1 5860 121 SULFORAPHANE PREVENTS ANGIOTENSIN II-INDUCED CARDIOMYOPATHY BY ACTIVATION OF NRF2 THROUGH EPIGENETIC MODIFICATION. NUCLEAR FACTOR ERYTHROID 2-RELATED FACTOR (NRF2) IS AN IMPORTANT REGULATOR OF CELLULAR ANTIOXIDANT DEFENCE. WE PREVIOUSLY SHOWED THAT SFN PREVENTED ANG II-INDUCED CARDIAC DAMAGE VIA ACTIVATION OF NRF2. HOWEVER, THE UNDERLYING MECHANISM OF SFN'S PERSISTENT CARDIAC PROTECTION REMAINS UNCLEAR. THIS STUDY AIMED TO EXPLORE THE POTENTIAL OF SFN IN ACTIVATING CARDIAC NRF2 THROUGH EPIGENETIC MECHANISMS. WILD-TYPE MICE WERE INJECTED SUBCUTANEOUSLY WITH ANG II, WITH OR WITHOUT SFN. ADMINISTRATION OF CHRONIC ANG II-INDUCED CARDIAC INFLAMMATORY FACTOR EXPRESSION, OXIDATIVE DAMAGE, FIBROSIS AND CARDIAC REMODELLING AND DYSFUNCTION, ALL OF WHICH WERE EFFECTIVELY IMPROVED BY SFN TREATMENT, COUPLED WITH AN UP-REGULATION OF NRF2 AND DOWNSTREAM GENES. BISULFITE GENOME SEQUENCING AND CHROMATIN IMMUNOPRECIPITATION (CHIP) WERE PERFORMED TO DETECT THE METHYLATION LEVEL OF THE FIRST 15 CPGS AND HISTONE H3 ACETYLATION (AC-H3) STATUS IN THE NRF2 PROMOTER REGION, RESPECTIVELY. THE RESULTS SHOWED THAT SFN REDUCED ANG II-INDUCED CPG HYPERMETHYLATION AND PROMOTED AC-H3 ACCUMULATION IN THE NRF2 PROMOTER REGION, ACCOMPANIED BY THE INHIBITION OF GLOBAL DNMT AND HDAC ACTIVITY, AND A DECREASED PROTEIN EXPRESSION OF KEY DNMT AND HDAC ENZYMES. TAKEN TOGETHER, SFN EXERTS ITS CARDIOPROTECTIVE EFFECT THROUGH EPIGENETIC MODIFICATION OF NRF2, WHICH MAY PARTIALLY CONTRIBUTE TO LONG-TERM ACTIVATION OF CARDIAC NRF2. 2021 2 4497 35 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 3 2683 29 EVALUATION OF THE IMPACT OF S-ADENOSYLMETHIONINE-DEPENDENT METHYLTRANSFERASE INHIBITOR, 3-DEAZANEPLANOCIN A, ON TISSUE INJURY AND COGNITIVE FUNCTION IN MICE. CANCER PATIENTS DISPLAY COGNITIVE IMPAIRMENT DUE, AT LEAST PARTLY, TO THE TREATMENTS. ADDITIONALLY, CHEMOTHERAPEUTIC TREATMENTS CAN LEAD TO ORGAN INJURY, LIMITING THEIR USE, AND ARE LIKELY TO HAVE NEGATIVE IMPACTS ON PATIENTS' QUALITY OF LIFE. THE AIM OF THIS STUDY WAS TO INVESTIGATE THE TOXICITY OF 3-DEAZANEPLANOCIN A (DZNEP) ON SEVERAL TISSUES AND ORGANS, AS WELL AS ON COGNITIVE FUNCTIONS. DZNEP IS AN INHIBITOR OF S-ADENOSYLMETHIONINE-DEPENDENT METHYLTRANSFERASE (IN PARTICULAR OF THE HISTONE METHYLTRANSFERASE EZH2) WHICH SHOWED ANTITUMORAL FUNCTIONS IN PRECLINICAL TRIALS BUT WHOSE EFFECTS ON BEHAVIOR AND ON ORGANS (SIDE EFFECTS) ARE NOT KNOWN. CHRONIC INJECTIONS OF DZNEP WERE PERFORMED INTRAPERITONEALLY IN MALE NMRI MICE (2 MG/KG; I.P.; THREE TIMES PER WEEK) DURING 8 WEEKS. A FOLLOW-UP OF BODY WEIGHT WAS ASSESSED DURING ALL EXPERIMENTS. HISTOLOGICAL ANALYSIS WERE PERFORMED ON SEVERAL ORGANS. EZH2 EXPRESSION AND H3K27ME3 WERE ASSAYED BY WESTERN-BLOT. SEVERAL BEHAVIORAL TESTS WERE PERFORMED DURING TREATMENT AND 2 WEEKS AFTER. A PARTICULAR FOCUS WAS MADE ON SPONTANEOUS LOCOMOTOR ACTIVITY, COGNITIVE FUNCTIONS (SPONTANEOUS ALTERNATION AND RECOGNITION MEMORY), AND ANXIETY- AND DEPRESSION-RELATED BEHAVIOR. HEMATOLOGICAL MODIFICATIONS WERE ALSO ASSESSED. CHRONIC DZNEP TREATMENT TRANSIENTLY REDUCED ANIMAL GROWTH. IT HAD NO EFFECT ON MOST ORGANS BUT PROVOKED A REVERSIBLE SPLENOMEGALY, AND PERSISTENT TESTIS REDUCTION AND ERYTHROPOIESIS. DZNEP ADMINISTRATION DID NOT ALTER ANIMAL BEHAVIOR. IN CONCLUSION, THIS STUDY IS ENCOURAGING FOR THE USE OF DZNEP FOR CANCER TREATMENT. INDEED, IT HAS NO EFFECT ON ANIMAL BEHAVIOR, CONFERRING AN ADVANTAGEOUS SAFETY, AND INDUCES IRREVERSIBLE SIDE EFFECTS LIMITED ON TESTIS WHICH ARE UNFORTUNATELY FOUND IN MOST CHEMOTHERAPY TREATMENTS. 2018 4 1614 37 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 5 271 29 AGE-ASSOCIATED EPIGENETIC MODIFICATIONS IN HUMAN DNA INCREASE ITS IMMUNOGENICITY. CHRONIC INFLAMMATION, INCREASED REACTIVITY TO SELF-ANTIGENS AND INCIDENCES OF CANCER ARE HALLMARKS OF AGING. HOWEVER, THE UNDERLYING MECHANISMS ARE NOT WELL UNDERSTOOD. AGE-ASSOCIATED ALTERATIONS IN THE DNA EITHER DUE TO OXIDATIVE DAMAGE, DEFECTS IN DNA REPAIR OR EPIGENETIC MODIFICATIONS SUCH AS METHYLATION THAT LEAD TO MUTATIONS AND CHANGES IN THE EXPRESSION OF GENES ARE THOUGHT TO BE PARTIALLY RESPONSIBLE. HERE WE REPORT THAT EPIGENETIC MODIFICATIONS IN AGED DNA ALSO INCREASE ITS IMMUNOGENICITY RENDERING IT MORE REACTIVE TO INNATE IMMUNE SYSTEM CELLS SUCH AS THE DENDRITIC CELLS. WE OBSERVED INCREASED UPREGULATION OF COSTIMULATORY MOLECULES AS WELL AS ENHANCED SECRETION OF IFN-ALPHA FROM DENDRITIC CELLS IN RESPONSE TO DNA FROM AGED DONORS AS COMPARED TO DNA FROM YOUNG DONORS WHEN IT WAS DELIVERED INTRACELLULARLY VIA LIPOFECTAMINE. INVESTIGATIONS INTO THE MECHANISMS REVEALED THAT DNA FROM AGED SUBJECTS IS NOT DEGRADED, NEITHER IS IT MORE DAMAGED COMPARED TO DNA FROM YOUNG SUBJECTS. HOWEVER, THERE IS SIGNIFICANTLY DECREASED GLOBAL LEVEL OF METHYLATION SUGGESTING THAT AGE-ASSOCIATED HYPOMETHYLATION OF THE DNA MAY BE THE CAUSE OF ITS INCREASED IMMUNOGENICITY. INCREASED IMMUNOGENICITY OF SELF DNA MAY THUS BE ANOTHER MECHANISM THAT MAY CONTRIBUTE TO THE INCREASE IN AGE-ASSOCIATED CHRONIC INFLAMMATION, AUTOIMMUNITY AND CANCER. 2010 6 1753 32 EARLY LIFE STRESS TRIGGERS SUSTAINED CHANGES IN HISTONE DEACETYLASE EXPRESSION AND HISTONE H4 MODIFICATIONS THAT ALTER RESPONSIVENESS TO ADOLESCENT ANTIDEPRESSANT TREATMENT. EARLY LIFE STRESS CAN ELICIT LONG-LASTING CHANGES IN GENE EXPRESSION AND BEHAVIOR. RECENT STUDIES ON RODENTS SUGGEST THAT THESE LASTING EFFECTS DEPEND ON THE GENETIC BACKGROUND. WHETHER EPIGENETIC FACTORS ALSO PLAY A ROLE REMAINS TO BE INVESTIGATED. HERE WE EXPOSED THE STRESS-SUSCEPTIBLE MOUSE STRAIN BALB/C AND THE MORE RESILIENT STRAIN C57BL/6 TO A POWERFUL EARLY LIFE STRESS PARADIGM, INFANT MATERNAL SEPARATION. IN BALB/C MICE, INFANT MATERNAL SEPARATION LED TO DECREASED EXPRESSION OF MRNA ENCODING THE HISTONE DEACETYLASES (HDACS) 1, 3, 7, 8, AND 10 IN THE FOREBRAIN NEOCORTEX IN ADULTHOOD, AN EFFECT ACCOMPANIED BY INCREASED EXPRESSION OF ACETYLATED HISTONE H4 PROTEINS, ESPECIALLY ACETYLATED H4K12 PROTEIN. THESE CHANGES IN HDAC EXPRESSION AND HISTONE MODIFICATIONS WERE NOT DETECTED IN C57BL/6 MICE EXPOSED TO EARLY LIFE STRESS. MOREOVER, A REVERSAL OF THE H4K12 HYPERACETYLATION DETECTED IN INFANT MATERNALLY SEPARATED BALB/C MICE (ACHIEVED WITH CHRONIC ADOLESCENT TREATMENT WITH A LOW DOSE OF THEOPHYLLINE THAT ONLY ACTIVATES HDACS) WORSENED THE ABNORMAL EMOTIONAL PHENOTYPE RESULTING FROM THIS EARLY LIFE STRESS EXPOSURE. IN CONTRAST, FLUOXETINE, A DRUG WITH POTENT ANTIDEPRESSANT EFFICACY IN INFANT MATERNALLY SEPARATED BALB/C MICE, POTENTIATED ALL HISTONE MODIFICATIONS TRIGGERED BY EARLY LIFE STRESS. MOREOVER, IN NON-STRESSED BALB/C MICE, CO-ADMINISTRATION OF AN HDAC INHIBITOR AND FLUOXETINE, BUT NOT FLUOXETINE ALONE, ELICITED ANTIDEPRESSANT EFFECTS AND ALSO TRIGGERED CHANGES IN HISTONE H4 EXPRESSION THAT WERE SIMILAR TO THOSE PROVOKED BY FLUOXETINE TREATMENT OF MICE EXPOSED TO EARLY LIFE STRESS. THESE RESULTS SUGGEST THAT BALB/C MICE DEVELOP EPIGENETIC MODIFICATIONS AFTER EARLY LIFE STRESS EXPOSURE THAT, IN TERMS OF THE EMOTIVE PHENOTYPE, ARE OF ADAPTIVE NATURE, AND THAT ENHANCE THE EFFICACY OF ANTIDEPRESSANT DRUGS. 2012 7 3987 38 LONG-TERM PROBIOTIC INTERVENTION MITIGATES MEMORY DYSFUNCTION THROUGH A NOVEL H3K27ME3-BASED MECHANISM IN LEAD-EXPOSED RATS. CHRONIC LEAD EXPOSURE IS ASSOCIATED WITH THE DEVELOPMENT OF NEURODEGENERATIVE DISEASES, CHARACTERIZED BY THE LONG-TERM MEMORY DECLINE. HOWEVER, WHETHER THIS PATHOGENESIS COULD BE PREVENTED THROUGH ADJUSTING GUT MICROBIOTA IS NOT YET UNDERSTOOD. TO ADDRESS THE ISSUE, PREGNANT RATS AND THEIR FEMALE OFFSPRING WERE TREATED WITH LEAD (125 PPM) OR SEPARATELY THE EXTRA PROBIOTICS (10(10) ORGANISMS/RAT/DAY) TILL ADULTHOOD. FOR RESULTS, MEMORY DYSFUNCTION WAS ALLEVIATED BY THE TREATMENT OF MULTISPECIES PROBIOTICS. MEANWHILE, THE GUT MICROBIOTA COMPOSITION WAS PARTIALLY NORMALIZED AGAINST LEAD-EXPOSED RATS, WHICH IN TURN MEDIATED THE MEMORY REPAIRMENT VIA FECAL TRANSPLANTATION TRIALS. IN THE MOLECULAR ASPECT, THE DECREASED H3K27ME3 (TRIMETHYLATION OF HISTONE H3 LYS 27) IN THE ADULT HIPPOCAMPUS WAS RESTORED WITH PROBIOTIC INTERVENTION, AN EPIGENETIC EVENT MEDIATED BY EZH2 (ENHANCER OF ZESTE HOMOLOG 2) AT EARLY DEVELOPMENTAL STAGE. IN A NEURAL CELLULAR MODEL, EZH2 OVEREXPRESSION SHOWED THE SIMILAR RESCUE EFFECT WITH PROBIOTICS, WHEREAS ITS BLOCKADE LED TO THE NEURAL RE-DAMAGES. REGARDING THE GUT-BRAIN INFLAMMATORY MEDIATORS, THE DISRUPTED IL-6 (INTERLEUKIN 6) EXPRESSION WAS RESUMED BY PROBIOTIC TREATMENT. INTRAPERITONEAL INJECTION OF TOCILIZUMAB, AN IL-6 RECEPTOR ANTAGONIST, UPREGULATED THE HIPPOCAMPAL EZH2 LEVEL AND CONSEQUENTLY ALLEVIATED THE MEMORY INJURIES. IN CONCLUSION, RESHAPING GUT MICROBIOTA COULD MITIGATE MEMORY DYSFUNCTION CAUSED BY CHRONIC LEAD EXPOSURE, WHEREIN THE INFLAMMATION-HIPPOCAMPAL EPIGENETIC PATHWAY OF IL-6-EZH2-H3K27ME3, WAS FIRST PROPOSED TO MEDIATE THE STUDIED GUT-BRAIN COMMUNICATION. THESE FINDINGS PROVIDED INSIGHT WITH EPIGENETIC MECHANISMS UNDERLYING A UNIQUE GUT-BRAIN INTERACTION, SHEDDING LIGHT ON THE SAFE AND NON-INVASIVE TREATMENT OF NEURODEGENERATIVE DISORDERS WITH ENVIRONMENTAL ETIOLOGY. 2020 8 5279 30 PROMOTER-SPECIFIC RELEVANCE OF HISTONE MODIFICATIONS INDUCED BY DEXAMETHASONE DURING THE REGULATION OF PRO-INFLAMMATORY MEDIATORS. GLUCOCORTICOSTEROIDS (GCS) ARE WIDELY USED TO TREAT DIFFERENT KINDS OF CHRONIC INFLAMMATORY AND IMMUNE DISEASES THROUGH TRANSCRIPTIONAL REGULATION OF INFLAMMATORY GENES. MODULATION OF GENE EXPRESSION BY GCS IS KNOWN TO OCCUR THROUGH DIVERSE MECHANISMS OF VARYING RELEVANCE TO SPECIFIC CLASSES OF GENES. EPIGENETIC MODIFICATIONS ARE INDEED A PIVOTAL REGULATORY FEATURE OF GLUCOCORTICOID RECEPTOR AND OTHER TRANSCRIPTION FACTORS. IN THIS STUDY, HISTONE POST-TRANSLATIONAL MODIFICATIONS WERE INVESTIGATED FOR THEIR INVOLVEMENT IN THE REGULATION OF SELECTED PRO-INFLAMMATORY GENES - EXPRESSED IN HUMAN MONOCYTE-DERIVED MACROPHAGES - IN RESPONSE TO TREATMENT WITH SYNTHETIC GC DEXAMETHASONE (DEX). WE SHOW THAT HISTONE TAIL ACETYLATION STATUS IS MODIFIED FOLLOWING DEX ADMINISTRATION, THROUGH DISTINCT AND ALTERNATIVE MECHANISMS AT THE PROMOTERS OF INTERLEUKIN-8 AND INTERLEUKIN-23. IN ADDITION TO HISTONE H3 ACETYLATION, OUR RESULTS DEMONSTRATE THAT H3 LYSINE 4 TRIMETHYLATION IS AFFECTED FOLLOWING DRUG TREATMENT. 2014 9 3342 25 HISTONE DEACETYLASE9 REPRESENTS THE EPIGENETIC PROMOTION OF M1 MACROPHAGE POLARIZATION AND INFLAMMATORY RESPONSE VIA TLR4 REGULATION. ATHEROSCLEROSIS IS A CHRONIC INFLAMMATORY RESPONSE MEDIATED BY VARIOUS FACTORS, WHERE EPIGENETIC REGULATION INVOLVING HISTONE DEACETYLATION IS ENVISAGED TO MODULATE THE EXPRESSION OF RELATED PROTEINS BY REGULATING THE BINDING OF TRANSCRIPTION FACTORS TO DNA, THEREBY INFLUENCING THE DEVELOPMENT OF ATHEROSCLEROSIS. THE MECHANISM OF ATHEROSCLEROSIS BY HISTONE DEACETYLATION IS PARTLY KNOWN; HENCE, THIS PROJECT AIMED AT INVESTIGATING THE ROLE OF HISTONE DEACETYLASE 9 (HDAC9) IN ATHEROSCLEROSIS. FOR THIS PURPOSE, SERUM WAS SEPARATED FROM BLOOD SAMPLES FOLLOWING CLOTTING AND CENTRIFUGATION FROM ATHEROSCLEROTIC AND HEALTHY PATIENTS (N = 40 EACH), AND THEN, VARIOUS TESTS WERE PERFORMED. THE RESULTS INDICATED THAT TOLL-LIKE RECEPTOR 4 (TLR4) WAS NOT ONLY POSITIVELY CORRELATED TO THE HDAC9 GENE, BUT WAS ALSO UPREGULATED IN ATHEROSCLEROSIS, WHERE IT WAS ALSO SIGNIFICANTLY UPREGULATED IN THE ATHEROSCLEROSIS CELL MODEL OF OXIDIZED LOW-DENSITY LIPOPROTEIN-INDUCED MACROPHAGES. CONVERSELY, THE TLR4 WAS SIGNIFICANTLY DOWNREGULATED IN INSTANCES OF LOSS OF HDAC9 FUNCTION, CEMENTING THE BRIDGING RELATIONSHIP BETWEEN HDAC9 AND MACROPHAGE POLARIZATION, WHERE THE HDAC9 WAS FOUND TO UPREGULATE M1 MACROPHAGE POLARIZATION WHICH TRANSLATED INTO THE RELEASE OF HIGHER CONTENT OF PROINFLAMMATORY CYTOKINES SUCH AS INTERLEUKIN-1BETA (IL-1BETA) AND TUMOR NECROSIS FACTOR-ALPHA (TNF-ALPHA), WHICH TEND TO SIGNIFICANTLY DECREASE FOLLOWING THE DELETION OF TLR4. HENCE, THIS STUDY REPORTS NOVEL RELATION BETWEEN EPIGENETIC CONTROL AND ATHEROSCLEROSIS, WHICH COULD PARTLY BE EXPLAINED BY HISTONE DEACETYLATION. 2022 10 3918 27 LINKING ABERRANT CHROMATIN FEATURES IN CHRONIC LYMPHOCYTIC LEUKEMIA TO TRANSCRIPTION FACTOR NETWORKS. IN CHRONIC LYMPHOCYTIC LEUKEMIA (CLL), A DIVERSE SET OF GENETIC MUTATIONS IS EMBEDDED IN A DEREGULATED EPIGENETIC LANDSCAPE THAT DRIVES CANCEROGENESIS. TO ELUCIDATE THE ROLE OF ABERRANT CHROMATIN FEATURES, WE MAPPED DNA METHYLATION, SEVEN HISTONE MODIFICATIONS, NUCLEOSOME POSITIONS, CHROMATIN ACCESSIBILITY, BINDING OF EBF1 AND CTCF, AS WELL AS THE TRANSCRIPTOME OF B CELLS FROM CLL PATIENTS AND HEALTHY DONORS. A GLOBALLY INCREASED HISTONE DEACETYLASE ACTIVITY WAS DETECTED AND HALF OF THE GENOME COMPRISED TRANSCRIPTIONALLY DOWNREGULATED PARTIALLY DNA METHYLATED DOMAINS DEMARCATED BY CTCF CLL SAMPLES DISPLAYED A H3K4ME3 REDISTRIBUTION AND NUCLEOSOME GAIN AT PROMOTERS AS WELL AS CHANGES OF ENHANCER ACTIVITY AND ENHANCER LINKAGE TO TARGET GENES. A DNA BINDING MOTIF ANALYSIS IDENTIFIED TRANSCRIPTION FACTORS THAT GAINED OR LOST BINDING IN CLL AT SITES WITH ABERRANT CHROMATIN FEATURES. THESE FINDINGS WERE INTEGRATED INTO A GENE REGULATORY ENHANCER CONTAINING NETWORK ENRICHED FOR B-CELL RECEPTOR SIGNALING PATHWAY COMPONENTS. OUR STUDY PREDICTS NOVEL MOLECULAR LINKS TO TARGETS OF CLL THERAPIES AND PROVIDES A VALUABLE RESOURCE FOR FURTHER STUDIES ON THE EPIGENETIC CONTRIBUTION TO THE DISEASE. 2019 11 2281 29 EPIGENETIC REGULATION IN EARLY CHILDHOOD: A MINIATURIZED AND VALIDATED METHOD TO ASSESS HISTONE ACETYLATION. INTRODUCTION: CHRONIC INFLAMMATORY DISEASES INCLUDING ALLERGIES AND ASTHMA ARE THE RESULT OF COMPLEX INTERACTIONS BETWEEN GENES AND ENVIRONMENTAL FACTORS. EPIGENETIC MECHANISMS COMPRISE A SET OF BIOCHEMICAL REACTIONS THAT REGULATE GENE EXPRESSION. IN ORDER TO UNDERSTAND THE CAUSE-EFFECT RELATIONSHIP BETWEEN ENVIRONMENTAL EXPOSURES AND DISEASE DEVELOPMENT, METHODS CAPABLE OF ASSESSING EPIGENETIC REGULATION (ALSO) IN LARGE COHORTS ARE NEEDED. METHODS: FOR THIS PURPOSE, WE DEVELOPED AND EVALUATED A MINIATURIZED CHROMATIN IMMUNOPRECIPITATION (CHIP) ASSAY ALLOWING FOR A COST-EFFECTIVE ASSESSMENT OF HISTONE ACETYLATION OF CANDIDATE GENES IN A QUANTITATIVE FASHION. THIS METHOD WAS THEN APPLIED TO ASSESS H3 AND H4 HISTONE ACETYLATION CHANGES IN CORD BLOOD (CB) SAMPLES FROM AN ESTABLISHED COHORT OF AUSTRALIAN CHILDREN EXPOSED IN THE FETAL PERIOD TO EITHER VERY LOW OR VERY HIGH LEVELS OF MATERNAL FOLATE. RESULTS: OUR CHIP ASSAY WAS VALIDATED FOR A MINIMUM REQUIREMENT OF 1 X 105 TARGET CELLS (E.G. CD4+ T CELLS). VERY HIGH LEVELS OF MATERNAL FOLATE WERE SIGNIFICANTLY ASSOCIATED WITH INCREASED H3/H4 ACETYLATION AT GATA3 AND/OR IL9 PROMOTER REGIONS IN CD4+ T CELLS IN CB. CONCLUSION: WE DEVELOPED A CHIP METHOD ALLOWING RELIABLE ASSESSMENT OF H3/H4 ACETYLATION USING 1 X 105 CELLS ONLY. PRACTICAL APPLICATION OF THIS ASSAY DEMONSTRATED AN ASSOCIATION BETWEEN HIGH MATERNAL FOLATE EXPOSURE AND INCREASED HISTONE ACETYLATION, CORRESPONDING TO A MORE TRANSCRIPTIONALLY PERMISSIVE CHROMATIN STATUS IN THE PROMOTER REGIONS OF SOME TH2-RELATED GENES. 2015 12 4628 27 NEUROEPIGENETIC ALTERATIONS IN THE PREFRONTAL CORTEX OF TYPE 2 DIABETIC MICE THROUGH DNA HYPERMETHYLATION. BACKGROUND: DNA METHYLATION CHANGES HAVE KNOWN TO DOWNREGULATE SEVERAL REGULATORY PROTEINS EPIGENETICALLY DURING VARIOUS NEURODEGENERATIVE DISORDERS. OUR STUDY AIMS TO UNDERSTAND THE EFFECT OF THIS GLOBAL DNA METHYLATION ON THE CEREBRAL COMPLICATIONS OF TYPE 2 DIABETES MICE, AND ITS NOTABLE EFFECT ON MAINTAINING THE SYNAPTIC FIDELITY. METHODS AND RESULTS: CHRONIC HIGH FAT DIET AND STREPTOZOTOCIN-INDUCED DIABETIC MICE WERE STUDIED FOR THE NEUROBEHAVIORAL AND NEUROANATOMIC PARAMETERS PERTAINING TO PREFRONTAL CORTEX, SUBSEQUENTLY ELUCIDATING THE ASSOCIATED CHANGES IN DNA METHYLATION WITHIN THESE DIABETIC BRAINS. FURTHER, THE IMPACT OF THIS EPIGENETIC DYSREGULATION ON HSF1, BDNF AND PSD95 WERE STUDIED BY ASSESSING THE BINDING AFFINITY AND LEVEL OF % METHYLATION WITHIN THE PROMOTER SITE OF THEIR RESPECTIVE GENES. OUR STUDY SUGGEST INCREASED DNMT ABERRATIONS WITHIN THE PREFRONTAL CORTEX, WITH INCREASED MECP2 LEVELS, CONFIRMING DNA HYPERMETHYLATION. THIS WAS IN ACCORDANCE WITH THE ALTERED NEUROBEHAVIORAL CHANGES. FURTHER, THE HYPERMETHYLATION WAS FOUND TO PARTICIPATE IN GENE SILENCING OF HSF1, BDNF AND PSD95 PROTEINS, RESPONSIBLE FOR MAINTAINING THE SYNAPTIC FIDELITY. CONCLUSION: OVERALL, OUR STUDY CONCLUDES THE PLAUSIBLE INVOLVEMENT OF NEUROEPIGENETIC ALTERATIONS IN THE PREFRONTAL CORTEX (PFC) OF THE TYPE 2 DIABETES MICE, SPECIFICALLY DNA HYPERMETHYLATION. PFC PLAYS A CENTRAL ROLE IN MODULATING COGNITIVE AND OTHER EXECUTIVE FUNCTIONS THROUGH ITS CONNECTION WITH SEVERAL BRAIN REGIONS, AND THUS THERAPEUTIC STRATEGIES TARGETING EPIGENETIC MODULATIONS IN IT, CAN PAVE A WAY IN CONTROLLING SEVERAL NEUROLOGICAL ALTERATIONS IN THE BRAIN. 2022 13 3043 32 GENOME-WIDE ANALYSIS IDENTIFIES NR4A1 AS A KEY MEDIATOR OF T CELL DYSFUNCTION. T CELLS BECOME DYSFUNCTIONAL WHEN THEY ENCOUNTER SELF ANTIGENS OR ARE EXPOSED TO CHRONIC INFECTION OR TO THE TUMOUR MICROENVIRONMENT(1). THE FUNCTION OF T CELLS IS TIGHTLY REGULATED BY A COMBINATIONAL CO-STIMULATORY SIGNAL, AND DOMINANCE OF NEGATIVE CO-STIMULATION RESULTS IN T CELL DYSFUNCTION(2). HOWEVER, THE MOLECULAR MECHANISMS THAT UNDERLIE THIS DYSFUNCTION REMAIN UNCLEAR. HERE, USING AN IN VITRO T CELL TOLERANCE INDUCTION SYSTEM IN MICE, WE CHARACTERIZE GENOME-WIDE EPIGENETIC AND GENE EXPRESSION FEATURES IN TOLERANT T CELLS, AND SHOW THAT THEY ARE DISTINCT FROM EFFECTOR AND REGULATORY T CELLS. NOTABLY, THE TRANSCRIPTION FACTOR NR4A1 IS STABLY EXPRESSED AT HIGH LEVELS IN TOLERANT T CELLS. OVEREXPRESSION OF NR4A1 INHIBITS EFFECTOR T CELL DIFFERENTIATION, WHEREAS DELETION OF NR4A1 OVERCOMES T CELL TOLERANCE AND EXAGGERATES EFFECTOR FUNCTION, AS WELL AS ENHANCING IMMUNITY AGAINST TUMOUR AND CHRONIC VIRUS. MECHANISTICALLY, NR4A1 IS PREFERENTIALLY RECRUITED TO BINDING SITES OF THE TRANSCRIPTION FACTOR AP-1, WHERE IT REPRESSES EFFECTOR-GENE EXPRESSION BY INHIBITING AP-1 FUNCTION. NR4A1 BINDING ALSO PROMOTES ACETYLATION OF HISTONE 3 AT LYSINE 27 (H3K27AC), LEADING TO ACTIVATION OF TOLERANCE-RELATED GENES. THIS STUDY THUS IDENTIFIES NR4A1 AS A KEY GENERAL REGULATOR IN THE INDUCTION OF T CELL DYSFUNCTION, AND A POTENTIAL TARGET FOR TUMOUR IMMUNOTHERAPY. 2019 14 3587 37 IMPACT OF TLR4 ON BEHAVIORAL AND COGNITIVE DYSFUNCTIONS ASSOCIATED WITH ALCOHOL-INDUCED NEUROINFLAMMATORY DAMAGE. TOLL-LIKE RECEPTORS (TLRS) PLAY AN IMPORTANT ROLE IN THE INNATE IMMUNE RESPONSE, AND EMERGING EVIDENCE INDICATES THEIR ROLE IN BRAIN INJURY AND NEURODEGENERATION. OUR RECENT RESULTS HAVE DEMONSTRATED THAT ETHANOL IS CAPABLE OF ACTIVATING GLIAL TLR4 RECEPTORS AND THAT THE ELIMINATION OF THESE RECEPTORS IN MICE PROTECTS AGAINST ETHANOL-INDUCED GLIAL ACTIVATION, INDUCTION OF INFLAMMATORY MEDIATORS AND APOPTOSIS. THIS STUDY WAS DESIGNED TO ASSESS WHETHER ETHANOL-INDUCED INFLAMMATORY DAMAGE CAUSES BEHAVIORAL AND COGNITIVE CONSEQUENCES, AND IF BEHAVIORAL ALTERATIONS ARE DEPENDENT OF TLR4 FUNCTIONS. HERE WE SHOW IN MICE DRINKING ALCOHOL FOR 5MONTHS, FOLLOWED BY A 15-DAY WITHDRAWAL PERIOD, THAT ACTIVATION OF THE ASTROGLIAL AND MICROGLIAL CELLS IN FRONTAL CORTEX AND STRIATUM IS MAINTAINED AND THAT THESE EVENTS ARE ASSOCIATED WITH COGNITIVE AND ANXIETY-RELATED BEHAVIORAL IMPAIRMENTS IN WILD-TYPE (WT) MICE, AS DEMONSTRATED BY TESTING THE ANIMALS WITH OBJECT MEMORY RECOGNITION, CONDITIONED TASTE AVERSION AND DARK AND LIGHT BOX ANXIETY TASKS. MICE LACKING TLR4 RECEPTORS ARE PROTECTED AGAINST ETHANOL-INDUCED INFLAMMATORY DAMAGE, AND BEHAVIORAL ASSOCIATED EFFECTS. WE FURTHER ASSESS THE POSSIBILITY OF THE EPIGENETIC MODIFICATIONS PARTICIPATING IN SHORT- OR LONG-TERM BEHAVIORAL EFFECTS ASSOCIATED WITH NEUROINFLAMMATORY DAMAGE. WE SHOW THAT CHRONIC ALCOHOL TREATMENT DECREASES H4 HISTONE ACETYLATION AND HISTONE ACETYLTRANSFERASES ACTIVITY IN FRONTAL CORTEX, STRIATUM AND HIPPOCAMPUS OF WT MICE. ALTERATIONS IN CHROMATIN STRUCTURE WERE NOT OBSERVED IN TLR4(-/-) MICE. THESE RESULTS PROVIDE THE FIRST EVIDENCE OF THE ROLE THAT TLR4 FUNCTIONS PLAY IN THE BEHAVIORAL CONSEQUENCES OF ALCOHOL-INDUCED INFLAMMATORY DAMAGE AND SUGGEST THAT THE EPIGENETIC MODIFICATIONS MEDIATED BY TLR4 COULD CONTRIBUTE TO SHORT- OR LONG-TERM ALCOHOL-INDUCED BEHAVIORAL OR COGNITIVE DYSFUNCTIONS. 2011 15 1087 27 COCAINE ALTERS THE MOUSE TESTICULAR EPIGENOME WITH DIRECT IMPACT ON HISTONE ACETYLATION AND DNA METHYLATION MARKS. RESEARCH QUESTION: RECENT EVIDENCE SUGGESTS THAT COCAINE ADMINISTRATION IN ANIMAL MODELS CAN TRIGGER NON-GENETIC INHERITANCE OF ADDICTION TRAITS FROM FATHER TO OFFSPRING, AFFECTING DEVELOPMENT AND BEHAVIOUR. IS CHRONIC COCAINE INTAKE INVOLVED IN ALTERATIONS OF EPIGENETIC HOMEOSTASIS IN THE TESTIS? DESIGN: EPIGENETIC MARKS AND MEDIATORS IN TESTIS AND ISOLATED GERM CELLS OF ADULT MICE TREATED WITH COCAINE (10 MG/KG) OR VEHICLE (STERILE SALINE SOLUTION) WERE EVALUATED IN AN INTERMITTENT BINGE PROTOCOL: THREE INTRAPERITONEAL INJECTIONS, 1 H APART, ONE DAY ON/OFF FOR 13 DAYS, COLLECTING TISSUE 24 H AFTER THE LAST BINGE ADMINISTRATION (DAY 14). RESULTS: IT WAS SHOWN THAT CHRONIC COCAINE INTAKE IN MICE DISRUPTS TESTICULAR EPIGENETIC HOMEOSTASIS, INCREASING GLOBAL METHYLATED CYTOSINE LEVELS IN DNA FROM GERM CELLS AND SPERM. COCAINE ALSO INCREASED TESTICULAR AND GERM CELL ACETYLATED HISTONE 3 AND 4 AND DECREASED EXPRESSION OF HISTONE DEACETYLASES HDAC1/2. IMMUNOLOCALIZATION STUDIES SHOWED THAT HDAC1/2 AND ACETYLATED HISTONE 3 AND 4 PROTEINS LOCALIZE TO MEIOTIC GERM CELLS. ANALYSIS OF MRNA EXPRESSION IN ISOLATED GERM CELLS SHOWS DECREASED LEVELS OF HDAC1/2/8, DNMT3B AND TET1 AND INCREASED LEVELS OF DNMT3A GENE EXPRESSION AFTER COCAINE TREATMENT. CONCLUSIONS: COCAINE INTAKE IS ASSOCIATED WITH TESTICULAR TOXICITY AND SIGNIFICANT REPRODUCTIVE FUNCTION IMPAIRMENT. THE RESULTS PRESENTED HERE BROADEN THE BASIC KNOWLEDGE OF THE IMPACT OF ADDICTIVE STIMULANTS ON TESTICULAR PATHOPHYSIOLOGY, FERTILITY AND MALE REPRODUCTIVE HEALTH AND IMPLY THAT ALTERED EPIGENETIC HOMEOSTASIS BY COCAINE MAY HAVE POTENTIAL CONSEQUENCES ON FUTURE GENERATIONS. 2018 16 1833 19 EFFECTS OF METHYL DONOR DIETS ON INCISIONAL PAIN IN MICE. BACKGROUND: DIETARY SUPPLEMENTATION WITH METHYL DONORS CAN INFLUENCE THE PROGRAMMING OF EPIGENETIC PATTERNS RESULTING IN PERSISTENT ALTERATIONS IN DISEASE SUSCEPTIBILITY AND BEHAVIOR. HOWEVER, THE DIETARY EFFECTS OF METHYL DONORS ON PAIN HAVE NOT BEEN EXPLORED. IN THIS STUDY, WE EVALUATED THE EFFECTS OF DIETARY METHYL DONOR CONTENT ON PAIN RESPONSES IN MICE. METHODS: MALE AND FEMALE C57BL/6J MICE WERE TREATED WITH HIGH OR LOW METHYL DONOR DIETS EITHER IN THE PERINATAL PERIOD OR AFTER WEANING. MECHANICAL AND THERMAL NOCICEPTIVE SENSITIVITY WERE MEASURED BEFORE AND AFTER INCISION. RESULTS: MICE FED HIGH OR LOW METHYL DONOR DIETS DISPLAYED EQUAL WEIGHT GAIN OVER THE COURSE OF THE EXPERIMENTS. WHEN EXPOSED TO THESE DIETARY MANIPULATIONS IN THE PERINATAL PERIOD, ONLY MALE OFFSPRING OF DAMS FED A HIGH METHYL DONOR DIET DISPLAYED INCREASED MECHANICAL ALLODYNIA. HINDPAW INCISION IN THESE ANIMALS CAUSED ENHANCED NOCICEPTIVE SENSITIZATION, BUT DIETARY HISTORY DID NOT AFFECT THE DURATION OF SENSITIZATION. FOR MICE EXPOSED TO HIGH OR LOW METHYL DONOR DIETS AFTER WEANING, NO SIGNIFICANT DIFFERENCES WERE OBSERVED IN MECHANICAL OR THERMAL NOCICEPTIVE SENSITIVITY EITHER AT BASELINE OR IN RESPONSE TO HINDPAW INCISION. CONCLUSIONS: PERINATAL DIETARY FACTORS SUCH AS METHYL DONOR CONTENT MAY IMPACT PAIN EXPERIENCES IN LATER LIFE. THESE EFFECTS, HOWEVER, MAY BE SPECIFIC TO SEX AND PAIN MODALITY. 2013 17 990 29 CHRONIC SOCIAL STRESS INDUCES DNA METHYLATION CHANGES AT AN EVOLUTIONARY CONSERVED INTERGENIC REGION IN CHROMOSOME X. CHRONIC STRESS RESULTING FROM PROLONGED EXPOSURE TO NEGATIVE LIFE EVENTS INCREASES THE RISK OF MOOD AND ANXIETY DISORDERS. ALTHOUGH CHRONIC STRESS CAN CHANGE GENE EXPRESSION RELEVANT FOR BEHAVIOR, MOLECULAR REGULATORS OF THIS CHANGE HAVE NOT BEEN FULLY DETERMINED. ONE PROCESS THAT COULD PLAY A ROLE IS DNA METHYLATION, AN EPIGENETIC PROCESS WHEREBY A METHYL GROUP IS ADDED ONTO NUCLEOTIDES, PREDOMINANTLY CYTOSINE IN THE CPG CONTEXT, AND WHICH CAN BE INDUCED BY CHRONIC STRESS. IT IS UNKNOWN TO WHAT EXTENT CHRONIC SOCIAL DEFEAT, A MODEL OF HUMAN SOCIAL STRESS, INFLUENCES DNA METHYLATION PATTERNS ACROSS THE GENOME. OUR STUDY ADDRESSED THIS QUESTION BY USING A TARGETED-CAPTURE APPROACH CALLED METHYL-SEQ TO INVESTIGATE DNA METHYLATION PATTERNS OF THE DENTATE GYRUS AT PUTATIVE REGULATORY REGIONS ACROSS THE MOUSE GENOME FROM MICE EXPOSED TO 14 DAYS OF SOCIAL DEFEAT. FINDINGS WERE REPLICATED IN INDEPENDENT COHORTS BY BISULFITE-PYROSEQUENCING. TWO DIFFERENTIALLY METHYLATED REGIONS (DMRS) WERE IDENTIFIED. ONE DMR WAS LOCATED AT INTRON 9 OF DROSHA, AND IT SHOWED REDUCED METHYLATION IN STRESSED MICE. THIS OBSERVATION REPLICATED IN ONE OF TWO INDEPENDENT COHORTS. A SECOND DMR WAS IDENTIFIED AT AN INTERGENIC REGION OF CHROMOSOME X, AND METHYLATION IN THIS REGION WAS INCREASED IN STRESSED MICE. THIS METHYLATION DIFFERENCE REPLICATED IN TWO INDEPENDENT COHORTS AND IN MAJOR DEPRESSIVE DISORDER (MDD) POSTMORTEM BRAINS. THESE RESULTS HIGHLIGHT A REGION NOT PREVIOUSLY KNOWN TO BE DIFFERENTIALLY METHYLATED BY CHRONIC SOCIAL DEFEAT STRESS AND WHICH MAY BE INVOLVED IN MDD. 2018 18 5946 32 TARGETING THE EPIGENOME IN THE TREATMENT OF ASTHMA AND CHRONIC OBSTRUCTIVE PULMONARY DISEASE. EPIGENETIC MODIFICATION OF GENE EXPRESSION BY METHYLATION OF DNA AND VARIOUS POST-TRANSLATIONAL MODIFICATIONS OF HISTONES MAY AFFECT THE EXPRESSION OF MULTIPLE INFLAMMATORY GENES. ACETYLATION OF HISTONES BY HISTONE ACETYLTRANSFERASES ACTIVATES INFLAMMATORY GENES, WHEREAS HISTONE DEACETYLATION RESULTS IN INFLAMMATORY GENE REPRESSION. CORTICOSTEROIDS EXERT THEIR ANTIINFLAMMATORY EFFECTS PARTLY BY INDUCING ACETYLATION OF ANTIINFLAMMATORY GENES, BUT MAINLY BY RECRUITING HISTONE DEACETYLASE-2 (HDAC2) TO ACTIVATED INFLAMMATORY GENES. HDAC2 DEACETYLATES ACETYLATED GLUCOCORTICOID RECEPTORS SO THAT THEY CAN SUPPRESS ACTIVATED INFLAMMATORY GENES IN ASTHMA. IN CHRONIC OBSTRUCTIVE PULMONARY DISEASE (COPD), THERE IS RESISTANCE TO THE ANTIINFLAMMATORY ACTIONS OF CORTICOSTEROIDS, WHICH IS EXPLAINED BY REDUCED ACTIVITY AND EXPRESSION OF HDAC2. THIS CAN BE REVERSED BY A PLASMID VECTOR, WHICH RESTORES HDAC2 LEVELS, BUT MAY ALSO BE ACHIEVED BY LOW CONCENTRATIONS OF THEOPHYLLINE. OXIDATIVE STRESS CAUSES CORTICOSTEROID RESISTANCE BY REDUCING HDAC2 ACTIVITY AND EXPRESSION BY ACTIVATION OF PHOSPHOINOSITIDE-3-KINASE-DELTA, RESULTING IN HDAC2 PHOSPHORYLATION VIA A CASCADE OF KINASES. THEOPHYLLINE REVERSES CORTICOSTEROID RESISTANCE BY DIRECTLY INHIBITING OXIDANT-ACTIVATED PI3KDELTA AND IS MIMICKED BY PI3KDELTA KNOCKOUT OR BY SELECTIVE INHIBITORS. OTHER TREATMENTS MAY ALSO INTERACT IN THIS PATHWAY, MAKING IT POSSIBLE TO REVERSE CORTICOSTEROID RESISTANCE IN PATIENTS WITH COPD, AS WELL AS IN SMOKERS WITH ASTHMA AND SOME PATIENTS WITH SEVERE ASTHMA IN WHOM SIMILAR MECHANISMS OPERATE. OTHER HISTONE MODIFICATIONS, INCLUDING METHYLATION, TYROSINE NITRATION, AND UBIQUITINATION MAY ALSO AFFECT HISTONE FUNCTION AND INFLAMMATORY GENE EXPRESSION, AND BETTER UNDERSTANDING OF THESE EPIGENETIC PATHWAYS COULD LED TO NOVEL ANTIINFLAMMATORY THERAPIES, PARTICULARLY IN CORTICOSTEROID-RESISTANT INFLAMMATION. 2009 19 4604 26 NEGATIVE EVIDENCE FOR A FUNCTIONAL ROLE OF NEURONAL DNMT3A IN PERSISTENT PAIN. TRADITIONALLY, NEUROSCIENCE HAS HAD TO RELY ON MIXED TISSUE ANALYSIS TO EXAMINE TRANSCRIPTIONAL AND EPIGENETIC CHANGES IN THE CONTEXT OF NERVOUS SYSTEM FUNCTION OR PATHOLOGY. HOWEVER, PARTICULARLY WHEN STUDYING CHRONIC PAIN CONDITIONS, THIS APPROACH CAN BE FLAWED, SINCE IT NEGLECTS TO TAKE INTO ACCOUNT THE SHIFTING CONTRIBUTION OF DIFFERENT CELL TYPES ACROSS EXPERIMENTAL CONDITIONS. HERE, WE DEMONSTRATE THIS USING THE EXAMPLE OF DNA METHYLTRANSFERASES (DNMTS) - A GROUP OF EPIGENETIC MODIFIERS CONSISTING OF DNMT1, DNMT3A, AND DNMT3B IN MAMMALIAN CELLS. WE USED SENSORY NEURON-SPECIFIC KNOCKOUT MICE FOR DNMT3A/3B AS WELL AS PHARMACOLOGICAL BLOCKADE OF DNMT1 TO STUDY THEIR ROLE IN NOCICEPTION. IN CONTRAST TO PREVIOUS ANALYSES ON WHOLE TISSUE, WE FIND THAT DNMT3A AND 3B PROTEIN IS NOT EXPRESSED IN ADULT DRG NEURONS, THAT NONE OF THE DNA METHYLTRANSFERASES ARE REGULATED WITH INJURY AND THAT INTERFERING WITH THEIR FUNCTION HAS NO EFFECT ON NOCICEPTION. OUR RESULTS THEREFORE CURRENTLY DO NOT SUPPORT A ROLE FOR NEURONAL DNA METHYLTRANSFERASES IN PAIN PROCESSING IN ADULT ANIMALS. 2018 20 1698 28 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