Your search keyword '"Binge ethanol"' showing total 97 results

1. Adolescent binge ethanol impacts H3K9me3-occupancy at synaptic genes and the regulation of oligodendrocyte development.

Author

Brocato, Emily R., Easter, Rachel, Morgan, Alanna, Kakani, Meenakshi, Lee, Grace, and Wolstenholme, Jennifer T.

Subjects

GENETIC regulation, ETHANOL, TEENAGERS, BINGE drinking, WHITE matter (Nerve tissue), ADOLESCENCE, POTASSIUM channels, GENE expression

Abstract

Introduction: Binge drinking in adolescence can disrupt myelination and cause brain structural changes that persist into adulthood. Alcohol consumption at a younger age increases the susceptibility of these changes. Animal models to understand ethanol's actions on myelin and white matter show that adolescent binge ethanol can alter the developmental trajectory of oligodendrocytes, myelin structure, and myelin fiber density. Oligodendrocyte differentiation is epigenetically regulated by H3K9 trimethylation (H3K9me3). Prior studies have shown that adolescent binge ethanol dysregulates H3K9 methylation and decreases H3K9-related gene expression in the PFC. Methods: Here, we assessed ethanol-induced changes to H3K9me3 occupancy at genomic loci in the developing adolescent PFC. We further assessed ethanolinduced changes at the transcription level with qPCR time course approaches in oligodendrocyte-enriched cells to assess changes in oligodendrocyte progenitor and oligodendrocytes specifically. Results: Adolescent binge ethanol altered H3K9me3 regulation of synapticrelated genes and genes specific for glutamate and potassium channels in a sex-specific manner. In PFC tissue, we found an early change in gene expression in transcription factors associated with oligodendrocyte differentiation that may lead to the later significant decrease in myelin-related gene expression. This effect appeared stronger in males. Conclusion: Further exploration in oligodendrocyte cell enrichment time course and dose response studies could suggest lasting dysregulation of oligodendrocyte maturation at the transcriptional level. Overall, these studies suggest that binge ethanol may impede oligodendrocyte differentiation required for ongoing myelin development in the PFC by altering H3K9me3 occupancy at synaptic-related genes. We identify potential genes that may be contributing to adolescent binge ethanol-related myelin loss. [ABSTRACT FROM AUTHOR]

Published

2024

2. Adolescent binge ethanol impacts H3K9me3-occupancy at synaptic genes and the regulation of oligodendrocyte development

Author

Emily R. Brocato, Rachel Easter, Alanna Morgan, Meenakshi Kakani, Grace Lee, and Jennifer T. Wolstenholme

Subjects

adolescent, binge ethanol, histone methylation, H3K9me3, myelin, oligodendrocyte maturation, Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571

Abstract

IntroductionBinge drinking in adolescence can disrupt myelination and cause brain structural changes that persist into adulthood. Alcohol consumption at a younger age increases the susceptibility of these changes. Animal models to understand ethanol’s actions on myelin and white matter show that adolescent binge ethanol can alter the developmental trajectory of oligodendrocytes, myelin structure, and myelin fiber density. Oligodendrocyte differentiation is epigenetically regulated by H3K9 trimethylation (H3K9me3). Prior studies have shown that adolescent binge ethanol dysregulates H3K9 methylation and decreases H3K9-related gene expression in the PFC.MethodsHere, we assessed ethanol-induced changes to H3K9me3 occupancy at genomic loci in the developing adolescent PFC. We further assessed ethanol-induced changes at the transcription level with qPCR time course approaches in oligodendrocyte-enriched cells to assess changes in oligodendrocyte progenitor and oligodendrocytes specifically.ResultsAdolescent binge ethanol altered H3K9me3 regulation of synaptic-related genes and genes specific for glutamate and potassium channels in a sex-specific manner. In PFC tissue, we found an early change in gene expression in transcription factors associated with oligodendrocyte differentiation that may lead to the later significant decrease in myelin-related gene expression. This effect appeared stronger in males.ConclusionFurther exploration in oligodendrocyte cell enrichment time course and dose response studies could suggest lasting dysregulation of oligodendrocyte maturation at the transcriptional level. Overall, these studies suggest that binge ethanol may impede oligodendrocyte differentiation required for ongoing myelin development in the PFC by altering H3K9me3 occupancy at synaptic-related genes. We identify potential genes that may be contributing to adolescent binge ethanol-related myelin loss.

Published

2024

3. Areas of Convergence and Divergence in Adolescent Social Isolation and Binge Drinking: A Review.

Author

Lodha, Jyoti, Brocato, Emily, and Wolstenholme, Jennifer T.

Subjects

BINGE drinking, SOCIAL isolation, ALCOHOLISM, TEENAGERS, FRONTAL lobe, COLLECTIVE memory

Abstract

Adolescence is a critical developmental period characterized by enhanced social interactions, ongoing development of the frontal cortex and maturation of synaptic connections throughout the brain. Adolescents spend more time interacting with peers than any other age group and display heightened reward sensitivity, impulsivity and diminished inhibitory self-control, which contribute to increased risky behaviors, including the initiation and progression of alcohol use. Compared to adults, adolescents are less susceptible to the negative effects of ethanol, but are more susceptible to the negative effects of stress, particularly social stress. Juvenile exposure to social isolation or binge ethanol disrupts synaptic connections, dendritic spine morphology, and myelin remodeling in the frontal cortex. These structural effects may underlie the behavioral and cognitive deficits seen later in life, including social and memory deficits, increased anxiety-like behavior and risk for alcohol use disorders (AUD). Although the alcohol and social stress fields are actively investigating the mechanisms through which these effects occur, significant gaps in our understanding exist, particularly in the intersection of the two fields. This review will highlight the areas of convergence and divergence in the fields of adolescent social stress and ethanol exposure. We will focus on how ethanol exposure or social isolation stress can impact the development of the frontal cortex and lead to lasting behavioral changes in adulthood. We call attention to the need for more mechanistic studies and the inclusion of the evaluation of sex differences in these molecular, structural, and behavioral responses. [ABSTRACT FROM AUTHOR]

Published

2022

4. Areas of Convergence and Divergence in Adolescent Social Isolation and Binge Drinking: A Review

Author

Jyoti Lodha, Emily Brocato, and Jennifer T. Wolstenholme

Subjects

adolescent, social isolation stress, binge ethanol, dendritic spine, myelin, cognitive behavior, Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571

Abstract

Adolescence is a critical developmental period characterized by enhanced social interactions, ongoing development of the frontal cortex and maturation of synaptic connections throughout the brain. Adolescents spend more time interacting with peers than any other age group and display heightened reward sensitivity, impulsivity and diminished inhibitory self-control, which contribute to increased risky behaviors, including the initiation and progression of alcohol use. Compared to adults, adolescents are less susceptible to the negative effects of ethanol, but are more susceptible to the negative effects of stress, particularly social stress. Juvenile exposure to social isolation or binge ethanol disrupts synaptic connections, dendritic spine morphology, and myelin remodeling in the frontal cortex. These structural effects may underlie the behavioral and cognitive deficits seen later in life, including social and memory deficits, increased anxiety-like behavior and risk for alcohol use disorders (AUD). Although the alcohol and social stress fields are actively investigating the mechanisms through which these effects occur, significant gaps in our understanding exist, particularly in the intersection of the two fields. This review will highlight the areas of convergence and divergence in the fields of adolescent social stress and ethanol exposure. We will focus on how ethanol exposure or social isolation stress can impact the development of the frontal cortex and lead to lasting behavioral changes in adulthood. We call attention to the need for more mechanistic studies and the inclusion of the evaluation of sex differences in these molecular, structural, and behavioral responses.

Published

2022

5. Binge Ethanol Exposure in Mice Represses Expression of Genes Involved in Osteoblast Function and Induces Expression of Genes Involved in Osteoclast Differentiation Independently of Endogenous Catalase.

Author

Denys, Alexandra, Pedersen, Kim B, Watt, James, Norman, Allison R, Osborn, Michelle L, Chen, Jin-Ran, Maimone, Cole, Littleton, Shana, Vasiliou, Vasilis, and Ronis, Martin J J

Subjects

*CATALASE, *GENE expression, *CYTOSKELETAL proteins, *ETHANOL, *CANCELLOUS bone, *TRANSGENIC mice

Abstract

Excessive ethanol consumption is a risk factor for osteopenia. Since a previous study showed that transgenic female mice with overexpression of catalase are partially protected from ethanol-mediated trabecular bone loss, we investigated the role of endogenous catalase in skeletal ethanol toxicity comparing catalase knockout to wild-type mice. We hypothesized that catalase depletion would exacerbate ethanol effects. The mice were tested in a newly designed binge ethanol model, in which 12-week-old mice were exposed to 4 consecutive days of gavage with ethanol at 3, 3, 4, and 4.5 g ethanol/kg body weight. Binge ethanol decreased the concentration of serum osteocalcin, a marker of bone formation. The catalase genotype did not affect the osteocalcin levels. RNA sequencing of femoral shaft RNA from males was conducted. Ethanol exposure led to significant downregulation of genes expressed in cells of the osteoblastic lineage with a role in osteoblastic function and collagen synthesis, including the genes encoding major structural bone proteins. Binge ethanol further induced a smaller set of genes with a role in osteoclastic differentiation. Catalase depletion affected genes with expression in erythroblasts and erythrocytes. There was no clear interaction between binge ethanol and the catalase genotype. In an independent experiment, we confirmed that the binge ethanol effects on gene expression were reproducible and occurred throughout the skeleton in males. In conclusion, the binge ethanol exposure, independently of endogenous catalase, reduces expression of genes involved in osteoblastic function and induces expression of genes involved in osteoclast differentiation throughout the skeleton in males. [ABSTRACT FROM AUTHOR]

Published

2022

6. Conditioned social preference and reward value of activating oxytocin‐receptor‐expressing ventral tegmental area neurons following repeated daily binge ethanol intake.

Author

Peris, Joanna, Totten, Katye, Montgomery, Darrice, Lester, Hannah, Weatherington, Arnika, Piotrowski, Brian, Sowell, Sam, Doyle, Kristen, Scott, Karen, Tan, Yalun, MacFadyen, Kaley A., Engle, Hannah, de Kloet, Annette D., and Krause, Eric G.

Subjects

*NEURONS, *ANIMAL experimentation, *CELL receptors, *BINGE drinking, *CELLULAR signal transduction, *TREATMENT effectiveness, *REWARD (Psychology), *INTERPERSONAL relations, *DESCRIPTIVE statistics, *ETHANOL, *ANXIETY, *BRAIN stem, *MICE

Abstract

Background: Individuals with alcohol use disorder (AUD) exhibit a disruption of social behavior and dysregulation of oxytocin signaling in the brain, possibly reflecting decreased activation of oxytocin receptors (OxTRs) in reward pathways in response to social stimuli. We hypothesize that daily binge ethanol intake causes a deficit in social reward and oxytocin signaling in the ventral tegmental area (VTA). Methods: After 9 weeks of daily binge ethanol intake (blood ethanol concentration >80 mg%), OxTR‐cre mice underwent conditioned place preference for social reward. Separate groups of mice were tested for the effects of binge ethanol on voluntary social interactions, food reward, locomotion, and anxiety‐like behaviors. A subset of mice underwent transfection of OxTR‐expressing VTA neurons (VTAOxtr) with a light‐sensitive opsin, followed by operant training to respond to light delivered to VTA. Results: Ethanol‐naïve male mice increased the time spent on the side previously paired with novel mice while ethanol‐treated mice did not. Binge ethanol did not affect conditioned place preference for food reward in males, but this response was weakened in ethanol‐treated females. Ethanol treatment also caused a sex‐specific impairment of voluntary social interactions with novel mice. There were minimal differences between groups in measures of anxiety and locomotion. Ethanol‐naïve mice had significantly greater operant responding for activation of VTAOxtr than sham‐transfected mice but ethanol‐treated mice did not. There was no difference in the number of VTAOxtr after binge ethanol. Conclusions: Daily binge ethanol causes social reward deficits that cannot be explained by nonspecific effects on other behaviors, at least in males. Only ethanol‐naïve mice exhibited positive reinforcement caused by activation of VTAOxtr while daily binge ethanol did not alter the number of VTAOxtr in either males or females. Thus, subtle dysregulation of VTAOxtr function may be related to the social reward deficits caused by daily binge ethanol. [ABSTRACT FROM AUTHOR]

Published

2022

7. Binge alcohol promotes hypoxic liver injury through a CYP2E1–HIF-1α-dependent apoptosis pathway in mice and humans

Author

Yun, Jun-Won, Son, Min-Jeong, Abdelmegeed, Mohamed A, Banerjee, Atrayee, Morgan, Timothy R, Yoo, Seong-Ho, and Song, Byoung-Joon

Subjects

Alcoholism, Alcohol Use and Health, Liver Disease, Chronic Liver Disease and Cirrhosis, Substance Misuse, Digestive Diseases, 2.1 Biological and endogenous factors, Aetiology, Oral and gastrointestinal, Good Health and Well Being, Adolescent, Adult, Aged, Animals, Apoptosis, Binge Drinking, Cell Hypoxia, Chemical and Drug Induced Liver Injury, Cytochrome P-450 CYP2E1, Ethanol, Female, Humans, Hypoxia-Inducible Factor 1, alpha Subunit, Liver, Male, Mice, 129 Strain, Middle Aged, Young Adult, Binge ethanol, Alcohol-metabolizing enzymes, CYP2E1, Hypoxia, Protein nitration, Human liver injury, Free radicals, Medicinal and Biomolecular Chemistry, Biochemistry and Cell Biology, Medical Biochemistry and Metabolomics, Biochemistry & Molecular Biology

Abstract

Binge drinking, a common pattern of alcohol ingestion, is known to potentiate liver injury caused by chronic alcohol abuse. This study was aimed at investigating the effects of acute binge alcohol on hypoxia-inducible factor-1α (HIF-1α)-mediated liver injury and the roles of alcohol-metabolizing enzymes in alcohol-induced hypoxia and hepatotoxicity. Mice and human specimens assigned to binge or nonbinge groups were analyzed for blood alcohol concentration (BAC), alcohol-metabolizing enzymes, HIF-1α-related protein nitration, and apoptosis. Binge alcohol promoted acute liver injury in mice with elevated levels of ethanol-inducible cytochrome P450 2E1 (CYP2E1) and hypoxia, both of which were colocalized in the centrilobular areas. We observed positive correlations among elevated BAC, CYP2E1, and HIF-1α in mice and humans exposed to binge alcohol. The CYP2E1 protein levels (r = 0.629, p = 0.001) and activity (r = 0.641, p = 0.001) showed a significantly positive correlation with BAC in human livers. HIF-1α levels were also positively correlated with BAC (r = 0.745, p < 0.001) or CYP2E1 activity (r = 0.792, p < 0.001) in humans. Binge alcohol promoted protein nitration and apoptosis with significant correlations observed between inducible nitric oxide synthase and BAC, CYP2E1, or HIF-1α in human specimens. Binge-alcohol-induced HIF-1α activation and subsequent protein nitration or apoptosis seen in wild type were significantly alleviated in the corresponding Cyp2e1-null mice, whereas pretreatment with an HIF-1α inhibitor, PX-478, prevented HIF-1α elevation with a trend of decreased levels of 3-nitrotyrosine and apoptosis, supporting the roles of CYP2E1 and HIF-1α in binge-alcohol-mediated protein nitration and hepatotoxicity. Thus binge alcohol promotes acute liver injury in mice and humans at least partly through a CYP2E1-HIF-1α-dependent apoptosis pathway.

Published

2014

8. Binge ethanol and MDMA combination exacerbates HSP27 and Trx-1 (biomarkers of toxic cardiac effects) expression in right ventricle.

Author

Navarro-Zaragoza, Javier, Ros-Simó, Clara, Milanés, María-Victoria, Valverde, Olga, and Laorden, María-Luisa

Subjects

*ANIMAL models in research, *ETHANOL, *OXIDATIVE stress, *THIOREDOXIN, *RIGHT heart ventricle, *PHOSPHORYLATION, *TYROSINE hydroxylase

Abstract

Abstract Aims Oxidative stress caused by exposure to drugs of abuse such as ethanol or 3, 4 methylenedioxymethamphetamine (MDMA) may derive from direct or indirect effects in many organs including the heart. The aim of the present work was to evaluate cardiac sympathetic activity and the expression and activation of two antioxidant proteins: heat shock protein27 (HSP27) and thioredoxin-1 (Trx-1) after voluntary binge ethanol consumption, alone and in combination with MDMA. Material and methods Adolescent mice received MDMA, ethanol or both. Drinking in the dark (DID) procedure was used as a model of binge. HSP27 expression and phosphorylation at serine 82 (pHSP27), Trx-1 expression, tyrosine hydroxylase (TH) and TH phosphorylated at serine 31 (pTH) were evaluated in adolescent mice 48 h and 7 days after treatments in the right ventricle. TH, HSP27 expression and phosphorylation and Trx-1 expression were measured by quantitative blot immunolabeling using specific antibodies. Key findings The expression of HSP27, pHSP27, Trx-1, total TH and pTH in the right ventricle was increased after binge ethanol or MDMA alone. In addition, the combination of binge ethanol + MDMA enhanced TH expression and phosphorylation versus their individual administration. Significance These results indicate that this combination could produce higher activation of sympathetic pathways, which could trigger an increased cell stress. On the other hand, increased HSP27, pHSP27 and Trx-1 expression in the right ventricle by ethanol + MDMA could be a protective mechanism to reduce the adverse effects of oxidative stress caused by both drugs of abuse. [ABSTRACT FROM AUTHOR]

Published

2019

9. Binge ethanol consumption-associated behavioral impairments in male mice using a gelatin-based drinking-in-the dark model

Author

Joanna Peris, Sara Wu, Jay P. McLaughlin, Aziza Abrorkhujaeva, Sam Sowell, Shainnel O. Eans, Jasmin Tawfic, Stanley M. Stevens, Bin Liu, and Meera Rath

Subjects

Male, Health (social science), Alcohol Drinking, Binge drinking, Male mice, Physiology, Alcohol, Toxicology, Biochemistry, Open field, Binge Drinking, Mice, 03 medical and health sciences, Behavioral Neuroscience, chemistry.chemical_compound, 0302 clinical medicine, Binge ethanol, Animals, Medicine, Ethanol, business.industry, General Medicine, 030227 psychiatry, Mice, Inbred C57BL, Drinking in the dark, Neurology, chemistry, Gelatin, Anxiety, medicine.symptom, business, 030217 neurology & neurosurgery

Abstract

Background Acute intoxication caused by binge ethanol drinking is linked to widespread impairments in brain functions. Various alcohol administration paradigms have been used in animals to model the heterogeneous clinical manifestation of intoxication in people. It is challenging to model a procedure that produces “visible intoxication” in rodents; however, manipulation of variables such as route of alcohol administration, time of availability, frequency, and duration and amount of ethanol exposure has achieved some success. In the current study, we employed a modified drinking-in-the-dark model to assess the validity of this model in producing “post-ethanol consumption intoxication” impairments following prolonged repeated daily voluntary “binge” ethanol consumption. Methods Adult male C57BL/6J mice were allowed a daily 3-h access to non-alcoholic plain or ethanol-containing gel during the dark cycle for a total of 83 days. After the initial 2-month daily DID, ethanol intake patterns were intensely characterized during the next 3 weeks. Immediately following the last DID session (day 83), plain and ethanol gel-consuming mice were then subjected to behavioral tests of locomotor ability and/or anxiety (cylinder, wire grip, open field) followed by blood ethanol concentration measurement. Result Mice exhibited a relatively consistent ethanol consumption pattern during and across daily access periods. Ethanol intake of individual mice positively correlated with blood ethanol concentration that averaged 61.64 ± 2.84 mg/dL (n = 12). Compared to the plain gel-consuming control mice, ethanol gel mice exhibited significant locomotor impairment as well as anxiety-like behavior, with the magnitude of impairments of key indices well correlated with blood ethanol levels. Conclusion The gelatin vehicle-based voluntary ethanol drinking-in-the-dark model reliably produced post consumption acute movement impairments as well as anxiety-like behaviors even after 2 months of daily binge ethanol consumption in male mice. Taken together, this mouse binge ethanol model should facilitate the investigation of mechanisms of binge drinking in subjects chronically abusing ethanol and the search for effective novel treatment strategies.

Published

2021

10. Effects of ethanol and varenicline on female Sprague-Dawley rats in a third trimester model of fetal alcohol syndrome.

Author

Montgomery, Karienn S., Bancroft, Eric A., Fincher, Annette S., Migut, Ewelina A., Provasek, Vincent, Murchison, David, and DuBois, Dustin W.

Subjects

*FETAL alcohol syndrome, *VARENICLINE, *NEURAL transmission, *PROSENCEPHALON, *NEUROPHYSIOLOGIC monitoring, *THERAPEUTICS

Abstract

Perinatal ethanol exposure disrupts a variety of developmental processes in neurons important for establishing a healthy brain. These ethanol-induced impairments known as fetal alcohol spectrum disorder (FASD) are not fully understood, and currently, there is no effective treatment. Further, growing evidence suggests that adult females are more susceptible to ethanol, with the effects of perinatal ethanol exposure also being sexually divergent. Female models have been historically underutilized in neurophysiological investigations, but here, we used a third-trimester binge-ethanol model of FASD to examine changes to basal forebrain (BF) physiology and behavior in female Sprague-Dawley rats. We also tested varenicline as a potential cholinomimetic therapeutic. Rat pups were gavage-treated with binge-like ethanol, varenicline and ethanol, and varenicline alone. Using patch-clamp electrophysiology in BF slices, we observed that binge-ethanol exposure increased spontaneous post-synaptic current (sPSC) frequency. Varenicline exposure alone also enhanced sPSC frequency. Varenicline plus ethanol co-treatment prevented the sPSC frequency increase. Changes in BF synaptic transmission persisted into adolescence after binge-ethanol treatment. Behaviorally, binge-ethanol treated females displayed increased anxiety (thigmotaxis) and demonstrated learning deficits in the water maze. Varenicline/ethanol co-treatment was effective at reducing these behavioral deficits. In the open field, ethanol-treated rats displayed longer distances traveled and spent less time in the center of the open field box. Co-treated rats displayed less anxiety, demonstrating a possible effect of varenicline on this measure. In conclusion, ethanol-induced changes in both BF synaptic transmission and behavior were reduced by varenicline in female rats, supporting a role for cholinergic therapeutics in FASD treatment. [ABSTRACT FROM AUTHOR]

Published

2018

11. Binge alcohol alters PNPLA3 levels in liver through epigenetic mechanism involving histone H3 acetylation.

Author

Restrepo, Ricardo J., Lim, Robert W., Korthuis, Ronald J., and Shukla, Shivendra D.

Subjects

*ALCOHOLISM, *EPIGENETICS, *BINGE drinking

Abstract

The human PNPLA3 (patatin-like phospholipase domain-containing 3) gene codes for a protein which is highly expressed in adipose tissue and liver, and is implicated in lipid homeostasis. While PNPLA3 protein contains regions homologous to functional lipolytic proteins, the regulation of its tissue expression is reflective of lipogenic genes. A naturally occurring genetic variant of PNPLA3 in humans has been linked to increased susceptibility to alcoholic liver disease. We have examined the modulatory effect of alcohol on PNPLA3 protein and mRNA expression as well as the association of its gene promoter with acetylated histone H3K9 by chromatin immunoprecipitation (ChIP) assay in rat hepatocytes in vitro, and in vivo in mouse and rat models of acute binge, chronic, and chronic followed by acute binge ethanol administration. Protein expression of PNPLA3 was significantly increased by alcohol in all three models used. PNPLA3 mRNA also increased, albeit to a varying degree. ChIP assay using H3AcK9 antibody showed increased association with the promoter of PNPLA3 in hepatocytes and in mouse liver. This was less evident in rat livers in vivo except under chronic treatment. It is concluded for the first time that histone acetylation plays a role in the modulation of PNPLA3 levels in the liver exposed to binge ethanol both in vitro and in vivo. [ABSTRACT FROM AUTHOR]

Published

2017

12. Effect of Acute Ethanol Administration on the Hippocampal Region Neural Activity Using a Microelectrode Array.

Author

Zhang, Yameng, Yu, Hejuan, Li, Weitao, Yang, Yamin, Wang, Xiao, and Qian, Zhiyu

Subjects

*ANIMAL experimentation, *ELECTRODES, *ELECTROPHYSIOLOGY, *ETHANOL, *HIPPOCAMPUS (Brain), *MICE, *NEURONS, *NEUROTRANSMITTERS, *PROBABILITY theory, *RESEARCH funding, *T-test (Statistics), *TIME series analysis, *PRE-tests & post-tests, *DATA analysis software, *DESCRIPTIVE statistics, *ONE-way analysis of variance, *IN vivo studies

Abstract

Background Because acute ethanol (EtOH) administration is known to influence cognitive processes by impairing hippocampal function, electrophysiological responses of the hippocampus following EtOH exposure warrant investigation. To mimic in vivo conditions, we recorded and analyzed critical firing characteristics of the neuronal population dynamically, particularly in the hippocampal region, before and after acute EtOH administration. Methods Microelectrodes were inserted in the hippocampus CA1 region of 21 Institute of Cancer Research mice. The mice were divided into 3 groups, including an EtOH injection group (1.5 g/kg), a saline injection group (1.5 g/kg), and a negative control group that received no injection. A data acquisition system was employed to detect the local field potentials ( LFPs) and spike potentials following acute EtOH administration. Various multichannel electrophysiological signals were collected in vivo in each group at 60 minutes, from which the firing rate and wavelet entropy ( WE) were analyzed further. Results Firing rates began to decline at 20 minutes postinjection and then gradually recovered from 40 to 60 minutes. In contrast, 20 minutes post-injection, WE increased maximally and then returned to normal from 40 to 60 minutes ( p < 0.05). Pronounced changes in the relative energy of theta and alpha oscillations were also observed after 20 minutes of alcohol exposure and recovery occurred by 60 minutes ( p < 0.05). Conclusions A major mechanism of EtOH's action on the hippocampus is neurotransmitter blocking in the form of excitatory neuron inhibition in vivo. Changes in hippocampal spikes coincided with changes in LFPs during the entire time course of acute EtOH administration. The correlation between spikes and LFPs suggests that they jointly affect encoding in hippocampus. [ABSTRACT FROM AUTHOR]

Published

2016

13. Binge ethanol exposure increases the Krüppel-like factor 11-monoamine oxidase (MAO) pathway in rats: Examining the use of MAO inhibitors to prevent ethanol-induced brain injury.

Author

Duncan, Jeremy W., Zhang, Xiao, Wang, Niping, Johnson, Shakevia, Harris, Sharonda, Udemgba, Chinelo, Ou, Xiao-Ming, Youdim, Moussa B., Stockmeier, Craig A., and Wang, Jun Ming

Subjects

*ETHANOL, *MONOAMINE oxidase, *BRAIN injuries, *OXIDATIVE stress, *RAT diseases

Abstract

Binge drinking induces several neurotoxic consequences including oxidative stress and neurodegeneration. Because of these effects, drugs which prevent ethanol-induced damage to the brain may be clinically beneficial. In this study, we investigated the ethanol-mediated KLF11-MAO cell death cascade in the frontal cortex of Sprague–Dawley rats exposed to a modified Majchowicz 4-day binge ethanol model and control rats. Moreover, MAO inhibitors (MAOIs) were investigated for neuroprotective activity against binge ethanol. Binge ethanol-treated rats demonstrated a significant increase in KLF11, both MAO isoforms, protein oxidation and caspase-3, as well as a reduction in BDNF expression in the frontal cortex compared to control rats. MAOIs prevented these binge ethanol-induced changes, suggesting a neuroprotective benefit. Neither binge ethanol nor MAOI treatment significantly affected protein expression levels of the oxidative stress enzymes, SOD2 or catalase. Furthermore, ethanol-induced antinociception was enhanced following exposure to the 4-day ethanol binge. These results demonstrate that the KLF11-MAO pathway is activated by binge ethanol exposure and MAOIs are neuroprotective by preventing the binge ethanol-induced changes associated with this cell death cascade. This study supports KLF11-MAO as a mechanism of ethanol-induced neurotoxicity and cell death that could be targeted with MAOI drug therapy to alleviate alcohol-related brain injury. Further examination of MAOIs to reduce alcohol use disorder-related brain injury could provide pivotal insight to future pharmacotherapeutic opportunities. [ABSTRACT FROM AUTHOR]

Published

2016

14. Binge ethanol withdrawal: Effects on post-withdrawal ethanol intake, glutamate–glutamine cycle and monoamine tissue content in P rat model.

Author

Das, Sujan C., Althobaiti, Yusuf S., Alshehri, Fahad S., and Sari, Youssef

Subjects

*GLUTAMATE receptors, *ETHANOL, *PHYSIOLOGICAL effects of glutamine, *MONOAMINE oxidase, *LABORATORY rats

Abstract

Alcohol withdrawal syndrome (AWS) is a medical emergency situation which appears after abrupt cessation of ethanol intake. Decreased GABA-A function and increased glutamate function are known to exist in the AWS. However, the involvement of glutamate transporters in the context of AWS requires further investigation. In this study, we used a model of ethanol withdrawal involving abrupt cessation of binge ethanol administration (4 g/kg/gavage three times a day for three days) using male alcohol-preferring (P) rats. After 48 h of withdrawal, P rats were re-exposed to voluntary ethanol intake. The amount of ethanol consumed was measured during post-withdrawal phase. In addition, the expression of GLT-1, GLAST and xCT were determined in both medial prefrontal cortex (mPFC) and nucleus accumbens (NAc). We also measured glutamine synthetase (GS) activity, and the tissue content of glutamate, glutamine, dopamine and serotonin in both mPFC and NAc. We found that binge ethanol withdrawal escalated post-withdrawal ethanol intake, which was associated with downregulation of GLT-1 expression in both mPFC and NAc. The expression of GLAST and xCT were unchanged in the ethanol-withdrawal (EW) group compared to control group. Tissue content of glutamate was significantly lower in both mPFC and NAc, whereas tissue content of glutamine was higher in mPFC but unchanged in NAc in the EW group compared to control group. The GS activity was unchanged in both mPFC and NAc. The tissue content of DA was significantly lower in both mPFC and NAc, whereas tissue content of serotonin was unchanged in both mPFC and NAc. These findings provide important information of the critical role of GLT-1 in context of AWS. [ABSTRACT FROM AUTHOR]

Published

2016

15. The combination of swimming and curcumin consumption may improve spatial memory recovery after binge ethanol drinking

Author

Mohammad-Reza Zarrindast, Foad Feizolahi, Mohammad Nasehi, Mohammad Ali Azarbayjani, and Maghsoud Peeri

Subjects

Male, Curcumin, Physical activity, Morris water navigation task, Experimental and Cognitive Psychology, Escape latency, Pharmacology, Binge Drinking, 03 medical and health sciences, Behavioral Neuroscience, chemistry.chemical_compound, 0302 clinical medicine, Binge ethanol, Animals, Medicine, 0501 psychology and cognitive sciences, 050102 behavioral science & comparative psychology, Rats, Wistar, Maze Learning, Biological sciences, Swimming, Spatial Memory, Memory recovery, business.industry, Brain-Derived Neurotrophic Factor, Anti-Inflammatory Agents, Non-Steroidal, 05 social sciences, Recovery of Function, Combined Modality Therapy, Exercise Therapy, Rats, Important research, chemistry, business, 030217 neurology & neurosurgery

Abstract

Helping the return of people with social disorders, including ethanol consumption, are important research topics in the field of biological sciences, and there are many uncertainties about the efficacy of drug interventions and exercise training. The aim of this study was to investigate the effects short-term combination of curcumin and swimming on the improvement of spatial memory. Male Wistar rats (200-250 g) were randomly assigned into ethanol or dextrose groups. After 4 days of gavage, and withdrawn of consumption, they were affected by swimming intervention or curcumin supplementation within 2 weeks. Spatial memory was assessed in Morris Water Maze (MWM) apparatus by a single training session of eight trials. Furthermore, levels of BDNF were measured in hippocampal tissue by doing real time PCR. The results showed that binge ethanol drinking had no significant effect on the traveled distance [F(1,14) = 0.024; P .05] and escape latency [F(1,14) = 0.648; P .05] of reaching the platform. In the probe test, both the percentage of swimming time [t(14) = -4.621; P .001] and distance [t(14) = -4.989; P .001] in the target quadrant was significantly lower in the ethanol group than the dextrose group. On the other hand in reviewing the effect of curcumin and swimming exercise on learning and spatial memory, The percentage of swimming time was significantly higher in the swim+curcumin [P .01], training [P .05] and curcumin [P .05] subgroups then the control subgroup. The percentage of distance traveled in the swim+curcumin subgroup [P .001] and curcumin subgroup [P .05] was significantly higher than the control subgroup. In addition, in the group of binge ethanol drinking, the percentage of swimming time and distance traveled in the target quadrant in the swim+curcumin subgroup was significantly higher than the control subgroup [P .001]. There was a positive correlation between BDNF gene expression and the percentage of swimming time [P .01] and the distance traveled in the target quadrant [P .001] was observed. In conclusion, Binge ethanol drinking causes spatial memory deficiency by reduction of BDNF, and the combination of curcumin and swimming training improves impaired spatial memory after binge ethanol drinking.

Published

2019

16. Persistent Interneuronopathy in the Prefrontal Cortex of Young Adult Offspring Exposed to Ethanol In Utero.

Author

Skorput, Alexander G. J., Gupta, Vivek P., Yeh, Pamela W. L., and Yeh, Hermes H.

Subjects

*INTERNEURONS, *PREFRONTAL cortex, *ETHANOL, *GABA agents, *FLUORESCENT dyes, *CELL migration

Abstract

Gestational exposure to ethanol has been reported to alter the disposition of tangentially migrating GABAergic cortical interneurons, but much remains to be elucidated. Here we first established the migration of interneurons as a proximal target of ethanol by limiting ethanol exposure in utero to the gestational window when tangential migration is at its height. We then asked whether the aberrant tangential migration of GABAergic interneurons persisted as an enduring interneuronopathy in the medial prefrontal cortex (mPFC) later in the life of offspring prenatally exposed to ethanol. Time pregnant mice with Nkx2.1Cre/Ai14 embryos harboring tdTomato-fluorescent medial ganglionic eminence (MGE)-derived cortical GABAergic interneurons were subjected to a 3 day binge-type 5% w/w ethanol consumption regimen from embryonic day (E) 13.5-16.5, spanning the peak of corticopetal interneuron migration in the fetal brain. Our binge-type regimen increased the density of MGE-derived interneurons in the E16.5 mPFC. In young adult offspring exposed to ethanol in utero, this effect persisted as an increase in the number of mPFC layer V parvalbumin-immunopositive interneurons. Commensurately, patch-clamp recording in mPFC layer V pyramidal neurons uncovered enhanced GABA-mediated spontaneous and evoked synaptic transmission, shifting the inhibitory/excitatory balance toward favoring inhibition. Furthermore, young adult offspring exposed to the 3 day binge-type ethanol regimen exhibited impaired reversal learning in a modified Barnes maze, indicative of decreased PFC-dependent behavioral flexibility, and heightened locomotor activity in an open field arena. Our findings underscore that aberrant neuronal migration, inhibitory/excitatory imbalance, and thus interneuronopathy contribute to indelible abnormal cortical circuit form and function in fetal alcohol spectrum disorders. [ABSTRACT FROM AUTHOR]

Published

2015

17. Prenatal Alcohol Exposure as a Case of Involuntary Early Onset of Alcohol Use: Consequences and Proposed Mechanisms From Animal Studies

Author

Procesos psicológicos básicos y su desarrollo, Oinarrizko psikologia prozesuak eta haien garapena, Gaztañaga Echeverria, Mirari, Angulo Alcalde, Asier, Chotro Lerda, María Gabriela, Procesos psicológicos básicos y su desarrollo, Oinarrizko psikologia prozesuak eta haien garapena, Gaztañaga Echeverria, Mirari, Angulo Alcalde, Asier, and Chotro Lerda, María Gabriela

Abstract

Prenatal alcohol exposure has been found to be an important factor determining later consumption of this drug. In humans, despite the considerable diversity of variables that might influence alcohol consumption, longitudinal studies show that maternal alcohol intake during gestation is one of the best predictors of later alcohol use from adolescence to young adulthood. Experimental studies with animals also provide abundant evidence of the effects of prenatal alcohol exposure on later alcohol intake. In addition to increased consumption, other effects include enhanced palatability and attractiveness of alcohol flavor as well as sensitization to its sensory and reinforcing effects. Most of these outcomes have been obtained after exposing rats to binge-like administrations of moderate alcohol doses during the last gestational period when the fetus is already capable of detecting flavors in the amniotic fluid and learning associations with aversive or appetitive consequences. On this basis, it has been proposed that one of the mechanisms underlying the increased acceptance of alcohol after its prenatal exposure is the acquisition (by the fetus) of appetitive learning via an association between the sensory properties of alcohol and its reinforcing pharmacological effects. It also appears that this prenatal appetitive learning is mediated by the activation of the opioid system, with fetal brain acetaldehyde playing an important role, possibly as the main chemical responsible for its activation. Here, we review and analyze together the results of all animal studies testing these hypotheses through experimental manipulation of the behavioral and neurochemical elements of the assumed prenatal association. Understanding the mechanisms by which prenatal alcohol exposure favors the early initiation of alcohol consumption, along with its role in the causal pathway to alcohol disorders, may allow us to find strategies to mitigate the behavioral effects of this early experience w

Published

2020

18. Epigenetic histone modifications in a clinically relevant rat model of chronic ethanol-binge-mediated liver injury.

Author

Aroor, Annayya, Restrepo, Ricardo, Kharbanda, Kusum, and Shukla, Shivendra

Abstract

Purpose: Ethanol binge augments liver injury after chronic ethanol consumption in humans, but the mechanism behind the enhanced liver injury by ethanol binge is not known. In this study we used a clinically relevant rat model in which liver injury is amplified by binge after chronic ethanol treatment and investigated the importance of histone modifications. Methods: Eight-week-old Sprague-Dawley rats were fed ethanol in a liquid diet for 4 weeks. Control rats were fed an isocaloric liquid diet. This was followed by three binge administrations of ethanol (intragastric 5 g/kg body weight, 12 h apart). In the control, ethanol was replaced by water. Four hours after the last binge administration, liver samples were analyzed for histone modifications and parameters of liver injury. Results: Chronic ethanol administration alone caused an increase in histone H3 ser10 and ser28 (H3S10 or S28) phosphorylation, and binge ethanol reduced their levels. Levels of dually modified phosphoacetylated histone H3 (H3AcK9/PS10) increased after acute binge ethanol and remained same after chronic ethanol binge. In contrast, histone H3 lysine-9 acetylation (H3AcK9) was not increased after chronic ethanol but increased significantly after acute binge and chronic ethanol binge. Increase in histone acetylation was accompanied by increased phospho-ERK1/2 in the nuclear extracts. Increased acetylation after chronic ethanol binge was also accompanied by increased protein levels of GCN5 histone acetyl transferase and a modest increase in HDAC3 in the nucleus. Histone lysine-9 dimethylation was significantly increased after chronic ethanol binge. Chronic ethanol binge also resulted in a decrease in the SAM:SAH ratio with a relative decrease of SAM levels and a corresponding increase in SAH levels. Conclusions: Ethanol binge after chronic ethanol altered the profile of site-specific histone modifications and may underlie the mechanism of augmented liver injury by chronic-ethanol-binge-treated rats. [ABSTRACT FROM AUTHOR]

Published

2014

19. Protective effect of Nigella sativa oil against binge ethanol-induced oxidative stress and liver injury in rats.

Author

Develi, Seval, Evran, Betül, Betül Kalaz, Esra, Koçak-Toker, Necla, and Erata, Gül Özdemirler

Abstract

Nigella sativa L. (Ranunculaceae) is considered as a therapeutic plant-based medicine for liver damage. In this study, the aim was to study the effect of Nigella sativa oil (NSO) pretreatment on ethanol-induced hepatotoxicity in rats. Method Rats were given Nigella sativa oil at doses of 2.5 and 5.0 mL·kg−1, orally for 3 weeks, followed by oral ethanol (EtOH) administration (5 g·kg−1) every 12 h three times (binge model). Results Binge ethanol application caused significant increases in plasma transaminase activities and hepatic triglyceride and malondialdehyde (MDA) levels. It decreased hepatic glutathione (GSH) levels, but did not change vitamins E and vitamin C levels and antioxidant enzyme activities. NSO (5.0 mL·kg−1) pretreatment significantly decreased plasma transaminase activities, hepatic MDA, and triglyceride levels together with amelioration in hepatic histopathological findings. Conclusion NSO pretreatment may be effective in protecting oxidative stress-induced hepatotoxicity after ethanol administration [ABSTRACT FROM AUTHOR]

Published

2014

20. Administration of Memantine During Withdrawal Mitigates Overactivity and Spatial Learning Impairments Associated with Neonatal Alcohol Exposure in Rats.

Author

Idrus, Nirelia M., McGough, Nancy N. H., Riley, Edward P., and Thomas, Jennifer D.

Subjects

*FETAL alcohol syndrome, *ANALYSIS of variance, *ANIMAL behavior, *ANIMAL experimentation, *ETHANOL, *FISHER exact test, *HUMAN locomotion, *LEARNING disabilities, *RATS, *RESEARCH funding, *STATISTICS, *ALCOHOL withdrawal syndrome, *DATA analysis, *DATA analysis software, *DESCRIPTIVE statistics, *MEMANTINE, *DISEASE complications

Abstract

Background Prenatal alcohol exposure can disrupt central nervous system development, manifesting as behavioral deficits that include motor, emotional, and cognitive dysfunction. Both clinical and animal studies have reported binge drinking during development to be highly correlated with an increased risk of fetal alcohol spectrum disorders (FASD). We hypothesized that binge drinking may be especially damaging because it is associated with episodes of alcohol withdrawal. Specifically, we have been investigating the possibility that NMDA receptor-mediated excitotoxicity occurs during alcohol withdrawal and contributes to developmental alcohol-related neuropathology. Consistent with this hypothesis, administration of the NMDA receptor antagonists MK-801 or eliprodil during withdrawal attenuates behavioral alterations associated with early alcohol exposure. In this study, we investigated the effects of memantine, a clinically used NMDA receptor antagonist, on minimizing ethanol-induced overactivity and spatial learning deficits. Methods Sprague- Dawley pups were exposed to 6.0 g/kg ethanol via intubation on postnatal day ( PD) 6, a period of brain development that models late gestation in humans. Controls were intubated with a calorically matched maltose solution. During withdrawal, 24 and 36 hours after ethanol exposure, subjects were injected with a total of either 0, 20, or 30 mg/kg memantine. The subjects' locomotor levels were recorded in open field activity monitors on PDs 18 to 21 and on a serial spatial discrimination reversal learning task on PDs 40 to 43. Results Alcohol exposure induced overactivity and impaired performance in spatial learning. Memantine administration significantly attenuated the ethanol-associated behavioral alterations in a dose-dependent manner. Thus, memantine may be neuroprotective when administered during ethanol withdrawal. Conclusions These data have important implications for the treatment of Et OH's neurotoxic effects and provide further support that ethanol withdrawal significantly contributes to FASD. [ABSTRACT FROM AUTHOR]

Published

2014

21. Prenatal Alcohol Exposure as a Case of Involuntary Early Onset of Alcohol Use: Consequences and Proposed Mechanisms From Animal Studies

Author

Asier Angulo-Alcalde, Mirari Gaztañaga, and M. Gabriela Chotro

Subjects

prenatal, Cognitive Neuroscience, Alcohol, Review, sleep-wake behavior, fetal-ethanol, lcsh:RC321-571, reinforcer, 03 medical and health sciences, chemistry.chemical_compound, Behavioral Neuroscience, 0302 clinical medicine, Neurochemical, maternal consumption, binge ethanol, medicine, associative, spectrum disorders, Young adult, family-history, lcsh:Neurosciences. Biological psychiatry. Neuropsychiatry, Sensitization, 030304 developmental biology, 0303 health sciences, Fetus, learning, business.industry, alcohol, Acetaldehyde, opioids, pregnant rats, Neuropsychology and Physiological Psychology, medicine.anatomical_structure, chemistry, rat fetus, Gestation, Animal studies, gestational ethanol exposure, business, 030217 neurology & neurosurgery, endogenous opioid system, Clinical psychology, acetaldehyde

Abstract

Prenatal alcohol exposure has been found to be an important factor determining later consumption of this drug. In humans, despite the considerable diversity of variables that might influence alcohol consumption, longitudinal studies show that maternal alcohol intake during gestation is one of the best predictors of later alcohol use from adolescence to young adulthood. Experimental studies with animals also provide abundant evidence of the effects of prenatal alcohol exposure on later alcohol intake. In addition to increased consumption, other effects include enhanced palatability and attractiveness of alcohol flavor as well as sensitization to its sensory and reinforcing effects. Most of these outcomes have been obtained after exposing rats to binge-like administrations of moderate alcohol doses during the last gestational period when the fetus is already capable of detecting flavors in the amniotic fluid and learning associations with aversive or appetitive consequences. On this basis, it has been proposed that one of the mechanisms underlying the increased acceptance of alcohol after its prenatal exposure is the acquisition (by the fetus) of appetitive learning via an association between the sensory properties of alcohol and its reinforcing pharmacological effects. It also appears that this prenatal appetitive learning is mediated by the activation of the opioid system, with fetal brain acetaldehyde playing an important role, possibly as the main chemical responsible for its activation. Here, we review and analyze together the results of all animal studies testing these hypotheses through experimental manipulation of the behavioral and neurochemical elements of the assumed prenatal association. Understanding the mechanisms by which prenatal alcohol exposure favors the early initiation of alcohol consumption, along with its role in the causal pathway to alcohol disorders, may allow us to find strategies to mitigate the behavioral effects of this early experience with the drug. We propose that prenatal alcohol exposure is regarded as a case of involuntary early onset of alcohol use when designing prevention policies. This is particularly important, given the notion that the sooner alcohol intake begins, the greater the possibility of a continued history of alcohol consumption that may lead to the development of alcohol use disorders. The research has been funded by the Basque Government (IT1341-19) to the research group (PI: Gabriel Rodriguez San Juan).

Published

2020

22. Binge-ethanol exposure differentially influences senescence markers in the aged brain and BV-2 cells

Author

Paige Anton and Rebecca L. McCullough

Subjects

Senescence, Behavioral Neuroscience, medicine.medical_specialty, Health (social science), Endocrinology, Neurology, Internal medicine, medicine, Binge ethanol, General Medicine, Biology, Toxicology, Biochemistry

Published

2021

23. Binge Ethanol and Liver: New Molecular Developments.

Author

Shukla, Shivendra D., Pruett, Stephen B., Szabo, Gyongyi, and Arteel, Gavin E.

Subjects

*ALCOHOLIC liver diseases, *ALCOHOLISM, *CELLULAR signal transduction, *CYTOKINES, *ETHANOL, *FIBRIN, *HEPATOTOXICOLOGY, *INFECTION, *INFLAMMATION, *PROTEIN kinases, *RNA

Abstract

Binge consumption of alcohol is an alarming global health problem. Binge (acute) ethanol ( Et OH) is implicated in the pathophysiology of alcoholic liver disease ( ALD). New studies from experimental animals and from humans indicate that binge Et OH has profound effects on immunological, signaling, and epigenetic parameters of the liver. This is in addition to the known metabolic effects of acute Et OH. Binge Et OH alters the levels of several cellular components and dramatically amplifies liver injury in chronically Et OH exposed liver. These studies highlight the importance of molecular investigations into binge effects of Et OH for a better understanding of ALD and also to develop therapeutic strategies to control it. This review summarizes these recent developments. [ABSTRACT FROM AUTHOR]

Published

2013

24. Alcohol steatosis and cytotoxicity: The role of cytochrome P4502E1 and autophagy

Author

Wu, Defeng, Wang, Xiaodong, Zhou, Richard, Yang, Lili, and Cederbaum, Arthur I.

Subjects

*FATTY degeneration, *ALCOHOL, *CYTOCHROME P-450 CYP2E1, *AUTOPHAGY, *ALANINE aminotransferase, *TRIGLYCERIDES, *CELL-mediated cytotoxicity

Abstract

Abstract: The goal of the current study was to evaluate whether CYP2E1 plays a role in binge-ethanol induced steatosis and if autophagy impacts CYP2E1-mediated hepatotoxicity, oxidative stress and fatty liver formation produced by ethanol. Wild type (WT), CYP2E1 knockin (KI) and CYP2E1 knockout (KO) mice were gavaged with 3g/kg body wt ethanol twice a day for four days. This treatment caused fatty liver, elevation of CYP2E1 and oxidative stress in WT and KI mice but not KO mice. Autophagy was impaired in ethanol-treated KI mice compared to KO mice as reflected by a decline in the LC3-II/LC3-I ratio and lower total LC-3 and Beclin-1 levels coupled to increases in P62, pAKT/AKT and mTOR. Inhibition of macroautophagy by administration of 3-methyladenine enhanced the binge ethanol hepatotoxicity, steatosis and oxidant stress in CYP2E1 KI, but not CYP2E1 KO mice. Stimulation of autophagy by rapamycin blunted the elevated steatosis produced by binge ethanol. Treatment of HepG2 E47 cells which express CYP2E1 with 100mM ethanol for 8 days increased fat accumulation and oxidant stress but decreased autophagy. Ethanol had no effect on these reactions in HepG2 C34 cells which do not express CYP2E1. Inhibition of autophagy elevated ethanol toxicity, lipid accumulation and oxidant stress in the E47, but not C34 cells. The antioxidant N-acetylcysteine, and CYP2E1 inhibitor chlormethiazole blunted these effects of ethanol. These results indicate that CYP2E1 plays an important role in binge ethanol-induced fatty liver. We propose that CYP2E1-derived reactive oxygen species inhibit autophagy, which subsequently causes accumulation of lipid droplets. Inhibition of autophagy promotes binge ethanol induced hepatotoxicity, steatosis and oxidant stress via CYP2E1. [Copyright &y& Elsevier]

Published

2012

25. Effect of binge ethanol treatment on prooxidant–antioxidant balance in rat heart tissue

Author

Kalaz, Esra Betül, Evran, Betül, Develi, Seval, Erata, Gül Özdemirler, Uysal, Müjdat, and Koçak-Toker, Necla

Subjects

*ETHANOL, *ANTIOXIDANTS, *HEART diseases, *THERAPEUTICS, *LABORATORY rats, *SPRAGUE Dawley rats, *PHOSPHOKINASES

Abstract

Abstract: Binge drinking of alcohol is known to cause cardiac dysfunction in some drinkers. This study was designed to examine the effect of ethanol on rat heart tissue with an experimental model mimicking human binge drinking. Female Sprague-Dawley rats were given ethanol diluted with normal saline (40%, v:v) by gavage at the dose of 5.0g/kg every 12h for 3 doses as total. Serum activities of lactate dehydrogenase (LDH), creatine phosphokinase (CK) and aspartate transaminase (AST) were determined. Endogenous lipid peroxidation was assessed by measuring the levels of malondialdehyde (MDA) in heart homogenates. In vitro susceptibility of tissues to oxidative stress was assessed by using two different media. Tissue glutathione (GSH) and superoxide dismutase (SOD), glutathione peroxidase (GSH-Px) and glutathione transferase (GST) activities were determined. All serum enzymatic activities were found markedly elevated in ethanol group. Binge ethanol administration significantly enhanced endogenous lipid peroxidation and caused an enhanced in vitro susceptibility to lipid peroxidation. Levels of reduced GSH and GSH-Px and GST activities were found unchanged as compared to controls. SOD activity was found significantly increased. As a conclusion, binge ethanol consumption which was applied to rats to investigate acute tissue injury, appeared to confirm the generation of oxidative stress in rat hearts. [Copyright &y& Elsevier]

Published

2012

26. A proteomic analysis of liver after ethanol binge in chronically ethanol treated rats.

Author

Aroor, Annayya R., Roy, Lowery J., Restrepo, Ricardo J., Mooney, Brian P., and Shukla, Shivendra D.

Subjects

*ETHANOL, *NECROSIS, *RATS, *FATTY degeneration, *LIVER diseases

Abstract

Background: Binge ethanol in rats after chronic ethanol exposure augments necrosis and steatosis in the liver. In this study, two-dimensional gel electrophoresis proteomic profiles of liver of control, chronic ethanol, control-binge, and chronic ethanol- binge were compared. Results: The proteomic analysis identified changes in protein abundance among the groups. The levels of carbonic anhydrase 3 (CA3) were decreased after chronic ethanol and decreased further after chronic ethanol-binge. Ethanol binge alone in control rats had no effect on this protein suggesting its possible role in increased susceptibility to injury by binge after chonic ethanol treatment. A protein spot, in which both cytosolic isocitrate dehydrogenase (IDH1) and glutamine synthetase (GS) were identified, showed a small decrease after chronic ethanol binge but western blot demonstrated significant decrease only for glutamine synthetase in chronic ethanol treated rats. The level of gluathione S-transferase mu isoform (GSTM1) increased after chronic ethanol but was lower after chronic ethanol-binge compared to chronic ethanol treatment. The protein levels of the basic form of protein disulfide isomerase associated protein 3 (PDIA3) were significantly decreased and the acidic forms were increased after chronic ethanol- binge but not in chronic ethanol treated rats or ethanol binge in control rats. The significant changes in proteome profile in chronic ethanol binge were accompanied by a marked increase in liver injury as evidenced by enhanced steatosis, necrosis, increased 4-hydroxynonenal labeled proteins, CYP2E1 expression, and decreased histone H2AX phosphorylation. Conclusions: Given the role of CA3, IDH1 and GST in oxidative stress; PDIA3 in protein quality control, apoptosis and DNA repair and decreased glutamine synthetase as a sensitive marker of pericentral liver injury this proteome study of chronic ethanol-binge rat model identifies these proteins for the first time as molecular targets with potential role in progression of liver injury by binge ethanol drinking. [ABSTRACT FROM AUTHOR]

Published

2012

27. The effects of a single memantine treatment on behavioral alterations associated with binge alcohol exposure in neonatal rats

Author

Idrus, Nirelia M., McGough, Nancy N.H., Spinetta, Michael J., Thomas, Jennifer D., and Riley, Edward P.

Subjects

*BEHAVIOR disorders, *FETAL alcohol syndrome, *BINGE drinking, *FETAL development, *METHYL aspartate, *PHYSIOLOGICAL effects of alcohol, *ETHANOL, *LABORATORY rats

Abstract

Abstract: Background: The third trimester in human fetal development represents a critical time of brain maturation referred to as the “brain growth spurt”. This period occurs in rats postnatally, and exposure to ethanol during this time can increase the risk of impairments on a variety of cognitive and motor tasks. It has been proposed that one potential mechanism for the teratogenic effects of ethanol is NMDA receptor-mediated excitotoxicity during periods of ethanol withdrawal. In neonatal rats, antagonism of NMDA receptors during ethanol withdrawal, with drugs such as MK-801 and eliprodil, has been shown to mitigate some of the behavioral deficits induced by developmental ethanol exposure. The current study examined whether memantine, an NMDA receptor antagonist and a drug used clinically in Alzheimer''s patients, would attenuate impairments associated with binge ethanol exposure in neonatal rats. Methods: On postnatal day 6, rats were exposed to 6g/kg ethanol via intubation with controls receiving an isocaloric maltose dextrin solution. Twenty-one hours following the ethanol binge, rats received intraperitoneal injections of memantine at 0, 10, 15, or 20mg/kg. Ethanol''s teratogenic effects were assessed using multiple behavioral tasks: open field activity, parallel bars and spatial discrimination reversal learning. Results: Ethanol-treated rats were overactive in the open field and were impaired on both reversal learning and motor performance. Administration of 15 or 20mg/kg memantine during withdrawal significantly attenuated ethanol''s adverse effects on motor coordination, but did not significantly alter activity levels or improve the spatial learning deficits associated with neonatal alcohol exposure. Conclusion: These results indicate that a single memantine administration during ethanol withdrawal can mitigate motor impairments but not spatial learning impairments or overactivity observed following a binge ethanol exposure during development in the rat. [Copyright &y& Elsevier]

Published

2011

28. Role of the amygdala in ethanol withdrawal seizures

Author

Feng, Hua-Jun, Yang, Li, and Faingold, Carl L.

Subjects

*AMYGDALOID body, *SPASMS, *METHYL aspartate, *SEIZURES (Medicine)

Abstract

Abstract: Ethanol withdrawal (ETX) after induction of ethanol dependence results in a syndrome that includes enhanced seizure susceptibility. During ETX in rodents, generalized audiogenic seizures (AGS) can be triggered by intense acoustic stimulation. Previous studies have implicated specific brainstem nuclei in the neuronal network that initiates and propagates AGS during ETX. Although ethanol and ETX are known to affect amygdala neurons, involvement of the amygdala in the network subserving AGS is unclear. Since ethanol and ETX affect N-methyl-d-aspartate (NMDA) receptors in the amygdala, the present study evaluated the effect of focally microinjecting a NMDA antagonist into the amygdala of rats treated with a binge protocol (intragastric administration of ethanol 3 times daily for 4 days). Separate experiments examined extracellular neuronal firing in the amygdala. Cannulae or microwire electrodes were chronically implanted into the amygdala, and changes in seizure behaviors and/or extracellular action potentials were evaluated. Bilateral focal microinjection of a NMDA antagonist, 2-amino-7-phosphonoheptanoate (AP7), into either central nucleus or lateral nucleus of the amygdala (LAMG) significantly reduced AGS. The doses of AP7 and time course of effect were similar in each site, suggesting that both amygdala nuclei participate in the AGS network. Acoustic responses of LAMG neurons were significantly decreased 1 h after the first ethanol dose and also during ETX, as compared to pre-binge controls. However, LAMG neurons consistently exhibited rapid tonic firing during the generalized tonic convulsions of AGS. These findings suggest a critical role of the amygdala in the ETX seizure network in generating tonic convulsions during AGS. [Copyright &y& Elsevier]

Published

2007

29. Binge ethanol drinking during adolescence modifies cocaine responses in mice

Author

Marta Rodríguez-Arias, Anna Esteve-Arenys, Oscar J. Pozo, Josep Marcos, Irene Gracia-Rubio, Lídia Cantacorps, José Miñarro, and Olga Valverde

Subjects

Male, medicine.medical_specialty, Alcohol Drinking, Binge drinking, Self Administration, Behavioural sensitization, Binge Drinking, Mice, 03 medical and health sciences, chemistry.chemical_compound, 0302 clinical medicine, Cocaine, Internal medicine, medicine, Binge ethanol, Animals, Pharmacology (medical), Young adult, Pharmacology, Ethanol, Behavior, Animal, business.industry, Age Factors, 3. Good health, 030227 psychiatry, Mice, Inbred C57BL, Psychiatry and Mental health, Endocrinology, chemistry, Ethanol intake, Ethanol intoxication, Self-administration, business, Locomotion, 030217 neurology & neurosurgery

Abstract

Binge ethanol drinking is an emerging pattern of excessive consumption among adolescents and young adults. Repeated ethanol intoxication has negative consequences during critical periods of brain development. Therefore, binge ethanol intake represents a vulnerability factor that promotes subsequent manifestations of neuropsychiatric disorders. In this study, we investigated the effects of oral binge ethanol intake during adolescence on the subsequent effects of cocaine in C57BL/6 mice. Firstly, we evaluated the oral ethanol intake of two binge ethanol procedures with different ethanol concentrations (20% v/v versus 30%, v/v). The highest ethanol intake was found in mice exposed to the lower ethanol concentration (20% v/v). In a second experiment, mice exposed to binge ethanol procedure were evaluated to study the effects of cocaine on locomotor activity, behavioural sensitization, and the reinforcing effects of cocaine in the self-administration paradigm. Mice exposed to ethanol binging showed discrete detrimental effects in responses to cocaine in the different experiments evaluated. Our findings revealed that the pattern of binge ethanol consumption in adolescent mice here evaluated produced a weak facilitation of cocaine responses. The present study highlights the importance of interventions to limit the deleterious effects of binge ethanol drinking during adolescence.

Published

2016

30. Restraint stress exacerbates cell degeneration induced by acute binge ethanol in the adolescent, but not in the adult or middle-aged, brain

Author

Macarena Soledad Fernández, Soledad de Olmos, Michael E. Nizhnikov, and Ricardo Marcos Pautassi

Subjects

Male, Restraint, Physical, medicine.medical_specialty, Hippocampus, Alcohol, Hippocampal formation, Binge Drinking, 03 medical and health sciences, Behavioral Neuroscience, chemistry.chemical_compound, 0302 clinical medicine, Internal medicine, medicine, Binge ethanol, Animals, Rats, Wistar, 030304 developmental biology, 0303 health sciences, Ethanol, business.industry, Neurotoxicity, Age Factors, Brain, medicine.disease, Rats, Endocrinology, chemistry, Toxicity, Dentate Gyrus, Restraint stress, business, 030217 neurology & neurosurgery

Abstract

Restraint stress (RS) induces neurotoxicity in the hippocampus, yet most of the studies have employed protracted RS (i.e., ≈ 21 days). Binge ethanol can induce brain toxicity, an effect affected by age. It could be postulated that RS may facilitate ethanol-induced neurotoxicity, perhaps to a greater extent in adolescent vs. older subjects. We analyzed whether adolescent, adult or middle-aged male rats exposed to five episodes of RS followed, 72h later, by binge ethanol (i.e., two administrations of 2.5 g/kg ethanol) exhibited hippocampal neurotoxicity. Adolescents, but not adult or middle-aged rats, exhibited sensitivity to the neurotoxic effects of ethanol at dorsal CA2, ventral CA3 and ventral DG, and a neurotoxic effect of stress at dorsal CA1. Moreover, the combination of ethanol and stress exerted a synergistic effect upon cell degeneration at ventral CA1 and CA2, which was restricted to adolescents. Ethanol also increased cell degeneration, irrespective of age or stress, in dorsal CA3 and in dorsal DG; and ethanol and stress had, across all ages, a synergistic effect upon cell degeneration at the dorsal CA1. The greater neurotoxic response of adolescents to ethanol, stress, or ethanol+stress can put them at risk for the development of alcohol problems.

Published

2019

31. Binge ethanol and MDMA combination exacerbates HSP27 and Trx-1 (biomarkers of toxic cardiac effects) expression in right ventricle

Author

Maria Victoria Milanés, Javier Navarro-Zaragoza, Olga Valverde, Clara Ros-Simó, María-Luisa Laorden, and Facultades, Departamentos, Servicios y Escuelas::Departamentos de la UMU::Farmacología

Subjects

Male, Heat shock protein 27, 6 - Ciencias aplicadas::61 - Medicina::615 - Farmacología. Terapéutica. Toxicología. Radiología [CDU], HSP27 Heat-Shock Proteins, medicine.disease_cause, Body Temperature, Serine, Mice, Thioredoxins, binge ethanol, HSP, Phosphorylation, General Pharmacology, Toxicology and Pharmaceutics, Thioredoxin-1, biology, Heart, MDMA, General Medicine, Blot, medicine.anatomical_structure, Right ventricle, Female, addiction, medicine.drug, medicine.medical_specialty, animal structures, cardiac, Heart Ventricles, N-Methyl-3,4-methylenedioxyamphetamine, General Biochemistry, Genetics and Molecular Biology, Binge Drinking, Hsp27, Internal medicine, Binge ethanol, medicine, Animals, Ethanol, Tyrosine hydroxylase, business.industry, Cardiotoxicity, Oxidative Stress, Endocrinology, Gene Expression Regulation, Ventricle, biology.protein, business, Biomarkers, Oxidative stress

Abstract

Aims: Oxidative stress caused by exposure to drugs of abuse such as ethanol or 3, 4 methylenedioxymethamphetamine (MDMA) may derive from direct or indirect effects in many organs including the heart. The aim of the present work was to evaluate cardiac sympathetic activity and the expression and activation of two antioxidant proteins: heat shock protein27 (HSP27) and thioredoxin-1 (Trx-1) after voluntary binge ethanol consumption, alone and in combination with MDMA. Material and methods: Adolescent mice received MDMA, ethanol or both. Drinking in the dark (DID) procedure was used as a model of binge. HSP27 expression and phosphorylation at serine 82 (pHSP27), Trx-1 expression, tyrosine hydroxylase (TH) and TH phosphorylated at serine 31 (pTH) were evaluated in adolescent mice 48 h and 7 days after treatments in the right ventricle. TH, HSP27 expression and phosphorylation and Trx-1 expression were measured by quantitative blot immunolabeling using specific antibodies. Key findings: The expression of HSP27, pHSP27, Trx-1, total TH and pTH in the right ventricle was increased after binge ethanol or MDMA alone. In addition, the combination of binge ethanol + MDMA enhanced TH expression and phosphorylation versus their individual administration. Significance: These results indicate that this combination could produce higher activation of sympathetic pathways, which could trigger an increased cell stress. On the other hand, increased HSP27, pHSP27 and Trx-1 expression in the right ventricle by ethanol + MDMA could be a protective mechanism to reduce the adverse effects of oxidative stress caused by both drugs of abuse. The funders of this research have been the Spanish Ministry of Economy and Innovation and FEDER (SAF/FEDER 2013-49076-P, SAF2017-85679-R and SAF2013-41761-R), the Spanish Ministry of Health, Social Affairs and Equality (PNSD 2014-020) and Instituto de Salud Carlos III (Red Temática de Investigación Cooperativa en Salud -ISCIII-FEDER- RETIC-Trastornos Adictivos RTA, RD12/0028/0003 and RD12/0028/0024).

Published

2019

32. Skeletal muscle satellite cell-derived mesenchymal stem cells ameliorate acute alcohol-induced liver injury.

Author

Chung JS, Hwang S, Hong JE, Jo M, Rhee KJ, Kim S, Jung PY, Yoon Y, Kang SH, Ryu H, Kim MY, Bae KS, and Eom YW

Subjects

Animals, Binge Drinking complications, Caco-2 Cells, Cells, Cultured, Dinoprostone metabolism, Hepatocyte Growth Factor metabolism, Humans, Inflammation, Liver metabolism, Liver Diseases, Alcoholic etiology, Mesenchymal Stem Cells, Mice, Binge Drinking blood, Ethanol adverse effects, Liver Diseases, Alcoholic therapy, Mesenchymal Stem Cell Transplantation, Satellite Cells, Skeletal Muscle transplantation

Abstract

Cultured human skeletal-muscle satellite cells have properties of mesenchymal stem cells (skeletal muscle satellite cell-derived mesenchymal stem cells, SkMSCs) and play anti-inflammatory roles by secreting prostaglandin E2 and hepatocyte growth factor (HGF). To evaluate the utility of SkMSCs in treating liver diseases, we determined whether SkMSCs could ameliorate acute liver and gut inflammation induced by binge ethanol administration. Binge drinking of ethanol led to weight loss in the body and spleen, liver inflammation and steatosis, and increased serum ALT and AST levels (markers of liver injury), along with increased IL-1β, TNF-α, and iNOS expression levels in mice. However, levels of these binge-drinking-induced indicators were reduced by a single intraperitoneal treatment of SkMSCs. Furthermore, levels of bacteria-derived lipopolysaccharide decreased in the livers and sera of ethanol-exposed mice after SkMSC administration. SkMSCs decreased the extent of tissue inflammation and reduced villus and crypt lengths in the small intestine after alcohol binge drinking. SkMSCs also reduced the leakage of blood albumin, an indicator of leaky gut, in the stool of ethanol-exposed mice. Alcohol-induced damage to human colonic Caco-2/tc7 cells was also alleviated by HGF. Therefore, a single treatment with SkMSCs can attenuate alcoholic liver damage by reducing inflammatory responses in the liver and gut, suggesting that SkMSCs could be used in cell therapy to treat alcoholic liver diseases., Competing Interests: Competing Interests: The authors have declared that no competing interest exists., (© The author(s).)

Published

2022

33. Rodent models and mechanisms of voluntary binge-like ethanol consumption: Examples, opportunities, and strategies for preclinical research

Author

Stephen L. Boehm and Brandon M. Fritz

Subjects

Volition, Pharmacology, Consumption (economics), Blood ethanol, Context (language use), Article, Binge Drinking, 030227 psychiatry, Developmental psychology, Disease Models, Animal, 03 medical and health sciences, Preclinical research, 0302 clinical medicine, Turnover, Research strategies, Binge ethanol, Animals, Humans, Treatment strategy, Psychology, Neuroscience, 030217 neurology & neurosurgery, Biological Psychiatry

Abstract

Binge ethanol consumption has widespread negative consequences for global public health. Rodent models offer exceptional power to explore the neurobiology underlying and affected by binge-like drinking as well as target potential prevention, intervention, and treatment strategies. An important characteristic of these models is their ability to consistently produce pharmacologically-relevant blood ethanol concentration. This review examines the current available rodent models of voluntary, pre-dependent binge-like ethanol consumption and their utility in various research strategies. Studies have demonstrated that a diverse array of neurotransmitters regulate binge-like drinking, resembling some findings from other drinking models. Furthermore, repeated binge-like drinking recruits neuroadaptive mechanisms in mesolimbocortical reward circuitry. New opportunities that these models offer in the current context of mechanistic research are also discussed.

Published

2016

34. Sigma-1 antagonism inhibits binge ethanol drinking at adolescence

Author

Leandro Ruiz-Leyva, Agustín Salguero, Enrique Portillo-Salido, Ignacio Morón, Ricardo Marcos Pautassi, and Cruz Miguel Cendán

Subjects

Male, medicine.medical_specialty, Alcohol Drinking, Binge drinking, Female adolescent, Toxicology, Binge Drinking, 03 medical and health sciences, chemistry.chemical_compound, 0302 clinical medicine, Internal medicine, Binge ethanol, Animals, Humans, Receptors, sigma, Medicine, Pharmacology (medical), 030212 general & internal medicine, Rats, Wistar, Novel object recognition, Pharmacology, Ethanol, business.industry, Ethanol drinking, Rats, Psychiatry and Mental health, Endocrinology, chemistry, Female, Ethanol intake, Antagonism, business, 030217 neurology & neurosurgery

Abstract

Background Ethanol use during adolescence is a significant health problem, yet the pharmacological treatments to reduce adolescent binge drinking are scarce. The present study assessed, in male and female adolescent Wistar rats, if the sigma-1 receptor (S1-R) antagonists S1RA or BD-1063 disrupted ethanol drinking. Methods Three times a week, for two weeks, the rats received the S1-R antagonists. Thirty min later they were exposed, for 2 h, to a bottle of 8% or 10 % v/v ethanol. A 24 h, two-bottle, ethanol intake test was conducted after termination of these procedures. A subset of these rats was tested for recognition memory via the novel object recognition test. Results The rats given 64 mg/kg S1RA drank, in each binge session, significantly less than vehicle counterparts. Male rats given 4 or 16 mg/kg S1RA drank significantly less than those given 0 mg/kg in session 3 or in session 1 and 2, respectively; whereas female rats given 4 or 16 mg/kg drank significantly less than females given 0 mg/kg in session 2–5 or in sessions 2–6, respectively. Administration of 32 mg/kg, but not of 2 or 8 mg/kg, BD-1063 suppressed, across sessions, ethanol drinking. S1-R antagonism reduced absolute ethanol drinking at the two-bottle choice post-test. Recognition memory was not affected by the ethanol exposure. Conclusions The results indicate that S1-R antagonists may be promising targets to prevent increases in ethanol intake at adolescence. The persistent effect of S1-R antagonism in free-choice drinking suggests that modulation of the S1-R is altering plastic effects associated with ethanol exposure.

Published

2020

35. Inhibition of Soluble Epoxide Hydrolase by t‐TUCB Ameliorated Liver Injury in a Chronic‐Binge Ethanol Administration Mouse Model

Author

Jeffrey Warner, Dennis R. Warner, Shubha Gosh Dastidar, Irina A. Kirpich, Craig J. McClain, and Ying Song

Subjects

0301 basic medicine, Epoxide hydrolase 2, Liver injury, Chemistry, Pharmacology, medicine.disease, Biochemistry, 03 medical and health sciences, 030104 developmental biology, Genetics, medicine, Binge ethanol, Molecular Biology, Biotechnology

Published

2018

36. Use of a crossed high alcohol preferring (cHAP) mouse model with the NIAAA-model of chronic-binge ethanol intake to study liver injury

Author

Iain H. McKillop, Grahame Nj, Shayan Nazari, Kyle J. Thompson, and Jacobs Wc

Subjects

0301 basic medicine, Male, medicine.medical_specialty, Alcoholic liver disease, Alcohol, Original Manuscript, medicine.disease_cause, Binge Drinking, 03 medical and health sciences, chemistry.chemical_compound, Mice, Random Allocation, 0302 clinical medicine, Internal medicine, medicine, Binge ethanol, Animals, Liver Diseases, Alcoholic, Liver injury, Ethanol, business.industry, General Medicine, CYP2E1, medicine.disease, United States, Mice, Inbred C57BL, Disease Models, Animal, 030104 developmental biology, Endocrinology, chemistry, High alcohol, business, National Institute on Alcohol Abuse and Alcoholism (U.S.), 030217 neurology & neurosurgery, Oxidative stress

Abstract

AimsThis study sought to compare mice bred to preferentially consume high amounts of alcohol (crossed-high alcohol preferring, cHAP) to c57BL/6 (C57) mice using a chronic-binge ethanol ingestion model to induce alcoholic liver disease (ALD).MethodsMale C57 and cHAP mice were randomized to a Lieber-DeCarli control (LDC) diet, Lieber-DeCarli 5% (v/v) ethanol (LDE) diet or free-choice between 10% (v/v) ethanol in drinking water (EtOH-DW) and DW. After 4 weeks mice were gavaged with either 9 g/kg maltose-dextrin (LDC+MD) or 5 g/kg EtOH (LDE+Binge, EtOH-DW+Binge). Nine hours later tissue and serum were collected and analyzed.ResultscHAP mice on EtOH-DW consumed significantly more ethanol than cHAP or C57 mice maintained on LDE. However, cHAP and C57 mice on the LDE+Binge regiment had greater hepatosteatosis and overall degree of liver injury compared to EtOH-DW+Binge. Changes in pro-inflammatory gene expression was more pronounced in cHAP mice than C57 mice. Analysis of liver enzymes revealed a robust induction of CYP2E1 in C57 and cHAP mice maintained on EtOH-DW+Binge or LDE+Binge. However, while C57 mice exhibited higher basal hepatic glutathione than cHAP mice, these mice appeared more susceptible to oxidative stress following LDE+Binge than cHAP counterparts.ConclusionsDespite cHAP mice consuming more total ethanol prior to gavage when maintained on EtOH-DW, LDE followed by gavage created a more severe model of ALD in both C57 and cHAP mice. These data suggest factors other than total amount of alcohol consumed affect degree of ALD development in the chronic-binge model in cHAP mice.Short SummarycHAP mice voluntarily consume high amounts of ethanol and exhibited hepatic injury when subject to chronic-binge ethanol feeding with the Lieber-DeCarli diet. However, hepatic injury was reduced in cHAP mice in a chronic-binge model following voluntary high ethanol consumption in drinking water.

Published

2017

37. Investigation of Sex Differences in the Microglial Response to Binge Ethanol and Exercise

Author

J. Leasure, Emily A. Barton, and Cassandra Baker

Subjects

0301 basic medicine, medicine.medical_specialty, Binge alcohol, hippocampus, Hippocampus, Alcohol, Article, lcsh:RC321-571, 03 medical and health sciences, chemistry.chemical_compound, 0302 clinical medicine, MHC II, Internal medicine, Selective vulnerability, medicine, Binge ethanol, Prefrontal cortex, lcsh:Neurosciences. Biological psychiatry. Neuropsychiatry, Microglia, alcohol, General Neuroscience, microglial priming, medial prefrontal cortex, 030104 developmental biology, Endocrinology, medicine.anatomical_structure, chemistry, Psychology, Neuroscience, 030217 neurology & neurosurgery

Abstract

The female brain appears selectively vulnerable to the neurotoxic effects of alcohol, but the reasons for this are unclear. One possibility is an exaggerated neuroimmune response in the female brain, such that alcohol increases microglia number and reactivity to subsequent stimuli, such as exercise. It is important to better characterize the interactive neural effects of alcohol and exercise, as exercise is increasingly being used in the treatment of alcohol use disorders. The present study compared the number of microglia and evidence of their activation in alcohol-vulnerable regions of the brain (medial prefrontal cortex and hippocampus) in male and female rats following binge alcohol and/or exercise. Binge alcohol increased microglia number and morphological characteristics consistent with their activation in the female brain but not the male, regardless of exercise. Binge alcohol followed by exercise did increase the number of MHC II+ (immunocompetent) microglia in females, although the vast majority of microglia did not express MHC II. These results indicate that binge alcohol exerts sex-specific effects on microglia that may result in enhanced reactivity to a subsequent challenge and in part underlie the apparent selective vulnerability of the female brain to alcohol.

Published

2017

38. Sex and Adolescent Ethanol Exposure Influence Pavlovian Conditioned Approach

Author

Sierra J. Stringfield, Donita L. Robinson, Charlotte A. Boettiger, Kathryn J. Reissner, and Aric C. Madayag

Subjects

Male, medicine.medical_specialty, business.product_category, Conditioning, Classical, Medicine (miscellaneous), Nucleus accumbens, Toxicology, Article, Developmental psychology, Binge Drinking, Rats, Sprague-Dawley, 03 medical and health sciences, 0302 clinical medicine, Sex Factors, Glutamate homeostasis, Internal medicine, medicine, Binge ethanol, Reaction Time, Animals, Postnatal day, Lever, Ethanol, Age Factors, Ethanol exposure, 030227 psychiatry, Rats, Psychiatry and Mental health, Endocrinology, Excitatory postsynaptic potential, Female, business, Psychology, 030217 neurology & neurosurgery, Addiction vulnerability

Abstract

Background Alcohol use among adolescents is widespread and a growing concern due to long-term behavioral deficits, including altered Pavlovian behavior, that potentially contribute to addiction vulnerability. We tested the hypothesis that adolescent intermittent ethanol (AIE) exposure alters Pavlovian behavior in males and females as measured by a shift from goal-tracking to sign-tracking. Additionally, we investigated GLT-1, an astrocytic glutamate transporter, as a potential contributor to a sign-tracking phenotype. Methods Male and female Sprague-Dawley rats were exposed to AIE (5 g/kg, intragastric) or water intermittently 2 days on and 2 days off from postnatal day (P) 25 to 54. Around P70, animals began 20 daily sessions of Pavlovian conditioned approach (PCA), where they learned that a cue predicted noncontingent reward delivery. Lever pressing indicated interaction with the cue, or sign-tracking, and receptacle entries indicated approach to the reward delivery location, or goal-tracking. To test for effects of AIE on nucleus accumbens (NAcc) excitatory signaling, we isolated membrane subfractions and measured protein levels of the glutamate transporter GLT-1 after animals completed behavior as a measure of glutamate homeostasis. Results Females exhibited elevated sign-tracking compared to males with significantly more lever presses, faster latency to first lever press, and greater probability to lever press in a trial. AIE significantly increased lever pressing while blunting goal-tracking, as indicated by fewer cue-evoked receptacle entries, slower latency to receptacle entry, and lower probability to enter the receptacle in a trial. No significant sex-by-exposure interactions were observed in sign- or goal-tracking metrics. Moreover, we found no significant effects of sex or exposure on membrane GLT-1 expression in the NAcc. Conclusions Females exhibited enhanced sign-tracking compared to males, while AIE decreased goal-tracking compared to control exposure. Our findings support the hypothesis that adolescent binge ethanol can shift conditioned behavior from goal- to cue-directed in PCA, especially in females.

Published

2017

39. The Role of Acetaldehyde in the Increased Acceptance of Ethanol after Prenatal Ethanol Exposure

Author

M. Gabriela Chotro, Norman E. Spear, Mirari Gaztañaga, and Asier Angulo-Alcalde

Subjects

medicine.medical_specialty, Offspring, Metabolite, COGNITIVE NEUROSCIENCE, Alcohol, amniotic-fluid, late-gestation, 03 medical and health sciences, chemistry.chemical_compound, 0302 clinical medicine, operant conditioning, Internal medicine, binge ethanol, medicine, aversion, consumption, Original Research, Fetus, Ethanol, biology, alcohol, ethanol intake, D-penicillamine, Acetaldehyde, odor attractiveness, infant rat, fetal, pregnant rats, BEHAVIORAL NEUROSCIENCE, 030227 psychiatry, Endocrinology, chemistry, Odor, Biochemistry, NEUROPSYCHOLOGY AND PHYSIOLOGICAL PSYCHOLOGY, Catalase, prenatal ethanol, biology.protein, 030217 neurology & neurosurgery, Neuroscience, acetaldehyde

Abstract

Recent studies show that acetaldehyde, the first metabolite in the oxidation of ethanol, can be responsible for both, the appetitive and the aversive effects produced by ethanol intoxication. More specifically, it has been hypothesized that acetaldehyde produced in the periphery by the liver is responsible for the aversive effects of ethanol, while the appetitive effects relate to the acetaldehyde produced centrally through the catalase system. On the other hand, from studies in our and other laboratories, it is known that ethanol exposure during the last gestational days (GD) consistently enhances the postnatal acceptance of ethanol when measured during early ontogeny in the rat. This increased liking of ethanol is a conditioned appetitive response acquired by the fetus by the association of ethanols flavor and an appetitive reinforcer. Although this reinforcer has not yet been fully identified, one possibility points to acetaldehyde produced centrally in the fetus as a likely candidate. This hypothesis is supported by data showing that very early in the rats ontogeny brain catalases are functional, while the livers enzymatic system is still immature. In this study, rat dams were administered on GD 1720 with water or ethanol, together with an acetaldehyde-sequestering agent (D-penicillamine). The offsprings responses to ethanol was then assessed at different postnatal stages with procedures adequate for each developmental stage: on day 1, using the odor crawling locomotion test to measure ethanols odor attractiveness; on day 5, in an operant conditioning procedure with ethanol as the reinforcer; and on day 14 in an ethanol intake test. Results show that the absence of acetaldehyde during prenatal ethanol exposure impeded the observation of the increased acceptance of ethanol at any age. This seems to confirm the crucial role of acetaldehyde as a reinforcer in the appetitive learning occurring during prenatal ethanol exposure. This research was supported by grants from MEC, Spain (PSI2011-24231 and PSI2012-38019), and from the Basque Government (IT-694-13).

Published

2017

40. Sa1121 – A Butyrate-Targeting Synbiotic Attenuates Chronic-Binge Ethanol Induced Gut-Liver Injury in Mice

Author

Gail A. Cresci, Bryan Glueck, Yingchun Han, Mahmoud A. Mohammad, and Sanjoy Roychowdhury

Subjects

Liver injury, Hepatology, business.industry, Gastroenterology, Binge ethanol, Medicine, Butyrate, Pharmacology, business, medicine.disease

Published

2019

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

Author

Stephen L. Boehm and David N. Linsenbardt

Subjects

Pharmacology, Consumption (economics), Ethanol, Subjective effects, Medicine (miscellaneous), Physiology, Binge drinking, Poison control, Alcohol, Toxicology, Psychiatry and Mental health, chemistry.chemical_compound, chemistry, Binge ethanol, Analysis of variance, Psychology

Abstract

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.

Published

2013

42. Binge ethanol intoxication heightens subsequent ethanol intake in adolescent, but not adult, rats

Author

María Carolina Fabio, Ricardo Marcos Pautassi, Michael E. Nizhnikov, and Norman E. Spear

Subjects

Behavioral Neuroscience, Developmental Neuroscience, Developmental and Educational Psychology, Binge ethanol, Ethanol intake, Psychology, Humanities, Developmental Biology, Developmental psychology

Abstract

Fil: Fabio, Maria Carolina. Consejo Nacional de Investigaciones Cientificas y Tecnicas. Centro Cientifico Tecnologico Conicet - Cordoba. Instituto de Investigacion Medica Mercedes y Martin Ferreyra. Universidad Nacional de Cordoba. Instituto de Investigacion Medica Mercedes y Martin Ferreyra; Argentina. Universidad Nacional de Cordoba. Facultad de Psicologia; Argentina

Published

2013

43. Correction: Binge Ethanol Prior to Traumatic Brain Injury Worsens Sensorimotor Functional Recovery in Rats

Author

Timothy E. O'Brien, Shih-Yen Tsai, Gwendolyn L. Kartje, Son T. Ton, Susan O. McGuire, Ian C. Vaagenes, and Vicki A. Husak

Subjects

medicine.medical_specialty, Multidisciplinary, Injury control, business.industry, Traumatic brain injury, lcsh:R, Alcohol abuse, Poison control, lcsh:Medicine, 16. Peace & justice, medicine.disease, Functional recovery, 3. Good health, 03 medical and health sciences, 0302 clinical medicine, 030220 oncology & carcinogenesis, Injury prevention, medicine, Binge ethanol, lcsh:Q, Chemistry (relationship), Psychiatry, business, lcsh:Science, 030217 neurology & neurosurgery

Abstract

In the Funding section, the grant number from the funder National Institute on Alcohol Abuse and Alcoholism is listed incorrectly. The correct grant number is: T32 {"type":"entrez-nucleotide","attrs":{"text":"AA013527","term_id":"1474601","term_text":"AA013527"}}AA013527.

Published

2016

44. Binge Drinking of Ethanol during Adolescence Induces Oxidative Damage and Morphological Changes in Salivary Glands of Female Rats

Author

Rafael Rodrigues Lima, João de Jesus Viana Pinheiro, Sérgio de Melo Alves-Junior, Maria Elena Crespo-Lopez, Luanna Melo Pereira Fernandes, Ricardo Sousa de Oliveira Paraense, Cristiane Socorro Ferraz Maia, Nathalia Carolina Fernandes Fagundes, Francisco Bruno Teixeira, and Paulo M. A. Farias-Junior

Subjects

Aging, medicine.medical_specialty, Article Subject, Submandibular Gland, Binge drinking, Vimentin, Underage Drinking, Biochemistry, Binge Drinking, Oxidative damage, 03 medical and health sciences, chemistry.chemical_compound, 0302 clinical medicine, Malondialdehyde, Internal medicine, Binge ethanol, Animals, Parotid Gland, Medicine, Rats, Wistar, lcsh:QH573-671, Nitrites, Ethanol, Keratin-18, biology, business.industry, lcsh:Cytology, Age Factors, Myoepithelial cell, Cell Biology, General Medicine, Actins, Oxidative Stress, Endocrinology, chemistry, 030220 oncology & carcinogenesis, Models, Animal, biology.protein, Immunohistochemistry, Blood Alcohol Content, Female, business, Biomarkers, 030217 neurology & neurosurgery, Research Article

Abstract

This study investigates morphological and biochemistry effects of binge ethanol consumption in parotid (PG) and submandibular (SG) salivary glands of rats from adolescence to adulthood. Female Wistar rats (n=26) received ethanol at 3 g/kg/day (20% w/v) for 3 consecutive days/week from the 35th until the 62nd day of life. Animals were treated in two periods: 1 week (G1) and 4 weeks (G2), with a control (treated with distilled water) and an ethanol group to each period. In morphological analysis, morphometric and immunohistochemistry evaluation for smooth muscle actin (αSMA), cytokeratin-18 (CK-18), and vimentin (VIM) were made. Biochemical changes were analyzed by concentration of nitrites and levels of malondialdehyde (MDA). The difference between groups in each analysis was evaluated by Mann-WhitneyUtest or Student’st-test (p≤0.05). PG showed, at one week of ethanol exposure, lower CK-18 andα-SMA expression, as well as MDA levels. After four weeks, lower CK-18 and higher MDA levels were observed in PG exposed to ethanol, in comparison to control group. SG showed lowerα-SMA expression after 1 and 4 weeks of ethanol exposure as well as higher MDA levels after 1 week. Ethanol binge consumption during adolescence promotes tissue and biochemical changes with only one-week binge in acinar and myoepithelial PG cells.

Published

2016

45. Repeated binge ethanol administration during adolescence enhances voluntary sweetened ethanol intake in young adulthood in male and female rats

Author

Cheryl L. Kirstein, Antoniette M. Maldonado-Devincci, Kent K. Alipour, and Laura A. Michael

Subjects

Male, medicine.medical_specialty, media_common.quotation_subject, Clinical Biochemistry, Alcohol, Weight Gain, Toxicology, Biochemistry, Article, Rats, Sprague-Dawley, Behavioral Neuroscience, chemistry.chemical_compound, Saccharin, Internal medicine, medicine, Binge ethanol, Animals, Young adult, Biological Psychiatry, media_common, Pharmacology, Ethanol, Age Factors, Abstinence, Rats, Endocrinology, chemistry, Turnover, Sweetening Agents, Female, medicine.symptom, Psychology, Weight gain

Abstract

Binge alcohol consumption is a rising concern in the United States, especially among adolescents. During this developmental period alcohol use is usually initiated and has been shown to cause detrimental effects on brain structure and function as well as cognitive/behavioral impairments in rats. Binge models, where animals are repeatedly administered high doses of ethanol typically over a period of three or four days cause these effects. There has been little work conducted aimed at investigating the long-term behavioral consequences of repeated binge administration during adolescence on later ethanol-induced behavior in young adulthood and adulthood. The repeated four-day binge model may serve as a good approximate for patterns of human adolescent alcohol consumption as this is similar to a “bender” in human alcoholics. The present set of experiments examined the dose-response and sex-related differences induced by repeated binge ethanol administration during adolescence on sweetened ethanol (Experiment 1) or saccharin (Experiment 2) intake in young adulthood. In both experiments, on postnatal days (PND) 28–31, PND 35–38 and PND 42–45, ethanol (1.5, 3.0 or 5.0 g/kg) or water was administered intragastrically to adolescent rats. Rats underwent abstinence from PND 46–59. Subsequently, in young adulthood, ethanol and saccharin intake were assessed. Exposure to any dose of ethanol during adolescence significantly enhanced ethanol intake in adulthood. However, while female rats had higher overall g/kg intake, males appear to be more vulnerable to the impact of adolescent ethanol exposure on subsequently increased ethanol intake in young adulthood. Exposure to ethanol during adolescence did not alter saccharin consumption in young adulthood in male or female rats. Considering that adolescence is the developmental period in which ethanol experimentation and consumption is usually initiated, the present set of experiments demonstrate the importance of elucidating the impact of early binge-pattern ethanol exposure on the subsequent predisposition to drink later in life.

Published

2010

46. Role of binge ethanol consumption in the pathogenesis of sepsis

Author

B. Piscinato Piedade Rosa, C.H. Bonaldo de Oliveira, A. Fioravante, A. de Freitas, and L. Peccinini Machado

Subjects

Microbiology (medical), Consumption (economics), Pathogenesis, Sepsis, Infectious Diseases, business.industry, Immunology, medicine, Binge ethanol, General Medicine, medicine.disease, business

Published

2018

47. Corrigendum to 'Adolescent Binge Ethanol Exposure Alters Specific Forebrain Cholinergic Cell Populations and Leads to Selective Functional Deficits in the Prefrontal Cortex' [Neuroscience 361 (2017) 129–143]

Author

Lisa M. Savage and Gina M. Fernandez

Subjects

business.industry, General Neuroscience, Cell, Article, medicine.anatomical_structure, nervous system, mental disorders, Forebrain, Binge ethanol, medicine, Cholinergic, Prefrontal cortex, business, Neuroscience

Abstract

Adolescence has been identified as a vulnerable developmental time period during which exposure to drugs can have long-lasting, detrimental effects. Although adolescent binge-like ethanol (EtOH) exposure leads to a significant reduction of forebrain cholinergic neurons, EtOH’s functional effect on acetylcholine (ACh) release during behavior has yet to be examined. Using an adolescent intermittent ethanol exposure model (AIE), rats were exposed to binge-like levels of EtOH from postnatal day (PD) 25–55. Three weeks following the final EtOH exposure, cholinergic functioning was assessed during a spontaneous alternation protocol. During maze testing, ACh levels increased in both the hippocampus and prefrontal cortex. However, selectively in the prefrontal cortex, AIE rats displayed reduced levels of behaviorally-relevant ACh efflux. We found no treatment differences in spatial exploration, spatial learning, spatial reversal, or novel object recognition. In contrast, AIE rats were impaired during the first attentional set shift on an operant set-shifting task, indicative of an EtOH-mediated deficit in cognitive flexibility. A unique pattern of cholinergic cell loss was observed in the basal forebrain following AIE: Within the medial septum/diagonal band there was a selective loss (30%) of choline acetyltransferase (ChAT) positive neurons that were nestin negative (ChAT+/ nestin−); whereas in the Nucleus basalis of Meynert (NbM) there was a selective reduction (50%) in ChAT+/ nestin+. These results indicate that early adolescent binge EtOH exposure leads to a long-lasting frontocortical functional cholinergic deficit, driven by a loss of ChAT+/ nestin+ neurons in the NbM, which was associated with impaired cognitive flexibility during adulthood.

Published

2018

48. Binge ethanol impairs airway cilia motility

Author

Dawn M. Katafiasz, J.H. Sisson, Michael E. Price, Kristina L. Bailey, and Jaqueline A. Pavlik

Subjects

medicine.medical_specialty, Health (social science), business.industry, Cilium, Motility, General Medicine, Toxicology, Biochemistry, Behavioral Neuroscience, Endocrinology, Neurology, Internal medicine, medicine, Binge ethanol, business, Airway

Published

2018

49. Multiple-day binge ethanol intoxication is associated with an anti-inflammatory alveolar macrophage phenotype

Author

Devin M. Boe, Brenda J. Curtis, Elizabeth J. Kovacs, Luis Ramirez, and Jill A. Shults

Subjects

Health (social science), medicine.drug_class, business.industry, General Medicine, Toxicology, Biochemistry, Phenotype, Anti-inflammatory, Behavioral Neuroscience, Neurology, Immunology, medicine, Alveolar macrophage, Binge ethanol, business

Published

2018

50. Rodent Models of Alcoholic Liver Disease: Role of Binge Ethanol Administration

Author

Dennis R. Warner, Craig J. McClain, Irina A. Kirpich, Jeffrey Warner, and Shubha Ghosh Dastidar

Subjects

0301 basic medicine, endocrine system, Alcoholic liver disease, Liquid diet, lcsh:QR1-502, Alcohol abuse, Binge drinking, Review, blood alcohol concentration, Bioinformatics, Biochemistry, lcsh:Microbiology, EtOH-induced liver injury, Mice, 03 medical and health sciences, 0302 clinical medicine, mental disorders, medicine, Binge ethanol, Animals, Liver Diseases, Alcoholic, Molecular Biology, Liver injury, Ethanol, business.industry, high fat diet, lipopolysaccharide, Experimental Animal Models, medicine.disease, animal models, binge drinking, Rats, 3. Good health, Disease Models, Animal, 030104 developmental biology, 030211 gastroenterology & hepatology, business, Liver pathology, alcoholic liver disease

Abstract

Both chronic and acute (binge) alcohol drinking are important health and economic concerns worldwide and prominent risk factors for the development of alcoholic liver disease (ALD). There are no FDA-approved medications to prevent or to treat any stage of ALD. Therefore, discovery of novel therapeutic strategies remains a critical need for patients with ALD. Relevant experimental animal models that simulate human drinking patterns and mimic the spectrum and severity of alcohol-induced liver pathology in humans are critical to our ability to identify new mechanisms and therapeutic targets. There are several animal models currently in use, including the most widely utilized chronic ad libitum ethanol (EtOH) feeding (Lieber–DeCarli liquid diet model), chronic intragastric EtOH administration (Tsukamoto–French model), and chronic-plus-binge EtOH challenge (Bin Gao—National Institute on Alcohol Abuse and Alcoholism (NIAAA) model). This review provides an overview of recent advances in rodent models of binge EtOH administration which help to recapitulate different features and etiologies of progressive ALD. These models include EtOH binge alone, and EtOH binge coupled with chronic EtOH intake, a high fat diet, or endotoxin challenge. We analyze the strengths, limitations, and translational relevance of these models, as well as summarize the liver injury outcomes and mechanistic insights. We further discuss the application(s) of binge EtOH models in examining alcohol-induced multi-organ pathology, sex- and age-related differences, as well as circadian rhythm disruption.

Published

2018