1 1086 154 COCAINE ADMINISTRATION AND ITS WITHDRAWAL ENHANCE THE EXPRESSION OF GENES ENCODING HISTONE-MODIFYING ENZYMES AND HISTONE ACETYLATION IN THE RAT PREFRONTAL CORTEX. CHRONIC EXPOSURE TO COCAINE, CRAVING, AND RELAPSE ARE ATTRIBUTED TO LONG-LASTING CHANGES IN GENE EXPRESSION ARISING THROUGH EPIGENETIC AND TRANSCRIPTIONAL MECHANISMS. ALTHOUGH SEVERAL BRAIN REGIONS ARE INVOLVED IN THESE PROCESSES, THE PREFRONTAL CORTEX SEEMS TO PLAY A CRUCIAL ROLE NOT ONLY IN MOTIVATION AND DECISION-MAKING BUT ALSO IN EXTINCTION AND SEEKING BEHAVIOR. IN THIS STUDY, WE APPLIED COCAINE SELF-ADMINISTRATION AND EXTINCTION TRAINING PROCEDURES IN RATS WITH A YOKED TRIAD TO DETERMINE DIFFERENTIALLY EXPRESSED GENES IN PREFRONTAL CORTEX. MICROARRAY ANALYSIS SHOWED SIGNIFICANT UPREGULATION OF SEVERAL GENES ENCODING HISTONE MODIFICATION ENZYMES DURING EARLY EXTINCTION TRAINING. SUBSEQUENT REAL-TIME PCR TESTING OF THESE GENES FOLLOWING COCAINE SELF-ADMINISTRATION OR EARLY (THIRD DAY) AND LATE (TENTH DAY) EXTINCTION REVEALED ELEVATED LEVELS OF THEIR TRANSCRIPTS. INTERESTINGLY, WE FOUND THE ENRICHMENT OF BRD1 MESSENGER RNA IN RATS SELF-ADMINISTERING COCAINE THAT LASTED UNTIL EXTINCTION TRAINING DURING COCAINE WITHDRAWAL WITH CONCOMITANT INCREASED ACETYLATION OF H3K9 AND H4K8. HOWEVER, DESPITE ELEVATED LEVELS OF METHYL- AND DEMETHYLTRANSFERASE-ENCODED TRANSCRIPTS, NO CHANGES IN GLOBAL DI- AND TRI-METHYLATION OF HISTONE H3 AT LYSINE 4, 9, 27, AND 79 WERE OBSERVED. SURPRISINGLY, AT THE END OF EXTINCTION TRAINING (10 DAYS OF COCAINE WITHDRAWAL), MOST OF THE ANALYZED GENES IN THE RATS ACTIVELY AND PASSIVELY ADMINISTERING COCAINE RETURNED TO THE CONTROL LEVEL. TOGETHER, THE ALTERATIONS IDENTIFIED IN THE RAT PREFRONTAL CORTEX MAY SUGGEST ENHANCED CHROMATIN REMODELING AND TRANSCRIPTIONAL ACTIVITY INDUCED BY EARLY COCAINE ABSTINENCE; HOWEVER, TO KNOW WHETHER THEY ARE BENEFICIAL OR NOT FOR THE EXTINCTION OF DRUG-SEEKING BEHAVIOR, FURTHER IN VIVO EVALUATION IS REQUIRED. 2017 2 5534 31 ROLE OF AIRWAY EPITHELIAL CELLS IN THE DEVELOPMENT OF DIFFERENT ASTHMA PHENOTYPES. THE TERM (BRONCHIAL) ASTHMA DESCRIBES A DISORDER SYNDROME THAT COMPRISES SEVERAL DISEASE PHENOTYPES, ALL CHARACTERIZED BY CHRONIC INFLAMMATION IN THE BRONCHIAL EPITHELIUM, WITH A VARIETY OF SUBSEQUENT FUNCTIONAL CONSEQUENCES. THUS, THE EPITHELIUM IN THE CONDUCTING AIRWAYS IS THE MAIN LOCALIZATION OF THE COMPLEX PATHOLOGICAL CHANGES IN THE DISEASE. IN THIS REGARD, BRONCHIAL EPITHELIAL CELLS ARE NOT PASSIVELY AFFECTED BY INFLAMMATORY MECHANISMS INDUCED BY IMMUNOLOGICAL PROCESSES BUT RATHER ACTIVELY INVOLVED IN ALL STEPS OF DISEASE DEVELOPMENT FROM INITIATION AND PERPETUATION TO CHRONIFICATION. IN RECENT YEARS IT TURNED OUT THAT BRONCHIAL EPITHELIAL CELLS SHOW A HIGH LEVEL OF STRUCTURAL AND FUNCTIONAL DIVERSITY AND PLASTICITY WITH EPIGENETIC MECHANISMS PLAYING A CRUCIAL ROLE IN THE REGULATION OF THESE PROCESSES. THUS, IT IS QUITE REASONABLE THAT DIFFERENTIAL FUNCTIONAL ACTIVITIES OF THE BRONCHIAL EPITHELIUM ARE INVOLVED IN THE DEVELOPMENT OF DIFFERENT ASTHMA PHENOTYPES AND/OR STAGES OF DISEASE. THE CURRENT KNOWLEDGE ON THIS TOPIC WILL BE DISCUSSED IN THIS REVIEW ARTICLE. 2020 3 4878 56 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 4 2839 36 FOSB INDUCTION IN NUCLEUS ACCUMBENS BY COCAINE IS REGULATED BY E2F3A. THE TRANSCRIPTION FACTOR DELTAFOSB HAS BEEN PROPOSED AS A MOLECULAR SWITCH FOR THE TRANSITION FROM CASUAL, VOLITIONAL DRUG USE INTO A CHRONICALLY ADDICTED STATE, BUT THE UPSTREAM REGULATORY MECHANISMS GOVERNING DELTAFOSB EXPRESSION ARE INCOMPLETELY UNDERSTOOD. IN THIS STUDY, WE FIND A NOVEL REGULATORY ROLE FOR THE TRANSCRIPTION FACTOR E2F3, RECENTLY IMPLICATED IN TRANSCRIPTIONAL REGULATION BY COCAINE, IN CONTROLLING DELTAFOSB INDUCTION IN THE MOUSE NUCLEUS ACCUMBENS (NAC) FOLLOWING COCAINE ADMINISTRATION. WE FIND THAT AN E2F CONSENSUS SEQUENCE 500 BP UPSTREAM OF THE FOSB TRANSCRIPTION START SITE IS ENRICHED FOR E2F3 SPECIFICALLY OVER OTHER E2F ISOFORMS. WE FURTHER CONCLUDE THAT DELTAFOSB EXPRESSION IS REGULATED SPECIFICALLY BY E2F3A, NOT E2F3B, THAT E2F3A EXPRESSION IS SPECIFIC TO D1 RECEPTOR-EXPRESSING MEDIUM SPINY NEURONS, AND THAT E2F3A OVEREXPRESSION IN NAC RECAPITULATES THE INDUCTION OF FOSB AND DELTAFOSB MRNA EXPRESSION OBSERVED AFTER CHRONIC COCAINE EXPOSURE. E2F3A KNOCKDOWN IN NAC DOES NOT ABOLISH DELTAFOSB INDUCTION BY COCAINE, A RESULT CONSISTENT WITH PREVIOUSLY PUBLISHED DATA SHOWING THAT SINGULAR KNOCKDOWN OF UPSTREAM REGULATORS OF DELTAFOSB IS INSUFFICIENT TO BLOCK COCAINE-INDUCED EXPRESSION. FINALLY, TO ELUCIDATE POTENTIAL COMBINATORIAL EPIGENETIC MECHANISMS INVOLVED IN E2F3A'S REGULATION OF FOSB, WE EXPLORE H3K4ME3 ENRICHMENT AT THE FOSB PROMOTER AND FIND THAT IT IS NOT ENHANCED BY E2F3A OVEREXPRESSION, SUGGESTING THAT IT MAY INSTEAD BE A PRE-EXISTING PERMISSIVE MARK ALLOWING FOR E2F3A TO INTERACT WITH FOSB. TOGETHER, THESE FINDINGS SUPPORT A ROLE FOR E2F3A AS A NOVEL, UPSTREAM REGULATOR OF THE ADDICTION-MEDIATING TRANSCRIPTION FACTOR DELTAFOSB IN NAC. 2019 5 5201 42 PRENATAL MORPHINE EXPOSURE INCREASES GAMMA OSCILLATION AND THETA COHERENCE IN THE RAT REWARD SYSTEM. PREVIOUS STUDIES HAVE FOUND THAT PRENATAL MORPHINE (PNM) EXPOSURE LEADS TO BOTH INCREASED AND DECREASED RISK OF SUBSTANCE ABUSE IN OFFSPRING. UNDERSTANDING MORE ABOUT THE NEUROBIOLOGICAL CHANGES AFTER THE PNM EXPOSURE WOULD HELP TO UNDERSTAND MORE ABOUT THIS ISSUE. SIGNALING FROM DOPAMINE NEURONS OF THE VENTRAL TEGMENTAL AREA (VTA) IN THE MESOACCUMBAL AND MESOCORTICAL PATHWAYS PLAYS A VITAL ROLE IN DRUG DEPENDENCY. TO PROVIDE FURTHER KNOWLEDGE ABOUT THE EFFECTS OF PNM ON DRUG SEEKING BEHAVIOR AND THE DOPAMINE SYSTEM. WE RECORDED LOCAL FIELD POTENTIALS (LFP) SIMULTANEOUSLY IN THE VTA, NAC (NUCLEUS ACCUMBENS), BLA (BASOLATERAL AMYGDALA) AND MPFC (MEDIAL PREFRONTAL CORTEX) IN MALE ADULT RATS PRENATALLY TREATED WITH SALINE OR MORPHINE. MORPHINE (10 MG/KG) INDUCED CONDITIONED PLACE PREFERENCE (CPP) ESTABLISHMENT, EXTINCTION AND PRIMING WERE TESTED TO INVESTIGATE THE EFFECTS OF PNM ON ADDICTIVE-LIKE BEHAVIOR. IN ADDITION, THE EXPRESSION OF NUCLEAR HISTONE DEACETYLASES (HDAC4, HDAC5), WHICH PLAYS ESSENTIAL EPIGENETIC ROLES IN NEUROPLASTICITY AFTER DRUG USE WERE ALSO TESTED IN VTA AND NAC. THE RESULTS SHOWED THAT PNM DID NOT CHANGE THE ACQUISITION OF MORPHINE CPP IN MALE RATS, BUT IMPAIRED CPP EXTINCTION AND MORPHINE (5 MG/KG) - PRIMED REINSTATEMENT OF CPP AFTER EXTINCTION. PNM INCREASED THE LOW GAMMA (30-60 HZ) AND HIGH (60-90 HZ) GAMMA LFP POWERS IN NAC AND BLA. PNM ALSO LEADS TO INCREASED THETA (4-9 HZ) COHERENCE BETWEEN VTA AND NAC, AND INCREASED HDAC5 EXPRESSION IN VTA. AFTER CHRONIC MORPHINE ADMINISTRATION, COHERENCE BETWEEN VTA-NAC, MPFC-NAC AND MPFC-BLA INCREASED SIGNIFICANTLY IN PNS RATS, BUT NO CHANGES WERE FIND IN PNM RATS, INDICATING IMPAIRED PLASTICITY IN BRAIN CIRCUITS. ALL THESE RESULTS SUGGEST THAT PNM EXPOSURE INCREASED REWARD PROCESSING IN ADULT MALE RATS, BUT IMPAIRED MORPHINE CPP EXTINCTION AND REINSTATEMENT, WHICH RELATE TO DECREASES NETWORK PLASTICITY AND INCREASED HDAC5 EXPRESSION IN THE REWARD SYSTEM. 2022 6 6602 32 TWO KINDS OF TRANSCRIPTION FACTORS MEDIATE CHRONIC MORPHINE-INDUCED DECREASE IN MIR-105 IN MEDIAL PREFRONTAL CORTEX OF RATS. CHRONIC MORPHINE ADMINISTRATION ALTERS GENE EXPRESSION IN DIFFERENT BRAIN REGIONS, AN EFFECT WHICH MAY CONTRIBUTE TO PLASTIC CHANGES ASSOCIATED WITH ADDICTIVE BEHAVIOR. THIS CHANGE IN GENE EXPRESSION IS MOST POSSIBLY MEDIATED BY ADDICTIVE DRUG-INDUCED EPIGENETIC REMODELING OF GENE EXPRESSION PROGRAMS. OUR PREVIOUS STUDIES SHOWED THAT CHRONIC MORPHINE-INDUCED DECREASE OF MIR-105 IN THE MEDIAL PREFRONTAL CORTEX (MPFC) CONTRIBUTED TO CONTEXT-INDUCED RETRIEVAL OF MORPHINE WITHDRAWAL MEMORY. HOWEVER, HOW CHRONIC MORPHINE TREATMENT DECREASES MIR-105 IN THE MPFC STILL REMAINS UNKNOWN. THE PRESENT STUDY SHOWS THAT CHRONIC MORPHINE INDUCES ADDICTION-RELATED CHANGE IN MIR-105 IN THE MPFC VIA TWO KINDS OF TRANSCRIPTION FACTORS: THE FIRST TRANSCRIPTION FACTOR IS CREB ACTIVATED BY MU RECEPTORS-ERK-P90RSK SIGNALING PATHWAY AND THE SECOND TRANSCRIPTION FACTOR IS GLUCOCORTICOID RECEPTOR (GR), WHICH AS A NEGATIVE TRANSCRIPTION FACTOR, MEDIATES CHRONIC MORPHINE-INDUCED DECREASE IN MIR-105 IN THE MPFC OF RATS. 2022 7 4218 43 METHYL SUPPLEMENTATION ATTENUATES COCAINE-SEEKING BEHAVIORS AND COCAINE-INDUCED C-FOS ACTIVATION IN A DNA METHYLATION-DEPENDENT MANNER. EPIGENETIC MECHANISMS, SUCH AS HISTONE MODIFICATIONS, REGULATE RESPONSIVENESS TO DRUGS OF ABUSE, SUCH AS COCAINE, BUT RELATIVELY LITTLE IS KNOWN ABOUT THE REGULATION OF ADDICTIVE-LIKE BEHAVIORS BY DNA METHYLATION. TO INVESTIGATE THE INFLUENCE OF DNA METHYLATION ON THE LOCOMOTOR-ACTIVATING EFFECTS OF COCAINE AND ON DRUG-SEEKING BEHAVIOR, RATS RECEIVING METHYL SUPPLEMENTATION VIA CHRONIC L-METHIONINE (MET) UNDERWENT EITHER A SENSITIZATION REGIMEN OF INTERMITTENT COCAINE INJECTIONS OR INTRAVENOUS SELF-ADMINISTRATION OF COCAINE, FOLLOWED BY CUE-INDUCED AND DRUG-PRIMED REINSTATEMENT. MET BLOCKED SENSITIZATION TO THE LOCOMOTOR-ACTIVATING EFFECTS OF COCAINE AND ATTENUATED DRUG-PRIMED REINSTATEMENT, WITH NO EFFECT ON CUE-INDUCED REINSTATEMENT OR SUCROSE SELF-ADMINISTRATION AND REINSTATEMENT. FURTHERMORE, UPREGULATION OF DNA METHYLTRANSFERASE 3A AND 3B AND GLOBAL DNA HYPOMETHYLATION WERE OBSERVED IN THE NUCLEUS ACCUMBENS CORE (NAC), BUT NOT IN THE MEDIAL PREFRONTAL CORTEX (MPFC), OF COCAINE-PRETREATED RATS. GLUTAMATERGIC PROJECTIONS FROM THE MPFC TO THE NAC ARE CRITICALLY INVOLVED IN THE REGULATION OF COCAINE-PRIMED REINSTATEMENT, AND ACTIVATION OF BOTH BRAIN REGIONS IS SEEN IN HUMAN ADDICTS WHEN REEXPOSED TO THE DRUG. WHEN COMPARED WITH VEHICLE-PRETREATED RATS, THE IMMEDIATE EARLY GENE C-FOS (A MARKER OF NEURONAL ACTIVATION) WAS UPREGULATED IN THE NAC AND MPFC OF COCAINE-PRETREATED RATS AFTER COCAINE-PRIMED REINSTATEMENT, AND CHRONIC MET TREATMENT BLOCKED ITS INDUCTION IN BOTH REGIONS. COCAINE-INDUCED C-FOS EXPRESSION IN THE NAC WAS ASSOCIATED WITH REDUCED METHYLATION AT CPG DINUCLEOTIDES IN THE C-FOS GENE PROMOTER, EFFECTS REVERSED BY MET TREATMENT. OVERALL, THESE DATA SUGGEST THAT DRUG-SEEKING BEHAVIORS ARE, IN PART, ATTRIBUTABLE TO A DNA METHYLATION-DEPENDENT PROCESS, LIKELY OCCURRING AT SPECIFIC GENE LOCI (E.G., C-FOS) IN THE REWARD PATHWAY. 2015 8 4500 53 MORPHINE-WITHDRAWAL AVERSIVE MEMORIES AND THEIR EXTINCTION MODULATE H4K5 ACETYLATION AND BRD4 ACTIVATION IN THE RAT HIPPOCAMPUS AND BASOLATERAL AMYGDALA. CHROMATIN MODIFICATION IS A CRUCIAL MECHANISM IN SEVERAL IMPORTANT PHENOMENA IN THE BRAIN, INCLUDING DRUG ADDICTION. PERSISTENCE OF DRUG CRAVING AND RISK OF RELAPSE COULD BE ATTRIBUTED TO DRUG-INDUCED EPIGENETIC MECHANISMS THAT SEEM TO BE CANDIDATES EXPLAINING LONG-LASTING DRUG-INDUCED BEHAVIOUR AND MOLECULAR ALTERATIONS. HISTONE ACETYLATION HAS BEEN PROPOSED TO REGULATE DRUG-SEEKING BEHAVIOURS AND THE EXTINCTION OF REWARDING MEMORY OF DRUG TAKING. IN THIS WORK, WE STUDIED THE EPIGENETIC REGULATION DURING CONDITIONED PLACE AVERSION AND AFTER EXTINCTION OF AVERSIVE MEMORY OF OPIATE WITHDRAWAL. THROUGH IMMUNOFLUORESCENCE ASSAYS, WE ASSESSED SOME EPIGENETIC MARKS (H4K5AC AND P-BRD4) IN CRUCIAL AREAS RELATED TO MEMORY RETRIEVAL -BASOLATERAL AMYGDALA (BLA) AND HIPPOCAMPUS-. ADDITIONALLY, TO TEST THE DEGREE OF TRANSCRIPTIONAL ACTIVATION, WE EVALUATED THE IMMEDIATE EARLY GENES (IEGS) RESPONSE (ARC, BDNF, CREB, EGR-1, FOS AND NFKB) AND SMARCC1 (CHROMATIN REMODELER) THROUGH RT-QPCR IN THESE NUCLEI. OUR RESULTS SHOWED INCREASED P-BRD4 AND H4K5AC LEVELS DURING AVERSIVE MEMORY RETRIEVAL, SUGGESTING A MORE OPEN CHROMATIN STATE. HOWEVER, TRANSCRIPTIONAL ACTIVATION OF THESE IEGS WAS NOT FOUND, THEREFORE SUGGESTING THAT OTHER SECONDARY RESPONSE MAY ALREADY BE HAPPENING. ADDITIONALLY, SMARCC1 LEVELS WERE REDUCED DUE TO MORPHINE CHRONIC ADMINISTRATION IN BLA AND DENTATE GYRUS. THE ACTIVATION MARKERS RETURNED TO CONTROL LEVELS AFTER THE RETRIEVAL OF AVERSIVE MEMORIES, REVEALING A MORE REPRESSED CHROMATIN STATE. TAKEN TOGETHER, OUR RESULTS SHOW A MAJOR ROLE OF THE TANDEM H4K5AC/P-BRD4 DURING THE RETRIEVAL OF AVERSIVE MEMORIES. THESE RESULTS MIGHT BE USEFUL TO ELUCIDATE NEW MOLECULAR TARGETS TO IMPROVE AND DEVELOP PHARMACOLOGICAL TREATMENTS TO ADDRESS ADDICTION AND TO AVOID DRUG RELAPSE. 2023 9 5749 40 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 10 4498 46 MORPHINE REGULATES ARGONAUTE 2 AND TH EXPRESSION AND ACTIVITY BUT NOT MIR-133B IN MIDBRAIN DOPAMINERGIC NEURONS. EPIGENETIC CHANGES SUCH AS MICRORNAS (MIRS)/AGO2-INDUCED GENE SILENCING REPRESENT COMPLEX MOLECULAR SIGNATURE THAT REGULATE CELLULAR PLASTICITY. RECENT STUDIES SHOWED INVOLVEMENT OF MIRS AND AGO2 IN DRUG ADDICTION. IN THIS STUDY, WE SHOW THAT CHANGES IN GENE EXPRESSION INDUCED BY MORPHINE AND MORPHINE WITHDRAWAL OCCUR WITH CONCOMITANT EPIGENETIC MODIFICATIONS IN THE MESOLIMBIC DOPAMINERGIC (DA) PATHWAY [VENTRAL TEGMENTAL AREA (VTA)/NUCLEUS ACCUMBENS (NAC) SHELL], WHICH IS CRITICALLY INVOLVED IN DRUG-INDUCED DEPENDENCE. WE FOUND THAT ACUTE OR CHRONIC MORPHINE ADMINISTRATION AS WELL AS MORPHINE WITHDRAWAL DID NOT MODIFY MIR-133B MESSENGER RNA (MRNA) EXPRESSION IN THE VTA, WHEREAS AGO2 PROTEIN LEVELS WERE DECREASED AND INCREASED IN MORPHINE-DEPENDENT RATS AND AFTER MORPHINE WITHDRAWAL, RESPECTIVELY. THESE CHANGES WERE PARALLELED WITH ENHANCED AND DECREASED NAC TYROSINE HYDROXYLASE (TH) PROTEIN (AN EARLY DA MARKER) IN MORPHINE-DEPENDENT RATS AND AFTER WITHDRAWAL, RESPECTIVELY. WE ALSO OBSERVED CHANGES IN TH MRNA EXPRESSION IN THE VTA THAT COULD BE RELATED TO AGO2-INDUCED TRANSLATIONAL REPRESSION OF TH MRNA DURING MORPHINE WITHDRAWAL. HOWEVER, THE VTA NUMBER OF TH-POSITIVE NEURONS SUFFERED NO ALTERATIONS AFTER THE DIFFERENT TREATMENT. ACUTE MORPHINE ADMINISTRATION PRODUCED A MARKED INCREASE IN TH ACTIVITY AND DA TURNOVER IN THE NAC (SHELL). IN CONTRAST, PRECIPITATED MORPHINE WITHDRAWAL DECREASED TH ACTIVATION AND DID NOT CHANGE DA TURNOVER. THESE FINDINGS PROVIDE NEW INFORMATION INTO THE POSSIBLE CORRELATION BETWEEN AGO2/MIRS COMPLEX REGULATION AND DA NEURONS PLASTICITY DURING OPIATE ADDICTION. 2015 11 5535 36 ROLE OF BRD4 PHOSPHORYLATION IN THE NUCLEUS ACCUMBENS IN RELAPSE TO COCAINE-SEEKING BEHAVIOR IN MICE. COCAINE ADDICTION IS A CHRONIC RELAPSING BRAIN DISORDER CHARACTERIZED BY COMPULSIVE DRUG SEEKING. PRELIMINARY STUDY SUGGESTED THAT BROMODOMAIN-CONTAINING PROTEIN 4 (BRD4), AN EPIGENETIC READER PROTEIN, PARTICIPATES IN COCAINE-INDUCED REWARD AND NEUROPLASTICITY. HOWEVER, THE EXACT ROLE OF BRD4 IN COCAINE ADDICTION, PARTICULARLY COCAINE RELAPSE, REMAINS ELUSIVE. IN THIS STUDY, WE FOUND THAT BRD4 PHOSPHORYLATION IN THE NUCLEUS ACCUMBENS (NAC) WAS CLOSELY RELATED TO THE MAINTENANCE OF COCAINE REINFORCEMENT AND RELAPSE IN DIFFERENT COCAINE EXPOSURE PARADIGMS. COCAINE SIGNIFICANTLY INCREASED THE BINDING OF PHOSPHORYLATED BRD4 (PBRD4) AT THE PROMOTER OF GRIA2 AND BDNF GENES IN THE NAC. (+)JQ1, A SELECTIVE BRD4 INHIBITOR, MARKEDLY REDUCED THE REINFORCEMENT AND REINSTATEMENT OF COCAINE-SEEKING BEHAVIORS, WHICH WAS ACCOMPANIED BY THE DECREASED EXPRESSIONS OF GRIA2 AND BDNF. FURTHERMORE, CHROMATIN IMMUNOPRECIPITATION ASSAY SHOWED THAT (+)JQ1 CLEARLY ATTENUATED COCAINE-ENHANCED BINDING OF PBRD4 AT THE PROMOTOR OF GRIA2 AND BDNF GENES. BLOCKADE OF CASEIN KINASE II SIGNIFICANTLY ATTENUATED BRD4 PHOSPHORYLATION AND COCAINE RELAPSE-LIKE BEHAVIORS, SUGGESTING THE IMPORTANT ROLE OF PBRD4 IN MODULATING COCAINE EFFECT. TOGETHER, OUR FINDINGS SUGGEST THAT BRD4 PHOSPHORYLATION IN THE NAC MODULATES MULTIPLE ADDICTION-RELATED BEHAVIORS OF COCAINE AND PARTICULARLY RELAPSE TO COCAINE-SEEKING BEHAVIORS. INHIBITION OF BRD4 ACTIVITY MAY BE A NOVEL TARGET AGAINST COCAINE ADDICTION AND RELAPSE. 2020 12 696 44 BROMATE-INDUCED CHANGES IN P21 DNA METHYLATION AND HISTONE ACETYLATION IN RENAL CELLS. BROMATE (BRO3-) IS A WATER DISINFECTION BYPRODUCT (DBP) PREVIOUSLY SHOWN TO INDUCE NEPHROTOXICITY IN VITRO AND IN VIVO. WE RECENTLY SHOWED THAT INHIBITORS OF DNA METHYLTRANSFERASE 5-AZA-2'-DEOXYCYTIDINE (5-AZA) AND HISTONE DEACETYLASE TRICHOSTATIN A (TSA) INCREASED BRO3- NEPHROTOXICITY WHEREAS ALTERING THE EXPRESSION OF THE CYCLIN-DEPENDENT KINASE INHIBITOR P21. HUMAN EMBRYONIC KIDNEY CELLS (HEK293) AND NORMAL RAT KIDNEY (NRK) CELLS WERE SUB-CHRONICALLY EXPOSED TO BRO3- OR EPIGENETIC INHIBITORS FOR 18 DAYS, FOLLOWED BY 9 DAYS OF WITHDRAWAL. DNA METHYLATION WAS STUDIED USING A MODIFICATION OF BISULFITE AMPLICON SEQUENCING CALLED TARGETED GENE BISULFITE SEQUENCING. BASAL PROMOTER METHYLATION IN THE HUMAN P21 PROMOTER REGION WAS SUBSTANTIALLY LOWER THAN THAT OF THE RAT DNA. FURTHERMORE, 5-AZA DECREASED DNA METHYLATION IN HEK293 CELLS AT THE SIS-INDUCIBLE ELEMENT AT 3 DISTINCT CPG SITES LOCATED AT 691, 855, AND 895 BP UPSTREAM OF TRANSCRIPTION START SITE (TSS). 5-AZA ALSO DECREASED METHYLATION AT THE RAT P21 PROMOTER ABOUT 250 BP UPSTREAM OF THE P21 TSS. IN CONTRAST, SUB-CHRONIC BRO3- EXPOSURE FAILED TO ALTER METHYLATION IN HUMAN OR RAT RENAL CELLS. BRO3- EXPOSURE ALTERED HISTONE ACETYLATION IN NRK CELLS AT THE P21 TSS, BUT NOT IN HEK293 CELLS. INTERESTINGLY, CHANGES IN DNA METHYLATION INDUCED BY 5-AZA PERSISTED AFTER ITS REMOVAL; HOWEVER, TSA- AND BRO3--INDUCED HISTONE HYPERACETYLATION RETURNED TO BASAL LEVELS AFTER 3 DAYS OF WITHDRAWAL. THESE DATA DEMONSTRATE NOVEL SITES WITHIN THE P21 GENE THAT ARE EPIGENETICALLY REGULATED AND FURTHER SHOW THAT SIGNIFICANT DIFFERENCES EXIST IN THE EPIGENETIC LANDSCAPE BETWEEN RAT AND HUMAN P21, ESPECIALLY WITH REGARDS TO TOXICANT-INDUCED CHANGES IN HISTONE ACETYLATION. 2019 13 882 42 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 14 3364 31 HISTONE METHYLATION BY THE KLEEFSTRA SYNDROME PROTEIN EHMT1 MEDIATES HOMEOSTATIC SYNAPTIC SCALING. HOMEOSTATIC PLASTICITY, A FORM OF SYNAPTIC PLASTICITY, MAINTAINS THE FINE BALANCE BETWEEN OVERALL EXCITATION AND INHIBITION IN DEVELOPING AND MATURE NEURONAL NETWORKS. ALTHOUGH THE SYNAPTIC MECHANISMS OF HOMEOSTATIC PLASTICITY ARE WELL CHARACTERIZED, THE ASSOCIATED TRANSCRIPTIONAL PROGRAM REMAINS POORLY UNDERSTOOD. WE SHOW THAT THE KLEEFSTRA-SYNDROME-ASSOCIATED PROTEIN EHMT1 PLAYS A CRITICAL AND CELL-AUTONOMOUS ROLE IN SYNAPTIC SCALING BY RESPONDING TO ATTENUATED NEURONAL FIRING OR SENSORY DRIVE. CHRONIC ACTIVITY DEPRIVATION INCREASED THE AMOUNT OF NEURONAL DIMETHYLATED H3 AT LYSINE 9 (H3K9ME2), THE CATALYTIC PRODUCT OF EHMT1 AND AN EPIGENETIC MARKER FOR GENE REPRESSION. GENETIC KNOCKDOWN AND PHARMACOLOGICAL BLOCKADE OF EHMT1 OR EHMT2 PREVENTED THE INCREASE OF H3K9ME2 AND SYNAPTIC SCALING UP. FURTHERMORE, BDNF REPRESSION WAS PRECEDED BY EHMT1/2-MEDIATED H3K9ME2 DEPOSITION AT THE BDNF PROMOTER DURING SYNAPTIC SCALING UP, BOTH IN VITRO AND IN VIVO. OUR FINDINGS SUGGEST THAT H3K9ME2-MEDIATED CHANGES IN CHROMATIN STRUCTURE GOVERN A REPRESSIVE PROGRAM THAT CONTROLS SYNAPTIC SCALING. 2016 15 1706 47 DYNORPHIN/KOP AND NOCICEPTIN/NOP GENE EXPRESSION AND EPIGENETIC CHANGES BY COCAINE IN RAT STRIATUM AND NUCLEUS ACCUMBENS. COCAINE INDUCES NEUROCHEMICAL CHANGES OF ENDOGENOUS PRODYNORPHIN-KAPPA OPIOID RECEPTOR (PDYN-KOP) AND PRONOCICEPTIN/ORPHANINFQ-NOCICEPTIN RECEPTOR (PN/OFQ-NOP) SYSTEMS. BOTH SYSTEMS PLAY AN IMPORTANT ROLE IN REWARDING MECHANISMS AND ADDICTIVE STIMULUS PROCESSING BY MODULATING DRUG-INDUCED DOPAMINERGIC ACTIVATION IN THE MESOCORTICO-LIMBIC BRAIN AREAS. THEY ARE ALSO INVOLVED IN REGULATING STRESS MECHANISMS RELATED TO ADDICTION. THE AIM OF THIS STUDY WAS TO INVESTIGATE POSSIBLE CHANGES OF GENE EXPRESSION OF THE DYNORPHINERGIC AND NOCICEPTINERGIC SYSTEM COMPONENTS IN THE NUCLEUS ACCUMBENS (NA) AND IN MEDIAL AND LATERAL CAUDATE PUTAMEN (MCPU AND LCPU, RESPECTIVELY) OF RATS, FOLLOWING CHRONIC SUBCUTANEOUS INFUSION OF COCAINE. IN ADDITION, THE EPIGENETIC HISTONE MODIFICATIONS H3K4ME3 AND H3K27ME3 (AN ACTIVATING AND A REPRESSIVE MARKER, RESPECTIVELY) AT THE PROMOTER LEVEL OF THE PDYN, KOP, PN/OFQ AND NOP GENES WERE INVESTIGATED. RESULTS SHOWED THAT COCAINE INDUCED PDYN GENE EXPRESSION UP-REGULATION IN THE NA AND LCPU, AND ITS DOWN-REGULATION IN THE MCPU, WHEREAS KOP MRNA LEVELS WERE UNCHANGED. MOREOVER, COCAINE EXPOSURE DECREASED PN/OFQ GENE EXPRESSION IN THE NA AND LCPU, WHILE NOP MRNA LEVELS APPEARED SIGNIFICANTLY INCREASED IN THE NA AND DECREASED IN THE LCPU. SPECIFIC CHANGES OF THE H3K4ME3 AND H3K27ME3 LEVELS WERE FOUND AT PDYN, PN/OFQ, AND NOP GENE PROMOTER, CONSISTENT WITH THE OBSERVED GENE EXPRESSION ALTERATIONS. THE PRESENT FINDINGS CONTRIBUTE TO BETTER DEFINE THE ROLE OF ENDOGENOUS PDYN-KOP AND PN/OFQ-NOP SYSTEMS IN NEUROPLASTICITY MECHANISMS FOLLOWING CHRONIC COCAINE TREATMENT. THE EPIGENETIC HISTONE MODIFICATIONS UNDERLYING THE GENE EXPRESSION CHANGES LIKELY MEDIATE THE EFFECTS OF COCAINE ON TRANSCRIPTIONAL REGULATION OF SPECIFIC GENE PROMOTERS THAT RESULT IN LONG-LASTING DRUG-INDUCED PLASTICITY. 2014 16 2325 42 EPIGENETIC REGULATION OF HIPPOCAMPAL FOSB EXPRESSION CONTROLS BEHAVIORAL RESPONSES TO COCAINE. DRUG ADDICTION RESULTS IN PART FROM MALADAPTIVE LEARNING, INCLUDING THE FORMATION OF STRONG ASSOCIATIONS BETWEEN THE DRUG AND THE CIRCUMSTANCES OF CONSUMPTION. HOWEVER, DRUG-INDUCED CHANGES IN GENE EXPRESSION UNDERLYING THE SALIENCY OF THESE ASSOCIATIONS REMAIN UNDERSTUDIED. CONSOLIDATION OF EXPLICIT MEMORIES OCCURS WITHIN THE HIPPOCAMPUS, AND WE HAVE SHOWN THAT SPATIAL LEARNING INDUCES EXPRESSION OF THE TRANSCRIPTION FACTOR DELTAFOSB IN HIPPOCAMPUS AND THAT THIS INDUCTION IS CRITICAL FOR LEARNING. DRUGS OF ABUSE ALSO UPREGULATE DELTAFOSB IN HIPPOCAMPUS, BUT THE MECHANISM OF ITS INDUCTION BY COCAINE AND ITS ROLE IN HIPPOCAMPUS-DEPENDENT COCAINE RESPONSES IS UNKNOWN. WE INVESTIGATED DIFFERENCES IN MOUSE DORSAL AND VENTRAL HIPPOCAMPAL DELTAFOSB EXPRESSION IN RESPONSE TO CHRONIC COCAINE, BECAUSE THESE REGIONS APPEAR TO REGULATE DISTINCT COCAINE-RELATED BEHAVIORS. WE FOUND THAT COCAINE-MEDIATED INDUCTION OF DELTAFOSB WAS SUBREGION-SPECIFIC, AND THAT DELTAFOSB TRANSCRIPTIONAL ACTIVITY IN BOTH THE DORSAL AND VENTRAL HIPPOCAMPUS IS NECESSARY FOR COCAINE CONDITIONED PLACE PREFERENCE. FURTHER, WE CHARACTERIZE CHANGES IN HISTONE MODIFICATIONS AT THE FOSB PROMOTER IN HIPPOCAMPUS IN RESPONSE TO CHRONIC COCAINE AND FOUND THAT LOCUS-SPECIFIC EPIGENETIC MODIFICATION IS ESSENTIAL FOR FOSB INDUCTION AND MULTIPLE HIPPOCAMPUS-DEPENDENT BEHAVIORS, INCLUDING COCAINE PLACE PREFERENCE. COLLECTIVELY, THESE FINDINGS SUGGEST THAT EXPOSURE TO COCAINE INDUCES HISTONE MODIFICATION AT THE HIPPOCAMPAL FOSB GENE PROMOTER TO CAUSE DELTAFOSB INDUCTION CRITICAL FOR COCAINE-RELATED LEARNING.SIGNIFICANCE STATEMENT ALTHOUGH COCAINE ADDICTION IS DRIVEN IN PART BY THE FORMATION OF INDELIBLE ASSOCIATIONS BETWEEN THE DRUG AND THE ENVIRONMENT, PARAPHERNALIA, AND CIRCUMSTANCES OF USE, AND ALTHOUGH THIS TYPE OF ASSOCIATIVE LEARNING IS DEPENDENT UPON CHANGES IN GENE EXPRESSION IN A BRAIN REGION CALLED THE HIPPOCAMPUS, THE MECHANISMS BY WHICH COCAINE ALTERS HIPPOCAMPAL GENE EXPRESSION TO DRIVE FORMATION OF THESE ASSOCIATIONS IS POORLY UNDERSTOOD. HERE, WE DEMONSTRATE THAT CHRONIC COCAINE ENGAGES LOCUS-SPECIFIC CHANGES IN THE EPIGENETIC PROFILE OF THE FOSB GENE IN THE HIPPOCAMPUS, AND THAT THESE ALTERATIONS ARE REQUIRED FOR COCAINE-DEPENDENT GENE EXPRESSION AND COCAINE-ENVIRONMENT ASSOCIATIONS. THIS WORK PROVIDES NOVEL INSIGHT INTO ADDICTION ETIOLOGY AND POTENTIAL INROADS FOR THERAPEUTIC INTERVENTION IN COCAINE ADDICTION. 2019 17 695 43 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 18 786 32 CELL-TYPE-SPECIFIC EPIGENETIC EDITING AT THE FOSB GENE CONTROLS SUSCEPTIBILITY TO SOCIAL DEFEAT STRESS. CHRONIC SOCIAL DEFEAT STRESS REGULATES THE EXPRESSION OF FOSB IN THE NUCLEUS ACCUMBENS (NAC) TO PROMOTE THE CELL-TYPE-SPECIFIC ACCUMULATION OF DELTAFOSB IN THE TWO MEDIUM SPINY NEURON (MSN) SUBTYPES IN THIS REGION. DELTAFOSB IS SELECTIVELY INDUCED IN D1-MSNS IN THE NAC OF RESILIENT MICE, AND IN D2-MSNS OF SUSCEPTIBLE MICE. HOWEVER, LITTLE IS KNOWN ABOUT THE CONSEQUENCES OF SUCH SELECTIVE INDUCTION, PARTICULARLY IN D2-MSNS. THIS STUDY EXAMINED HOW CELL-TYPE-SPECIFIC CONTROL OF THE ENDOGENOUS FOSB GENE IN NAC REGULATES SUSCEPTIBILITY TO SOCIAL DEFEAT STRESS. HISTONE POST-TRANSLATIONAL MODIFICATIONS (HPTMS) WERE TARGETED SPECIFICALLY TO FOSB USING ENGINEERED ZINC-FINGER PROTEINS (ZFPS). FOSB-ZFPS WERE FUSED TO EITHER THE TRANSCRIPTIONAL REPRESSOR, G9A, WHICH PROMOTES HISTONE METHYLATION OR THE TRANSCRIPTIONAL ACTIVATOR, P65, WHICH PROMOTES HISTONE ACETYLATION. THESE ZFPS WERE EXPRESSED IN D1- VS D2-MSNS USING CRE-DEPENDENT VIRAL EXPRESSION IN THE NAC OF MICE TRANSGENIC FOR CRE RECOMBINASE IN THESE MSN SUBTYPES. WE FOUND THAT STRESS SUSCEPTIBILITY IS OPPOSITELY REGULATED BY THE SPECIFIC CELL TYPE AND HPTM TARGETED. WE REPORT THAT FOSB-TARGETED HISTONE ACETYLATION IN D2-MSNS OR HISTONE METHYLATION IN D1-MSNS PROMOTES A STRESS-SUSCEPTIBLE, DEPRESSIVE-LIKE PHENOTYPE, WHILE HISTONE METHYLATION IN D2-MSNS OR HISTONE ACETYLATION IN D1-MSNS INCREASES RESILIENCE TO SOCIAL STRESS AS QUANTIFIED BY SOCIAL INTERACTION BEHAVIOR AND SUCROSE PREFERENCE. THIS WORK PRESENTS THE FIRST DEMONSTRATION OF CELL- AND GENE-SPECIFIC TARGETING OF HISTONE MODIFICATIONS, WHICH MODEL NATURALLY OCCURRING TRANSCRIPTIONAL PHENOMENA THAT CONTROL SOCIAL DEFEAT STRESS BEHAVIOR. THIS EPIGENETIC-EDITING APPROACH, WHICH RECAPITULATES PHYSIOLOGICAL CHANGES IN GENE EXPRESSION, REVEALS CLEAR DIFFERENCES IN THE SOCIAL DEFEAT PHENOTYPE INDUCED BY FOSB GENE MANIPULATION IN MSN SUBTYPES. 2018 19 3203 42 HDAC3 ACTIVITY WITHIN THE NUCLEUS ACCUMBENS REGULATES COCAINE-INDUCED PLASTICITY AND BEHAVIOR IN A CELL-TYPE-SPECIFIC MANNER. EPIGENETIC MECHANISMS REGULATE PROCESSES OF NEUROPLASTICITY CRITICAL TO COCAINE-INDUCED BEHAVIORS. THIS INCLUDES THE CLASS I HISTONE DEACETYLASE (HDAC) HDAC3, KNOWN TO ACT AS A NEGATIVE REGULATOR OF COCAINE-ASSOCIATED MEMORY FORMATION WITHIN THE NUCLEUS ACCUMBENS (NAC). DESPITE THIS, IT REMAINS UNKNOWN HOW COCAINE ALTERS HDAC3-DEPENDENT MECHANISMS. HERE, WE PROFILED HDAC3 EXPRESSION AND ACTIVITY IN TOTAL NAC MOUSE TISSUE FOLLOWING COCAINE EXPOSURE. ALTHOUGH CHRONIC COCAINE DID NOT AFFECT EXPRESSION OF HDAC3 WITHIN THE NAC, CHRONIC COCAINE DID AFFECT PROMOTER-SPECIFIC CHANGES IN HDAC3 AND H4K8AC OCCUPANCY. THESE CHANGES IN PROMOTER OCCUPANCY CORRELATED WITH COCAINE-INDUCED CHANGES IN EXPRESSION OF PLASTICITY-RELATED GENES. TO CAUSALLY DETERMINE WHETHER COCAINE-INDUCED PLASTICITY IS MEDIATED BY HDAC3'S DEACETYLASE ACTIVITY, WE OVEREXPRESSED A DEACETYLASE-DEAD HDAC3 POINT MUTANT (HDAC3-Y298H-V5) WITHIN THE NAC OF ADULT MALE MICE. WE FOUND THAT DISRUPTING HDAC3'S ENZYMATIC ACTIVITY ALTERED SELECTIVE CHANGES IN GENE EXPRESSION AND SYNAPTIC PLASTICITY FOLLOWING COCAINE EXPOSURE, DESPITE HAVING NO EFFECTS ON COCAINE-INDUCED BEHAVIORS. IN FURTHER ASSESSING HDAC3'S ROLE WITHIN THE NAC, WE OBSERVED THAT CHRONIC COCAINE INCREASES HDAC3 EXPRESSION IN DRD1 BUT NOT DRD2-CELLS OF THE NAC. MOREOVER, WE DISCOVERED THAT HDAC3 ACTS SELECTIVELY WITHIN D1R CELL-TYPES TO REGULATE COCAINE-ASSOCIATED MEMORY FORMATION AND COCAINE-SEEKING. OVERALL, THESE RESULTS SUGGEST THAT COCAINE INDUCES CELL-TYPE-SPECIFIC CHANGES IN EPIGENETIC MECHANISMS TO PROMOTE PLASTICITY IMPORTANT FOR DRIVING COCAINE-RELATED BEHAVIORS.SIGNIFICANCE STATEMENT DRUGS OF ABUSE ALTER MOLECULAR MECHANISMS THROUGHOUT THE REWARD CIRCUITRY THAT CAN LEAD TO PERSISTENT DRUG-ASSOCIATED BEHAVIORS. EPIGENETIC REGULATORS ARE CRITICAL DRIVERS OF DRUG-INDUCED CHANGES IN GENE EXPRESSION. HERE, WE DEMONSTRATE THAT THE ACTIVITY OF AN EPIGENETIC ENZYME PROMOTES NEUROPLASTICITY WITHIN THE NUCLEUS ACCUMBENS (NAC) CRITICAL TO COCAINE ACTION. IN ADDITION, WE DEMONSTRATE THAT THESE CHANGES IN EPIGENETIC ACTIVITY DRIVE COCAINE-SEEKING BEHAVIORS IN A CELL-TYPE-SPECIFIC MANNER. THESE FINDINGS ARE KEY IN UNDERSTANDING AND TARGETING COCAINE'S IMPACT OF NEURAL CIRCUITRY AND BEHAVIOR. 2021 20 3972 37 LONG-TERM BEHAVIORAL AND CELL-TYPE-SPECIFIC MOLECULAR EFFECTS OF EARLY LIFE STRESS ARE MEDIATED BY H3K79ME2 DYNAMICS IN MEDIUM SPINY NEURONS. ANIMALS SUSCEPTIBLE TO CHRONIC SOCIAL DEFEAT STRESS (CSDS) EXHIBIT DEPRESSION-RELATED BEHAVIORS, WITH ABERRANT TRANSCRIPTION ACROSS SEVERAL LIMBIC BRAIN REGIONS, MOST NOTABLY IN THE NUCLEUS ACCUMBENS (NAC). EARLY LIFE STRESS (ELS) PROMOTES SUSCEPTIBILITY TO CSDS IN ADULTHOOD, BUT ASSOCIATED ENDURING CHANGES IN TRANSCRIPTIONAL CONTROL MECHANISMS IN THE NAC HAVE NOT YET BEEN INVESTIGATED. IN THIS STUDY, WE EXAMINED LONG-LASTING CHANGES TO HISTONE MODIFICATIONS IN THE NAC OF MALE AND FEMALE MICE EXPOSED TO ELS. DIMETHYLATION OF LYSINE 79 OF HISTONE H3 (H3K79ME2) AND THE ENZYMES (DOT1L AND KDM2B) THAT CONTROL THIS MODIFICATION ARE ENRICHED IN D2-TYPE MEDIUM SPINY NEURONS AND ARE SHOWN TO BE CRUCIAL FOR THE EXPRESSION OF ELS-INDUCED STRESS SUSCEPTIBILITY. WE MAPPED THE SITE-SPECIFIC REGULATION OF THIS HISTONE MARK GENOME WIDE TO REVEAL THE TRANSCRIPTIONAL NETWORKS IT MODULATES. FINALLY, SYSTEMIC DELIVERY OF A SMALL MOLECULE INHIBITOR OF DOT1L REVERSED ELS-INDUCED BEHAVIORAL DEFICITS, INDICATING THE CLINICAL RELEVANCE OF THIS EPIGENETIC MECHANISM. 2021