confirmed that the reduced sensitivity observed during the dark phase is melatonin dependent. Diurnal variation in nicotinic receptor expression also was measured in cortex, hippocampus, hypothalamus and striatum using [(125)I]-α-bungarotoxin and [(125)I]-epibatidine. [(125)I]-α-bungarotoxin binding in hypothalamus of C3H mice exhibited a diurnal pattern with maximal binding observed in the latter third of the light portion of the light cycle. No other significant differences in binding were detected.

Recent advances in gene manipulation and nicotinic acetylcholine receptor biology.

Pharmacological and immunological methods have been valuable for both identifying some native nicotinic acetylcholine receptor (nAChR) subtypes that exist in vivo and determining the neurobiological and behavioral role of certain nAChR subtypes. However, these approaches suffer from shortage of subtype specific ligands and reliable immunological reagents. Consequently, genetic approaches have been developed to complement earlier approaches to identify native nAChR subtypes and to assess the contribution of nAChRs to brain function and behavior. In this review we describe how assembly partners, knock-in mice and targeted lentiviral re-expression of genes have been utilized to improve our understanding of nAChR neurobiology. In addition, we summarize emerging genetic tools in nAChR research.

The incentive salience of alcohol: translating the effects of genetic variant in CNR1.

CONTEXT: The gene that codes for cannabinoid receptor 1 (CNR1) represents an important target for investigations designed to elucidate individual differences in the etiology of alcohol dependence. OBJECTIVE: To achieve a better understanding of the role of the CNR1 gene in the etiology and treatment of alcohol dependence. DESIGN: The present investigation spans multiple levels of analysis, including receptor binding in postmortem brain tissue, neuroimaging, human laboratory models, and analyses of treatment outcome data. RESULTS: Findings indicate that the C allele of rs2023239 is associated with greater CB1 binding in the prefrontal cortex, greater alcohol cue-elicited brain activation in the midbrain and prefrontal cortex, greater subjective reward when consuming alcohol, and more positive outcomes after treatment with a medication that targets the mesocorticolimbic neurocircuitry. In addition, there were strong correlations between cue-elicited brain activation and alcohol consumption measures in individuals with the C allele. CONCLUSION: Individuals with the C allele may be more susceptible to changes in the mesocorticolimbic neurocircuitry that is involved in the attribution of incentive salience after repeated exposure to alcohol.

Variants in nicotinic receptors and risk for nicotine dependence.

OBJECTIVE: A recent study provisionally identified numerous genetic variants as risk factors for the transition from smoking to the development of nicotine dependence, including an amino acid change in the alpha5 nicotinic cholinergic receptor (CHRNA5). The purpose of this study was to replicate these findings in an independent data set and more thoroughly investigate the role of genetic variation in the cluster of physically linked nicotinic receptors, CHRNA5-CHRNA3-CHRNB4, and the risk of smoking. METHOD: Individuals from 219 European American families (N=2,284) were genotyped across this gene cluster to test the genetic association with smoking. The frequency of the amino acid variant (rs16969968) was studied in 995 individuals from diverse ethnic populations. In vitro studies were performed to directly test whether the amino acid variant in the CHRNA5 influences receptor function. RESULTS: A genetic variant marking an amino acid change showed association with the smoking phenotype (p=0.007). This variant is within a highly conserved region across nonhuman species, but its frequency varied across human populations (0% in African populations to 37% in European populations). Furthermore, functional studies demonstrated that the risk allele decreased response to a nicotine agonist. A second independent finding was seen at rs578776 (p=0.003), and the functional significance of this association remains unknown. CONCLUSIONS: This study confirms that at least two independent variants in this nicotinic receptor gene cluster contribute to the development of habitual smoking in some populations, and it underscores the importance of multiple genetic variants contributing to the development of common diseases in various populations.