1 4173 100 MELATONIN INDUCES HISTONE HYPERACETYLATION IN THE RAT BRAIN. WE HAVE REPORTED THAT MELATONIN INDUCES HISTONE HYPERACETYLATION IN MOUSE NEURAL STEM CELLS, SUGGESTING AN EPIGENETIC ROLE FOR THIS PLEIOTROPIC HORMONE. TO SUPPORT SUCH A ROLE, IT IS NECESSARY TO DEMONSTRATE THAT MELATONIN PRODUCES SIMILAR EFFECTS IN VIVO. HISTONE ACETYLATION, FOLLOWING CHRONIC TREATMENT WITH MELATONIN (4MUG/ML IN DRINKING WATER FOR 17 DAYS), WAS EXAMINED BY WESTERN BLOTTING IN SELECTED RAT BRAIN REGIONS. MELATONIN INDUCED SIGNIFICANT INCREASES IN HISTONE H3 AND HISTONE H4 ACETYLATION IN THE HIPPOCAMPUS. HISTONE H4 WAS ALSO HYPERACETYLATED IN THE STRIATUM, BUT THERE WERE NO SIGNIFICANT CHANGES IN HISTONE H3 ACETYLATION IN THIS BRAIN REGION. NO SIGNIFICANT CHANGES IN THE ACETYLATION OF EITHER HISTONE H3 OR H4 WERE OBSERVED IN THE MIDBRAIN AND CEREBELLUM. AN EXAMINATION OF KINASE ACTIVATION, WHICH MAY BE RELATED TO THESE CHANGES, REVEALED THAT MELATONIN TREATMENT INCREASED THE LEVELS OF PHOSPHO-ERK (EXTRACELLULAR SIGNAL-REGULATED KINASE) IN THE HIPPOCAMPUS AND STRIATUM, BUT PHOSPHO-AKT (PROTEIN KINASE B) LEVELS WERE UNCHANGED. THESE FINDINGS SUGGEST THAT CHROMATIN REMODELING AND ASSOCIATED CHANGES IN THE EPIGENETIC REGULATION OF GENE EXPRESSION UNDERLIE THE MULTIPLE PHYSIOLOGICAL EFFECTS OF MELATONIN. 2013 2 3341 36 HISTONE DEACETYLASE-2 IS INVOLVED IN STRESS-INDUCED COGNITIVE IMPAIRMENT VIA HISTONE DEACETYLATION AND PI3K/AKT SIGNALING PATHWAY MODIFICATION. EXPOSURE TO CHRONIC STRESS UPREGULATES BLOOD GLUCOCORTICOID LEVELS AND IMPAIRS COGNITION VIA DIVERSE EPIGENETIC MECHANISMS, SUCH AS HISTONE DEACETYLATION. HISTONE DEACETYLATION CAN LEAD TO TRANSCRIPTIONAL SILENCING OF MANY PROTEINS INVOLVED IN COGNITION AND MAY ALSO CAUSE LEARNING AND MEMORY DYSFUNCTION. HISTONE DEACETYLASE?2 (HDAC2) HAS BEEN DEMONSTRATED TO EPIGENETICALLY BLOCK COGNITION VIA A REDUCTION IN THE HISTONE ACETYLATION LEVEL; HOWEVER, IT IS UNKNOWN WHETHER HDAC2 IS INVOLVED IN THE COGNITIVE DECLINE INDUCED BY CHRONIC STRESS. TO THE BEST OF AUTHORS' KNOWLEDGE, THIS IS THE FIRST STUDY TO DEMONSTRATE THAT THE STRESS HORMONE CORTICOSTEROID UPREGULATE HDAC2 PROTEIN LEVELS IN NEURO?2A CELLS AND CAUSE CELL INJURIES. HDAC2 KNOCKDOWN RESULTED IN A SIGNIFICANT AMELIORATION OF THE PATHOLOGICAL CHANGES IN N2A CELLS VIA THE UPREGULATION OF HISTONE ACETYLATION AND MODIFICATIONS IN THE PHOSPHOINOSITIDE 3?KINASE/PROTEIN KINASE B SIGNALING PATHWAY. IN ADDITION, THE HDAC2 PROTEIN LEVELS WERE UPREGULATED IN 12?MONTH?OLD FEMALE C57BL/6J MICE UNDER CHRONIC STRESS IN VIVO. TAKEN TOGETHER, THESE FINDINGS SUGGESTED THAT HDAC2 MAY BE AN IMPORTANT NEGATIVE REGULATOR INVOLVED IN CHRONIC STRESS?INDUCED COGNITIVE IMPAIRMENT. 2017 3 1315 31 DELTA FOSB MEDIATES EPIGENETIC DESENSITIZATION OF THE C-FOS GENE AFTER CHRONIC AMPHETAMINE EXPOSURE. THE MOLECULAR MECHANISMS UNDERLYING THE TRANSITION FROM RECREATIONAL DRUG USE TO CHRONIC ADDICTION REMAIN POORLY UNDERSTOOD. ONE MOLECULE IMPLICATED IN THIS PROCESS IS DELTAFOSB, A TRANSCRIPTION FACTOR THAT ACCUMULATES IN STRIATUM AFTER REPEATED DRUG EXPOSURE AND MEDIATES SENSITIZED BEHAVIORAL RESPONSES TO PSYCHOSTIMULANTS AND OTHER DRUGS OF ABUSE. THE DOWNSTREAM TRANSCRIPTIONAL MECHANISMS BY WHICH DELTAFOSB REGULATES DRUG-INDUCED BEHAVIORS ARE INCOMPLETELY UNDERSTOOD. WE REPORTED PREVIOUSLY THE CHROMATIN REMODELING MECHANISMS BY WHICH DELTAFOSB ACTIVATES THE EXPRESSION OF CERTAIN GENES; HOWEVER, THE MECHANISMS UNDERLYING DELTAFOSB-MEDIATED GENE REPRESSION REMAIN UNKNOWN. HERE, WE IDENTIFY C-FOS, AN IMMEDIATE EARLY GENE RAPIDLY INDUCED IN STRIATUM AFTER ACUTE PSYCHOSTIMULANT EXPOSURE, AS A NOVEL DOWNSTREAM TARGET THAT IS REPRESSED CHRONICALLY BY DELTAFOSB. WE SHOW THAT ACCUMULATION OF DELTAFOSB IN STRIATUM AFTER CHRONIC AMPHETAMINE TREATMENT DESENSITIZES C-FOS MRNA INDUCTION TO A SUBSEQUENT DRUG DOSE. DELTAFOSB DESENSITIZES C-FOS EXPRESSION BY RECRUITING HISTONE DEACETYLASE 1 (HDAC1) TO THE C-FOS GENE PROMOTER, WHICH, IN TURN, DEACETYLATES SURROUNDING HISTONES AND ATTENUATES GENE ACTIVITY. ACCORDINGLY, LOCAL KNOCK-OUT OF HDAC1 IN STRIATUM ABOLISHES AMPHETAMINE-INDUCED DESENSITIZATION OF THE C-FOS GENE. IN CONCERT, CHRONIC AMPHETAMINE INCREASES HISTONE H3 METHYLATION ON THE C-FOS PROMOTER, A CHROMATIN MODIFICATION ALSO KNOWN TO REPRESS GENE ACTIVITY, AS WELL AS EXPRESSION LEVELS OF THE H3 HISTONE METHYLTRANSFERASE, KMT1A (LYSINE METHYLTRANSFERASE 1A, FORMERLY SUV39H1). THIS STUDY REVEALS A NOVEL EPIGENETIC PATHWAY THROUGH WHICH DELTAFOSB MEDIATES DISTINCT TRANSCRIPTIONAL PROGRAMS THAT MAY ULTIMATELY ALTER BEHAVIORAL PLASTICITY TO CHRONIC AMPHETAMINE EXPOSURE. 2008 4 1652 32 DOPAMINE SIGNALING LEADS TO LOSS OF POLYCOMB REPRESSION AND ABERRANT GENE ACTIVATION IN EXPERIMENTAL PARKINSONISM. POLYCOMB GROUP (PCG) PROTEINS BIND TO AND REPRESS GENES IN EMBRYONIC STEM CELLS THROUGH LINEAGE COMMITMENT TO THE TERMINAL DIFFERENTIATED STATE. PCG REPRESSED GENES ARE COMMONLY CHARACTERIZED BY THE PRESENCE OF THE EPIGENETIC HISTONE MARK H3K27ME3, CATALYZED BY THE POLYCOMB REPRESSIVE COMPLEX 2. HERE, WE PRESENT IN VIVO EVIDENCE FOR A PREVIOUSLY UNRECOGNIZED PLASTICITY OF PCG-REPRESSED GENES IN TERMINALLY DIFFERENTIATED BRAIN NEURONS OF PARKISONIAN MICE. WE SHOW THAT ACUTE ADMINISTRATION OF THE DOPAMINE PRECURSOR, L-DOPA, INDUCES A REMARKABLE INCREASE IN H3K27ME3S28 PHOSPHORYLATION. THE INDUCTION OF THE H3K27ME3S28P HISTONE MARK SPECIFICALLY OCCURS IN MEDIUM SPINY NEURONS EXPRESSING DOPAMINE D1 RECEPTORS AND IS DEPENDENT ON MSK1 KINASE ACTIVITY AND DARPP-32-MEDIATED INHIBITION OF PROTEIN PHOSPHATASE-1. CHROMATIN IMMUNOPRECIPITATION (CHIP) EXPERIMENTS SHOWED THAT INCREASED H3K27ME3S28P WAS ACCOMPANIED BY REDUCED PCG BINDING TO REGULATORY REGIONS OF GENES. AN ANALYSIS OF THE GENOME WIDE DISTRIBUTION OF L-DOPA-INDUCED H3K27ME3S28 PHOSPHORYLATION BY CHIP SEQUENCING (CHIP-SEQ) IN COMBINATION WITH EXPRESSION ANALYSIS BY RNA-SEQUENCING (RNA-SEQ) SHOWED THAT THE INDUCTION OF H3K27ME3S28P CORRELATED WITH INCREASED EXPRESSION OF A SUBSET OF PCG REPRESSED GENES. WE FOUND THAT INDUCTION OF H3K27ME3S28P PERSISTED DURING CHRONIC L-DOPA ADMINISTRATION TO PARKISONIAN MICE AND CORRELATED WITH ABERRANT GENE EXPRESSION. WE PROPOSE THAT DOPAMINERGIC TRANSMISSION CAN ACTIVATE PCG REPRESSED GENES IN THE ADULT BRAIN AND THEREBY CONTRIBUTE TO LONG-TERM MALADAPTIVE RESPONSES INCLUDING THE MOTOR COMPLICATIONS, OR DYSKINESIA, CAUSED BY PROLONGED ADMINISTRATION OF L-DOPA IN PARKINSON'S DISEASE. 2014 5 1731 38 DYSREGULATION OF THE HISTONE DEMETHYLASE KDM6B IN ALCOHOL DEPENDENCE IS ASSOCIATED WITH EPIGENETIC REGULATION OF INFLAMMATORY SIGNALING PATHWAYS. EPIGENETIC ENZYMES OVERSEE LONG-TERM CHANGES IN GENE EXPRESSION BY INTEGRATING GENETIC AND ENVIRONMENTAL CUES. WHILE THERE ARE HUNDREDS OF ENZYMES THAT CONTROL HISTONE AND DNA MODIFICATIONS, THEIR POTENTIAL ROLES IN SUBSTANCE ABUSE AND ALCOHOL DEPENDENCE REMAIN UNDEREXPLORED. A FEW RECENT STUDIES HAVE SUGGESTED THAT EPIGENETIC PROCESSES COULD UNDERLIE TRANSCRIPTOMIC AND BEHAVIORAL HALLMARKS OF ALCOHOL ADDICTION. IN THE PRESENT STUDY, WE SOUGHT TO IDENTIFY EPIGENETIC ENZYMES IN THE BRAIN THAT ARE DYSREGULATED DURING PROTRACTED ABSTINENCE AS A CONSEQUENCE OF CHRONIC AND INTERMITTENT ALCOHOL EXPOSURE. THROUGH QUANTITATIVE MRNA EXPRESSION ANALYSIS OF OVER 100 EPIGENETIC ENZYMES, WE IDENTIFIED 11 THAT ARE SIGNIFICANTLY ALTERED IN ALCOHOL-DEPENDENT RATS COMPARED WITH CONTROLS. FOLLOW-UP STUDIES OF ONE OF THESE ENZYMES, THE HISTONE DEMETHYLASE KDM6B, SHOWED THAT THIS ENZYME EXHIBITS REGION-SPECIFIC DYSREGULATION IN THE PREFRONTAL CORTEX AND NUCLEUS ACCUMBENS OF ALCOHOL-DEPENDENT RATS. KDM6B WAS ALSO UPREGULATED IN THE HUMAN ALCOHOLIC BRAIN. UPREGULATION OF KDM6B PROTEIN IN ALCOHOL-DEPENDENT RATS WAS ACCOMPANIED BY A DECREASE OF TRIMETHYLATION LEVELS AT HISTONE H3, LYSINE 27 (H3K27ME3), CONSISTENT WITH THE KNOWN DEMETHYLASE SPECIFICITY OF KDM6B. SUBSEQUENT EPIGENETIC (CHROMATIN IMMUNOPRECIPITATION [CHIP]-SEQUENCING) ANALYSIS SHOWED THAT ALCOHOL-INDUCED CHANGES IN H3K27ME3 WERE SIGNIFICANTLY ENRICHED AT GENES IN THE IL-6 SIGNALING PATHWAY, CONSISTENT WITH THE WELL-CHARACTERIZED ROLE OF KDM6B IN MODULATION OF INFLAMMATORY RESPONSES. KNOCKDOWN OF KDM6B IN CULTURED MICROGLIAL CELLS DIMINISHED IL-6 INDUCTION IN RESPONSE TO AN INFLAMMATORY STIMULUS. OUR FINDINGS IMPLICATE A NOVEL KDM6B-MEDIATED EPIGENETIC SIGNALING PATHWAY INTEGRATED WITH INFLAMMATORY SIGNALING PATHWAYS THAT ARE KNOWN TO UNDERLIE THE DEVELOPMENT OF ALCOHOL ADDICTION. 2021 6 4546 33 MUTANT P53 REGULATES ENHANCER-ASSOCIATED H3K4 MONOMETHYLATION THROUGH INTERACTIONS WITH THE METHYLTRANSFERASE MLL4. MONOMETHYLATION OF HISTONE H3 LYSINE 4 (H3K4ME1) IS ENRICHED AT ENHANCERS THAT ARE PRIMED FOR ACTIVATION AND THE LEVELS OF THIS HISTONE MARK ARE FREQUENTLY ALTERED IN VARIOUS HUMAN CANCERS. YET, HOW ALTERATIONS IN H3K4ME1 ARE ESTABLISHED AND THE CONSEQUENCES OF THESE EPIGENETIC CHANGES IN TUMORIGENESIS ARE NOT WELL UNDERSTOOD. USING CHIP-SEQ IN HUMAN COLON CANCER CELLS, WE DEMONSTRATE THAT MUTANT P53 DEPLETION RESULTS IN DECREASED H3K4ME1 LEVELS AT ACTIVE ENHANCERS THAT REVEAL A STRIKING COLOCALIZATION OF MUTANT P53 AND THE H3K4 MONOMETHYLTRANSFERASE MLL4 FOLLOWING CHRONIC TUMOR NECROSIS FACTOR ALPHA (TNFALPHA) SIGNALING. WE FURTHER REVEAL THAT MUTANT P53 FORMS PHYSIOLOGICAL ASSOCIATIONS AND DIRECT INTERACTIONS WITH MLL4 AND PROMOTES THE ENHANCER BINDING OF MLL4, WHICH IS REQUIRED FOR TNFALPHA-INDUCIBLE H3K4ME1 AND HISTONE H3 LYSINE 27 ACETYLATION (H3K27AC) LEVELS, ENHANCER-DERIVED TRANSCRIPT (ERNA) SYNTHESIS, AND MUTANT P53-DEPENDENT TARGET GENE ACTIVATION. COMPLEMENTARY IN VITRO STUDIES WITH RECOMBINANT CHROMATIN AND PURIFIED PROTEINS DEMONSTRATE THAT BINDING OF THE MLL3/4 COMPLEX AND H3K4ME1 DEPOSITION IS ENHANCED BY MUTANT P53 AND P300-MEDIATED ACETYLATION, WHICH IN TURN REFLECTS A MLL3/4-DEPENDENT ENHANCEMENT OF MUTANT P53 AND P300-DEPENDENT TRANSCRIPTIONAL ACTIVATION. COLLECTIVELY, OUR FINDINGS ESTABLISH A MECHANISM IN WHICH MUTANT P53 COOPERATES WITH MLL4 TO REGULATE ABERRANT ENHANCER ACTIVITY AND TUMOR-PROMOTING GENE EXPRESSION IN RESPONSE TO CHRONIC IMMUNE SIGNALING. 2018 7 4497 38 MORPHINE LEADS TO GLOBAL GENOME CHANGES IN H3K27ME3 LEVELS VIA A POLYCOMB REPRESSIVE COMPLEX 2 (PRC2) SELF-REGULATORY MECHANISM IN MESCS. BACKGROUND: ENVIRONMENTALLY INDUCED EPIGENETIC CHANGES CAN LEAD TO HEALTH PROBLEMS OR DISEASE, BUT THE MECHANISMS INVOLVED REMAIN UNCLEAR. MORPHINE CAN PASS THROUGH THE PLACENTAL BARRIER LEADING TO ABNORMAL EMBRYO DEVELOPMENT. HOWEVER, THE MECHANISM BY WHICH MORPHINE CAUSES THESE EFFECTS AND HOW THEY SOMETIMES PERSIST INTO ADULTHOOD IS NOT WELL KNOWN. TO UNRAVEL THE MORPHINE-INDUCED CHROMATIN ALTERATIONS INVOLVED IN ABERRANT EMBRYO DEVELOPMENT, WE EXPLORED THE ROLE OF THE H3K27ME3/PRC2 REPRESSIVE COMPLEX IN GENE EXPRESSION AND ITS TRANSMISSION ACROSS CELLULAR GENERATIONS IN RESPONSE TO MORPHINE. RESULTS: USING MOUSE EMBRYONIC STEM CELLS AS A MODEL SYSTEM, WE FOUND THAT CHRONIC MORPHINE TREATMENT INDUCES A GLOBAL DOWNREGULATION OF THE HISTONE MODIFICATION H3K27ME3. CONVERSELY, CHIP-SEQ SHOWED A REMARKABLE INCREASE IN H3K27ME3 LEVELS AT SPECIFIC GENOMIC SITES, PARTICULARLY PROMOTERS, DISRUPTING SELECTIVE TARGET GENES RELATED TO EMBRYO DEVELOPMENT, CELL CYCLE AND METABOLISM. THROUGH A SELF-REGULATORY MECHANISM, MORPHINE DOWNREGULATED THE TRANSCRIPTION OF PRC2 COMPONENTS RESPONSIBLE FOR H3K27ME3 BY ENRICHING HIGH H3K27ME3 LEVELS AT THE PROMOTER REGION. DOWNREGULATION OF PRC2 COMPONENTS PERSISTED FOR AT LEAST 48 H (4 CELL CYCLES) FOLLOWING MORPHINE REMOVAL, THOUGH PROMOTER H3K27ME3 LEVELS RETURNED TO CONTROL LEVELS. CONCLUSIONS: MORPHINE INDUCES TARGETING OF THE PRC2 COMPLEX TO SELECTED PROMOTERS, INCLUDING THOSE OF PRC2 COMPONENTS, LEADING TO CHARACTERISTIC CHANGES IN GENE EXPRESSION AND A GLOBAL REDUCTION IN H3K27ME3. FOLLOWING MORPHINE REMOVAL, ENHANCED PROMOTER H3K27ME3 LEVELS REVERT TO NORMAL SOONER THAN GLOBAL H3K27ME3 OR PRC2 COMPONENT TRANSCRIPT LEVELS. WE SUGGEST THAT H3K27ME3 IS INVOLVED IN INITIATING MORPHINE-INDUCED CHANGES IN GENE EXPRESSION, BUT NOT IN THEIR MAINTENANCE. MODEL OF POLYCOMB REPRESSIVE COMPLEX 2 (PRC2) AND H3K27ME3 ALTERATIONS INDUCED BY CHRONIC MORPHINE EXPOSURE. MORPHINE INDUCES H3K27ME3 ENRICHMENT AT PROMOTERS OF GENES ENCODING CORE MEMBERS OF THE PRC2 COMPLEX AND IS ASSOCIATED WITH THEIR TRANSCRIPTIONAL DOWNREGULATION. 2020 8 917 34 CHRONIC HIGH-FAT DIET DRIVES POSTNATAL EPIGENETIC REGULATION OF MU-OPIOID RECEPTOR IN THE BRAIN. OPIOID SYSTEM DYSREGULATION HAS BEEN OBSERVED IN BOTH GENETIC AND HIGH-FAT DIET (HFD)-INDUCED MODELS OF OBESITY. AN UNDERSTANDING OF THE MOLECULAR MECHANISMS OF MOR TRANSCRIPTIONAL REGULATION, PARTICULARLY WITHIN AN IN VIVO CONTEXT, IS LACKING. USING A DIET-INDUCED MODEL OF OBESITY (DIO), MICE WERE FED A HIGH-FAT DIET (60% CALORIES FROM FAT) FROM WEANING TO >18 WEEKS OF AGE. COMPARED WITH MICE FED THE CONTROL DIET, DIO MICE HAD A DECREASED PREFERENCE FOR SUCROSE. MOR MRNA EXPRESSION WAS DECREASED IN REWARD-RELATED CIRCUITRY (VENTRAL TEGMENTAL AREA (VTA), NUCLEUS ACCUMBENS (NAC), AND PREFRONTAL CORTEX (PFC)) BUT NOT THE HYPOTHALAMUS, IMPORTANT IN THE HOMEOSTATIC REGULATION OF FEEDING. DNA METHYLATION IS AN EPIGENETIC MODIFICATION THAT LINKS ENVIRONMENTAL EXPOSURES TO ALTERED GENE EXPRESSION. WE FOUND A SIGNIFICANT INCREASE IN DNA METHYLATION IN THE MOR PROMOTER REGION WITHIN THE REWARD-RELATED BRAIN REGIONS. METHYL CPG-BINDING PROTEIN 2 (MECP2) CAN BIND METHYLATED DNA AND REPRESS TRANSCRIPTION, AND DIO MICE SHOWED INCREASED BINDING OF MECP2 TO THE MOR PROMOTER IN REWARD-RELATED REGIONS OF THE BRAIN. FINALLY, USING CHIP ASSAYS WE EXAMINED H3K9 METHYLATION (INACTIVE CHROMATIN) AND H3 ACETYLATION (ACTIVE CHROMATIN) WITHIN THE MOR PROMOTER REGION AND FOUND INCREASED H3K9 METHYLATION AND DECREASED H3 ACETYLATION. THESE DATA ARE THE FIRST TO IDENTIFY DNA METHYLATION, MECP2 RECRUITMENT, AND CHROMATIN REMODELING AS MECHANISMS LEADING TO TRANSCRIPTIONAL REPRESSION OF MOR IN THE BRAINS OF MICE FED A HIGH-FAT DIET. 2011 9 1698 27 DYNAMIC EFFECTS OF EARLY ADOLESCENT STRESS ON DEPRESSIVE-LIKE BEHAVIORS AND EXPRESSION OF CYTOKINES AND JMJD3 IN THE PREFRONTAL CORTEX AND HIPPOCAMPUS OF RATS. AIMS: EXPRESSION OF INFLAMMATORY CYTOKINES IN THE BRAIN HAS BEEN REPORTED TO BE INVOLVED IN THE PATHOGENESIS OF AND SUSCEPTIBILITY TO DEPRESSION. JUMONJI DOMAIN-CONTAINING 3 (JMJD3), WHICH IS A HISTONE H3 LYSINE 27 (H3K27) DEMETHYLASE AND CAN REGULATE MICROGLIAL ACTIVATION, HAS BEEN REGARDED AS A CRUCIAL ELEMENT IN THE EXPRESSION OF INFLAMMATORY CYTOKINES. FURTHERMORE, RECENT STUDIES HIGHLIGHTED THE FACT THAT LIPOPOLYSACCHARIDES INDUCE DEPRESSIVE-LIKE BEHAVIORS AND HIGHER JMJD3 EXPRESSION AND LOWER H3K27ME3 EXPRESSION IN THE BRAIN. HOWEVER, WHETHER THE PROCESS OF JMJD3 MEDIATING INFLAMMATORY CYTOKINES WAS INVOLVED IN THE SUSCEPTIBILITY TO DEPRESSION DUE TO EARLY-LIFE STRESS REMAINED ELUSIVE. METHODS: RATS EXPOSED TO CHRONIC UNPREDICTABLE MILD STRESS (CUMS) IN ADOLESCENCE WERE USED IN ORDER TO DETECT DYNAMIC ALTERATIONS IN DEPRESSIVE-LIKE BEHAVIORS AND EXPRESSION OF CYTOKINES, JMJD3, AND H3K27ME3 IN THE PREFRONTAL CORTEX AND HIPPOCAMPUS. MOREOVER, MINOCYCLINE, AN INHIBITOR OF MICROGLIAL ACTIVATION, WAS EMPLOYED TO OBSERVE THE PROTECTIVE EFFECTS. RESULTS: OUR RESULTS SHOWED THAT CUMS DURING THE ADOLESCENT PERIOD INDUCED DEPRESSIVE-LIKE BEHAVIORS, OVER-EXPRESSION OF CYTOKINES, AND INCREASED JMJD3 AND DECREASED H3K27ME3 EXPRESSION IN THE PREFRONTAL CORTEX AND HIPPOCAMPUS OF BOTH ADOLESCENT AND ADULT RATS. HOWEVER, MINOCYCLINE RELIEVED ALL THE ALTERATIONS. CONCLUSION: THE STUDY REVEALED THAT JMJD3 MIGHT BE INVOLVED IN THE SUSCEPTIBILITY TO DEPRESSIVE-LIKE BEHAVIORS BY MODULATING H3K27ME3 AND PRO-INFLAMMATORY CYTOKINE EXPRESSION IN THE PREFRONTAL CORTEX AND HIPPOCAMPUS OF RATS THAT HAD BEEN STRESSED DURING EARLY ADOLESCENCE. 2018 10 4900 39 OXIDATIVE STRESS-INDUCED EPIGENETIC CHANGES ASSOCIATED WITH MALIGNANT TRANSFORMATION OF HUMAN KIDNEY EPITHELIAL CELLS. RENAL CELL CARCINOMA (RCC) IN HUMANS IS POSITIVELY INFLUENCED BY OXIDATIVE STRESS STATUS IN KIDNEYS. WE RECENTLY REPORTED THAT ADAPTIVE RESPONSE TO LOW LEVEL OF CHRONIC OXIDATIVE STRESS INDUCES MALIGNANT TRANSFORMATION OF IMMORTALIZED HUMAN RENAL TUBULAR EPITHELIAL CELLS. EPIGENETIC ALTERATIONS IN HUMAN RCC ARE WELL DOCUMENTED, BUT ITS ROLE IN OXIDATIVE STRESS-INDUCED MALIGNANT TRANSFORMATION OF KIDNEY CELLS IS NOT KNOWN. THEREFORE, THE OBJECTIVE OF THIS STUDY WAS TO EVALUATE THE POTENTIAL ROLE OF EPIGENETIC CHANGES IN CHRONIC OXIDATIVE STRESS-INDUCED MALIGNANT TRANSFORMATION OF HK-2, HUMAN RENAL TUBULAR EPITHELIAL CELLS. THE RESULTS REVEALED ABERRANT EXPRESSION OF EPIGENETIC REGULATORY GENES INVOLVED IN DNA METHYLATION (DNMT1, DNMT3A AND MBD4) AND HISTONE MODIFICATIONS (HDAC1, HMT1 AND HAT1) IN HK-2 CELLS MALIGNANTLY TRANSFORMED BY CHRONIC OXIDATIVE STRESS. ADDITIONALLY, BOTH IN VITRO SOFT AGAR ASSAY AND IN VIVO NUDE MICE STUDY SHOWING DECREASED TUMORIGENIC POTENTIAL OF MALIGNANTLY TRANSFORMED HK-2 CELLS FOLLOWING TREATMENT WITH DNA DE-METHYLATING AGENT 5-AZA 2' DC FURTHER CONFIRMED THE CRUCIAL ROLE OF DNA HYPERMETHYALTION IN OXIDATIVE STRESS-INDUCED MALIGNANT TRANSFORMATION. CHANGES OBSERVED IN GLOBAL HISTONE H3 ACETYLATION (H3K9, H3K18, H3K27 AND H3K14) AND DECREASE IN PHOSPHO-H2AX (SER139) ALSO SUGGEST POTENTIAL ROLE OF HISTONE MODIFICATIONS IN INCREASED SURVIVAL AND MALIGNANT TRANSFORMATION OF HK-2 CELLS BY OXIDATIVE STRESS. IN SUMMARY, THE RESULTS OF THIS STUDY SUGGEST THAT EPIGENETIC REPROGRAMMING INDUCED BY LOW LEVELS OF OXIDATIVE STRESS ACT AS DRIVER FOR MALIGNANT TRANSFORMATION OF KIDNEY EPITHELIAL CELLS. FINDINGS OF THIS STUDY ARE HIGHLY RELEVANT IN POTENTIAL CLINICAL APPLICATION OF EPIGENETIC-BASED THERAPEUTICS FOR TREATMENTS OF KIDNEY CANCERS. 2017 11 882 35 CHRONIC COCAINE-INDUCED H3 ACETYLATION AND TRANSCRIPTIONAL ACTIVATION OF CAMKIIALPHA IN THE NUCLEUS ACCUMBENS IS CRITICAL FOR MOTIVATION FOR DRUG REINFORCEMENT. THE REGULATION OF GENE EXPRESSION IN THE BRAIN REWARD REGIONS IS KNOWN TO CONTRIBUTE TO THE PATHOGENESIS AND PERSISTENCE OF DRUG ADDICTION. INCREASING EVIDENCE SUGGESTS THAT THE REGULATION OF GENE TRANSCRIPTION IS MEDIATED BY EPIGENETIC MECHANISMS THAT ALTER THE CHROMATIN STRUCTURE AT SPECIFIC GENE PROMOTERS. TO BETTER UNDERSTAND THE INVOLVEMENT OF EPIGENETIC REGULATION IN DRUG REINFORCEMENT PROPERTIES, RATS WERE SUBJECTED TO COCAINE SELF-ADMINISTRATION PARADIGM. DAILY HISTONE DEACETYLASE (HDAC) INHIBITOR INFUSIONS IN THE SHELL OF THE NUCLEUS ACCUMBENS (NAC) CAUSED AN UPWARD SHIFT IN THE DOSE-RESPONSE CURVE UNDER FIXED-RATIO SCHEDULE AND INCREASED THE BREAK POINT UNDER PROGRESSIVE-RATIO SCHEDULE, INDICATING ENHANCED MOTIVATION FOR SELF-ADMINISTERED DRUG. THE EFFECT OF THE HDAC INHIBITOR IS ATTRIBUTED TO THE INCREASED ELEVATION OF HISTONE ACETYLATION INDUCED BY CHRONIC, BUT NOT ACUTE, COCAINE EXPERIENCE. IN CONTRAST, NEUTRALIZING THE CHRONIC COCAINE-INDUCED INCREASE IN HISTONE MODIFICATION BY THE BILATERAL OVEREXPRESSION OF HDAC4 IN THE NAC SHELL REDUCED DRUG MOTIVATION. THE ASSOCIATION BETWEEN THE MOTIVATION FOR COCAINE AND THE TRANSCRIPTIONAL ACTIVATION OF ADDICTION-RELATED GENES BY H3 ACETYLATION IN THE NAC SHELL WAS ANALYZED. AMONG THE GENES ACTIVATED BY CHRONIC COCAINE EXPERIENCES, THE EXPRESSION OF CAMKIIALPHA, BUT NOT CAMKIIBETA, CORRELATED POSITIVELY WITH MOTIVATION FOR THE DRUG. LENTIVIRUS-MEDIATED SHRNA KNOCKDOWN EXPERIMENTS SHOWED THAT CAMKIIALPHA, BUT NOT CAMKIIBETA, IN THE NAC SHELL IS ESSENTIAL FOR THE MAINTENANCE OF MOTIVATION TO SELF-ADMINISTERED COCAINE. THESE FINDINGS SUGGEST THAT CHRONIC DRUG-USE-INDUCED TRANSCRIPTIONAL ACTIVATION OF GENES, SUCH AS CAMKIIALPHA, MODULATED BY H3 ACETYLATION IN THE NAC IS A CRITICAL REGULATORY MECHANISM UNDERLYING MOTIVATION FOR DRUG REINFORCEMENT. 2010 12 2370 29 EPIGENETIC REGULATION OF THE ALTERNATIVELY ACTIVATED MACROPHAGE PHENOTYPE. ALTERNATIVELY ACTIVATED (M2) MACROPHAGES PLAY CRITICAL ROLES IN DIVERSE CHRONIC DISEASES, INCLUDING PARASITE INFECTIONS, CANCER, AND ALLERGIC RESPONSES. HOWEVER, LITTLE IS KNOWN ABOUT THE ACQUISITION AND MAINTENANCE OF THEIR PHENOTYPE. WE REPORT THAT M2-MACROPHAGE MARKER GENES ARE EPIGENETICALLY REGULATED BY RECIPROCAL CHANGES IN HISTONE H3 LYSINE-4 (H3K4) AND HISTONE H3 LYSINE-27 (H3K27) METHYLATION; AND THE LATTER METHYLATION MARKS ARE REMOVED BY THE H3K27 DEMETHYLASE JUMONJI DOMAIN CONTAINING 3 (JMJD3). WE FOUND THAT CONTINUOUS INTERLEUKIN-4 (IL-4) TREATMENT LEADS TO DECREASED H3K27 METHYLATION, AT THE PROMOTER OF M2 MARKER GENES, AND A CONCOMITANT INCREASE IN JMJD3 EXPRESSION. FURTHERMORE, WE DEMONSTRATE THAT IL-4-DEPENDENT JMJD3 EXPRESSION IS MEDIATED BY STAT6, A MAJOR TRANSCRIPTION FACTOR OF IL-4-MEDIATED SIGNALING. AFTER IL-4 STIMULATION, ACTIVATED STAT6 IS INCREASED AND BINDS TO CONSENSUS SITES AT THE JMJD3 PROMOTER. INCREASED JMJD3 CONTRIBUTES TO THE DECREASE OF H3K27 DIMETHYLATION AND TRIMETHYLATION (H3K27ME2/3) MARKS AS WELL AS THE TRANSCRIPTIONAL ACTIVATION OF SPECIFIC M2 MARKER GENES. THE DECREASE IN H3K27ME2/3 AND INCREASE IN JMJD3 RECRUITMENT WERE CONFIRMED BY IN VIVO STUDIES USING A SCHISTOSOMA MANSONI EGG-CHALLENGED MOUSE MODEL, A WELL-STUDIED SYSTEM KNOWN TO SUPPORT AN M2 PHENOTYPE. COLLECTIVELY, THESE DATA INDICATE THAT CHROMATIN REMODELING IS MECHANISTICALLY IMPORTANT IN THE ACQUISITION OF THE M2-MACROPHAGE PHENOTYPE. 2009 13 6177 36 THE HISTONE METHYLTRANSFERASE G9A MEDIATES STRESS-REGULATED ALCOHOL DRINKING. THE EPIGENETIC ENZYME G9A IS A HISTONE METHYLTRANSFERASE THAT DIMETHYLATES LYSINE 9 ON HISTONE H3 (H3K9ME2), AND IN THE ADULT NUCLEUS ACCUMBENS (NAC), G9A REGULATES MULTIPLE BEHAVIORS ASSOCIATED WITH SUBSTANCE USE DISORDER. WE SHOW HERE THAT CHRONIC INTERMITTENT ETHANOL (CIE) EXPOSURE IN MALE MICE REDUCED BOTH G9A AND H3K9ME2 LEVELS IN THE ADULT NAC, BUT NOT DORSAL STRIATUM. VIRAL-MEDIATED REDUCTION OF G9A IN THE NAC HAD NO EFFECTS ON BASELINE VOLITIONAL ETHANOL DRINKING OR ESCALATED ALCOHOL DRINKING PRODUCED BY CIE EXPOSURE; HOWEVER, NAC G9A WAS REQUIRED FOR STRESS-REGULATED CHANGES IN ETHANOL DRINKING, INCLUDING POTENTIATED ALCOHOL DRINKING PRODUCED BY ACTIVATION OF THE KAPPA-OPIOID RECEPTOR. IN ADDITION, WE OBSERVED THAT CHRONIC SYSTEMIC ADMINISTRATION OF A G9A INHIBITOR, UNC0642, ALSO BLOCKED STRESS-POTENTIATED ALCOHOL DRINKING. TOGETHER, OUR FINDINGS SUGGEST THAT CHRONIC ALCOHOL USE, SIMILAR TO OTHER ABUSED SUBSTANCES, PRODUCES A NAC-SELECTIVE REDUCTION IN G9A LEVELS THAT SERVES TO LIMIT STRESS-REGULATED ALCOHOL DRINKING. MOREOVER, OUR FINDINGS SUGGEST THAT PHARMACOLOGICAL INHIBITION OF G9A MIGHT PROVIDE A NOVEL THERAPEUTIC APPROACH TO TREAT STRESS-INDUCED ALCOHOL DRINKING, WHICH IS A MAJOR TRIGGER OF RELAPSE IN INDIVIDUALS SUFFERING FROM AUD. 2022 14 4878 41 OVEREXPRESSION OF THE HISTONE DIMETHYLTRANSFERASE G9A IN NUCLEUS ACCUMBENS SHELL INCREASES COCAINE SELF-ADMINISTRATION, STRESS-INDUCED REINSTATEMENT, AND ANXIETY. REPEATED EXPOSURE TO COCAINE INDUCES LASTING EPIGENETIC CHANGES IN NEURONS THAT PROMOTE THE DEVELOPMENT AND PERSISTENCE OF ADDICTION. ONE EPIGENETIC ALTERATION INVOLVES REDUCTIONS IN LEVELS OF THE HISTONE DIMETHYLTRANSFERASE G9A IN NUCLEUS ACCUMBENS (NAC) AFTER CHRONIC COCAINE ADMINISTRATION. THIS REDUCTION IN G9A MAY ENHANCE COCAINE REWARD BECAUSE OVEREXPRESSING G9A IN THE NAC DECREASES COCAINE-CONDITIONED PLACE PREFERENCE. THEREFORE, WE HYPOTHESIZED THAT HSV-MEDIATED G9A OVEREXPRESSION IN THE NAC SHELL (NACSH) WOULD ATTENUATE COCAINE SELF-ADMINISTRATION (SA) AND COCAINE-SEEKING BEHAVIOR. INSTEAD, WE FOUND THAT G9A OVEREXPRESSION, AND THE RESULTING INCREASE IN HISTONE 3 LYSINE 9 DIMETHYLATION (H3K9ME2), INCREASES SENSITIVITY TO COCAINE REINFORCEMENT AND ENHANCES MOTIVATION FOR COCAINE IN SELF-ADMINISTERING MALE RATS. MOREOVER, WHEN G9A OVEREXPRESSION IS LIMITED TO THE INITIAL 15 D OF COCAINE SA TRAINING, IT PRODUCES AN ENDURING POSTEXPRESSION ENHANCEMENT IN COCAINE SA AND PROLONGED (OVER 5 WEEKS) INCREASES IN REINSTATEMENT OF COCAINE SEEKING INDUCED BY FOOT-SHOCK STRESS, BUT IN THE ABSENCE OF CONTINUED GLOBAL ELEVATIONS IN H3K9ME2. THE INCREASE IN STRESS-INDUCED REINSTATEMENT IS PARALLELED BY HEIGHTENED ANXIETY MEASURES, SUGGESTING THAT COUNTERING THE COCAINE-INDUCED DECREASES IN ENDOGENOUS G9A WITH ECTOPIC G9A OVEREXPRESSION LEADS TO LASTING ANXIOGENIC EFFECTS. FINALLY, WE FOUND AN ENDURING REDUCTION IN PHOSPHORYLATED CAMP-RESPONSE ELEMENT BINDING PROTEIN LEVELS IN THE NACSH THAT COULD ACCOUNT FOR THE INCREASED ANXIETY. THESE DATA DEMONSTRATE A NOVEL ROLE FOR G9A IN PROMOTING COMORBID COCAINE ADDICTION AND ANXIETY AND SUGGEST THAT INCREASED EPIGENETIC REPRESSION OF TRANSCRIPTION THROUGH H3K9 DURING COCAINE USE CAN HAVE LONG-LASTING AND UNEXPECTED NEGATIVE CONSEQUENCES ON BEHAVIOR.SIGNIFICANCE STATEMENT COCAINE ADDICTION IS A NEUROPSYCHIATRIC DISORDER THAT IS DETRIMENTAL TO SOCIETY AND CURRENTLY HAS NO EFFECTIVE TREATMENTS. THE DIFFICULTY IN TREATING DRUG ADDICTION IS COMPOUNDED BY THE HIGH COMORBIDITY WITH OTHER PSYCHIATRIC ILLNESSES, INCLUDING ANXIETY DISORDERS. HERE, WE DEMONSTRATE THAT G9A, AN EPIGENETIC REPRESSOR OF GENE EXPRESSION, ACTING IN THE NUCLEUS ACCUMBENS, A BRAIN REWARD REGION, IS CAPABLE OF INCREASING BOTH ADDICTION- AND ANXIETY-LIKE BEHAVIORS IN RATS. THESE FINDINGS ARE INTRIGUING BECAUSE REPEATED COCAINE EXPOSURE DECREASES G9A IN THIS REGION AND THEREBY ENHANCES EXPRESSION OF CERTAIN ADDICTION-PROMOTING GENES. HOWEVER, OUR RESULTS SUGGEST THAT COUNTERING THIS COCAINE-INDUCED DECREASE IN G9A ACTIVITY ACTUALLY EXACERBATES ADDICTION AND SENSITIVITY TO RELAPSE UNDER STRESSFUL SITUATIONS. 2018 15 695 36 BRG1 IN THE NUCLEUS ACCUMBENS REGULATES COCAINE-SEEKING BEHAVIOR. BACKGROUND: DRUG ADDICTION IS DEFINED AS A CHRONIC DISEASE CHARACTERIZED BY COMPULSIVE DRUG SEEKING AND EPISODES OF RELAPSE DESPITE PROLONGED PERIODS OF DRUG ABSTINENCE. NEUROBIOLOGICAL ADAPTATIONS, INCLUDING TRANSCRIPTIONAL AND EPIGENETIC ALTERATIONS IN THE NUCLEUS ACCUMBENS, ARE THOUGHT TO CONTRIBUTE TO THIS LIFE-LONG DISEASE STATE. WE PREVIOUSLY DEMONSTRATED THAT THE TRANSCRIPTION FACTOR SMAD3 IS INCREASED AFTER 7 DAYS OF WITHDRAWAL FROM COCAINE SELF-ADMINISTRATION. HOWEVER, IT IS STILL UNKNOWN WHICH ADDITIONAL FACTORS PARTICIPATE IN THE PROCESS OF CHROMATIN REMODELING AND FACILITATE THE BINDING OF SMAD3 TO PROMOTER REGIONS OF TARGET GENES. HERE, WE EXAMINED THE POSSIBLE INTERACTION OF BRG1-ALSO KNOWN AS SMARCA4, AN ADENOSINE TRIPHOSPHATASE-CONTAINING CHROMATIN REMODELER-AND SMAD3 IN RESPONSE TO COCAINE EXPOSURE. METHODS: THE EXPRESSION OF BRG1, AS WELL AS ITS BINDING TO SMAD3 AND TARGET GENE PROMOTER REGIONS, WAS EVALUATED IN THE NUCLEUS ACCUMBENS AND DORSAL STRIATUM OF RATS USING WESTERN BLOTTING, CO-IMMUNOPRECIPITATION, AND CHROMATIN IMMUNOPRECIPITATION FOLLOWING ABSTINENCE FROM COCAINE SELF-ADMINISTRATION. RATS WERE ASSESSED FOR COCAINE-SEEKING BEHAVIORS AFTER EITHER INTRA-ACCUMBAL INJECTIONS OF THE BRG1 INHIBITOR PFI3 OR VIRAL-MEDIATED OVEREXPRESSION OF BRG1. RESULTS: AFTER WITHDRAWAL FROM COCAINE SELF-ADMINISTRATION, BRG1 EXPRESSION AND COMPLEX FORMATION WITH SMAD3 ARE INCREASED IN THE NUCLEUS ACCUMBENS, RESULTING IN INCREASED BINDING OF BRG1 TO THE PROMOTER REGIONS OF CTNNB1, MEF2D, AND DBN1. INTRA-ACCUMBAL INFUSION OF PFI3 ATTENUATED, WHEREAS VIRAL OVEREXPRESSION OF BRG1 ENHANCED, COCAINE-REINSTATEMENT BEHAVIOR. CONCLUSIONS: BRG1 IS A KEY MEDIATOR OF THE SMAD3-DEPENDENT REGULATION OF CELLULAR AND BEHAVIORAL PLASTICITY THAT MEDIATES COCAINE SEEKING AFTER A PERIOD OF WITHDRAWAL. 2016 16 1614 33 DNA METHYLTRANSFERASE 3A IS INVOLVED IN THE SUSTAINED EFFECTS OF CHRONIC STRESS ON SYNAPTIC FUNCTIONS AND BEHAVIORS. EMERGING EVIDENCE SUGGESTS THAT EPIGENETIC MECHANISMS REGULATE ABERRANT GENE TRANSCRIPTION IN STRESS-ASSOCIATED MENTAL DISORDERS. HOWEVER, IT REMAINS TO BE ELUCIDATED ABOUT THE ROLE OF DNA METHYLATION AND ITS CATALYZING ENZYMES, DNA METHYLTRANSFERASES (DNMTS), IN THIS PROCESS. HERE, WE FOUND THAT MALE RATS EXPOSED TO CHRONIC (2-WEEK) UNPREDICTABLE STRESS EXHIBITED A SUBSTANTIAL REDUCTION OF DNMT3A AFTER STRESS CESSATION IN THE PREFRONTAL CORTEX (PFC), A KEY TARGET REGION OF STRESS. TREATMENT OF UNSTRESSED CONTROL RATS WITH DNMT INHIBITORS RECAPITULATED THE EFFECT OF CHRONIC UNPREDICTABLE STRESS ON DECREASED AMPAR EXPRESSION AND FUNCTION IN PFC. IN CONTRAST, OVEREXPRESSION OF DNMT3A IN PFC OF STRESSED ANIMALS PREVENTED THE LOSS OF GLUTAMATERGIC RESPONSES. MOREOVER, THE STRESS-INDUCED BEHAVIORAL ABNORMALITIES, INCLUDING THE IMPAIRED RECOGNITION MEMORY, HEIGHTENED AGGRESSION, AND HYPERLOCOMOTION, WERE PARTIALLY ATTENUATED BY DNMT3A EXPRESSION IN PFC OF STRESSED ANIMALS. FINALLY, WE FOUND THAT THERE WERE GENOME-WIDE DNA METHYLATION CHANGES AND TRANSCRIPTOME ALTERATIONS IN PFC OF STRESSED RATS, BOTH OF WHICH WERE ENRICHED AT SEVERAL NEURAL PATHWAYS, INCLUDING GLUTAMATERGIC SYNAPSE AND MICROTUBULE-ASSOCIATED PROTEIN KINASE SIGNALING. THESE RESULTS HAVE THEREFORE RECOGNIZED THE POTENTIAL ROLE OF DNA EPIGENETIC MODIFICATION IN STRESS-INDUCED DISTURBANCE OF SYNAPTIC FUNCTIONS AND COGNITIVE AND EMOTIONAL PROCESSES. 2021 17 3358 34 HISTONE H3K9 METHYLATION REGULATES CHRONIC STRESS AND IL-6-INDUCED COLON EPITHELIAL PERMEABILITY AND VISCERAL PAIN. BACKGROUND: CHRONIC STRESS IS ASSOCIATED WITH ACTIVATION OF THE HPA AXIS, ELEVATION IN PRO-INFLAMMATORY CYTOKINES, DECREASE IN INTESTINAL EPITHELIAL CELL TIGHT JUNCTION (TJ) PROTEINS, AND ENHANCED VISCERAL PAIN. IT IS UNKNOWN WHETHER EPIGENETIC REGULATORY PATHWAYS PLAY A ROLE IN CHRONIC STRESS-INDUCED INTESTINAL BARRIER DYSFUNCTION AND VISCERAL HYPERALGESIA. METHODS: YOUNG ADULT MALE RATS WERE SUBJECTED TO WATER AVOIDANCE STRESS +/- H3K9 METHYLATION INHIBITORS OR SIRNAS. VISCERAL PAIN RESPONSE WAS ASSESSED. DIFFERENTIATED CACO-2/BBE CELLS AND HUMAN COLONOIDS WERE TREATED WITH CORTISOL OR IL-6 +/- ANTAGONISTS. EXPRESSION OF TJ, IL-6, AND H3K9 METHYLATION STATUS AT GENE PROMOTERS WAS MEASURED. TRANSEPITHELIAL ELECTRICAL RESISTANCE AND FITC-DEXTRAN PERMEABILITY WERE EVALUATED. KEY RESULTS: CHRONIC STRESS INDUCED IL-6 UP-REGULATION PRIOR TO A DECREASE IN TJ PROTEINS IN THE RAT COLON. THE IL-6 LEVEL INVERSELY CORRELATED WITH OCCLUDIN EXPRESSION. TREATMENT WITH IL-6 DECREASED OCCLUDIN AND INDUCED VISCERAL HYPERALGESIA. CHRONIC STRESS AND IL-6 INCREASED H3K9 METHYLATION AND DECREASED TRANSCRIPTIONAL GR BINDING TO THE OCCLUDIN GENE PROMOTER, LEADING TO DOWN-REGULATION OF PROTEIN EXPRESSION AND INCREASE IN PARACELLULAR PERMEABILITY. INTRARECTAL ADMINISTRATION OF A H3K9 METHYLATION ANTAGONIST PREVENTED CHRONIC STRESS-INDUCED VISCERAL HYPERALGESIA IN THE RAT. IN A HUMAN COLONOID MODEL, CORTISOL DECREASED OCCLUDIN EXPRESSION, WHICH WAS PREVENTED BY THE GR ANTAGONIST RU486, AND IL-6 INCREASED H3K9 METHYLATION AND DECREASED TJ PROTEIN LEVELS, WHICH WERE PREVENTED BY INHIBITORS OF H3K9 METHYLATION. CONCLUSIONS & INFERENCES: OUR FINDINGS SUPPORT A NOVEL ROLE FOR METHYLATION OF THE REPRESSIVE HISTONE H3K9 TO REGULATE CHRONIC STRESS, PRO-INFLAMMATORY CYTOKINE-MEDIATED REDUCTION IN COLON TJ PROTEIN LEVELS, AND INCREASE IN PARACELLULAR PERMEABILITY AND VISCERAL HYPERALGESIA. 2020 18 2243 23 EPIGENETIC MODULATION OF CHRONIC ANXIETY AND PAIN BY HISTONE DEACETYLATION. PROLONGED EXPOSURE OF THE CENTRAL AMYGDALA (CEA) TO ELEVATED CORTICOSTEROIDS (CORT) FACILITATES LONG-TERM ANXIETY AND PAIN THROUGH ACTIVATION OF GLUCOCORTICOID RECEPTORS (GRS) AND CORTICOTROPIN-RELEASING FACTOR (CRF). HOWEVER, THE MECHANISMS MAINTAINING THESE RESPONSES ARE UNKNOWN. SINCE CHRONIC PHENOTYPES CAN BE SUSTAINED BY EPIGENETIC MECHANISMS, INCLUDING HISTONE MODIFICATIONS SUCH AS DEACETYLATION, WE TESTED THE HYPOTHESIS THAT HISTONE DEACETYLATION CONTRIBUTES TO THE MAINTENANCE OF CHRONIC ANXIETY AND PAIN INDUCED BY PROLONGED EXPOSURE OF THE CEA TO CORT. WE FOUND THAT BILATERAL INFUSIONS OF A HISTONE DEACETYLASE INHIBITOR INTO THE CEA ATTENUATED ANXIETY-LIKE BEHAVIOR AS WELL AS SOMATIC AND VISCERAL HYPERSENSITIVITY RESULTING FROM ELEVATED CORT EXPOSURE. MOREOVER, WE DELINEATED A NOVEL PATHWAY THROUGH WHICH HISTONE DEACETYLATION COULD CONTRIBUTE TO CORT REGULATION OF GR AND SUBSEQUENT CRF EXPRESSION IN THE CEA. SPECIFICALLY, DEACETYLATION OF HISTONE 3 AT LYSINE 9 (H3K9), THROUGH THE COORDINATED ACTION OF THE NAD+-DEPENDENT PROTEIN DEACETYLASE SIRTUIN-6 (SIRT6) AND NUCLEAR FACTOR KAPPA B (NFKAPPAB), SEQUESTERS GR EXPRESSION LEADING TO DISINHIBITION OF CRF. OUR RESULTS INDICATE THAT EPIGENETIC PROGRAMMING IN THE AMYGDALA, SPECIFICALLY HISTONE MODIFICATIONS, IS IMPORTANT IN THE MAINTENANCE OF CHRONIC ANXIETY AND PAIN. 2015 19 2826 42 FLUOXETINE EPIGENETICALLY ALTERS THE CAMKIIALPHA PROMOTER IN NUCLEUS ACCUMBENS TO REGULATE DELTAFOSB BINDING AND ANTIDEPRESSANT EFFECTS. CHRONIC SOCIAL DEFEAT STRESS IN MICE PRODUCES A SUSCEPTIBLE PHENOTYPE CHARACTERIZED BY SEVERAL BEHAVIORAL ABNORMALITIES CONSISTENT WITH HUMAN DEPRESSION THAT ARE REVERSED BY CHRONIC BUT NOT ACUTE EXPOSURE TO ANTIDEPRESSANT MEDICATIONS. RECENT WORK IN ADDICTION MODELS DEMONSTRATES THAT THE TRANSCRIPTION FACTOR DELTAFOSB AND PROTEIN KINASE CALMODULIN-DEPENDENT PROTEIN KINASE II (CAMKII) ARE CO-REGULATED IN NUCLEUS ACCUMBENS (NAC), A BRAIN REWARD REGION IMPLICATED IN BOTH ADDICTION AND DEPRESSION MODELS INCLUDING SOCIAL DEFEAT. PREVIOUS WORK HAS ALSO DEMONSTRATED THAT DELTAFOSB IS INDUCED IN NAC AFTER CHRONIC SOCIAL DEFEAT STRESS OR AFTER CHRONIC ANTIDEPRESSANT TREATMENT, WHEREIN IT MEDIATES A PRO-RESILIENCE OR ANTIDEPRESSANT-LIKE PHENOTYPE. HERE, USING CHROMATIN IMMUNOPRECIPITATION ASSAYS, WE FOUND THAT DELTAFOSB BINDS THE CAMKIIALPHA GENE PROMOTER IN NAC AND THAT THIS BINDING INCREASES AFTER MICE ARE EXPOSED TO CHRONIC SOCIAL DEFEAT STRESS. PARADOXICALLY, CHRONIC EXPOSURE TO THE ANTIDEPRESSANT FLUOXETINE REDUCES BINDING OF DELTAFOSB TO THE CAMKIIALPHA PROMOTER AND REDUCES CAMKII EXPRESSION IN NAC, DESPITE THE FACT THAT DELTAFOSB IS INDUCED UNDER THESE CONDITIONS. THESE DATA SUGGEST A NOVEL EPIGENETIC MECHANISM OF ANTIDEPRESSANT ACTION, WHEREBY FLUOXETINE INDUCES SOME CHROMATIN CHANGE AT THE CAMKIIALPHA PROMOTER, WHICH BLOCKS THE DELTAFOSB BINDING. INDEED, CHRONIC FLUOXETINE REDUCES ACETYLATION AND INCREASES LYSINE-9 DIMETHYLATION OF HISTONE H3 AT THE CAMKIIALPHA PROMOTER IN NAC, EFFECTS ALSO SEEN IN DEPRESSED HUMANS EXPOSED TO ANTIDEPRESSANTS. OVEREXPRESSION OF CAMKII IN NAC BLOCKS FLUOXETINE'S ANTIDEPRESSANT EFFECTS IN THE CHRONIC SOCIAL DEFEAT PARADIGM, WHEREAS INHIBITION OF CAMKII ACTIVITY IN NAC MIMICS FLUOXETINE EXPOSURE. THESE FINDINGS SUGGEST THAT EPIGENETIC SUPPRESSION OF CAMKIIALPHA EXPRESSION IN NAC IS BEHAVIORALLY RELEVANT AND OFFER A NOVEL PATHWAY FOR POSSIBLE THERAPEUTIC INTERVENTION IN DEPRESSION AND RELATED SYNDROMES. 2014 20 2280 40 EPIGENETIC REGULATION IN DRUG ADDICTION. THE INTERACTION BETWEEN ENVIRONMENTAL SIGNALS AND GENES HAS NOW TAKEN ON A CLEAR MOLECULAR FORM AS DEMONSTRATED BY STABLE CHANGES IN CHROMATIN STRUCTURE. THESE CHANGES OCCUR THROUGH ACTIVATION OR REPRESSION OF SPECIFIC GENE PROGRAMMES BY A COMBINATION OF CHROMATIN REMODELLING, ACTIVATION AND ENZYMATIC MODIFICATION OF DNA AND HISTONES AS WELL AS NUCLEOSOMAL SUBUNIT EXCHANGE. RECENT RESEARCH INVESTIGATING THE MOLECULAR MECHANISMS CONTROLLING DRUG-INDUCED TRANSCRIPTIONAL, BEHAVIOURAL AND SYNAPTIC ACTIVITY HAS SHOWN A DIRECT ROLE FOR CHROMATIN REMODELLING--TERMED AS EPIGENETIC REGULATION--OF NEURONAL GENE PROGRAMMES AND SUBSEQUENT ADDICTIVE BEHAVIOUR ARISING FROM IT. RECENT DATA SUGGEST THAT REPEATED EXPOSURE TO CERTAIN DRUGS PROMOTES CHANGES IN LEVELS OF HISTONE ACETYLATION, PHOSPHORYLATION AND METHYLATION, TOGETHER WITH ALTERATIONS IN DNA METHYLATION LEVELS IN THE NEURONS OF THE BRAIN REWARD CENTRE, LOCALISED IN THE NUCLEUS ACCUMBENS (NAC) REGION OF THE LIMBIC SYSTEM. THE COMBINATION OF ACETYLATING, PHOSPHORYLATING AND METHYLATING H3 AND H4 HISTONE TAILS ALTER CHROMATIN COMPACTION THEREBY PROMOTING ALTERED LEVELS OF CELLULAR GENE EXPRESSION. HISTONE MODIFICATIONS, WHICH WEAKEN HISTONE INTERACTION WITH DNA OR THAT PROMOTE RECRUITMENT OF TRANSCRIPTIONAL ACTIVATING COMPLEXES, CORRELATE WITH PERMISSIVE GENE EXPRESSION. HISTONE DEACETYLATION, (WHICH STRENGTHEN HISTONE: DNA CONTACTS), OR HISTONE METHYLATION, (WHICH RECRUITS REPRESSIVE COMPLEXES TO CHROMATIN), PROMOTE A STATE OF TRANSCRIPTIONAL REPRESSION. USING ANIMAL MODELS, ACUTE COCAINE TREATMENT INCREASES H4 ACETYLATION AT ACUTELY REGULATED GENE PROMOTERS, WHEREAS H3 ACETYLATION APPEARS TO PREDOMINATE AT CHRONICALLY INDUCED PROMOTERS. CHRONIC COCAINE AND ALCOHOL TREATMENT ACTIVATE AND REPRESS MANY GENES SUCH AS FOSB, CDK5, AND BDNF, WHERE THEIR DYSREGULATION, AT THE CHROMATIN LEVEL, CONTRIBUTE TO THE DEVELOPMENT AND MAINTENANCE OF ADDICTION. FOLLOWING DRUG EXPOSURE, IT IS STILL UNKNOWN, HOWVER, HOW LONG THESE CHANGES IN CHROMATIN STRUCTURE PERSIST IN AFFECTING NEURONAL FUNCTION, BUT SOME DO SO FOR LIFE. 2012