1 3972 105 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 2 1331 30 DEPRESSIVE-LIKE BEHAVIORS INDUCED BY CHRONIC SOCIAL DEFEAT STRESS ARE ASSOCIATED WITH HDAC7 REDUCTION IN THE NUCLEUS ACCUMBENS. PERSISTENT SYMPTOMS OF DEPRESSION INDICATE THE ADAPTIVE INVOLVEMENT OF STABLE MOLECULES IN THE BRAIN THAT MAY BE MANIFESTED AT THE LEVEL OF CHROMATIN REMODELING, SUCH AS HISTONE ACETYLATION. FORMER STUDIES HAVE IDENTIFIED ALTERATIONS IN HISTONE ACETYLATION AND DEACETYLATION IN SEVERAL ANIMAL MODELS ABOUT DEPRESSION. HOWEVER, THE SPECIFIC HISTONE DEACETYLASES RELATED WITH DEPRESSION ARE NEEDED TO BE EXPLORED. HERE, SOCIAL AVOIDANCE BEHAVIORS, ANXIETY-, AND DEPRESSION-LIKE BEHAVIORS WERE ALL FOUND IN MICE SUFFERED FROM CHRONIC SOCIAL DEFEAT STRESS. MOREOVER, WE ALSO DISCOVERED THAT THE AMOUNT OF THE CLASS II HISTONE DEACETYLASE, HDAC7 RATHER THAN HDAC2, WAS SIGNIFICANTLY DECREASED IN THE NUCLEUS ACCUMBENS OF DEFEATED MICE, WHICH SUGGESTED THAT HDAC7 MIGHT BE A CRUCIAL HISTONE DEACETYLASE IN A CHRONIC SOCIAL DEFEAT STRESS MODEL. OUR DATA SHOWED THAT THE DEPRESSIVE-LIKE BEHAVIORS INDUCED BY CHRONIC SOCIAL DEFEAT STRESS WERE ASSOCIATED WITH HDAC7 REDUCTION IN NUCLEUS ACCUMBENS. HDAC7 MIGHT BE A PROMISING THERAPEUTIC TARGET FOR DEPRESSION. 2020 3 5974 36 TET1 IN NUCLEUS ACCUMBENS OPPOSES DEPRESSION- AND ANXIETY-LIKE BEHAVIORS. DEPRESSION IS A LEADING CAUSE OF DISEASE BURDEN, YET CURRENT THERAPIES FULLY TREAT <50% OF AFFECTED INDIVIDUALS. INCREASING EVIDENCE IMPLICATES EPIGENETIC MECHANISMS IN DEPRESSION AND ANTIDEPRESSANT ACTION. HERE WE EXAMINED A POSSIBLE ROLE FOR THE DNA DIOXYGENASE, TEN-ELEVEN TRANSLOCATION PROTEIN 1 (TET1), IN DEPRESSION-RELATED BEHAVIORAL ABNORMALITIES. WE APPLIED CHRONIC SOCIAL DEFEAT STRESS, AN ETHOLOGICALLY VALIDATED MOUSE MODEL OF DEPRESSION-LIKE BEHAVIORS, AND EXAMINED TET1 EXPRESSION CHANGES IN NUCLEUS ACCUMBENS (NAC), A KEY BRAIN REWARD REGION. WE SHOW DECREASED TET1 EXPRESSION IN NAC IN STRESS-SUSCEPTIBLE MICE ONLY. SURPRISINGLY, SELECTIVE KNOCKOUT OF TET1 IN NAC NEURONS OF ADULT MICE PRODUCED ANTIDEPRESSANT-LIKE EFFECTS IN SEVERAL BEHAVIORAL ASSAYS. TO IDENTIFY TET1 TARGETS THAT MEDIATE THESE ACTIONS, WE PERFORMED RNASEQ ON NAC AFTER CONDITIONAL DELETION OF TET1 AND FOUND THAT IMMUNE-RELATED GENES ARE THE MOST HIGHLY DYSREGULATED. MOREOVER, MANY OF THESE GENES ARE ALSO UPREGULATED IN THE NAC OF RESILIENT MICE AFTER CHRONIC SOCIAL DEFEAT STRESS. THESE FINDINGS REVEAL A NOVEL ROLE FOR TET1, AN ENZYME IMPORTANT FOR DNA HYDROXYMETHYLATION, IN THE BRAIN'S REWARD CIRCUITRY IN MODULATING STRESS RESPONSES IN MICE. WE ALSO IDENTIFY A SUBSET OF GENES THAT ARE REGULATED BY TET1 IN THIS CIRCUITRY. THESE FINDINGS PROVIDE NEW INSIGHT INTO THE PATHOPHYSIOLOGY OF DEPRESSION, WHICH CAN AID IN FUTURE ANTIDEPRESSANT DRUG DISCOVERY EFFORTS. 2017 4 5750 36 SOCIAL DEFEAT STRESS IN ADULT MICE CAUSES ALTERATIONS IN GENE EXPRESSION, ALTERNATIVE SPLICING, AND THE EPIGENETIC LANDSCAPE OF H3K4ME3 IN THE PREFRONTAL CORTEX: AN IMPACT OF EARLY-LIFE STRESS. CHRONIC STRESS IS THE LEADING RISK FACTOR OF A BROAD RANGE OF SEVERE PSYCHOPATHOLOGIES. NONETHELESS, THE MOLECULAR MECHANISMS TRIGGERING THESE PATHOLOGICAL PROCESSES ARE NOT WELL UNDERSTOOD. IN OUR STUDY, WE INVESTIGATED THE EFFECTS OF 15-DAY SOCIAL DEFEAT STRESS (SDS) ON THE GENOME-WIDE LANDSCAPE OF TRIMETHYLATION AT THE 4TH LYSINE RESIDUE OF HISTONE H3 (H3K4ME3) AND ON THE TRANSCRIPTOME IN THE PREFRONTAL CORTEX OF MICE THAT WERE REARED NORMALLY (GROUP SDS) OR SUBJECTED TO MATERNAL SEPARATION EARLY IN LIFE (GROUP MS+SDS). THE MICE WITH THE HISTORY OF STRESS EARLY IN LIFE SHOWED INCREASED SUSCEPTIBILITY TO SDS IN ADULTHOOD AND DEMONSTRATED LONG-LASTING GENOME-WIDE ALTERATIONS IN GENE EXPRESSION AND SPLICING AS WELL AS IN THE H3K4ME3 EPIGENETIC LANDSCAPE IN THE PREFRONTAL CORTEX. THUS, THE HIGH-THROUGHPUT TECHNIQUES APPLIED HERE ALLOWED US TO SIMULTANEOUSLY DETECT, FOR THE FIRST TIME, GENOME-WIDE EPIGENETIC AND TRANSCRIPTIONAL CHANGES IN THE MURINE PREFRONTAL CORTEX THAT ARE ASSOCIATED WITH BOTH CHRONIC SDS AND INCREASED SUSCEPTIBILITY TO THIS STRESSOR. 2021 5 3952 35 LOCUS-SPECIFIC EPIGENETIC REMODELING CONTROLS ADDICTION- AND DEPRESSION-RELATED BEHAVIORS. CHRONIC EXPOSURE TO DRUGS OF ABUSE OR STRESS REGULATES TRANSCRIPTION FACTORS, CHROMATIN-MODIFYING ENZYMES AND HISTONE POST-TRANSLATIONAL MODIFICATIONS IN DISCRETE BRAIN REGIONS. GIVEN THE PROMISCUITY OF THE ENZYMES INVOLVED, IT HAS NOT YET BEEN POSSIBLE TO OBTAIN DIRECT CAUSAL EVIDENCE TO IMPLICATE THE REGULATION OF TRANSCRIPTION AND CONSEQUENT BEHAVIORAL PLASTICITY BY CHROMATIN REMODELING THAT OCCURS AT A SINGLE GENE. WE INVESTIGATED THE MECHANISM LINKING CHROMATIN DYNAMICS TO NEUROBIOLOGICAL PHENOMENA BY APPLYING ENGINEERED TRANSCRIPTION FACTORS TO SELECTIVELY MODIFY CHROMATIN AT A SPECIFIC MOUSE GENE IN VIVO. WE FOUND THAT HISTONE METHYLATION OR ACETYLATION AT THE FOSB LOCUS IN NUCLEUS ACCUMBENS, A BRAIN REWARD REGION, WAS SUFFICIENT TO CONTROL DRUG- AND STRESS-EVOKED TRANSCRIPTIONAL AND BEHAVIORAL RESPONSES VIA INTERACTIONS WITH THE ENDOGENOUS TRANSCRIPTIONAL MACHINERY. THIS APPROACH ALLOWED US TO RELATE THE EPIGENETIC LANDSCAPE AT A GIVEN GENE DIRECTLY TO REGULATION OF ITS EXPRESSION AND TO ITS SUBSEQUENT EFFECTS ON REWARD BEHAVIOR. 2014 6 1808 40 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 7 4643 40 NEUROPATHIC PAIN AS A TRIGGER FOR HISTONE MODIFICATIONS IN LIMBIC CIRCUITRY. CHRONIC PAIN INVOLVES BOTH CENTRAL AND PERIPHERAL NEURONAL PLASTICITY THAT ENCOMPASSES CHANGES IN THE BRAIN, SPINAL CORD, AND PERIPHERAL NOCICEPTORS. WITHIN THE FOREBRAIN, MESOCORTICOLIMBIC REGIONS ASSOCIATED WITH EMOTIONAL REGULATION HAVE RECENTLY BEEN SHOWN TO EXHIBIT LASTING GENE EXPRESSION CHANGES IN MODELS OF CHRONIC PAIN. TO BETTER UNDERSTAND HOW SUCH ENDURING TRANSCRIPTIONAL CHANGES MIGHT BE REGULATED WITHIN BRAIN STRUCTURES ASSOCIATED WITH PROCESSING OF PAIN OR AFFECT, WE EXAMINED EPIGENETIC MODIFICATIONS INVOLVED WITH ACTIVE OR PERMISSIVE TRANSCRIPTIONAL STATES (HISTONE H3 LYSINE 4 MONO AND TRIMETHYLATION, AND HISTONE H3 LYSINE 27 ACETYLATION) IN PERIAQUEDUCTAL GRAY (PAG), LATERAL HYPOTHALAMUS (LH), NUCLEUS ACCUMBENS (NAC), AND VENTRAL TEGMENTAL AREA (VTA) 5 WEEKS AFTER SCIATIC NERVE INJURY IN MICE TO MODEL CHRONIC PAIN. FOR BOTH MALE AND FEMALE MICE IN CHRONIC PAIN, WE OBSERVED AN OVERALL TREND FOR A REDUCTION OF THESE EPIGENETIC MARKERS IN PERIAQUEDUCTAL GRAY, LH, AND NAC, BUT NOT VTA. MOREOVER, WE DISCOVERED THAT SOME EPIGENETIC MODIFICATIONS EXHIBITED CHANGES ASSOCIATED WITH PAIN HISTORY, WHILE OTHERS WERE ASSOCIATED WITH INDIVIDUAL DIFFERENCES IN PAIN SENSITIVITY. WHEN TAKEN TOGETHER, THESE RESULTS SUGGEST THAT NERVE INJURY LEADS TO CHRONIC CHROMATIN-MEDIATED SUPPRESSION OF TRANSCRIPTION IN KEY LIMBIC BRAIN STRUCTURES AND CIRCUITS, WHICH MAY UNDERLIE ENDURING CHANGES IN PAIN PROCESSING AND SENSITIVITY WITHIN THESE SYSTEMS. 2023 8 1614 35 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 9 1752 37 EARLY LIFE STRESS RESTRICTS TRANSLATIONAL REACTIVITY IN CA3 NEURONS ASSOCIATED WITH ALTERED STRESS RESPONSES IN ADULTHOOD. EARLY LIFE EXPERIENCES PROGRAM BRAIN STRUCTURE AND FUNCTION AND CONTRIBUTE TO BEHAVIORAL ENDOPHENOTYPES IN ADULTHOOD. EPIGENETIC CONTROL OF GENE EXPRESSION BY THOSE EXPERIENCES AFFECT DISCRETE BRAIN REGIONS INVOLVED IN MOOD, COGNITIVE FUNCTION AND REGULATION OF HYPOTHALAMIC-PITUITARY-ADRENAL (HPA) AXIS. IN RODENTS, ACUTE RESTRAINT STRESS INCREASES THE EXPRESSION OF THE REPRESSIVE HISTONE H3 LYSINE 9 TRI-METHYLATION (H3K9ME3) IN HIPPOCAMPAL FIELDS, INCLUDING THE CA3 PYRAMIDAL NEURONS. THESE CA3 NEURONS ARE CRUCIALLY INVOLVED IN COGNITIVE FUNCTION AND MOOD REGULATION AS WELL AS ACTIVATION OF GLUCOCORTICOID (CORT) SECRETION. CA3 NEURONS ALSO EXHIBIT STRUCTURAL AND FUNCTIONAL CHANGES AFTER EARLY-LIFE STRESS (ELS) AS WELL AS AFTER CHRONIC STRESS IN ADULTHOOD. USING A PROTOCOL OF CHRONIC ELS INDUCED BY LIMITED BEDDING AND NESTING MATERIAL FOLLOWED BY ACUTE-SWIM STRESS (AS) IN ADULTHOOD, WE SHOW THAT MICE WITH A HISTORY OF ELS DISPLAY A BLUNTED CORT RESPONSE TO AS, DESPITE EXHIBITING ACTIVATION OF IMMEDIATE EARLY GENES AFTER STRESS SIMILAR TO THAT FOUND IN CONTROL MICE. WE FIND THAT ELS INDUCED PERSISTENTLY INCREASED EXPRESSION OF THE REPRESSIVE H3K9ME3 HISTONE MARK IN THE CA3 SUBFIELD AT BASELINE THAT WAS SUBSEQUENTLY DECREASED FOLLOWING AS. IN CONTRAST, AS INDUCED A TRANSIENT INCREASE OF THIS MARK IN CONTROL MICE. USING TRANSLATING RIBOSOME AFFINITY PURIFICATION (TRAP) METHOD TO ISOLATE CA3 TRANSLATING MRNAS, WE FOUND THAT EXPRESSION OF GENES OF THE EPIGENETIC GENE FAMILY, GABA/GLUTAMATE FAMILY, AND GLUCOCORTICOID RECEPTORS BINDING GENES WERE DECREASED TRANSIENTLY IN CONTROL MICE BY AS AND SHOWED A PERSISTENT REDUCTION IN ELS MICE. IN MOST CASES, AS IN ELS MICE DID NOT INDUCE GENE EXPRESSION CHANGES. A STRINGENT FILTERING OF GENES AFFECTED BY AS IN CONTROL AND ELS MICE REVEALED A NOTEWORTHY DECREASE IN GENE EXPRESSION CHANGE IN ELS MICE COMPARED TO CONTROL. ONLY 18 GENES WERE SELECTIVELY REGULATED BY AS IN ELS MICE AND ENCOMPASSED PATHWAYS SUCH AS CIRCADIAN RHYTHM, INFLAMMATORY RESPONSE, OPIOID RECEPTORS, AND MORE GENES INCLUDED IN THE GLUCOCORTICOID RECEPTOR BINDING FAMILY. THUS, ELS PROGRAMS A RESTRICTED TRANSLATIONAL RESPONSE TO STRESS IN STRESS-SENSITIVE CA3 NEURONS LEADING TO PERSISTENT CHANGES IN GENE EXPRESSION, SOME OF WHICH MIMIC THE TRANSIENT EFFECTS OF AS IN CONTROL MICE, WHILE LEAVING IN OPERATION THE IMMEDIATE EARLY GENE RESPONSE TO AS. 2019 10 5624 29 SELECTIVE BOOSTING OF TRANSCRIPTIONAL AND BEHAVIORAL RESPONSES TO DRUGS OF ABUSE BY HISTONE DEACETYLASE INHIBITION. HISTONE ACETYLATION AND OTHER MODIFICATIONS OF THE CHROMATIN ARE IMPORTANT REGULATORS OF GENE EXPRESSION AND, CONSEQUENTLY, MAY CONTRIBUTE TO DRUG-INDUCED BEHAVIORS AND NEUROPLASTICITY. EARLIER STUDIES HAVE SHOWN THAT A REDUCTION IN HISTONE DEACETYLASE (HDAC) ACTIVITY RESULTS IN THE ENHANCEMENT OF SOME PSYCHOSTIMULANT-INDUCED BEHAVIORS. IN THIS STUDY, WE EXTEND THOSE SEMINAL FINDINGS BY SHOWING THAT THE ADMINISTRATION OF THE HDAC INHIBITOR SODIUM BUTYRATE ENHANCES MORPHINE-INDUCED LOCOMOTOR SENSITIZATION AND CONDITIONED PLACE PREFERENCE. IN CONTRAST, THIS COMPOUND HAS NO EFFECTS ON THE DEVELOPMENT OF MORPHINE TOLERANCE AND DEPENDENCE. SIMILAR EFFECTS WERE OBSERVED FOR COCAINE AND ETHANOL-INDUCED BEHAVIORS. THESE BEHAVIORAL CHANGES WERE ACCOMPANIED BY A SELECTIVE BOOSTING OF A COMPONENT OF THE TRANSCRIPTIONAL PROGRAM ACTIVATED BY CHRONIC MORPHINE ADMINISTRATION THAT INCLUDED CIRCADIAN CLOCK GENES AND OTHER GENES RELEVANT TO ADDICTIVE BEHAVIOR. OUR RESULTS SUPPORT A SPECIFIC FUNCTION FOR HISTONE ACETYLATION AND THE EPIGENETIC MODULATION OF TRANSCRIPTION AT A REDUCED NUMBER OF BIOLOGICALLY RELEVANT LOCI ON NON-HOMEOSTATIC, LONG-LASTING, DRUG-INDUCED BEHAVIORAL PLASTICITY. 2009 11 3363 38 HISTONE LYSINE DEMETHYLASES OF JMJD2 OR KDM4 FAMILY ARE IMPORTANT EPIGENETIC REGULATORS IN REWARD CIRCUITRY IN THE ETIOPATHOLOGY OF DEPRESSION. MAJOR DEPRESSIVE DISORDER (MDD) IS DEBILITATING MENTAL ILLNESS AND IS ONE OF THE LEADING CONTRIBUTORS TO GLOBAL BURDEN OF DISEASE, BUT UNFORTUNATELY NEWER AND BETTER DRUGS ARE NOT FORTHCOMING. THE REASON IS LACK OF COMPLETE UNDERSTANDING OF MOLECULAR MECHANISMS UNDERLYING THE DEVELOPMENT OF THIS DISORDER. RECENT RESEARCH SHOWS DYSREGULATION IN EPIGENETIC REGULATORY MECHANISMS, PARTICULARLY THE TRANSCRIPTIONALLY REPRESSIVE DI- AND TRI-METHYLATION OF HISTONE 3 LYSINE 9 (H3K9ME2/ME3) IN NUCLEUS ACCUMBENS (NAC), A CRITICAL REGION OF THE REWARD PATHWAY INVOLVED IN THE DEVELOPMENT OF ANHEDONIA, THE HALLMARK OF DEPRESSION. HOWEVER, THE ROLE OF HISTONE LYSINE DEMETHYLASES, WHICH CAN REMOVE METHYLATION FROM H3K9, IN PARTICULAR JUMONJI DOMAIN CONTAINING DEMETHYLASES 2 OR JMJD2 FAMILY, HAS NOT BEEN STUDIED. USING SOCIAL DEFEAT STRESS-INDUCED MOUSE MODEL OF DEPRESSION, THIS STUDY UNCOVERED THAT TRANSCRIPTS OF MOST OF THE JMJD2 MEMBERS WERE UNCHANGED AFTER 5 DAYS OF DEFEAT DURING THE ONSET OF DEPRESSION, BUT WERE DOWNREGULATED AFTER 10 DAYS OF DEFEAT IN FULL-BLOWN DEPRESSION. BLOCKING THE JUMONJI DOMAIN CONTAINING DEMETHYLASES BY CHRONIC ADMINISTRATION OF INHIBITORS DIMETHYLOXALYLGLYCINE (DMOG) AND ML324 RESULTED IN DEPRESSION-LIKE PHENOTYPE EVEN IN ABSENCE OF STRESS EXPOSURE, WHICH WAS ASSOCIATED WITH AN INCREASE IN TRANSCRIPTIONALLY REPRESSIVE EPIGENETIC MARKS H3K9ME2/ME3 IN NAC, CAUSING ALTERED NEUROPLASTIC CHANGES AS REPORTED IN NAC IN DEPRESSION MODELS. THUS, WE REPORT FOR THE FIRST TIME THAT JMJD2 CLASS DEMETHYLASES ARE CRITICAL EPIGENETIC REGULATORS INVOLVED IN ETIOPATHOLOGY OF DEPRESSION AND RELATED DISORDERS AND ACTIVATION OF THESE DEMETHYLASES CAN BE A GOOD STRATEGY IN THE TREATMENT OF MDD AND RELATED PSYCHIATRIC DISORDERS. 2017 12 883 33 CHRONIC COCAINE-REGULATED EPIGENOMIC CHANGES IN MOUSE NUCLEUS ACCUMBENS. BACKGROUND: INCREASING EVIDENCE SUPPORTS A ROLE FOR ALTERED GENE EXPRESSION IN MEDIATING THE LASTING EFFECTS OF COCAINE ON THE BRAIN, AND RECENT WORK HAS DEMONSTRATED THE INVOLVEMENT OF CHROMATIN MODIFICATIONS IN THESE ALTERATIONS. HOWEVER, ALL SUCH STUDIES TO DATE HAVE BEEN RESTRICTED BY THEIR RELIANCE ON MICROARRAY TECHNOLOGIES THAT HAVE INTRINSIC LIMITATIONS. RESULTS: WE USE NEXT GENERATION SEQUENCING METHODS, RNA-SEQ AND CHIP-SEQ FOR RNA POLYMERASE II AND SEVERAL HISTONE METHYLATION MARKS, TO OBTAIN A MORE COMPLETE VIEW OF COCAINE-INDUCED CHANGES IN GENE EXPRESSION AND ASSOCIATED ADAPTATIONS IN NUMEROUS MODES OF CHROMATIN REGULATION IN THE MOUSE NUCLEUS ACCUMBENS, A KEY BRAIN REWARD REGION. WE DEMONSTRATE AN UNEXPECTEDLY LARGE NUMBER OF PRE-MRNA SPLICING ALTERATIONS IN RESPONSE TO REPEATED COCAINE TREATMENT. IN ADDITION, WE IDENTIFY COMBINATIONS OF CHROMATIN CHANGES, OR SIGNATURES, THAT CORRELATE WITH COCAINE-DEPENDENT REGULATION OF GENE EXPRESSION, INCLUDING THOSE INVOLVING PRE-MRNA ALTERNATIVE SPLICING. THROUGH BIOINFORMATIC PREDICTION AND BIOLOGICAL VALIDATION, WE IDENTIFY ONE PARTICULAR SPLICING FACTOR, A2BP1(RBFOX1/FOX-1), WHICH IS ENRICHED AT GENES THAT DISPLAY CERTAIN CHROMATIN SIGNATURES AND CONTRIBUTES TO DRUG-INDUCED BEHAVIORAL ABNORMALITIES. TOGETHER, THIS DELINEATION OF THE COCAINE-INDUCED EPIGENOME IN THE NUCLEUS ACCUMBENS REVEALS SEVERAL NOVEL MODES OF REGULATION BY WHICH COCAINE ALTERS THE BRAIN. CONCLUSIONS: WE ESTABLISH COMBINATORIAL CHROMATIN AND TRANSCRIPTIONAL PROFILES IN MOUSE NUCLEUS ACCUMBENS AFTER REPEATED COCAINE TREATMENT. THESE RESULTS SERVE AS AN IMPORTANT RESOURCE FOR THE FIELD AND PROVIDE A TEMPLATE FOR THE ANALYSIS OF OTHER SYSTEMS TO REVEAL NEW TRANSCRIPTIONAL AND EPIGENETIC MECHANISMS OF NEURONAL REGULATION. 2014 13 2280 34 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 14 2325 29 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 15 5219 37 PREVIOUS HISTORY OF CHRONIC STRESS CHANGES THE TRANSCRIPTIONAL RESPONSE TO GLUCOCORTICOID CHALLENGE IN THE DENTATE GYRUS REGION OF THE MALE RAT HIPPOCAMPUS. CHRONIC STRESS IS A RISK FACTOR FOR SEVERAL NEUROPSYCHIATRIC DISEASES, SUCH AS DEPRESSION AND PSYCHOSIS. IN RESPONSE TO STRESS GLUCOCORTICOIDS (GCS) ARE SECRETED THAT BIND TO MINERALOCORTICOID AND GLUCOCORTICOID RECEPTORS, LIGAND-ACTIVATED TRANSCRIPTION FACTORS THAT REGULATE THE TRANSCRIPTION OF GENE NETWORKS IN THE BRAIN NECESSARY FOR COPING WITH STRESS, RECOVERY, AND ADAPTATION. CHRONIC STRESS PARTICULARLY AFFECTS THE DENTATE GYRUS (DG) SUBREGION OF THE HIPPOCAMPUS, CAUSING SEVERAL FUNCTIONAL AND MORPHOLOGICAL CHANGES WITH CONSEQUENCES FOR LEARNING AND MEMORY, WHICH ARE LIKELY ADAPTIVE BUT AT THE SAME TIME MAKE DG NEURONS MORE VULNERABLE TO SUBSEQUENT CHALLENGES. THE AIM OF THIS STUDY WAS TO INVESTIGATE THE TRANSCRIPTIONAL RESPONSE OF DG NEURONS TO A GC CHALLENGE IN MALE RATS PREVIOUSLY EXPOSED TO CHRONIC RESTRAINT STRESS (CRS). AN INTRIGUING FINDING OF THE CURRENT STUDY WAS THAT HAVING A HISTORY OF CRS HAD PROFOUND CONSEQUENCES FOR THE SUBSEQUENT RESPONSE TO ACUTE GC CHALLENGE, DIFFERENTIALLY AFFECTING THE EXPRESSION OF SEVERAL HUNDREDS OF GENES IN THE DG COMPARED WITH CHALLENGED NONSTRESSED CONTROL ANIMALS. THIS ENDURING EFFECT OF PREVIOUS STRESS EXPOSURE SUGGESTS THAT EPIGENETIC PROCESSES MAY BE INVOLVED. IN LINE WITH THIS, CRS INDEED AFFECTED THE EXPRESSION OF SEVERAL GENES INVOLVED IN CHROMATIN STRUCTURE AND EPIGENETIC PROCESSES, INCLUDING ASF1, ASH1L, HIST1H3F, AND TP63. THE DATA PRESENTED HERE INDICATE THAT CRS ALTERS THE TRANSCRIPTIONAL RESPONSE TO A SUBSEQUENT GC INJECTION. WE PROPOSE THAT THIS ALTERED TRANSCRIPTIONAL POTENTIAL FORMS PART OF THE MOLECULAR MECHANISM UNDERLYING THE ENHANCED VULNERABILITY FOR STRESS-RELATED DISORDERS LIKE DEPRESSION CAUSED BY CHRONIC STRESS. 2013 16 5199 34 PRENATAL MATERNAL STRESS IS ASSOCIATED WITH INCREASED SENSITIVITY TO NEUROPATHIC PAIN AND SEX-SPECIFIC CHANGES IN SUPRASPINAL MRNA EXPRESSION OF EPIGENETIC- AND STRESS-RELATED GENES IN ADULTHOOD. EXPOSURE TO PRENATAL MATERNAL STRESS IMPACTS ADULT BEHAVIORAL OUTCOMES AND HAS BEEN SUGGESTED AS A RISK FACTOR FOR CHRONIC PAIN. HOWEVER, THE NEUROBIOLOGICAL MECHANISMS IMPLICATED ARE NOT WELL-CHARACTERIZED. IN THIS STUDY, WE ANALYZED THE EFFECT OF A PRENATAL MATERNAL STRESS ON THE DEVELOPMENT OF NEUROPATHIC PAIN-RELATED BEHAVIOURS AND GENE EXPRESSION IN THE FRONTAL CORTEX AND HIPPOCAMPUS IN ADULT OFFSPRING FOLLOWING CHRONIC CONSTRICTION INJURY OF THE SCIATIC NERVE IN MALE AND FEMALE CD1 MICE. NERVE INJURY-INDUCED MECHANICAL HYPERSENSITIVITY WAS AMPLIFIED IN BOTH MALE AND FEMALE PRENATALLY-STRESSED OFFSPRING, SUGGESTING THAT PRENATAL STRESS EXACERBATES PAIN AFTER INJURY. ANALYSIS OF MRNA EXPRESSION OF GENES RELATED TO EPIGENETIC REGULATION AND STRESS RESPONSES IN THE FRONTAL CORTEX AND HIPPOCAMPUS, BRAIN STRUCTURES IMPLICATED IN CHRONIC PAIN, SHOWED DISTINCT SEX AND REGION-SPECIFIC PATTERNS OF DYSREGULATION. IN GENERAL, MRNA EXPRESSION WAS MOST FREQUENTLY ALTERED IN THE MALE HIPPOCAMPUS AND EFFECTS OF PRENATAL STRESS WERE MORE PREVALENT THAN EFFECTS OF NERVE INJURY IN BOTH SUPRASPINAL AREAS. THESE FINDINGS DEMONSTRATE THE IMPACT OF PRENATAL STRESS ON BEHAVIORAL SENSITIVITY TO A PAINFUL INJURY. CHANGES IN THE EXPRESSION OF EPIGENETIC- AND STRESS-RELATED GENES SUGGEST A POSSIBLE MECHANISM BY WHICH THE EARLY LIFE STRESS BECOMES EMBEDDED IN THE CENTRAL NERVOUS SYSTEM. INCREASED UNDERSTANDING OF THE INTERACTIONS AMONG EARLY-LIFE STRESS, SEX, AND PAIN MAY LEAD TO THE IDENTIFICATION OF NOVEL THERAPEUTIC TARGETS AND EPIGENETIC DRUGS FOR THE TREATMENT OF CHRONIC PAIN DISORDERS. 2020 17 1981 39 EPIGENETIC ALTERATIONS IN DNA AND HISTONE MODIFICATIONS CAUSED BY DEPRESSION AND ANTIDEPRESSANT DRUGS: LESSONS FROM THE RODENT MODELS. EPIGENETIC MODIFICATIONS REGULATE CHROMATIN FOLDING AND FUNCTION. EPIGENETIC MECHANISMS REGULATE TRANSCRIPTION MEDIATING EFFECTS OF VARIOUS STIMULI ON GENE EXPRESSION. THESE MECHANISMS ARE INVOLVED IN TRANSCRIPTIONAL CONTROL IN VARIOUS PHYSIOLOGICAL AND PATHOLOGICAL CONDITIONS INCLUDING NEUROPSYCHIATRIC DISORDERS AND BEHAVIORAL ABNORMALITIES SUCH AS DEPRESSION. IN RODENTS, EXPOSURE TO CHRONIC SOCIAL STRESS WAS SHOWN TO INDUCE BEHAVIORAL IMPAIRMENTS AND MEMORY/LEARNING DEFICITS THAT RESEMBLE DEPRESSIVE-LIKE PHENOTYPE IN HUMANS. THE RODENT MODELS OF CHRONIC STRESS WERE WIDELY USED TO STUDY MOLECULAR MECHANISMS OF DEPRESSION. IN THESE MODELS, EARLY EXPOSURE TO CHRONIC STRESS SUCH AS PRENATAL OR POSTNATAL STRESS INDUCES LONG-TERM HYPERACTIVE STRESS RESPONSES, BEHAVIORAL ABNORMALITIES, AND FUNCTIONAL IMPAIRMENTS IN BRAIN FUNCTION THAT PERSIST IN ADULTHOOD. FURTHERMORE, THESE ALTERATIONS CAN BE TRANSMITTED TO OFFSPRING OF CHRONICALLY STRESSED ANIMALS ACROSS SEVERAL GENERATIONS. MOLECULAR STUDIES IN ANIMAL MODELS SHOWED THAT CHRONIC STRESS INDUCES STABLE EPIGENETIC CHANGES IN SPECIFIC BRAIN REGIONS, PRIMARILY IN THE LIMBIC SYSTEM. THESE CHANGES LEAD TO LONG-LASTING ABNORMALITIES IN BEHAVIOR THAT PERSIST IN ADULTHOOD AND CAN BE TRANSMITTED TO OFFSPRING. TREATMENT WITH EPIGENETICALLY ACTIVE ANTIDEPRESSANTS DISRUPTS THE ABNORMAL STRESS-INDUCED EPIGENETIC PROGRAMMING AND PROVIDES EPIGENETIC PATTERNS THAT RESEMBLE EPIGENETIC BACKGROUND OF STRESS RESILIENT INDIVIDUALS. 2017 18 5820 30 STRESS DYNAMICALLY REGULATES BEHAVIOR AND GLUTAMATERGIC GENE EXPRESSION IN HIPPOCAMPUS BY OPENING A WINDOW OF EPIGENETIC PLASTICITY. EXCITATORY AMINO ACIDS PLAY A KEY ROLE IN BOTH ADAPTIVE AND DELETERIOUS EFFECTS OF STRESSORS ON THE BRAIN, AND DYSREGULATED GLUTAMATE HOMEOSTASIS HAS BEEN ASSOCIATED WITH PSYCHIATRIC AND NEUROLOGICAL DISORDERS. HERE, WE ELUCIDATE MECHANISMS OF EPIGENETIC PLASTICITY IN THE HIPPOCAMPUS IN THE INTERACTIONS BETWEEN A HISTORY OF CHRONIC STRESS AND FAMILIAR AND NOVEL ACUTE STRESSORS THAT ALTER EXPRESSION OF ANXIETY- AND DEPRESSIVE-LIKE BEHAVIORS. WE DEMONSTRATE THAT ACUTE RESTRAINT AND ACUTE FORCED SWIM STRESSORS INDUCE DIFFERENTIAL EFFECTS ON THESE BEHAVIORS IN NAIVE MICE AND IN MICE WITH A HISTORY OF CHRONIC-RESTRAINT STRESS (CRS). THEY REVEAL A KEY ROLE FOR EPIGENETIC UP- AND DOWN-REGULATION OF THE PUTATIVE PRESYNAPTIC TYPE 2 METABOTROPIC GLUTAMATE (MGLU2) RECEPTORS AND THE POSTSYNAPTIC NR1/NMDA RECEPTORS IN THE HIPPOCAMPUS AND PARTICULARLY IN THE DENTATE GYRUS (DG), A REGION OF ACTIVE NEUROGENESIS AND A TARGET OF ANTIDEPRESSANT TREATMENT. WE SHOW CHANGES IN DG LONG-TERM POTENTIATION (LTP) THAT PARALLEL BEHAVIORAL RESPONSES, WITH HABITUATION TO THE SAME ACUTE RESTRAINT STRESSOR AND SENSITIZATION TO A NOVEL FORCED-SWIM STRESSOR. IN WT MICE AFTER CRS AND IN UNSTRESSED MICE WITH A BDNF LOSS-OF-FUNCTION ALLELE (BDNF VAL66MET), WE SHOW THAT THE EPIGENETIC ACTIVATOR OF HISTONE ACETYLATION, P300, PLAYS A PIVOTAL ROLE IN THE DYNAMIC UP- AND DOWN-REGULATION OF MGLU2 IN HIPPOCAMPUS VIA HISTONE-3-LYSINE-27-ACETYLATION (H3K27AC) WHEN ACUTE STRESSORS ARE APPLIED. THESE HIPPOCAMPAL RESPONSES REVEAL A WINDOW OF EPIGENETIC PLASTICITY THAT MAY BE USEFUL FOR TREATMENT OF DISORDERS IN WHICH GLUTAMATERGIC TRANSMISSION IS DYSREGULATED. 2015 19 5444 39 REPEATED TOLUENE EXPOSURE MODIFIES THE ACETYLATION PATTERN OF HISTONES H3 AND H4 IN THE RAT BRAIN. TOLUENE IS A VOLATILE ORGANIC SOLVENT WITH ADDICTIVE POTENTIAL THAT EXHIBITS SIMILARITIES IN ITS PHYSIOLOGICAL EFFECTS AND MODES OF ACTION TO OTHER ADDICTIVE DRUGS. DESPITE ITS WIDESPREAD ABUSE, THE MOLECULAR MECHANISMS DRIVING THE RESPONSE AND ADAPTATION OF THE ORGANISM TO THIS DRUG ARE NOT FULLY UNDERSTOOD. IN RECENT YEARS, DIFFERENT EPIGENETIC MECHANISMS THAT MODULATE GENE EXPRESSION HAVE BEEN SHOWN TO BE ASSOCIATED TO COCAINE, AMPHETAMINE AND ALCOHOL MISUSE-INDUCED ALTERATIONS IN NEURONAL FUNCTION. FOR EXAMPLE, IT HAS BEEN DEMONSTRATED THAT DRUG CONSUMPTION INDUCES VARIATIONS IN HISTONE ACETYLATION LEVELS IN BRAIN REWARD REGIONS AND THESE PLAY A RELEVANT ROLE ON THE ABUSE-ASSOCIATED BEHAVIORAL PLASTICITY. IN ORDER TO DECIPHER WHETHER REPEATED TOLUENE EXPOSURE COULD MEDIATE EPIGENETIC CHANGES IN THE RAT BRAIN, WE HERE ANALYZED THE ACETYLATION PATTERN OF HISTONES H3 AND H4 IN THREE BRAIN AREAS THAT HAVE BEEN PREVIOUSLY ASSOCIATED TO SUBSTANCE ABUSE REWARD PATHWAYS: THE NUCLEUS ACCUMBENS (NAC), THE VENTRAL TEGMENTAL AREA (VTA) AND THE CENTRAL AMYGDALA (CEA). USING IMMUNOFLUORESCENCE ANALYSIS OF BRAIN SECTIONS WITH SPECIFIC ANTIBODIES THAT RECOGNIZE THE ACETYLATED FORMS OF HISTONES H3 AND H4, WE DEMONSTRATE THAT CHRONIC TOLUENE INHALATION DIFFERENTIALLY MODIFIES HISTONE H3 AND H4 ACETYLATION IN THE NAC AND THE VTA WHILE NO EFFECT IS OBSERVED IN THE CEA. OUR RESULTS SUGGEST THAT THE ACTIVITY OF CHROMATIN-MODIFYING ENZYMES SUCH AS HISTONE DE-ACETYLASES (HDACS) IN CERTAIN BRAIN AREAS ARE RESPONSIVE TO TOLUENE INHALATION AND MIGHT BE CRUCIAL MEDIATORS IN THE ADDICTIVE RESPONSE TO TOLUENE. 2011 20 1790 28 EFFECT OF CHRONIC MILD STRESS ON HIPPOCAMPAL TRANSCRIPTOME IN MICE SELECTED FOR HIGH AND LOW STRESS-INDUCED ANALGESIA AND DISPLAYING DIFFERENT EMOTIONAL BEHAVIORS. THERE IS INCREASING EVIDENCE THAT MOOD DISORDERS MAY DERIVE FROM THE IMPACT OF ENVIRONMENTAL PRESSURE ON GENETICALLY SUSCEPTIBLE INDIVIDUALS. STRESS-INDUCED HIPPOCAMPAL PLASTICITY HAS BEEN IMPLICATED IN DEPRESSION. WE STUDIED HIPPOCAMPAL TRANSCRIPTOMES IN STRAINS OF MICE THAT DISPLAY HIGH (HA) AND LOW (LA) SWIM STRESS-INDUCED ANALGESIA AND THAT DIFFER IN EMOTIONAL BEHAVIORS AND RESPONSES TO DIFFERENT CLASSES OF ANTIDEPRESSANTS. CHRONIC MILD STRESS (CMS) AFFECTED EXPRESSION OF A NUMBER OF GENES COMMON FOR BOTH STRAINS. CMS ALSO PRODUCED STRAIN SPECIFIC CHANGES IN EXPRESSION SUGGESTING THAT HIPPOCAMPAL RESPONSES TO STRESS DEPEND ON GENOTYPE. CONSIDERABLY LARGER NUMBER OF GENES, BIOLOGICAL PROCESSES, MOLECULAR FUNCTIONS, BIOCHEMICAL PATHWAYS, AND GENE NETWORKS WERE AFFECTED BY CMS IN LA THAN IN HA MICE. THE RESULTS SUGGEST THAT POTENTIAL DRUG TARGETS AGAINST DETRIMENTAL EFFECTS OF STRESS INCLUDE GLUTAMATE TRANSPORTERS, AND CHOLINERGIC, CHOLECYSTOKININ (CCK), GLUCOCORTICOIDS, AND THYROID HORMONES RECEPTORS. FURTHERMORE, SOME BIOLOGICAL PROCESSES EVOKED BY STRESS AND DIFFERENT BETWEEN THE STRAINS, SUCH AS APOPTOSIS, NEUROGENESIS AND CHROMATIN MODIFICATIONS, MAY BE RESPONSIBLE FOR THE LONG-TERM, IRREVERSIBLE EFFECTS OF STRESS AND SUGGEST A ROLE FOR EPIGENETIC REGULATION OF MOOD RELATED STRESS RESPONSES. 2011