Determining the heritability of ethanol-induced locomotor sensitization in mice using short-term behavioral selection

RATIONALE: Sensitization to the locomotor stimulant effects of alcohol (ethanol) is thought to be a heritable risk factor for the development of alcoholism that reflects progressive increases in the positive motivational effects of this substance. However, very little is known about the degree to which genes influence this complex behavioral phenomenon. OBJECTIVES: The primary goal of this work was to determine the heritability of ethanol-induced locomotor sensitization in mice using short-term behavioral selection. METHODS: Genetically heterogeneous C57BL/6J (B6) × DBA/2J (D2) F2 mice were generated from B6D2F1 progenitors, phenotyped for the expression of locomotor sensitization, and bred for high (HLS) and low (LLS) expression of this behavior. Selective breeding was conducted in two independently generated replicate sets to increase the confidence of our heritability estimates and for future correlated trait analyses. RESULTS: Large and significant differences in locomotor sensitization between HLS and LLS lines were evident by the fourth generation. Twenty-two percent of the observed line difference(s) were attributable to genes (h² = .22). Interestingly, locomotor activity in the absence of ethanol was genetically correlated with ethanol sensitization; high activity was associated with high sensitization. CONCLUSIONS: That changes in ethanol sensitivity following repeated exposures are genetically regulated highlights the relevance of studies aimed at determining how genes regulate susceptibility to ethanol-induced behavioral and neural adaptations. As alcohol use and abuse disorders develop following many repeated alcohol exposures, these data emphasize the need for future studies determining the genetic basis by which changes in response to alcohol occur

Advocating to Diminish Postpartum Depression

One in eight women will experience postpartum depression symptoms. The most vulnerable are women of color and women of low social economic statuses.https://griffinshare.fontbonne.edu/fcs-posters-2020/1001/thumbnail.jp

Impulsivity in rodents with a genetic predisposition for excessive alcohol consumption is associated with a lack of a prospective strategy

Increasing evidence supports the hypothesis that impulsive decision-making is a heritable risk factor for an alcohol use disorder (AUD). Clearly identifying a link between impulsivity and AUD risk, however, is complicated by the fact that both AUDs and impulsivity are heterogeneous constructs. Understanding the link between the two requires identifying the underlying cognitive factors that lead to impulsive choices. Rodent models have established that a family history of excessive drinking can lead to the expression of a transgenerational impulsive phenotype, suggesting heritable alterations in the decision-making process. In the present study, we explored the cognitive processes underlying impulsive choice in a validated, selectively bred rodent model of excessive drinking-the alcohol-preferring ("P") rat. Impulsivity was measured via delay discounting (DD), and P rats exhibited an impulsive phenotype as compared to their outbred foundation strain-Wistar rats. Steeper discounting in P rats was associated with a lack of a prospective behavioral strategy, which was observed in Wistar rats and was directly related to DD. To further explore the underlying cognitive factors mediating these observations, a drift diffusion model of DD was constructed. These simulations supported the hypothesis that prospective memory of the delayed reward guided choice decisions, slowed discounting, and optimized the fit of the model to the experimental data. Collectively, these data suggest that a deficit in forming or maintaining a prospective behavioral plan is a critical intermediary to delaying reward, and by extension, may underlie the inability to delay reward in those with increased AUD risk

Alterations in the rate of binge ethanol consumption: implications for preclinical studies in mice

The rate at which alcohol (ethanol) is consumed has direct impact on its behavioral and subjective effects. For this reason, alterations in the pattern of ethanol consumption as a function of drinking history might be critical to the development and maintenance of alcoholism. Furthermore, because pharmacological interventions aimed at disrupting the motivation to consume ethanol are dependent on the brain/plasma concentrations present when an individual is most likely to engage in consumption of this substance, characterizing temporal drinking patterns might be useful to determine the timing of such treatments. The primary goal of the present study was to evaluate alterations in the timecourse of daily binge (drinking-in-the-dark; DID) ethanol consumption. We gave 14 daily 2 hour DID ethanol or water access sessions to male C57BL/6J (B6) mice using a state of the art volumetric drinking monitoring device. We then, primarily as a proof-of-principle, used the GABAB allosteric modulator GS39783 (GS) to determine how this compound influenced the timecourse of binge-like ethanol intake. The rate of ethanol consumption increased dramatically over sessions with the majority occurring in the first few minutes of the final session. Additionally, ethanol consumption occurring immediately following access was almost completely abolished in mice pre-treated with GS; an effect which was ethanol-specific only at this early time interval. These data characterize progressive alterations in the rate of ethanol intake using the DID model and suggest that careful consideration of prior ethanol history and timing of drug administration are warranted when interpreting results of pre-clinical drug administration studies

Relative fluid novelty differentially alters the time course of limited-access ethanol and water intake in selectively bred high-alcohol-preferring mice

BACKGROUND: The influence of previous alcohol (ethanol [EtOH])-drinking experience on increasing the rate and amount of future EtOH consumption might be a genetically regulated phenomenon critical to the development and maintenance of repeated excessive EtOH abuse. We have recently found evidence supporting this view, wherein inbred C57BL/6J (B6) mice develop progressive increases in the rate of binge EtOH consumption over repeated drinking-in-the-dark (DID) EtOH access sessions (i.e., "front loading"). The primary goal of this study was to evaluate identical parameters in high-alcohol-preferring (HAP) mice to determine whether similar temporal alterations in limited-access EtOH drinking develop in a population selected for high EtOH preference/intake under continuous (24-hour) access conditions. METHODS: Using specialized volumetric drinking devices, HAP mice received 14 daily 2-hour DID EtOH or water access sessions. A subset of these mice was then given 1 day access to the opposite assigned fluid on day 15. Home cage locomotor activity was recorded concomitantly on each day of these studies. The possibility of behavioral/metabolic tolerance was evaluated on day 16 using experimenter-administered EtOH. RESULTS: The amount of EtOH consumed within the first 15 minutes of access increased markedly over days. However, in contrast to previous observations in B6 mice, EtOH front loading was also observed on day 15 in mice that only had previous DID experience with water. Furthermore, a decrease in the amount of water consumed within the first 15 minutes of access compared to animals given repeated water access was observed on day 15 in mice with 14 previous days of EtOH access. CONCLUSIONS: These data further illustrate the complexity and importance of the temporal aspects of limited-access EtOH consumption and suggest that previous procedural/fluid experience in HAP mice selectively alters the time course of EtOH and water consumption

Memory impairment and alterations in prefrontal cortex gamma band activity following methamphetamine sensitization

RATIONALE: Repeated methamphetamine (MA) use leads to increases in the incentive motivational properties of the drug as well as cognitive impairments. These behavioral alterations persist for some time following abstinence, and neuroadaptations in the structure and function of the prefrontal cortex (PFC) are particularly important for their expression. However, there is a weak understanding of the changes in neural firing and oscillatory activity in the PFC evoked by repeated drug use, thus complicating the development of novel treatment strategies for addiction. OBJECTIVES: The purpose of the current study was to assess changes in cognitive and brain function following MA sensitization. METHODS: Sensitization was induced in rats, then temporal and recognition memory were assessed after 1 or 30 days of abstinence. Electrophysiological recordings from the medial PFC were also acquired from rats whereupon simultaneous measures of oscillatory and spiking activity were examined. RESULTS: Impaired temporal memory was observed after 1 and 30 days of abstinence. However, recognition memory was only impaired after 1 day of abstinence. An injection of MA profoundly decreased neuronal firing rate and the anesthesia-induced slow oscillation (SO) in both sensitized (SENS) and control (CTRL) rats. Strong correlations were observed between the SO and gamma band power, which was altered in SENS animals. A decrease in the number of neurons phase-locked to the gamma oscillation was also observed in SENS animals. CONCLUSIONS: The changes observed in PFC function may play an integral role in the expression of the altered behavioral phenotype evoked by MA sensitization

Mechanisms of Alcohol Withdrawal-Induced Hyperalgesia in Young Adults

Binge drinking is one of the most dangerous types of alcohol consumption; over 38% of young adults and 24% of adults 26 years of age and older report binge drinking. Motivation to binge drink may come from comorbidity with pain conditions. Considerable animal evidence shows a biphasic relationship between alcohol and pain with intoxication-induced hypoalgesia (decreased sensitivity to painful stimuli) followed by withdrawal-induced hyperalgesia (increased sensitivity to painful stimuli). The anti-reward model of addiction suggests rewarding aspects of intoxication (e.g., analgesia) drive initial consumption. As drinking continues, anti-reward withdrawal aspects (e.g., hyperalgesia) activate brain stress axes and motivate craving and consumption. Following withdrawal, the third phase is anticipation of alcohol. Animal models of alcohol withdrawal-induced muscle mechanical hyperalgesia suggest the hyperalgesia results from changes in peripheral nociceptors mediated by increased release of stress hormones. Consistent with these findings, our laboratory recently observed withdrawal-induced muscle mechanical hyperalgesia and increased circulating levels of epinephrine in young adult binge drinkers using a between-subjects design. The current study used a mixed between-within-subjects design to assess muscle mechanical sensitivity, cutaneous thermal sensitivity, and neurogenic inflammation, as well as a measure of central sensitization of pain — thermal temporal summation of second pain. Blood was collected to investigate moderation by epinephrine and pro-inflammatory IL-6. Individuals were prescreened for alcohol use and categorized as moderate and binge drinkers using National Institute on Alcohol Abuse and Alcoholism (NIAAA) binge drinking criteria. Participants made two visits: one during abstinence (no alcohol within previous 48 hours) and one during withdrawal (drinking within previous 48 hours). We found binge drinkers reported more alcohol use before the withdrawal state, greater hangover symptoms, and more alcohol use disorder symptoms. Importantly, we found that participants in the withdrawal state reported mechanical hyperalgesia in skeletal muscle, partially supporting previous results in animals and our laboratory. In parallel, we found participants in withdrawal reported reduced cutaneous thermal sensitivity on multiple measures. Pain sensitivity results were predominantly driven by effects in male participants. Participants in withdrawal also reported more dominance and less anxiety and negative affect but exhibited greater psychophysiological responses. Several hypotheses for future research are presented

Methamphetamine-induced deficits in social interaction are not observed following abstinence from single or repeated exposures

The purpose of the current study was to assess social interaction (SI) following acute and repeated methamphetamine (MA) administration. Rats were injected with 5.0 mg/kg of MA and SI was tested 30 minutes or 24 hours later. In another group of animals, MA sensitization was induced using 5.0 mg/kg of MA, and SI was assessed after one day or thirty days of abstinence. SI was reduced in rats injected with MA 30 minutes, but not 24 hours, prior to testing, compared with saline controls. Impaired SI was observed in combination with active avoidance of the conspecific animal. Repeated injections of MA progressively reduced locomotor activity and increased stereotypy, indicating that animals were sensitized. However, no differences in SI were observed 24 hours or 30 days following the induction of sensitization. The absence of detectable differences in SI following MA sensitization may be attributable to the relatively short regimen used to induce sensitization. However, the current series of experiments provides evidence that an acute injection of MA decreases SI and simultaneously increases avoidance behavior, which supports a link between psychostimulant use and impaired social functioning. These data suggest that the acute injection model may provide a useful model to explore the neural basis of impaired social functioning and antisocial behavior

Atypically diffuse functional connectivity between caudate nuclei and cerebral cortex in autism

BACKGROUND: Autism is a neurodevelopmental disorder affecting sociocommunicative behavior, but also sensorimotor skill learning, oculomotor control, and executive functioning. Some of these impairments may be related to abnormalities of the caudate nuclei, which have been reported for autism. METHODS: Our sample was comprised of 8 high-functioning males with autism and 8 handedness, sex, and age-matched controls. Subjects underwent functional MRI scanning during performance on simple visuomotor coordination tasks. Functional connectivity MRI (fcMRI) effects were identified as interregional blood oxygenation level dependent (BOLD) signal cross-correlation, using the caudate nuclei as seed volumes. RESULTS: In the control group, fcMRI effects were found in circuits with known participation of the caudate nuclei (associative, orbitofrontal, oculomotor, motor circuits). Although in the autism group fcMRI effects within these circuits were less pronounced or absent, autistic subjects showed diffusely increased connectivity mostly in pericentral regions, but also in brain areas outside expected anatomical circuits (such as visual cortex). CONCLUSION: These atypical connectivity patterns may be linked to developmental brain growth disturbances recently reported in autism and suggest inefficiently organized functional connectivity between caudate nuclei and cerebral cortex, potentially accounting for stereotypic behaviors and executive impairments