1 5443 161 REPEATED METHAMPHETAMINE AND MODAFINIL INDUCE DIFFERENTIAL COGNITIVE EFFECTS AND SPECIFIC HISTONE ACETYLATION AND DNA METHYLATION PROFILES IN THE MOUSE MEDIAL PREFRONTAL CORTEX. METHAMPHETAMINE (METH) AND MODAFINIL ARE PSYCHOSTIMULANTS WITH DIFFERENT LONG-TERM COGNITIVE PROFILES: METH IS ADDICTIVE AND LEADS TO COGNITIVE DECLINE, WHEREAS MODAFINIL HAS LITTLE ABUSE LIABILITY AND IS A COGNITIVE ENHANCER. INCREASING EVIDENCE IMPLICATES EPIGENETIC MECHANISMS OF GENE REGULATION BEHIND THE LASTING CHANGES THAT DRUGS OF ABUSE AND OTHER PSYCHOTROPIC COMPOUNDS INDUCE IN THE BRAIN, LIKE THE CONTROL OF GENE EXPRESSION BY HISTONES 3 AND 4 TAILS ACETYLATION (H3AC AND H4AC) AND DNA CYTOSINE METHYLATION (5-MC). MICE WERE TREATED WITH A SEVEN-DAY REPEATED METH, MODAFINIL OR VEHICLE PROTOCOL AND EVALUATED IN THE NOVEL OBJECT RECOGNITION (NOR) TEST OR SACRIFICED 4DAYS AFTER LAST INJECTION FOR MOLECULAR ASSAYS. WE EVALUATED TOTAL H3AC, H4AC AND 5-MC LEVELS IN THE MEDIAL PREFRONTAL CORTEX (MPFC), H3AC AND H4AC PROMOTOR ENRICHMENT (CHIP) AND MRNA EXPRESSION (RT-PCR) OF NEUROTRANSMITTER SYSTEMS INVOLVED IN AROUSAL, WAKEFULNESS AND COGNITIVE CONTROL, LIKE DOPAMINERGIC (DRD1 AND DRD2), ALPHA-ADRENERGIC (ADRA1A AND ADRA1B), OREXINERGIC (HCRTR1 AND HCRTR2), HISTAMINERGIC (HRH1 AND HRH3) AND GLUTAMATERGIC (AMPA GRIA1 AND NMDA GRIN1) RECEPTORS. REPEATED METH AND MODAFINIL TREATMENT ELICITED DIFFERENT COGNITIVE OUTCOMES IN THE NOR TEST, WHERE MODAFINIL-TREATED MICE PERFORMED AS CONTROLS AND METH-TREATED MICE SHOWED IMPAIRED RECOGNITION MEMORY. METH-TREATED MICE ALSO SHOWED I) DECREASED LEVELS OF TOTAL H3AC AND H4AC, AND INCREASED LEVELS OF 5-MC, II) DECREASED H3AC ENRICHMENT AT PROMOTERS OF DRD2, HCRTR1/2, HRH1 AND GRIN1, AND INCREASED H4AC ENRICHMENT AT DRD1, HRH1 AND GRIN1, III) INCREASED MRNA OF DRD1A, GRIN1 AND GRIA1. MODAFINIL-TREATED MICE SHARED NONE OF THESE EFFECTS AND SHOWED INCREASED H3AC ENRICHMENT AND MRNA EXPRESSION AT ADRA1B. MODAFINIL AND METH SHOWED SIMILAR EFFECTS LINKED TO DECREASED H3AC IN HRH3, INCREASED H4AC IN HCRTR1, AND DECREASED MRNA EXPRESSION OF HCRTR2. THE SPECIFIC METH-INDUCED EPIGENETIC AND TRANSCRIPTIONAL CHANGES DESCRIBED HERE MAY BE RELATED TO THE LONG-TERM COGNITIVE DECLINE EFFECTS OF THE DRUG AND ITS DETRIMENTAL EFFECTS ON MPFC FUNCTION. THE LACK OF SIMILAR EPIGENETIC EFFECTS OF CHRONIC MODAFINIL ADMINISTRATION SUPPORTS THIS NOTION. 2018 2 6095 85 THE EFFECTS OF SINGLE-DOSE INJECTIONS OF MODAFINIL AND METHAMPHETAMINE ON EPIGENETIC AND FUNCTIONAL MARKERS IN THE MOUSE MEDIAL PREFRONTAL CORTEX: POTENTIAL ROLE OF DOPAMINE RECEPTORS. METH USE CAUSES NEUROADAPTATIONS THAT NEGATIVELY IMPACT THE PREFRONTAL CORTEX (PFC) LEADING TO ADDICTION AND ASSOCIATED COGNITIVE DECLINE IN ANIMALS AND HUMANS. IN CONTRAST, MODAFINIL ENHANCES COGNITION BY INCREASING PFC FUNCTION. ACCUMULATED EVIDENCE INDICATES THAT PSYCHOSTIMULANT DRUGS, INCLUDING MODAFINIL AND METH, REGULATE GENE EXPRESSION VIA EPIGENETIC MODIFICATIONS. IN THIS STUDY, WE MEASURED THE EFFECTS OF SINGLE-DOSE INJECTIONS OF MODAFINIL AND METH ON THE PROTEIN LEVELS OF ACETYLATED HISTONE H3 (H3AC) AND H4AC, DEACETYLASES HDAC1 AND HDAC2, AND OF THE NMDA SUBUNIT GLUN1 IN THE MEDIAL PFC (MPFC) OF MICE EUTHANIZED 1 H AFTER DRUG ADMINISTRATION. TO TEST IF DOPAMINE (DA) RECEPTORS (DRS) PARTICIPATE IN THE BIOCHEMICAL EFFECTS OF THE TWO DRUGS, WE INJECTED THE D1RS ANTAGONIST, SCH23390, OR THE D2RS ANTAGONIST, RACLOPRIDE, 30 MIN BEFORE ADMINISTRATION OF METH AND MODAFINIL. WE EVALUATED EACH DRUG EFFECT ON GLUTAMATE SYNAPTIC TRANSMISSION IN D1R-EXPRESSING LAYER V PYRAMIDAL NEURONS. WE ALSO MEASURED THE ENRICHMENT OF H3AC AND H4AC AT THE PROMOTERS OF SEVERAL GENES INCLUDING DA, NE, OREXIN, HISTAMINE, AND GLUTAMATE RECEPTORS, AND THEIR MRNA EXPRESSION, SINCE THEY ARE RESPONSIVE TO CHRONIC MODAFINIL AND METH TREATMENT. ACUTE MODAFINIL AND METH INJECTIONS CAUSED SIMILAR EFFECTS ON TOTAL HISTONE ACETYLATION, INCREASING H3AC AND DECREASING H4AC, AND THEY ALSO INCREASED HDAC1, HDAC2 AND GLUN1 PROTEIN LEVELS IN THE MOUSE MPFC. IN ADDITION, THE EFFECTS OF THE DRUGS WERE PREVENTED BY PRE-TREATMENT WITH D1RS AND D2RS ANTAGONISTS. SPECIFICALLY, THE CHANGES IN H4AC, HDAC2, AND GLUN1 WERE RESPONSIVE TO SCH23390, WHEREAS THOSE OF H3AC AND GLUN1 WERE RESPONSIVE TO RACLOPRIDE. WHOLE-CELL PATCH CLAMP IN TRANSGENIC BAC-DRD1A-TDTOMATO MICE SHOWED THAT METH, BUT NOT MODAFINIL, INDUCED PAIRED-PULSE FACILITATION OF EPSCS, SUGGESTING REDUCED PRESYNAPTIC PROBABILITY OF GLUTAMATE RELEASE ONTO LAYER V PYRAMIDAL NEURONS. ANALYSIS OF HISTONE 3/4 ENRICHMENT AT SPECIFIC PROMOTERS REVEALED: I) DISTINCT EFFECTS OF THE DRUGS ON HISTONE 3 ACETYLATION, WITH MODAFINIL INCREASING H3AC AT DRD1 AND ADRA1B PROMOTERS, BUT METH INCREASING H3AC AT ADRA1A; II) DISTINCT EFFECTS ON HISTONE 4 ACETYLATION ENRICHMENT, WITH MODAFINIL INCREASING H4AC AT THE DRD2 PROMOTER AND DECREASING IT AT HRH1, BUT METH INCREASING H4AC AT DRD1; III) COMPARABLE EFFECTS OF BOTH PSYCHOSTIMULANTS, INCREASING H3AC AT DRD2, HCRTR1, AND HRH1 PROMOTERS, DECREASING H3AC AT HRH3, INCREASING H4AC AT HCRTR1, AND DECREASING H4AC AT HCRTR2, HRH3, AND GRIN1 PROMOTERS. INTERESTINGLY, ONLY METH ALTERED MRNA LEVELS OF GENES WITH ALTERED HISTONE ACETYLATION STATUS, INDUCING INCREASED EXPRESSION OF DRD1A, ADRA1A, HCRTR1, AND HRH1, AND DECREASING GRIN1. OUR STUDY SUGGESTS THAT ALTHOUGH ACUTE METH AND MODAFINIL CAN BOTH INCREASE DA NEUROTRANSMISSION IN THE MPFC, THERE ARE SIMILAR AND CONTRASTING EPIGENETIC AND TRANSCRIPTIONAL CONSEQUENCES THAT MAY ACCOUNT FOR THEIR DIVERGENT CLINICAL EFFECTS. 2019 3 4212 40 METHAMPHETAMINE DOWNREGULATES STRIATAL GLUTAMATE RECEPTORS VIA DIVERSE EPIGENETIC MECHANISMS. BACKGROUND: CHRONIC METHAMPHETAMINE (METH) EXPOSURE CAUSES NEUROADAPTATIONS AT GLUTAMATERGIC SYNAPSES. METHODS: TO IDENTIFY THE METH-INDUCED EPIGENETIC UNDERPINNINGS OF THESE NEUROADAPTATIONS, WE INJECTED INCREASING METH DOSES TO RATS FOR 2 WEEKS AND MEASURED STRIATAL GLUTAMATE RECEPTOR EXPRESSION. WE THEN QUANTIFIED THE EFFECTS OF METH EXPOSURE ON HISTONE ACETYLATION. WE ALSO MEASURED METH-INDUCED CHANGES IN DNA METHYLATION AND DNA HYDROXYMETHYLATION. RESULTS: CHRONIC METH DECREASED TRANSCRIPT AND PROTEIN EXPRESSION OF GLUA1 AND GLUA2 ALPHA-AMINO-3-HYDROXY-5-METHYL-4-ISOXAZOLE PROPIONIC ACID RECEPTOR (AMPAR) AND GLUN1 N-METHYL-D-ASPARTATE RECEPTOR SUBUNITS. THESE CHANGES WERE ASSOCIATED WITH ALTERED ELECTROPHYSIOLOGICAL GLUTAMATERGIC RESPONSES IN STRIATAL NEURONS. CHROMATIN IMMUNOPRECIPITATION-POLYMERASE CHAIN REACTION REVEALED THAT METH DECREASED ENRICHMENT OF ACETYLATED HISTONE H4 ON GLUA1, GLUA2, AND GLUN1 PROMOTERS. METHAMPHETAMINE EXPOSURE ALSO INCREASED REPRESSOR ELEMENT-1 SILENCING TRANSCRIPTION FACTOR (REST) COREPRESSOR 1, METHYLATED CPG BINDING PROTEIN 2, AND HISTONE DEACETYLASE 2 ENRICHMENT, BUT NOT OF SIRTUIN 1 OR SIRTUIN 2, ONTO GLUA1 AND GLUA2 GENE SEQUENCES. MOREOVER, METH CAUSED INTERACTIONS OF REST COREPRESSOR 1 AND METHYLATED CPG BINDING PROTEIN 2 WITH HISTONE DEACETYLASE 2 AND OF REST WITH HISTONE DEACETYLASE 1. SURPRISINGLY, METHYLATED DNA IMMUNOPRECIPITATION AND HYDROXYMETHYLATED DNA IMMUNOPRECIPITATION-POLYMERASE CHAIN REACTION REVEALED METH-INDUCED DECREASED ENRICHMENT OF 5-METHYLCYTOSINE AND 5-HYDROXYMETHYLCYTOSINE AT GLUA1 AND GLUA2 PROMOTER SEQUENCES. IMPORTANTLY, THE HISTONE DEACETYLASE INHIBITOR, VALPROIC ACID, BLOCKED METH-INDUCED DECREASED EXPRESSION OF AMPAR AND N-METHYL-D-ASPARTATE RECEPTOR SUBUNITS. FINALLY, VALPROIC ACID ALSO ATTENUATED METH-INDUCED DECREASE H4K16AC RECRUITMENT ON AMPAR GENE SEQUENCES. CONCLUSIONS: THESE OBSERVATIONS SUGGEST THAT HISTONE H4 HYPOACETYLATION MAY BE THE MAIN DETERMINANT OF METH-INDUCED DECREASED STRIATAL GLUTAMATE RECEPTOR EXPRESSION. 2014 4 949 40 CHRONIC METHAMPHETAMINE TREATMENT REDUCES THE EXPRESSION OF SYNAPTIC PLASTICITY GENES AND CHANGES THEIR DNA METHYLATION STATUS IN THE MOUSE BRAIN. METHAMPHETAMINE (METH) IS A HIGHLY ADDICTIVE PSYCHOSTIMULANT THAT MAY CAUSE LONG-LASTING SYNAPTIC DYSFUNCTION AND ABNORMAL GENE EXPRESSION. WE AIMED TO EXPLORE THE DIFFERENTIAL EXPRESSION OF SYNAPTIC PLASTICITY GENES IN CHRONIC METH-TREATED MOUSE BRAIN. WE USED THE RT(2) PROFILER PCR ARRAY AND THE REAL-TIME QUANTITATIVE PCR TO CHARACTERIZE DIFFERENTIALLY EXPRESSED SYNAPTIC PLASTICITY GENES IN THE FRONTAL CORTEX AND THE HIPPOCAMPUS OF CHRONIC METH-TREATED MICE COMPARED WITH NORMAL SALINE-TREATED MICE. WE FURTHER USED PYROSEQUENCING TO ASSESS DNA METHYLATION CHANGES IN THE CPG REGION OF THE FIVE IMMEDIATE EARLY GENES (IEGS) IN CHRONIC METH-TREATED MOUSE BRAIN. WE DETECTED SIX DOWNREGULATED GENES IN THE FRONTAL CORTEX AND THE HIPPOCAMPUS OF CHRONIC METH-TREATED MICE, INCLUDING FIVE IEGS (ARC, EGR2, FOS, KLF10, AND NR4A1) AND ONE NEURONAL RECEPTOR GENE (GRM1), COMPARED WITH NORMAL SALINE-TREATED GROUP, BUT ONLY FOUR GENES (ARC, EGR2, FOS, AND NR4A1) WERE CONFIRMED TO BE DIFFERENT. FURTHERMORE, WE FOUND SEVERAL CPG SITES OF THE ARC AND THE FOS THAT HAD SIGNIFICANT CHANGES IN DNA METHYLATION STATUS IN THE FRONTAL CORTEX OF CHRONIC METH-TREATED MICE, WHILE THE KLF10 AND THE NR4A1 THAT HAD SIGNIFICANT CHANGES IN THE HIPPOCAMPUS. OUR RESULTS SHOW THAT CHRONIC ADMINISTRATION OF METH MAY LEAD TO SIGNIFICANT DOWNREGULATION OF THE IEGS EXPRESSION IN BOTH THE FRONTAL CORTEX AND THE HIPPOCAMPUS, WHICH MAY PARTLY ACCOUNT FOR THE MOLECULAR MECHANISM OF THE ACTION OF METH. FURTHERMORE, THE CHANGES IN DNA METHYLATION STATUS OF THE IEGS IN THE BRAIN INDICATE THAT AN EPIGENETIC MECHANISM-DEPENDENT TRANSCRIPTIONAL REGULATION MAY CONTRIBUTE TO METH ADDICTION, WHICH WARRANTS ADDITIONAL STUDY. 2015 5 1818 35 EFFECTS OF CHRONIC METHAMPHETAMINE EXPOSURE ON REWARDING BEHAVIOR AND NEURODEGENERATION MARKERS IN ADULT MICE. RECREATIONAL AND MEDICAL USE OF STIMULANTS AMONG YOUNG ADULTS HAVE GAINED POPULARITY IN THE UNITED STATES OVER THE LAST DECADE AND THEIR USE MAY INCREASE VULNERABILITY TO BRAIN BIOCHEMICAL CHANGES AND ADDICTIVE BEHAVIORS. THE LONG-TERM EFFECTS OF CHRONIC STIMULANT EXPOSURE IN LATER ADULTHOOD HAVE NOT BEEN FULLY ELUCIDATED.OUR STUDY INVESTIGATED WHETHER CHRONIC EXPOSURE TO METHAMPHETAMINE (METH), AT A DOSE DESIGNED TO EMULATE HUMAN THERAPEUTIC DOSING FOR ADHD, WOULD PROMOTE BIOCHEMICAL ALTERATIONS AND AFFECT SENSITIVITY TO THE REWARDING EFFECTS OF SUBSEQUENT METH DOSING.GROUPS OF 3.5-MONTH-OLD MALE AND FEMALE C57BL/6J MICE WERE ADMINISTERED NON-CONTINGENT INTRAPERITONEAL INJECTIONS OF EITHER SALINE OR METH (1.4 MG/KG) TWICE A DAY FOR 1 MONTH (5 DAYS/WEEK). METH (0.5 MG/KG)-INDUCED CONDITIONED PLACE PREFERENCE (CPP) WAS TESTED IN MICE TO DETERMINE THE EFFECTS OF PREVIOUS METH EXPOSURE ON REWARD-RELATED BEHAVIOR. MICE WERE RANDOMLY ASSIGNED TO EXPERIMENT I (MALES AND FEMALES) OR EXPERIMENT II (FEMALES ONLY) IN WHICH CPP TESTING WAS RESPECTIVELY PERFORMED EITHER 0.5 OR 5 MONTHS AFTER THE END OF METH INJECTIONS, AT ~5 OR 10 MONTHS OLD RESPECTIVELY. THE MIDBRAIN AND STRIATUM, REGIONS INVOLVED IN REWARD CIRCUIT, WERE ASSESSED FOR MARKERS ASSOCIATED WITH NEUROTOXICITY, DOPAMINERGIC FUNCTION, NEUROINFLAMMATION AND EPIGENETIC CHANGES AFTER BEHAVIORAL TESTING.PREVIOUS EXPOSURE TO CHRONIC METH DID NOT HAVE SIGNIFICANT SHORT-TERM EFFECTS ON CPP RESPONSE BUT LED TO A DECREASED CPP RESPONSE IN 10-MONTH-OLD FEMALES. PREVIOUS EXPOSURE TO METH INDUCED SOME SHORT-TERM CHANGES TO BIOCHEMICAL MARKERS MEASURED IN A BRAIN REGION AND SEX-DEPENDENT MANNER, WHILE LONG-TERM CHANGES WERE ONLY OBSERVED WITH GFAP AND KDM5C.IN CONCLUSION, OUR DATA SUGGEST SEX- AND POST-EXPOSURE DURATION-DEPENDENT OUTCOMES AND WARRANT FURTHER EXPLORATION OF THE LONG-TERM NEUROBEHAVIORAL CONSEQUENCES OF PSYCHOSTIMULANT USE IN BOTH SEXES. 2023 6 3443 29 HYPERMETHYLATION IN THE PROMOTER REGION OF THE ADRA1A GENE IS ASSOCIATED WITH OPIOID USE DISORDER IN HAN CHINESE. OPIOID USE DISORDER IS A CHRONIC BRAIN DISEASE INFLUENCED BY GENETIC AND EPIGENETIC FACTORS, ACCOUNTING FOR APPROXIMATELY 50% OF THE LIABILITY. ADRENERGIC SIGNALING IS INVOLVED IN OPIOID USE DISORDER. TO DEMONSTRATE THE ASSOCIATIONS BETWEEN METHYLATION ALTERATIONS IN THE ALPHA-1-ADRENERGIC RECEPTOR (ADRA1A) GENE AND OPIOID USE DISORDER, IN THE PRESENT STUDY, WE FIRST EXAMINED AND COMPARED THE METHYLATION LEVELS OF 97 CPG SITES IN THE PROMOTER REGION OF THE ADRA1A GENE IN THE PERIPHERAL BLOOD IN 120 PATIENTS WITH HEROIN USE DISORDER AND 111 HEALTHY CONTROLS. CORRELATIONS BETWEEN METHYLATION LEVELS AND DURATION OF HEROIN/METHADONE USE WERE THEN ANALYZED. FINALLY, THE PREDICTED BINDING TRANSCRIPTION FACTORS (TFS) AND THEIR TARGET SEQUENCES IN THE PROMOTER REGION OF THE ADRA1A GENE, WHICH INCLUDE THE SELECTED CPG SITES, WERE SCREENED IN THE JASPAR DATABASE. OUR RESULTS DEMONSTRATED THAT HYPERMETHYLATION IN THE PROMOTER REGION OF THE ADRA1A GENE IN THE BLOOD WAS ASSOCIATED WITH OPIOID USE DISORDER. CORRELATIONS BETWEEN METHYLATION LEVELS OF SEVERAL CPG SITES AND DURATION OF HEROIN/METHADONE USE WERE OBSERVED. TFS TFAP2A AND RUNX1 WERE PREDICTED TO BIND TO THE TARGET SEQUENCES, WHICH INCLUDE THE CPG SITES SELECTED IN THE CURRENT STUDY, IN THE PROMOTER REGION OF THE ADRA1A GENE. OUR FINDINGS FURTHER EXTEND THE ASSOCIATIONS BETWEEN METHYLATION ALTERATIONS IN THE ADRA1A GENE AND OPIOID USE DISORDER POTENTIALLY THROUGH MECHANISMS OF GENE EXPRESSION REGULATIONS IN THE ADRA1A GENE. 2022 7 6525 39 TRANSCRIPTIONAL AND EPIGENETIC SUBSTRATES OF METHAMPHETAMINE ADDICTION AND WITHDRAWAL: EVIDENCE FROM A LONG-ACCESS SELF-ADMINISTRATION MODEL IN THE RAT. METHAMPHETAMINE USE DISORDER IS A CHRONIC NEUROPSYCHIATRIC DISORDER CHARACTERIZED BY RECURRENT BINGE EPISODES, INTERVALS OF ABSTINENCE, AND RELAPSES TO DRUG USE. HUMANS ADDICTED TO METHAMPHETAMINE EXPERIENCE VARIOUS DEGREES OF COGNITIVE DEFICITS AND OTHER NEUROLOGICAL ABNORMALITIES THAT COMPLICATE THEIR ACTIVITIES OF DAILY LIVING AND THEIR PARTICIPATION IN TREATMENT PROGRAMS. IMPORTANTLY, MODELS OF METHAMPHETAMINE ADDICTION IN RODENTS HAVE SHOWN THAT ANIMALS WILL READILY LEARN TO GIVE THEMSELVES METHAMPHETAMINE. RATS ALSO ACCELERATE THEIR INTAKE OVER TIME. MICROARRAY STUDIES HAVE ALSO SHOWN THAT METHAMPHETAMINE TAKING IS ASSOCIATED WITH MAJOR TRANSCRIPTIONAL CHANGES IN THE STRIATUM MEASURED WITHIN A SHORT OR LONGER TIME AFTER CESSATION OF DRUG TAKING. AFTER A 2-H WITHDRAWAL TIME, THERE WAS INCREASED EXPRESSION OF GENES THAT PARTICIPATE IN TRANSCRIPTION REGULATION. THESE INCLUDED CYCLIC AMP RESPONSE ELEMENT BINDING (CREB), ETS DOMAIN-CONTAINING PROTEIN (ELK1), AND MEMBERS OF THE FOS FAMILY OF TRANSCRIPTION FACTORS. OTHER GENES OF INTEREST INCLUDE BRAIN-DERIVED NEUROTROPHIC FACTOR (BDNF), TYROSINE KINASE RECEPTOR, TYPE 2 (TRKB), AND SYNAPTOPHYSIN. METHAMPHETAMINE-INDUCED TRANSCRIPTION WAS FOUND TO BE REGULATED VIA PHOSPHORYLATED CREB-DEPENDENT EVENTS. AFTER A 30-DAY WITHDRAWAL FROM METHAMPHETAMINE SELF-ADMINISTRATION, HOWEVER, THERE WAS MOSTLY DECREASED EXPRESSION OF TRANSCRIPTION FACTORS INCLUDING JUND. THERE WAS ALSO DOWNREGULATION OF GENES WHOSE PROTEIN PRODUCTS ARE CONSTITUENTS OF CHROMATIN-REMODELING COMPLEXES. ALTOGETHER, THESE GENOME-WIDE RESULTS SHOW THAT METHAMPHETAMINE ABUSE MIGHT BE ASSOCIATED WITH ALTERED REGULATION OF A DIVERSITY OF GENE NETWORKS THAT IMPACT CELLULAR AND SYNAPTIC FUNCTIONS. THESE TRANSCRIPTIONAL CHANGES MIGHT SERVE AS TRIGGERS FOR THE NEUROPSYCHIATRIC PRESENTATIONS OF HUMANS WHO ABUSE THIS DRUG. BETTER UNDERSTANDING OF THE WAY THAT GENE PRODUCTS INTERACT TO CAUSE METHAMPHETAMINE ADDICTION WILL HELP TO DEVELOP BETTER PHARMACOLOGICAL TREATMENT OF METHAMPHETAMINE ADDICTS. 2015 8 3177 35 H3K9ME2 REGULATION OF BDNF EXPRESSION IN THE HIPPOCAMPUS AND MEDIAL PREFRONTAL CORTEX IS INVOLVED IN THE DEPRESSIVE-LIKE PHENOTYPE INDUCED BY MATERNAL SEPARATION IN MALE RATS. BACKGROUND: EARLY LIFE STRESS (ELS) INDUCES A DEPRESSIVE-LIKE PHENOTYPE AND INCREASES THE RISK OF DEPRESSION. BRAIN-DERIVED NEUROTROPHIC FACTOR (BDNF) HAS BEEN CONFIRMED TO BE INVOLVED IN THE PATHOPHYSIOLOGY OF DEPRESSION. HOWEVER, THE MECHANISM BY WHICH ELS ALTERS THE EPIGENETIC REGULATION OF BDNF AND CHANGES SUSCEPTIBILITY TO DEPRESSION HAS NOT BEEN FULLY CLARIFIED. METHODS: THE PRESENT STUDY USED MATERNAL SEPARATION (MS) AND CHRONIC UNPREDICTED MILD STRESS (CUMS) TO ESTABLISH AN MS ANIMAL MODEL AND A DEPRESSIVE ANIMAL MODEL. WE ASSESSED DEPRESSIVE-LIKE BEHAVIOURS, INCLUDING ANHEDONIA, LOCOMOTOR ACTIVITY, ANXIETY-LIKE BEHAVIOUR, AND SPATIAL MEMORY, USING THE SUCROSE PREFERENCE TEST, THE OPEN FIELD TEST, THE ELEVATED PLUS MAZE TEST, AND THE MORRIS WATER MAZE TEST. WE ALSO INVESTIGATED BDNF AND H3K9ME2 EXPRESSION IN THE HIPPOCAMPUS AND MEDIAL PREFRONTAL CORTEX (MPFC) BY IMMUNOHISTOCHEMISTRY, WESTERN BLOTTING, AND QPCR ANALYSIS. ADDITIONALLY, WE USED UNC0642, A SMALL MOLECULE INHIBITOR OF HISTONE METHYLTRANSFERASE (G9A), AS AN INTERVENTION. RESULTS: THE RESULTS SHOWED THAT CUMS INDUCED DEPRESSIVE-LIKE BEHAVIOURS IN RATS AND RESULTED IN INCREASED H3K9ME2 EXPRESSION AND DECREASED BDNF EXPRESSION IN THE HIPPOCAMPUS AND MPFC. MORE IMPORTANTLY, ADULT MS RATS EXPERIENCING CUMS HAD MORE SEVERE DEPRESSIVE BEHAVIOURS, HAD HIGHER EXPRESSION OF H3K9ME2 IN THE HIPPOCAMPUS AND MPFC, AND HAD LOWER EXPRESSION OF BDNF IN THE HIPPOCAMPUS AND MPFC. IN ADDITION, ADMINISTRATION OF THE G9A INHIBITOR REVERSED MOST OF THE CHANGES. CONCLUSIONS: OUR STUDY SUGGESTS THAT ELS CHANGED BDNF AND H3K9ME2 EXPRESSION IN THE RAT BRAIN, RESULTING IN A DEPRESSIVE-LIKE PHENOTYPE. 2021 9 4860 28 OREXIN SIGNALING MEDIATES THE ANTIDEPRESSANT-LIKE EFFECT OF CALORIE RESTRICTION. DURING PERIODS OF REDUCED FOOD AVAILABILITY, ANIMALS MUST RESPOND WITH BEHAVIORAL ADAPTATIONS THAT PROMOTE SURVIVAL. DESPITE THE FACT THAT MANY PSYCHIATRIC SYNDROMES INCLUDE DISORDERED EATING PATTERNS AS A COMPONENT OF THE ILLNESS, LITTLE IS KNOWN ABOUT THE NEUROBIOLOGY UNDERLYING BEHAVIORAL CHANGES INDUCED BY SHORT-TERM CALORIE RESTRICTION. PRESENTLY, WE DEMONSTRATE THAT 10 D OF CALORIE RESTRICTION, CORRESPONDING TO A 20-25% WEIGHT LOSS, CAUSES A MARKED ANTIDEPRESSANT-LIKE RESPONSE IN TWO RODENT MODELS OF DEPRESSION AND THAT THIS RESPONSE IS DEPENDENT ON THE HYPOTHALAMIC NEUROPEPTIDE OREXIN (HYPOCRETIN). WILD-TYPE MICE, BUT NOT MICE LACKING OREXIN, SHOW LONGER LATENCY TO IMMOBILITY AND LESS TOTAL IMMOBILITY IN THE FORCED SWIM TEST AFTER CALORIE RESTRICTION. IN THE SOCIAL DEFEAT MODEL OF CHRONIC STRESS, CALORIE RESTRICTION REVERSES THE BEHAVIORAL DEFICITS SEEN IN WILD-TYPE MICE BUT NOT IN OREXIN KNOCK-OUT MICE. ADDITIONALLY, CHRONIC SOCIAL DEFEAT STRESS INDUCES A PROLONGED REDUCTION IN THE EXPRESSION OF PREPRO-OREXIN MRNA VIA EPIGENETIC MODIFICATION OF THE OREXIN GENE PROMOTER, WHEREAS CALORIE RESTRICTION ENHANCES THE ACTIVATION OF OREXIN CELLS AFTER SOCIAL DEFEAT. TOGETHER, THESE DATA INDICATE THAT OREXIN PLAYS AN ESSENTIAL ROLE IN MEDIATING REDUCED DEPRESSION-LIKE SYMPTOMS INDUCED BY CALORIE RESTRICTION. 2008 10 431 47 ANTIDEPRESSANT ADMINISTRATION MODULATES STRESS-INDUCED DNA METHYLATION AND DNA METHYLTRANSFERASE EXPRESSION IN RAT PREFRONTAL CORTEX AND HIPPOCAMPUS. STRESS AND ANTIDEPRESSANT TREATMENT CAN MODULATE DNA METHYLATION IN PROMOTER REGION OF GENES RELATED TO NEUROPLASTICITY AND MOOD REGULATION, THUS IMPLICATING THIS EPIGENETIC MECHANISM IN DEPRESSION NEUROBIOLOGY AND TREATMENT. ACCORDINGLY, SYSTEMIC ADMINISTRATION OF DNA METHYLTRANSFERASE (DNMT) INHIBITORS INDUCES ANTIDEPRESSANT-LIKE EFFECTS IN RODENTS. DNA METHYLATION IS CONVEYED BY DNMT 1, 3A AND 3B ISOFORMS, WHICH ARE DIFFERENTIALLY EXPRESSED IN THE BRAIN. IN ORDER TO INVESTIGATE IF THE BEHAVIORAL EFFECTS OF ANTIDEPRESSANTS COULD BE ASSOCIATED WITH CHANGES IN DNA METHYLATION AND DNMT EXPRESSION, WE INVESTIGATED THE EFFECTS INDUCED BY ACUTE AND REPEATED ANTIDEPRESSANT TREATMENT ON DNA METHYLATION AND DNMT EXPRESSION (1, 3A AND 3B ISOFORMS) IN DIFFERENT BRAIN REGIONS OF RATS EXPOSED TO A STRESS MODEL OF DEPRESSION, THE LEARNED HELPLESSNESS (LH). THEREFORE, RATS WERE EXPOSED TO PRETEST AND TREATED WITH ONE OR SEVEN INJECTIONS OF VEHICLE OR IMIPRAMINE (15 MG KG(-1)), WITH TEST SESSION PERFORMED ONE HOUR AFTER THE LAST INJECTION. CHRONIC, BUT NOT ACUTE, IMIPRAMINE ADMINISTRATION ATTENUATED ESCAPE FAILURES DURING THE TEST, A WELL DESCRIBED ANTIDEPRESSANT-LIKE EFFECT IN THIS MODEL. DNA METHYLATION AND DNMT (1, 3A AND 3B) LEVELS WERE MEASURED IN THE DORSAL AND VENTRAL HIPPOCAMPUS (DHPC, VHPC) AND IN THE PREFRONTAL CORTEX (PFC) OF RATS EXPOSED TO STRESS AND TREATMENT. STRESS INCREASED DNA METHYLATION, DNMT3A AND DNMT3B EXPRESSION IN THE DHPC AND PFC. CHRONIC, BUT NOT ACUTE, IMIPRAMINE ADMINISTRATION ATTENUATED STRESS EFFECTS ONLY IN THE PFC. THESE RESULTS SUGGEST THE REGULATION OF DNA METHYLATION IN THE PFC MAY BE AN IMPORTANT MECHANISM FOR ANTIDEPRESSANT-LIKE EFFECTS IN THE LH MODEL. 2018 11 4828 44 OLANZAPINE INDUCED DNA METHYLATION CHANGES SUPPORT THE DOPAMINE HYPOTHESIS OF PSYCHOSIS. BACKGROUND: THE DOPAMINE (DA) HYPOTHESIS OF SCHIZOPHRENIA PROPOSES THE MENTAL ILLNESS IS CAUSED BY EXCESSIVE TRANSMISSION OF DOPAMINE IN SELECTED BRAIN REGIONS. MULTIPLE LINES OF EVIDENCE, INCLUDING BLOCKAGE OF DOPAMINE RECEPTORS BY ANTIPSYCHOTIC DRUGS THAT ARE USED TO TREAT SCHIZOPHRENIA, SUPPORT THE HYPOTHESIS. HOWEVER, THE DOPAMINE D2 RECEPTOR (DRD2) BLOCKADE CANNOT EXPLAIN SOME IMPORTANT ASPECTS OF THE THERAPEUTIC EFFECT OF ANTIPSYCHOTIC DRUGS. IN THIS STUDY, WE HYPOTHESIZED THAT ANTIPSYCHOTIC DRUGS COULD AFFECT THE TRANSCRIPTION OF GENES IN THE DA PATHWAY BY ALTERING THEIR EPIGENETIC PROFILE. METHODS: TO TEST THIS HYPOTHESIS, WE EXAMINED THE EFFECT OF OLANZAPINE, A COMMONLY USED ATYPICAL ANTIPSYCHOTIC DRUG, ON THE DNA METHYLATION STATUS OF GENES FROM DA NEUROTRANSMISSION IN THE BRAIN AND LIVER OF RATS. GENOMIC DNA ISOLATED FROM HIPPOCAMPUS, CEREBELLUM, AND LIVER OF OLANZAPINE TREATED (N = 2) AND CONTROL (N = 2) RATS WERE ANALYZED USING RAT SPECIFIC METHYLATION ARRAYS. RESULTS: OUR RESULTS SHOW THAT OLANZAPINE CAUSES METHYLATION CHANGES IN GENES ENCODING FOR DA RECEPTORS (DOPAMINE D1 RECEPTOR, DOPAMINE D2 RECEPTOR AND DOPAMINE D5 RECEPTOR), A DA TRANSPORTER (SOLUTE CARRIER FAMILY 18 MEMBER 2), A DA SYNTHESIS (DIFFERENTIAL DISPLAY CLONE 8), AND A DA METABOLISM (CATECHOL-O-METHYLTRANSFERASE). WE ASSESSED A TOTAL OF 40 GENES IN THE DA PATHWAY AND FOUND 19 TO BE DIFFERENTIALLY METHYLATED BETWEEN OLANZAPINE TREATED AND CONTROL RATS. MOST (17/19) GENES SHOWED AN INCREASE IN METHYLATION, IN THEIR PROMOTER REGIONS WITH IN SILICO ANALYSIS STRONGLY INDICATING A FUNCTIONAL POTENTIAL TO SUPPRESS TRANSCRIPTION IN THE BRAIN. CONCLUSION: OUR RESULTS SUGGEST THAT CHRONIC OLANZAPINE MAY REDUCE DA ACTIVITY BY ALTERING GENE METHYLATION. IT MAY ALSO EXPLAIN THE DELAYED THERAPEUTIC EFFECT OF ANTIPSYCHOTICS, WHICH OCCURS DESPITE RAPID DOPAMINE BLOCKADE. FURTHERMORE, GIVEN THE COMMON NATURE OF EPIGENETIC VARIATION, THIS LENDS INSIGHT INTO THE DIFFERENTIAL THERAPEUTIC RESPONSE OF PSYCHOTIC PATIENTS WHO DISPLAY ADEQUATE BLOCKAGE OF DOPAMINE RECEPTORS. 2013 12 2827 42 FLUOXETINE INCREASES HIPPOCAMPAL NEUROGENESIS AND INDUCES EPIGENETIC FACTORS BUT DOES NOT IMPROVE FUNCTIONAL RECOVERY AFTER TRAUMATIC BRAIN INJURY. THE SELECTIVE SEROTONIN REUPTAKE INHIBITOR FLUOXETINE INDUCES HIPPOCAMPAL NEUROGENESIS, STIMULATES MATURATION AND SYNAPTIC PLASTICITY OF ADULT HIPPOCAMPAL NEURONS, AND REDUCES MOTOR/SENSORY AND MEMORY IMPAIRMENTS IN SEVERAL CNS DISORDERS. IN THE SETTING OF TRAUMATIC BRAIN INJURY (TBI), ITS EFFECTS ON NEUROPLASTICITY AND FUNCTION HAVE YET TO BE THOROUGHLY INVESTIGATED. HERE WE EXAMINED THE EFFICACY OF FLUOXETINE AFTER A MODERATE TO SEVERE TBI, PRODUCED BY A CONTROLLED CORTICAL IMPACT. THREE DAYS AFTER TBI OR SHAM SURGERY, MICE WERE TREATED WITH FLUOXETINE (10 MG/KG/D) OR VEHICLE FOR 4 WEEKS. TO EVALUATE THE EFFECTS OF FLUOXETINE ON NEUROPLASTICITY, HIPPOCAMPAL NEUROGENESIS AND EPIGENETIC MODIFICATION WERE STUDIED. STEREOLOGIC ANALYSIS OF THE DENTATE GYRUS REVEALED A SIGNIFICANT INCREASE IN DOUBLECORTIN-POSITIVE CELLS IN BRAIN-INJURED ANIMALS TREATED WITH FLUOXETINE RELATIVE TO CONTROLS, A FINDING CONSISTENT WITH ENHANCED HIPPOCAMPAL NEUROGENESIS. EPIGENETIC MODIFICATIONS, INCLUDING AN INCREASE IN HISTONE 3 ACETYLATION AND INDUCTION OF METHYL-CPG-BINDING PROTEIN, A TRANSCRIPTION FACTOR INVOLVED IN DNA METHYLATION, WERE LIKEWISE SEEN BY IMMUNOHISTOCHEMISTRY AND QUANTITATIVE WESTERN IMMUNOBLOTS, RESPECTIVELY, IN BRAIN-INJURED ANIMALS TREATED WITH FLUOXETINE. TO DETERMINE IF FLUOXETINE IMPROVES NEUROLOGICAL OUTCOMES AFTER TBI, GAIT FUNCTION AND SPATIAL LEARNING AND MEMORY WERE ASSESSED BY THE CATWALK-ASSISTED GAIT TEST AND BARNES MAZE TEST, RESPECTIVELY. NO DIFFERENCES IN THESE PARAMETERS WERE SEEN BETWEEN FLUOXETINE- AND VEHICLE-TREATED ANIMALS. THUS WHILE FLUOXETINE ENHANCED NEUROPLASTICITY IN THE HIPPOCAMPUS AFTER TBI, ITS CHRONIC ADMINISTRATION DID NOT RESTORE LOCOMOTOR FUNCTION OR AMELIORATE MEMORY DEFICITS. 2011 13 1809 36 EFFECTS OF ANTIPSYCHOTIC DRUGS ON THE EPIGENETIC MODIFICATION OF BRAIN-DERIVED NEUROTROPHIC FACTOR GENE EXPRESSION IN THE HIPPOCAMPI OF CHRONIC RESTRAINT STRESS RATS. RECENT STUDIES HAVE SHOWN THAT ANTIPSYCHOTIC DRUGS HAVE EPIGENETIC EFFECTS. HOWEVER, THE EFFECTS OF ANTIPSYCHOTIC DRUGS ON HISTONE MODIFICATION REMAIN UNCLEAR. THEREFORE, WE INVESTIGATED THE EFFECTS OF ANTIPSYCHOTIC DRUGS ON THE EPIGENETIC MODIFICATION OF THE BDNF GENE IN THE RAT HIPPOCAMPUS. RATS WERE SUBJECTED TO CHRONIC RESTRAINT STRESS (6 H/D FOR 21 D) AND THEN WERE ADMINISTERED WITH EITHER OLANZAPINE (2 MG/KG) OR HALOPERIDOL (1 MG/KG). THE LEVELS OF HISTONE H3 ACETYLATION AND MECP2 BINDING AT BDNF PROMOTER IV WERE ASSESSED WITH CHROMATIN IMMUNOPRECIPITATION ASSAYS. THE MRNA LEVELS OF TOTAL BDNF WITH EXON IV, HDAC5, DNMT1, AND DNMT3A WERE ASSESSED WITH A QUANTITATIVE RT-PCR PROCEDURE. CHRONIC RESTRAINT STRESS RESULTED IN THE DOWNREGULATION OF TOTAL AND EXON IV BDNF MRNA LEVELS AND A DECREASE IN HISTONE H3 ACETYLATION AND AN INCREASE IN MECP2 BINDING AT BDNF PROMOTER IV. FURTHERMORE, THERE WERE ROBUST INCREASES IN THE EXPRESSION OF HDAC5 AND DNMTS. OLANZAPINE ADMINISTRATION LARGELY PREVENTED THESE CHANGES. THE ADMINISTRATION OF HALOPERIDOL HAD NO EFFECT. THESE FINDINGS SUGGEST THAT THE ANTIPSYCHOTIC DRUG OLANZAPINE INDUCED HISTONE MODIFICATION OF BDNF GENE EXPRESSION IN THE HIPPOCAMPUS AND THAT THESE EPIGENETIC ALTERATIONS MAY REPRESENT ONE OF THE MECHANISMS UNDERLYING THE ACTIONS OF ANTIPSYCHOTIC DRUGS. 2018 14 5006 52 PERIPHERAL NERVE INJURY IS ACCOMPANIED BY CHRONIC TRANSCRIPTOME-WIDE CHANGES IN THE MOUSE PREFRONTAL CORTEX. BACKGROUND: PERIPHERAL NERVE INJURY CAN HAVE LONG-TERM CONSEQUENCES INCLUDING PAIN-RELATED MANIFESTATIONS, SUCH AS HYPERSENSITIVITY TO CUTANEOUS STIMULI, AS WELL AS AFFECTIVE AND COGNITIVE DISTURBANCES, SUGGESTING THE INVOLVEMENT OF SUPRASPINAL MECHANISMS. CHANGES IN BRAIN STRUCTURE AND CORTICAL FUNCTION ASSOCIATED WITH MANY CHRONIC PAIN CONDITIONS HAVE BEEN REPORTED IN THE PREFRONTAL CORTEX (PFC). THE PFC IS IMPLICATED IN PAIN-RELATED CO-MORBIDITIES SUCH AS DEPRESSION, ANXIETY AND IMPAIRED EMOTIONAL DECISION-MAKING ABILITY. WE RECENTLY REPORTED THAT THIS REGION IS SUBJECT TO SIGNIFICANT EPIGENETIC REPROGRAMMING FOLLOWING PERIPHERAL NERVE INJURY, AND NORMALIZATION OF PAIN-RELATED STRUCTURAL, FUNCTIONAL AND EPIGENETIC ABNORMALITIES IN THE PFC ARE ALL ASSOCIATED WITH EFFECTIVE PAIN REDUCTION. IN THIS STUDY, WE USED THE SPARED NERVE INJURY (SNI) MODEL OF NEUROPATHIC PAIN TO TEST THE HYPOTHESIS THAT PERIPHERAL NERVE INJURY TRIGGERS PERSISTENT LONG-LASTING CHANGES IN GENE EXPRESSION IN THE PFC, WHICH ALTER FUNCTIONAL GENE NETWORKS, THUS PROVIDING A POSSIBLE EXPLANATION FOR CHRONIC PAIN ASSOCIATED BEHAVIORS. RESULTS: SNI OR SHAM SURGERY WHERE PERFORMED IN MALE CD1 MICE AT THREE MONTHS OF AGE. SIX MONTHS AFTER INJURY, WE PERFORMED TRANSCRIPTOME-WIDE SEQUENCING (RNASEQ), WHICH REVEALED 1147 DIFFERENTIALLY REGULATED TRANSCRIPTS IN THE PFC IN NERVE-INJURED VS. CONTROL MICE. CHANGES IN GENE EXPRESSION OCCURRED ACROSS A NUMBER OF FUNCTIONAL GENE CLUSTERS ENCODING CARDINAL BIOLOGICAL PROCESSES AS REVEALED BY INGENUITY PATHWAY ANALYSIS. SIGNIFICANTLY ALTERED BIOLOGICAL PROCESSES INCLUDED NEUROLOGICAL DISEASE, SKELETAL MUSCULAR DISORDERS, BEHAVIOR, AND PSYCHOLOGICAL DISORDERS. SEVERAL OF THE CHANGES DETECTED BY RNASEQ WERE VALIDATED BY RT-QPCR AND INCLUDED TRANSCRIPTS WITH KNOWN ROLES IN CHRONIC PAIN AND/OR NEURONAL PLASTICITY INCLUDING THE NMDA RECEPTOR (GLUTAMATE RECEPTOR, IONOTROPIC, NMDA; GRIN1), NEURITE OUTGROWTH (ROUNDABOUT 3; ROBO3), GLIOSIS (GLIAL FIBRILLARY ACIDIC PROTEIN; GFAP), VESICULAR RELEASE (SYNAPTOTAGMIN 2; SYT2), AND NEURONAL EXCITABILITY (VOLTAGE-GATED SODIUM CHANNEL, TYPE I; SCN1A). CONCLUSIONS: THIS STUDY USED AN UNBIASED APPROACH TO DOCUMENT LONG-TERM ALTERATIONS IN GENE EXPRESSION IN THE BRAIN FOLLOWING PERIPHERAL NERVE INJURY. WE PROPOSE THAT THESE CHANGES ARE MAINTAINED AS A MEMORY OF AN INSULT THAT IS TEMPORALLY AND SPATIALLY DISTANT FROM THE INITIAL INJURY. 2013 15 5749 35 SOCIAL DEFEAT INDUCES CHANGES IN HISTONE ACETYLATION AND EXPRESSION OF HISTONE MODIFYING ENZYMES IN THE VENTRAL HIPPOCAMPUS, PREFRONTAL CORTEX, AND DORSAL RAPHE NUCLEUS. CHRONIC EXPOSURE TO STRESS IS ASSOCIATED WITH A NUMBER OF PSYCHIATRIC DISORDERS, BUT LITTLE IS KNOWN ABOUT THE EPIGENETIC MECHANISMS THAT UNDERLIE THE STRESS RESPONSE OR RESILIENCE TO CHRONIC STRESS. WE INVESTIGATED HISTONE ACETYLATION IN SEVEN DIFFERENT BRAIN REGIONS OF RATS EXPOSED TO CHRONIC SOCIAL DEFEAT STRESS: THE DORSAL HIPPOCAMPUS (DHPC), VENTRAL HIPPOCAMPUS (VHPC), MEDIAL PREFRONTAL CORTEX (MPFC), BASOLATERAL AMYGDALA (BLA), LOCUS COERULEUS (LC), PARAVENTRICULAR THALAMUS (PVT), AND DORSAL RAPHE (DR) NUCLEUS. THIS STRESS PARADIGM WAS UNIQUE IN THAT IT ALLOWED RATS TO DISPLAY RESILIENCE IN THE FORM OF AN ACTIVE COPING MECHANISM. WE FOUND THAT THERE WAS AN INCREASE IN ACETYLATION OF H3K9/14 (H3K9/14AC) AND BULK ACETYLATION OF H4K5,8,12,16 (H4K5,8,12,16AC) IN THE DR NUCLEUS OF RATS THAT WERE LESS RESILIENT. LESS RESILIENT RATS ALSO DISPLAYED INCREASED LEVELS OF H3K18 ACETYLATION (H3K18AC) IN THE MPFC WHEN COMPARED TO NON-STRESSED CONTROLS. IN THE VHPC, THERE WAS AN INCREASE IN H3K18AC AND H4K12 (H4K12AC) IN RATS THAT WERE LESS RESILIENT WHEN COMPARED TO NON-STRESSED CONTROL RATS. IN ADDITION, THERE WAS A DECREASE IN LEVELS OF H4K8 ACETYLATION (H4K8AC) IN BOTH RESILIENT AND NON-RESILIENT RATS AS COMPARED TO CONTROLS. WE ASSESSED EXPRESSION OF HISTONE MODIFYING ENZYMES IN THE VHPC AND THE MPFC USING QUANTITATIVE REAL-TIME POLYMERASE CHAIN REACTION (PCR) AND FOUND CHANGES IN EXPRESSION OF A NUMBER OF TARGETS. THESE INCLUDED CHANGES IN SIRT1 AND SIRT2 IN THE VHPC AND CHANGES IN KAT5 IN THE MPFC. OVERALL, THESE RESULTS SUGGEST THAT CHANGES IN HISTONE ACETYLATION AND EXPRESSION OF HISTONE MODIFYING ENZYMES IN THESE REGIONS CORRELATE WITH THE BEHAVIORAL RESPONSE TO STRESS IN SOCIALLY DEFEATED RATS. 2014 16 219 33 ACUTE IMMOBILIZATION STRESS FOLLOWING CONTEXTUAL FEAR CONDITIONING REDUCES FEAR MEMORY: TIMING IS ESSENTIAL. BACKGROUND: HISTONE ACETYLATION IS REGULATED IN RESPONSE TO STRESS AND PLAYS AN IMPORTANT ROLE IN LEARNING AND MEMORY. CHRONIC STRESS IS KNOWN TO DETERIORATE COGNITION, WHEREAS ACUTE STRESS FACILITATES MEMORY FORMATION. HOWEVER, WHETHER ACUTE STRESS FACILITATES MEMORY FORMATION WHEN IT IS APPLIED AFTER FEAR STIMULATION IS NOT YET KNOWN. THEREFORE, THIS STUDY AIMED TO INVESTIGATE THE EFFECT OF ACUTE STRESS APPLIED AFTER FEAR TRAINING ON MEMORY FORMATION, MRNA EXPRESSION OF BRAIN-DERIVED NEUROTROPHIC FACTOR (BDNF), EPIGENETIC REGULATION OF BDNF EXPRESSION, AND CORTICOSTERONE LEVEL IN MICE IN VIVO. METHODS: MICE WERE SUBJECTED TO ACUTE IMMOBILIZATION STRESS FOR 30 MIN AT 60 OR 90 MIN AFTER CONTEXTUAL FEAR CONDITIONING TRAINING, AND ACETYLATION OF HISTONE 3 AT LYSINE 14 (H3K14) AND LEVEL OF CORTICOSTERONE WERE MEASURED USING WESTERN BLOT ANALYSIS AND ENZYME-LINKED IMMUNOSORBENT ASSAY (ELISA), RESPECTIVELY. A FREEZING BEHAVIOR TEST WAS PERFORMED 24 H AFTER TRAINING, AND MRNA EXPRESSION OF BDNF WAS MEASURED USING REAL-TIME POLYMERASE CHAIN REACTIONS. DIFFERENT GROUPS OF MICE WERE USED FOR EACH TEST. RESULTS: FREEZING BEHAVIOR SIGNIFICANTLY DECREASED WITH THE DOWN-REGULATION OF BDNF MRNA EXPRESSION CAUSED BY ACUTE IMMOBILIZATION STRESS AT 60 MIN AFTER FEAR CONDITIONING TRAINING OWING TO THE REDUCTION OF H3K14 ACETYLATION. HOWEVER, BDNF MRNA EXPRESSION AND H3K14 ACETYLATION WERE NOT REDUCED IN ANIMALS SUBJECTED TO IMMOBILIZATION STRESS AT 90 MIN AFTER THE TRAINING. FURTHER, THE CORTICOSTERONE LEVEL WAS SIGNIFICANTLY HIGH IN MICE SUBJECTED TO IMMOBILIZATION STRESS AT 60 MIN AFTER THE TRAINING. CONCLUSION: ACUTE IMMOBILIZATION STRESS FOR 30 MIN AT 60 MIN AFTER FEAR CONDITIONING TRAINING IMPAIRED MEMORY FORMATION AND REDUCED BDNF MRNA EXPRESSION AND H3K14 ACETYLATION IN THE HIPPOCAMPUS OF MICE OWING TO THE HIGH LEVEL OF CORTICOSTERONE. 2016 17 2705 42 EXERCISE AND LOW-LEVEL GABA(A) RECEPTOR INHIBITION MODULATE LOCOMOTOR ACTIVITY AND THE EXPRESSION OF BDNF ACCOMPANIED BY CHANGES IN EPIGENETIC REGULATION IN THE HIPPOCAMPUS. AEROBIC EXERCISE IS KNOWN TO INCREASE EXPRESSION OF BRAIN-DERIVED NEUROTROPHIC FACTOR (BDNF) IN THE HIPPOCAMPUS AND TO IMPROVE COGNITIVE FUNCTION. THE INHIBITION OF GABAERGIC SYNAPSES ENHANCES HIPPOCAMPAL PLASTICITY AS WELL AS LEARNING AND MEMORY. THE OBJECTIVE OF THE PRESENT STUDY WAS TO EXAMINE THE INTERACTIVE EFFECT OF LOW-LEVEL GABA(A) RECEPTOR INHIBITION AND EXERCISE ON BEHAVIOR TESTS (COGNITIVE FUNCTION AND LOCOMOTOR ACTIVITY), EXPRESSION OF BDNF AND EPIGENETIC REGULATIONS INCLUDING THE ACTIVITY LEVELS OF HISTONE ACETYLTRANSFERASES (HATS) AND HISTONE DEACETYLASES (HDACS) IN THE HIPPOCAMPUS. ICR MICE WERE DIVIDED INTO TWO GROUPS: THOSE WHO DID NOT PARTICIPATE IN EXERCISE AND THOSE WHO PARTICIPATED IN EXERCISE. EACH GROUP WAS SUBDIVIDED INTO TWO OTHER GROUPS: THE ONE WHO RECEIVED VEHICLE AND THE ONE WHO RECEIVED GABA(A) RECEPTOR ANTAGONIST, BICUCULLIN. WE ADMINISTERED SALINE OR BICUCULLINE INTRAPERITONEALLY TO THE MICE AT A NON-EPILEPTIC DOSE OF 0.25 MG/KG, WHEREAS THE MICE WERE EXERCISED ON A TREADMILL FOR APPROXIMATELY 1 H A DAY, 5 DAYS A WEEK FOR 4 WEEKS. NOVEL-OBJECT RECOGNITION TEST AND LOCOMOTOR ACTIVITY WERE ASSESSED AT A REST DAY APPROXIMATELY 4 DAYS BEFORE THE EUTHANASIA. THE MICE WERE EUTHANIZED 4 H AFTER THE LAST EXERCISE SESSION. AEROBIC EXERCISE FOR 4 WEEKS INCREASED MRNA AND PROTEIN EXPRESSION OF BDNF IN THE HIPPOCAMPUS, ACCOMPANIED BY ENHANCED HAT ACTIVITY. ALTERNATIVELY, BICUCULLINE ADMINISTRATION INCREASED HDAC ACTIVITY IN THE HIPPOCAMPUS. FURTHERMORE, EXERCISE IN THE PRESENCE OF BICUCULLINE ADMINISTRATION INCREASED LOCOMOTOR ACTIVITY, INDICATING THAT EXERCISE COMBINED WITH LOW-LEVEL GABA(A) RECEPTOR INHIBITION POTENTIATED THE ACTIVITY OF THE MICE. ALTOGETHER, THE PRESENT STUDY SUGGESTED THAT EXERCISE BENEFICIALLY CONTRIBUTES TO NEUROPROTECTION IN THE HIPPOCAMPUS ACCOMPANIED BY THE UP-REGULATION OF BDNF EXPRESSION AND EPIGENETIC REGULATION, WHEREAS THE CHRONIC INHIBITION OF GABA(A) RECEPTOR POTENTIATES EXERCISE-INDUCED BEHAVIORAL ACTIVITY. 2018 18 1808 52 EFFECTS OF ADOLESCENT SOCIAL STRESS AND ANTIDEPRESSANT TREATMENT ON COGNITIVE INFLEXIBILITY AND BDNF EPIGENETIC MODIFICATIONS IN THE MPFC OF ADULT MICE. ADOLESCENT SOCIAL STRESS (ASS) CAN INCREASE SUSCEPTIBILITY TO DEPRESSION IN ADULTHOOD. HOWEVER, THE UNDERLYING PSYCHOLOGICAL AND NEURAL MECHANISMS REMAIN UNCLEAR. CORTICALLY MEDIATED COGNITIVE DYSFUNCTIONS ARE INCREASINGLY RECOGNIZED AS AN INDEPENDENT AND IMPORTANT RISK FACTOR OF DEPRESSION. USING SOCIAL DEFEAT STRESS, A CLASSICAL ANIMAL MODEL OF DEPRESSION, OUR PREVIOUS STUDIES FOUND THAT MICE SUBJECTED TO THIS FORM OF STRESS DURING EARLY ADOLESCENCE DISPLAYED COGNITIVE INFLEXIBILITY (CI) IN ADULTHOOD. THIS CHANGE WAS ACCOMPANIED BY A DOWN-REGULATION OF BDNF GENE EXPRESSION IN THE MEDIAL PREFRONTAL CORTEX (MPFC); THIS GENE ENCODES A KEY MOLECULE INVOLVED IN DEPRESSION AND ANTIDEPRESSANT ACTION. IN THE PRESENT PAPER, WE IDENTIFIED EPIGENETIC MODIFICATION OF BDNF AS A POSSIBLE MECHANISM UNDERLYING THE BEHAVIORAL AND MOLECULAR CHANGES. ASS INDUCED A SET OF DEPRESSIVE PHENOTYPES, INCLUDING INCREASED SOCIAL AVOIDANCE AND CI, AS WELL AS REDUCED LEVELS OF TOTAL BDNF AND ISOFORM IV BUT NOT ISOFORM I OR VI TRANSCRIPTS IN THE MPFC. IN PARALLEL WITH CHANGES IN BDNF GENE EXPRESSION, PREVIOUSLY STRESSED ADULT MICE SHOWED INCREASED LEVELS OF DIMETHYLATION OF HISTONE H3 AT LYSINE K9 (H3K9ME2) IMMEDIATELY DOWNSTREAM OF THE BDNF IV PROMOTER. ON THE OTHER HAND, NO DIFFERENCES WERE FOUND IN TRIMETHYLATION OF HISTONE H3 AT LYSINE K4 (H3K4ME3) OR IN ACETYLATION OF HISTONE H3 AT LYSINE K9 (H3K9AC) OR AT K4 (H3K4AC) IN THE BDNF IV PROMOTER. LIKEWISE, NO ALTERATIONS WERE FOUND IN DNA METHYLATION OF THE BDNF IV PROMOTER. ADDITIONALLY, TREATMENT WITH THE CHRONIC ANTIDEPRESSANT TRANYLCYPROMINE REVERSED BDNF EPIGENETIC CHANGES AND RELATED GENE TRANSCRIPTION WHILE ALSO REVERSING CI, BUT NOT SOCIAL AVOIDANCE, IN PREVIOUSLY STRESSED ADULT MICE. THESE RESULTS SUGGEST THAT EPIGENETIC CHANGES TO THE BDNF GENE IN THE MPFC AFTER ADOLESCENT SOCIAL ADVERSITY MAY BE INVOLVED IN THE REGULATION OF COGNITIVE DYSFUNCTION IN DEPRESSION AND ANTIDEPRESSANT ACTION IN ADULTHOOD. 2018 19 6175 35 THE HISTONE DEACETYLASE INHIBITOR SUBEROYLANILIDE HYDROXAMIC ACID (SAHA) ALLEVIATES DEPRESSION-LIKE BEHAVIOR AND NORMALIZES EPIGENETIC CHANGES IN THE HIPPOCAMPUS DURING ETHANOL WITHDRAWAL. WITHDRAWAL FROM CHRONIC ALCOHOL DRINKING CAN CAUSE DEPRESSION, LEADING TO AN INABILITY TO FUNCTION IN DAILY LIFE AND AN INCREASED RISK FOR RELAPSE TO HARMFUL DRINKING. UNDERSTANDING THE CAUSES OF ALCOHOL WITHDRAWAL-RELATED DEPRESSION MAY LEAD TO NEW THERAPEUTIC TARGETS FOR TREATMENT. EPIGENETIC FACTORS HAVE RECENTLY EMERGED AS IMPORTANT CONTRIBUTORS TO BOTH DEPRESSION AND ALCOHOL USE DISORDER (AUD). SPECIFICALLY, ACETYLATION OF THE N-TERMINAL TAILS OF HISTONE PROTEINS THAT PACKAGE DNA INTO NUCLEOSOMES IS ALTERED IN STRESS-INDUCED MODELS OF DEPRESSION AND DURING ALCOHOL WITHDRAWAL. THE GOAL OF THIS STUDY WAS TO EXAMINE DEPRESSION-LIKE BEHAVIOR DURING ALCOHOL WITHDRAWAL AND ASSOCIATED CHANGES IN HISTONE ACETYLATION AND EXPRESSION OF HISTONE DEACETYLASE 2 (HDAC2) IN THE HIPPOCAMPUS, A BRAIN REGION CRITICAL FOR MOOD REGULATION AND DEPRESSION. MALE SPRAGUE-DAWLEY RATS WERE TREATED WITH THE LIEBER-DECARLI ETHANOL LIQUID DIET FOR 15 DAYS AND THEN UNDERWENT WITHDRAWAL. RATS WERE TREATED WITH THE HDAC INHIBITOR, SUBEROYLANILIDE HYDROXAMIC ACID (SAHA), DURING WITHDRAWAL AND WERE TESTED FOR DEPRESSION-LIKE BEHAVIOR. IN A SEPARATE GROUP OF RATS, THE HIPPOCAMPUS WAS ANALYZED FOR MRNA AND PROTEIN EXPRESSION OF HDAC2 AND LEVELS OF HISTONE H3 LYSINE 9 ACETYLATION (H3K9AC) DURING CHRONIC ETHANOL EXPOSURE AND WITHDRAWAL. RATS UNDERGOING ETHANOL WITHDRAWAL EXHIBITED DEPRESSION-LIKE BEHAVIOR AND HAD INCREASED HDAC2 AND DECREASED H3K9AC LEVELS IN SPECIFIC STRUCTURES OF THE HIPPOCAMPUS. TREATMENT WITH SAHA DURING WITHDRAWAL AMELIORATED DEPRESSION-LIKE BEHAVIOR AND NORMALIZED CHANGES IN HIPPOCAMPAL HDAC2 AND H3K9AC LEVELS. THESE RESULTS DEMONSTRATE THAT ETHANOL WITHDRAWAL CAUSES AN ALTERED EPIGENETIC STATE IN THE HIPPOCAMPUS. TREATMENT WITH AN HDAC INHIBITOR CAN CORRECT THIS STATE AND ALLEVIATE DEPRESSION-LIKE SYMPTOMS DEVELOPED DURING WITHDRAWAL. TARGETING HISTONE ACETYLATION MAY BE A NOVEL STRATEGY TO REDUCE ETHANOL WITHDRAWAL-INDUCED DEPRESSION. 2019 20 5021 35 PERSISTENT PAIN MAINTAINS MORPHINE-SEEKING BEHAVIOR AFTER MORPHINE WITHDRAWAL THROUGH REDUCED MECP2 REPRESSION OF GLUA1 IN RAT CENTRAL AMYGDALA. AS LONG-TERM OPIOIDS ARE INCREASINGLY USED FOR CONTROL OF CHRONIC PAIN, HOW PAIN AFFECTS THE REWARDING EFFECT OF OPIOIDS AND HENCE RISK OF PRESCRIPTION OPIOID MISUSE AND ABUSE REMAINS A HEALTHCARE CONCERN AND A CHALLENGING ISSUE IN CURRENT PAIN MANAGEMENT. IN THIS STUDY, USING A RAT MODEL OF MORPHINE SELF-ADMINISTRATION, WE INVESTIGATED THE MOLECULAR MECHANISMS UNDERLYING THE IMPACT OF PAIN ON OPERANT BEHAVIOR OF MORPHINE INTAKE AND MORPHINE SEEKING BEFORE AND AFTER MORPHINE WITHDRAWAL. WE FOUND THAT RATS WITH PERSISTENT PAIN CONSUMED A SIMILAR AMOUNT OF DAILY MORPHINE TO THAT IN CONTROL RATS WITHOUT PAIN, BUT MAINTAINED THEIR LEVEL-PRESSING BEHAVIOR OF MORPHINE SEEKING AFTER ABSTINENCE OF MORPHINE AT 0.2 MG/KG, WHEREAS THIS BEHAVIOR WAS GRADUALLY DIMINISHED IN CONTROL RATS. IN THE CENTRAL NUCLEUS OF AMYGDALA (CEA), A LIMBIC STRUCTURE CRITICALLY INVOLVED IN THE AFFECTIVE DIMENSION OF PAIN, PROTEINS OF GLUA1 SUBUNITS OF GLUTAMATE AMPA RECEPTORS WERE UPREGULATED DURING MORPHINE WITHDRAWAL, AND VIRAL KNOCKDOWN OF CEA GLUA1 ELIMINATED THE MORPHINE-SEEKING BEHAVIOR IN WITHDRAWN RATS OF THE PAIN GROUP. CHROMATIN IMMUNOPRECIPITATION ANALYSIS REVEALED THAT THE METHYL CPG-BINDING PROTEIN 2 (MECP2) WAS ENRICHED IN THE PROMOTER REGION OF GRIA1 ENCODING GLUA1 AND THIS ENRICHMENT WAS SIGNIFICANTLY ATTENUATED IN WITHDRAWN RATS OF THE PAIN GROUP. FURTHERMORE, VIRAL OVEREXPRESSION OF CEA MECP2 REPRESSED THE GLUA1 LEVEL AND ELIMINATED THE MAINTENANCE OF MORPHINE-SEEKING BEHAVIOR AFTER MORPHINE WITHDRAWAL. THESE RESULTS SUGGEST DIRECT MECP2 REPRESSION OF GLUA1 FUNCTION AS A LIKELY MECHANISM FOR MORPHINE-SEEKING BEHAVIOR MAINTAINED BY LONG-LASTING AFFECTIVE PAIN AFTER MORPHINE WITHDRAWAL. 2015