1 2241 124 EPIGENETIC MODULATION IN PERIODONTITIS: INTERACTION OF ADIPONECTIN AND JMJD3-IRF4 AXIS IN MACROPHAGES. EMERGING EVIDENCE SUGGESTS AN IMPORTANT ROLE FOR EPIGENETIC MECHANISMS IN MODULATING SIGNALS DURING MACROPHAGE POLARIZATION AND INFLAMMATION. JMJD3, A JMJC FAMILY HISTONE DEMETHYLASE NECESSARY FOR M2 POLARIZATION IS ALSO REQUIRED FOR EFFECTIVE INDUCTION OF MULTIPLE M1 GENES BY LIPOPOLYSACCHARIDE (LPS). HOWEVER, THE EFFECTS OF JMJD3 TO INFLAMMATION IN THE CONTEXT OF OBESITY REMAINS UNKNOWN. TO ADDRESS THIS DEFICIENCY, WE FIRSTLY EXAMINED THE EXPRESSION OF JMJD3 IN MACROPHAGE ISOLATED FROM BONE MARROW AND ADIPOSE TISSUE OF DIET INDUCED OBESITY (DIO) MICE. THE RESULTS INDICATED THAT JMJD3 WAS DOWN-REGULATED IN OBESITY. ADIPONECTIN (APN), A FACTOR SECRETED BY ADIPOSE TISSUE WHICH IS DOWN-REGULATED IN OBESITY, FUNCTIONS TO SWITCH MACROPHAGE POLARIZATION FROM M1 TO M2, THEREBY ATTENUATING CHRONIC INFLAMMATION. INTRIGUINGLY, OUR RESULTS INDICATED THAT APN CONTRIBUTED TO JMJD3 UP-REGULATION, REDUCED MACROPHAGE INFILTRATION IN OBESE ADIPOSE TISSUE, AND ABOLISHED THE UP-REGULATION OF JMJD3 IN PERITONEAL MACROPHAGES ISOLATED FROM DIO MICE WHEN CHALLENGED WITH PORPHYROMONAS GINGIVALIS LPS (PG.LPS). TO ELUCIDATE THE INTERACTION OF APN AND JMJD3 INVOLVED IN MACROPHAGE TRANSFORMATION IN THE CONTEXT OF INFLAMMATION, WE DESIGNED THE LOSS AND GAIN-FUNCTION EXPERIMENTS OF APN IN VIVO WITH APN(-/-) MICE WITH EXPERIMENTAL PERIODONTITIS AND IN VITRO WITH MACROPHAGE ISOLATED FROM APN(-/-) MICE. FOR THE FIRST TIME, WE FOUND THAT APN CAN HELP TO REDUCE PERIODONTITIS-RELATED BONE LOSS, MODULATE JMJD3 AND IRF4 EXPRESSION, AND MACROPHAGE INFILTRATION. THEREFORE, IT CAN BE INFERRED THAT APN MAY CONTRIBUTE TO ANTI-INFLAMMATION MACROPHAGE POLARIZATION BY REGULATING JMJD3 EXPRESSION, WHICH PROVIDES A BASIS FOR MACROPHAGE-CENTERED EPIGENETIC THERAPEUTIC STRATEGIES. 2016 2 875 29 CHRONIC AND TRANSIENT HYPERGLYCEMIA INDUCES CHANGES IN THE EXPRESSION PATTERNS OF IL6 AND ADIPOQ GENES AND THEIR ASSOCIATED EPIGENETIC MODIFICATIONS IN DIFFERENTIATING HUMAN VISCERAL ADIPOCYTES. ADIPOKINES SECRETED BY HYPERTROPHIC VISCERAL ADIPOSE TISSUE (VAT) INSTIGATE LOW-GRADE INFLAMMATION, FOLLOWED BY HYPERGLYCEMIA (HG)-RELATED METABOLIC DISORDERS. THE LATTER MAY DEVELOP WITH THE PARTICIPATION OF EPIGENETIC MODIFICATIONS. OUR AIM WAS TO ASSESS HOW HG INFLUENCES SELECTED EPIGENETIC MODIFICATIONS AND THE EXPRESSION OF INTERLEUKIN 6 (IL-6) AND ADIPONECTIN (APN; GENE SYMBOL ADIPOQ) DURING THE ADIPOGENESIS OF HUMAN VISCERAL PREADIPOCYTES (HPA-V). ADIPOCYTES (ADS) WERE CHRONICALLY OR TRANSIENTLY HG-TREATED DURING THREE STAGES OF ADIPOGENESIS (PROLIFERATION, DIFFERENTIATION, MATURATION). WE MEASURED ADIPOKINE MRNA, PROTEIN, PROVEN OR PREDICTED MICRORNA EXPRESSION (RT-QPCR AND ELISA), AND ENRICHMENT OF H3K9/14AC, H3K4ME3, AND H3K9ME3 AT GENE PROMOTER REGIONS (CHROMATIN IMMUNOPRECIPITATION). IN CHRONIC HG, WE DETECTED DIFFERENT EXPRESSION PATTERNS OF THE STUDIED ADIPOKINES AT THE MRNA AND PROTEIN LEVELS. CHRONIC AND TRANSIENT HG-INDUCED CHANGES IN MIRNA (MIR-26A-5P, MIR-26B-5P, LET-7D-5P, LET-7E-5P, MIR-365A-3P, MIR-146A-5P) WERE MOSTLY CONVERGENT TO ALTERED IL-6 TRANSCRIPTION. ALTERATIONS IN HISTONE MARKS AT THE IL6 PROMOTER WERE ALSO IN AGREEMENT WITH IL-6 MRNA. THE OPEN CHROMATIN MARKS AT THE ADIPOQ PROMOTER MOSTLY REFLECTED THE APN TRANSCRIPTION DURING NG ADIPOGENESIS, WHILE, IN THE DIFFERENTIATION STAGE, HG-INDUCED CHANGES IN ALL STUDIED MARKS WERE IN LINE WITH APN MRNA LEVELS. IN SUMMARY, HG DYSREGULATED ADIPOKINE EXPRESSION, PROMOTING INFLAMMATION. EPIGENETIC CHANGES COEXISTED WITH ALTERED EXPRESSION OF ADIPOKINES, ESPECIALLY FOR IL-6; THEREFORE, EPIGENETIC MARKS INDUCED BY TRANSIENT HG MAY ACT AS EPI-MEMORY IN ADS. SUCH CHANGES IN THE EPIGENOME AND EXPRESSION OF ADIPOKINES COULD BE INSTRUMENTAL IN THE DEVELOPMENT OF INFLAMMATION AND METABOLIC DEREGULATION OF VAT. 2021 3 3149 31 GLUCOCORTICOID-INDUCED FINGERPRINTS ON VISCERAL ADIPOSE TISSUE TRANSCRIPTOME AND EPIGENOME. CONTEXT: CHRONIC GLUCOCORTICOID (GC) OVEREXPOSURE, RESULTING FROM ENDOGENOUS CUSHING'S SYNDROME (CS) OR EXOGENOUS GC THERAPY, CAUSES SEVERAL ADVERSE OUTCOMES, INCLUDING PERSISTENT CENTRAL FAT ACCUMULATION ASSOCIATED WITH A LOW-GRADE INFLAMMATION. HOWEVER, NO PREVIOUS MULTIOMICS STUDIES IN VISCERAL ADIPOSE TISSUE (VAT) FROM PATIENTS EXPOSED TO HIGH LEVELS OF UNSUPPRESSED GC DURING ACTIVE CS OR AFTER REMISSION ARE AVAILABLE YET. OBJECTIVE: TO DETERMINE THE PERSISTENT VAT TRANSCRIPTOMIC ALTERATIONS AND EPIGENETIC FINGERPRINTS INDUCED BY CHRONIC HYPERCORTISOLISM. METHODS: WE EMPLOYED A TRANSLATIONAL APPROACH COMBINING HIGH-THROUGHPUT DATA ON ENDOGENOUS CS PATIENTS AND A REVERSIBLE CS MOUSE MODEL. WE PERFORMED RNA SEQUENCING AND CHROMATIN IMMUNOPRECIPITATION SEQUENCING ON HISTONE MODIFICATIONS (H3K4ME3, H3K27AC, AND H3K27ME3) TO IDENTIFY PERSISTENT TRANSCRIPTIONAL AND EPIGENETIC SIGNATURES IN VAT PRODUCED DURING ACTIVE CS AND MAINTAINED AFTER REMISSION. RESULTS: VAT DYSFUNCTION WAS ASSOCIATED WITH LOW-GRADE PROINFLAMMATORY STATUS, MACROPHAGE INFILTRATION, AND EXTRACELLULAR MATRIX REMODELING. MOST NOTABLY, CHRONIC HYPERCORTISOLISM CAUSED A PERSISTENT CIRCADIAN RHYTHM DISRUPTION IN VAT THROUGH CORE CLOCK GENES MODULATION. IMPORTANTLY, CHANGES IN THE LEVELS OF 2 HISTONE MODIFICATIONS ASSOCIATED TO GENE TRANSCRIPTIONAL ACTIVATION (H3K4ME3 AND H3K27AC) CORRELATED WITH THE OBSERVED DIFFERENCES IN GENE EXPRESSION DURING ACTIVE CS AND AFTER CS REMISSION. CONCLUSION: WE IDENTIFIED FOR THE FIRST TIME THE PERSISTENT TRANSCRIPTIONAL AND EPIGENETIC SIGNATURES INDUCED BY HYPERCORTISOLISM IN VAT, PROVIDING A NOVEL INTEGRATED VIEW OF MOLECULAR COMPONENTS DRIVING THE LONG-TERM VAT IMPAIRMENT ASSOCIATED WITH CS. 2022 4 1725 27 DYSREGULATION OF INFLAMMATION, OXIDATIVE STRESS, AND GLUCOSE METABOLISM-RELATED GENES AND MIRNAS IN VISCERAL ADIPOSE TISSUE OF WOMEN WITH TYPE 2 DIABETES MELLITUS. BACKGROUND HUMAN VISCERAL ADIPOSE TISSUE (VAT), NOW IDENTIFIED AS AN ENDOCRINE ORGAN, PLAYS A SIGNIFICANT ROLE IN IMPAIRED FASTING GLUCOSE AND DIABETES THROUGH THE DEREGULATED METABOLISM AND ADIPOGENESIS OF VISCERAL ADIPOCYTES IN OBESITY. OUR STUDY FOCUSES ON EXPLORING THE LINK BETWEEN INFLAMMATION, OXIDATIVE STRESS, AND GLUCOSE METABOLISM-ASSOCIATED GENES WITH CORRESPONDING MIRNAS IN HUMAN VISCERAL ADIPOCYTES AND VAT FROM INDIVIDUALS WITH GLUCOSE METABOLISM DISORDERS. MATERIAL AND METHODS WE EXAMINED THE EXPRESSION OF ATM, NFKB1, SOD2, INSR, AND TIGAR, ALONG WITH THEIR RELATED MIRNAS USING PCR, IN TWO CONTEXTS:1 - DURING THE THREE-STAGE VISCERAL ADIPOGENESIS UNDER NORMAL GLUCOSE LEVELS (5.5 MILLIMOLES), INTERMITTENT, AND CHRONIC HYPERGLYCEMIA (30 MILLIMOLES).2 - IN VISCERAL ADIPOSE TISSUE FROM SUBJECTS (34 F, 18 M) WITH NORMAL GLUCOSE METABOLISM, IMPAIRED FASTING GLUCOSE, AND TYPE 2 DIABETES MELLITUS. RESULTS BOTH CHRONIC AND INTERMITTENT HYPERGLYCEMIA SIMILARLY INFLUENCED ATM, NFKB1, TIGAR, SOD2, INSR GENE EXPRESSION IN VISCERAL ADIPOCYTES, WITH CORRESPONDING CHANGES IN A FEW TESTED MIRNAS (EG, LET-7G-5P, MIR-145-5P, MIR-21-5P). ANTHROPOMETRIC AND BIOCHEMICAL PARAMETERS LED US TO FOCUS ON FEMALE SUBJECTS. OUR RESULTS SHOWED TRANSACTIVATION OF NFKB1, TIGAR, MIR-10B-5P, MIR-132-3P, MIR-20A-5P, MIR-21-5P, AND MIR-26A-5P EXCLUSIVELY IN TYPE 2 DIABETES MELLITUS. UPREGULATED MOLECULES (EXCLUDING MIR-10B-5P AND MIR-20A-5P) POSITIVELY CORRELATED WITH GLUCOSE METABOLISM MARKERS. CONCLUSIONS THE GENES STUDIED MAY UNDERGO MIRNA INTERFERENCES AND HYPERGLYCEMIC MEMORY IN VISCERAL ADIPOCYTES UNDER HYPERGLYCEMIC CONDITIONS. VAT FROM WOMEN WITH TYPE 2 DIABETES MELLITUS, BUT NOT WITH IMPAIRED FASTING GLUCOSE, SHOWED TRANSACTIVATED MIRNAS AND A MOLECULAR DYSREGULATION OF TIGAR AND NFKB1, POSSIBLY ENHANCING INFLAMMATION, OXIDATIVE STRESS, AND DISRUPTED GLUCOSE METABOLISM. THESE FINDINGS HIGHLIGHT THE EPIGENETIC AND MOLECULAR DISTURBANCES IN VAT RELATED TO GLUCOSE METABOLISM ABNORMALITIES. HOWEVER, ADDITIONAL RESEARCH IS NECESSARY TO FURTHER UNDERSTAND THEIR BIOLOGICAL SIGNIFICANCE. 2023 5 4307 40 MICRORNA-30 MODULATES METABOLIC INFLAMMATION BY REGULATING NOTCH SIGNALING IN ADIPOSE TISSUE MACROPHAGES. BACKGROUND/OBJECTIVES: OBESITY IS A PANDEMIC DISORDER THAT IS CHARACTERIZED BY ACCUMULATION OF ADIPOSE TISSUE AND CHRONIC LOW-GRADE INFLAMMATION THAT IS DRIVEN PRIMARILY BY ADIPOSE TISSUE MACROPHAGES (ATMS). WHILE ATM POLARIZATION FROM PRO-(M1) TO ANTI-(M2) INFLAMMATORY PHENOTYPE INFLUENCES INSULIN SENSITIVITY AND ENERGY EXPENDITURE, THE MECHANISMS OF SUCH A SWITCH ARE UNCLEAR. IN THE CURRENT STUDY, WE IDENTIFIED EPIGENETIC PATHWAYS INCLUDING MICRORNAS (MIR) IN ATMS THAT REGULATE OBESITY-INDUCED INFLAMMATION. SUBJECTS/METHODS: MALE C57BL/6J MICE WERE FED NORMAL CHOW DIET (NCD) OR HIGH-FAT DIET (HFD) FOR 16 WEEKS TO DEVELOP LEAN AND DIET-INDUCED OBESE MICE, RESPECTIVELY. TRANSCRIPTOME MICROARRAYS, MICRORNA MICROARRAYS, AND MEDIP-SEQ WERE PERFORMED ON ATMS ISOLATED FROM VISCERAL FAT. PATHWAY ANALYSIS AND BONE MARROW-DERIVED MACROPHAGE (BMDM) TRANSFECTIONS FURTHER ALLOWED COMPUTATIONAL AND FUNCTIONAL ANALYSIS OF MIRNA-MEDIATED ATM POLARIZATION. RESULTS: ATMS FROM HFD-FED MICE WERE SKEWED TOWARD M1 INFLAMMATORY PHENOTYPE. CONCURRENTLY, THE EXPRESSION OF MIRS 30A-5P, 30C-5P, AND 30E-5P WAS DOWNREGULATED IN ATMS FROM HFD MICE WHEN COMPARED TO MICE FED NCD. THE MIR-30 FAMILY WAS SHOWN TO TARGET DELTA-LIKE-4, A NOTCH1 LIGAND, WHOSE EXPRESSION WAS INCREASED IN HFD ATMS. INHIBITION OF MIR-30 IN CONDITIONED BMDM TRIGGERED NOTCH1 SIGNALING, PRO-INFLAMMATORY CYTOKINE PRODUCTION, AND M1 MACROPHAGE POLARIZATION. IN ADDITION, DNA HYPERMETHYLATION WAS OBSERVED IN MIR30-ASSOCIATED CPG ISLANDS, SUGGESTING THAT HFD DOWNREGULATES MIR-30 THROUGH EPIGENETIC MODIFICATIONS. CONCLUSIONS: HFD-INDUCED OBESITY DOWNREGULATES MIR-30 BY DNA METHYLATION THEREBY INDUCING NOTCH1 SIGNALING IN ATMS AND THEIR POLARIZATION TO M1 MACROPHAGES. THESE FINDINGS IDENTIFY MIR-30 AS A REGULATOR OF PRO-INFLAMMATORY ATM POLARIZATION AND SUGGEST THAT MIR-30 MANIPULATION COULD BE A THERAPEUTIC TARGET FOR OBESITY-INDUCED INFLAMMATION. 2018 6 3433 32 HYDROXYMETHYLATION OF MICRORNA-365-3P REGULATES NOCICEPTIVE BEHAVIORS VIA KCNH2. DNA 5-HYDROXYLMETHYLCYTOSINE (5HMC) CATALYZED BY TEN-ELEVEN TRANSLOCATION METHYLCYTOSINE DIOXYGENASE (TET) OCCURS ABUNDANTLY IN NEURONS OF MAMMALS. HOWEVER, THE IN VIVO CAUSAL LINK BETWEEN TET DYSREGULATION AND NOCICEPTIVE MODULATION HAS NOT BEEN ESTABLISHED. HERE, WE FOUND THAT SPINAL TET1 AND TET3 WERE SIGNIFICANTLY INCREASED IN THE MODEL OF FORMALIN-INDUCED ACUTE INFLAMMATORY PAIN, WHICH WAS ACCOMPANIED WITH THE AUGMENT OF GENOME-WIDE 5HMC CONTENT IN SPINAL CORD. KNOCKDOWN OF SPINAL TET1 OR TET3 ALLEVIATED THE FORMALIN-INDUCED NOCICEPTIVE BEHAVIOR AND OVEREXPRESSION OF SPINAL TET1 OR TET3 IN NAIVE MICE PRODUCED PAIN-LIKE BEHAVIOR AS EVIDENCED BY DECREASED THERMAL PAIN THRESHOLD. FURTHERMORE, WE FOUND THAT TET1 OR TET3 REGULATED THE NOCICEPTIVE BEHAVIOR BY TARGETING MICRORNA-365-3P (MIR-365-3P). FORMALIN INCREASED 5HMC IN THE MIR-365-3P PROMOTER, WHICH WAS INHIBITED BY KNOCKDOWN OF TET1 OR TET3 AND MIMICKED BY OVEREXPRESSION OF TET1 OR TET3 IN NAIVE MICE. NOCICEPTIVE BEHAVIOR INDUCED BY FORMALIN OR OVEREXPRESSION OF SPINAL TET1 OR TET3 COULD BE PREVENTED BY DOWNREGULATION OF MIR-365-3P, AND MIMICKED BY OVEREXPRESSION OF SPINAL MIR-365-3P. FINALLY, WE DEMONSTRATED THAT A POTASSIUM CHANNEL, VOLTAGE-GATED EAG-RELATED SUBFAMILY H MEMBER 2 (KCNH2), VALIDATED AS A TARGET OF MIR-365-3P, PLAYED A CRITICAL ROLE IN NOCICEPTIVE MODULATION BY SPINAL TET OR MIR-365-3P. TOGETHER, WE CONCLUDED THAT TET-MEDIATED HYDROXYMETHYLATION OF MIR-365-3P REGULATES NOCICEPTIVE BEHAVIOR VIA KCNH2. SIGNIFICANCE STATEMENT: MOUNTING EVIDENCE INDICATES THAT EPIGENETIC MODIFICATIONS IN THE NOCICEPTIVE PATHWAY CONTRIBUTE TO PAIN PROCESSES AND ANALGESIA RESPONSE. HERE, WE FOUND THAT THE INCREASE OF 5HMC CONTENT MEDIATED BY TET1 OR TET3 IN MIR-365-3P PROMOTER IN THE SPINAL CORD IS INVOLVED IN NOCICEPTIVE MODULATION THROUGH TARGETING A POTASSIUM CHANNEL, KCNH2. OUR STUDY REVEALS A NEW EPIGENETIC MECHANISM UNDERLYING NOCICEPTIVE INFORMATION PROCESSING, WHICH MAY BE A NOVEL TARGET FOR DEVELOPMENT OF ANTINOCICEPTIVE DRUGS. 2016 7 5332 35 PYRUVATE DEHYDROGENASE KINASE 1 AND 2 DEFICIENCY REDUCES HIGH-FAT DIET-INDUCED HYPERTROPHIC OBESITY AND INHIBITS THE DIFFERENTIATION OF PREADIPOCYTES INTO MATURE ADIPOCYTES. OBESITY IS NOW RECOGNIZED AS A DISEASE. THIS STUDY REVEALED A NOVEL ROLE FOR PYRUVATE DEHYDROGENASE KINASE (PDK) IN DIET-INDUCED HYPERTROPHIC OBESITY. MICE WITH GLOBAL OR ADIPOSE TISSUE-SPECIFIC PDK2 DEFICIENCY WERE PROTECTED AGAINST DIET-INDUCED OBESITY. THE WEIGHT OF ADIPOSE TISSUES AND THE SIZE OF ADIPOCYTES WERE REDUCED. ADIPOCYTE-SPECIFIC PDK2 DEFICIENCY SLIGHTLY INCREASED INSULIN SENSITIVITY IN HFD-FED MICE. IN STUDIES WITH 3T3-L1 PREADIPOCYTES, PDK2 AND PDK1 EXPRESSION WAS STRONGLY INCREASED DURING ADIPOGENESIS. EVIDENCE WAS FOUND FOR EPIGENETIC INDUCTION OF BOTH PDK1 AND PDK2. GAIN- AND LOSS-OF-FUNCTION STUDIES WITH 3T3-L1 CELLS REVEALED A CRITICAL ROLE FOR PDK1/2 IN ADIPOCYTE DIFFERENTIATION AND LIPID ACCUMULATION. PDK1/2 INDUCTION DURING DIFFERENTIATION WAS ALSO ACCOMPANIED BY INCREASED EXPRESSION OF HYPOXIA-INDUCIBLE FACTOR-1ALPHA (HIF1ALPHA) AND ENHANCED LACTATE PRODUCTION, BOTH OF WHICH WERE ABSENT IN THE CONTEXT OF PDK1/2 DEFICIENCY. EXOGENOUS LACTATE SUPPLEMENTATION INCREASED THE STABILITY OF HIF1ALPHA AND PROMOTED ADIPOGENESIS. PDK1/2 OVEREXPRESSION-MEDIATED ADIPOGENESIS WAS ABOLISHED BY HIF1ALPHA INHIBITION, SUGGESTING A ROLE FOR THE PDK-LACTATE-HIF1ALPHA AXIS DURING ADIPOGENESIS. IN HUMAN ADIPOSE TISSUE, THE EXPRESSION OF PDK1/2 WAS POSITIVELY CORRELATED WITH THAT OF THE ADIPOGENIC MARKER PPARGAMMA AND INVERSELY CORRELATED WITH OBESITY. SIMILARLY, PDK1/2 EXPRESSION IN MOUSE ADIPOSE TISSUE WAS DECREASED BY CHRONIC HIGH-FAT DIET FEEDING. WE CONCLUDE THAT PDK1 AND 2 ARE NOVEL REGULATORS OF ADIPOGENESIS THAT PLAY CRITICAL ROLES IN OBESITY. 2021 8 6599 26 TWIST1 AND TWIST2 INDUCE HUMAN MACROPHAGE MEMORY UPON CHRONIC INNATE RECEPTOR TREATMENT BY HDAC-MEDIATED DEACETYLATION OF CYTOKINE PROMOTERS. INTESTINAL TISSUES ARE CONTINUOUSLY EXPOSED TO MICROBIAL PRODUCTS THAT STIMULATE PATTERN-RECOGNITION RECEPTORS (PRRS). ONGOING PRR STIMULATION CAN CONFER EPIGENETIC CHANGES IN MACROPHAGES, WHICH CAN THEN REGULATE SUBSEQUENT IMMUNE OUTCOMES AND ADAPTATION TO THE LOCAL ENVIRONMENT. MECHANISMS LEADING TO THESE CHANGES ARE INCOMPLETELY UNDERSTOOD. WE FOUND THAT SHORT-TERM STIMULATION OF THE PRR NOD2 IN PRIMARY HUMAN MONOCYTE-DERIVED MACROPHAGES RESULTED IN INCREASED H3 AND H4 ACETYLATION OF CYTOKINE PROMOTERS, CONSISTENT WITH THE INCREASED CYTOKINE SECRETION OBSERVED. HOWEVER, WITH PROLONGED NOD2 STIMULATION, BOTH THE ACETYLATION AND CYTOKINE SECRETION WERE DRAMATICALLY DECREASED. CHRONIC NOD2 STIMULATION UPREGULATED THE TRANSCRIPTION FACTORS TWIST1 AND TWIST2, WHICH BOUND TO THE PROMOTERS OF THE HISTONE DEACETYLASES HDAC1 AND HDAC3 AND INDUCED HDAC1 AND HDAC3 EXPRESSION. HDAC1 AND HDAC3 THEN MEDIATED HISTONE DEACETYLATION AT CYTOKINE PROMOTERS AND, IN TURN, CYTOKINE DOWNREGULATION UNDER THESE CONDITIONS. SIMILAR REGULATION WAS OBSERVED UPON CHRONIC STIMULATION OF MULTIPLE PRRS. CONSISTENT WITH THE CHRONIC MICROBIAL EXPOSURE IN THE INTESTINAL ENVIRONMENT, TWIST1, TWIST2, HDAC1, AND HDAC3 WERE UPREGULATED IN HUMAN INTESTINAL RELATIVE TO PERIPHERAL MACROPHAGES. IMPORTANTLY, COMPLEMENTING HDAC1 AND HDAC3 IN TWIST1/TWIST2-DEFICIENT MONOCYTE-DERIVED MACROPHAGES RESTORED THE REDUCED HISTONE ACETYLATION ON CYTOKINE PROMOTERS AND THE DECREASED CYTOKINE SECRETION WITH CHRONIC NOD2 STIMULATION. TAKEN TOGETHER, WE IDENTIFY MECHANISMS WHEREIN TWIST1 AND TWIST2 PROMOTE CHROMATIN MODIFICATIONS, RESULTING IN MACROPHAGE INSTRUCTION AND ADAPTATION TO CONDITIONS IN THE INTESTINAL MICROENVIRONMENT. 2019 9 2370 29 EPIGENETIC REGULATION OF THE ALTERNATIVELY ACTIVATED MACROPHAGE PHENOTYPE. ALTERNATIVELY ACTIVATED (M2) MACROPHAGES PLAY CRITICAL ROLES IN DIVERSE CHRONIC DISEASES, INCLUDING PARASITE INFECTIONS, CANCER, AND ALLERGIC RESPONSES. HOWEVER, LITTLE IS KNOWN ABOUT THE ACQUISITION AND MAINTENANCE OF THEIR PHENOTYPE. WE REPORT THAT M2-MACROPHAGE MARKER GENES ARE EPIGENETICALLY REGULATED BY RECIPROCAL CHANGES IN HISTONE H3 LYSINE-4 (H3K4) AND HISTONE H3 LYSINE-27 (H3K27) METHYLATION; AND THE LATTER METHYLATION MARKS ARE REMOVED BY THE H3K27 DEMETHYLASE JUMONJI DOMAIN CONTAINING 3 (JMJD3). WE FOUND THAT CONTINUOUS INTERLEUKIN-4 (IL-4) TREATMENT LEADS TO DECREASED H3K27 METHYLATION, AT THE PROMOTER OF M2 MARKER GENES, AND A CONCOMITANT INCREASE IN JMJD3 EXPRESSION. FURTHERMORE, WE DEMONSTRATE THAT IL-4-DEPENDENT JMJD3 EXPRESSION IS MEDIATED BY STAT6, A MAJOR TRANSCRIPTION FACTOR OF IL-4-MEDIATED SIGNALING. AFTER IL-4 STIMULATION, ACTIVATED STAT6 IS INCREASED AND BINDS TO CONSENSUS SITES AT THE JMJD3 PROMOTER. INCREASED JMJD3 CONTRIBUTES TO THE DECREASE OF H3K27 DIMETHYLATION AND TRIMETHYLATION (H3K27ME2/3) MARKS AS WELL AS THE TRANSCRIPTIONAL ACTIVATION OF SPECIFIC M2 MARKER GENES. THE DECREASE IN H3K27ME2/3 AND INCREASE IN JMJD3 RECRUITMENT WERE CONFIRMED BY IN VIVO STUDIES USING A SCHISTOSOMA MANSONI EGG-CHALLENGED MOUSE MODEL, A WELL-STUDIED SYSTEM KNOWN TO SUPPORT AN M2 PHENOTYPE. COLLECTIVELY, THESE DATA INDICATE THAT CHROMATIN REMODELING IS MECHANISTICALLY IMPORTANT IN THE ACQUISITION OF THE M2-MACROPHAGE PHENOTYPE. 2009 10 3470 38 HYPOXIA-INDUCIBLE KDM3A ADDICTION IN MULTIPLE MYELOMA. IN MULTIPLE MYELOMA (MM), THE BONE MARROW (BM) MICROENVIRONMENT MAY CONTAIN A MYELOMA CELL FRACTION THAT HAS ACQUIRED TREATMENT RESISTANCE BY UNDERGOING AN EPIGENETIC GENE EXPRESSION CHANGE. HYPOXIC STRESS IS AN IMPORTANT FACTOR IN THE BM MICROENVIRONMENT. RECENTLY, WE DEMONSTRATED THAT MIR-210 WAS UPREGULATED IN HYPOXIA AND DOWNREGULATED IRF4, WHICH IS KNOWN AS AN ESSENTIAL FACTOR IN MYELOMA ONCOGENESIS IN NORMOXIA. IN THE STUDY, WE DEMONSTRATED THAT MYELOMA CELLS STILL SHOWED A STRONG ANTIAPOPTOTIC PHENOTYPE DESPITE IRF4 DOWNREGULATION, SUGGESTING THAT ANOTHER ANTIAPOPTOTIC FACTOR MIGHT BE INVOLVED UNDER HYPOXIC STRESS. TO DETERMINE THE FACTOR OR FACTORS, WE CONDUCTED GENE EXPRESSION ANALYSIS ON MYELOMA CELLS (PRIMARY SAMPLES AND CELL LINES) THAT WERE EXPOSED TO CHRONIC HYPOXIA AND OBSERVED UPREGULATION OF GLYCOLYTIC GENES AND GENES ENCODING H3K9 DEMETHYLASES IN MYELOMA CELLS WITH HYPOXIA. AMONG THESE, KDM3A WAS MOST SIGNIFICANTLY UPREGULATED IN ALL EXAMINED CELLS, AND ITS KNOCKDOWN INDUCED APOPTOSIS OF MYELOMA CELLS IN CHRONIC HYPOXIA. EXPRESSION OF KDM3A WAS DEPENDENT ON HIF-1ALPHA, WHICH IS A TRANSCRIPTION FACTOR SPECIFICALLY UPREGULATED IN HYPOXIA. WE FURTHER DEMONSTRATED THAT AN ESSENTIAL TARGET OF KDM3A WAS A NONCODING GENE, MALAT1, WHOSE UPREGULATION CONTRIBUTED TO ACQUISITION OF AN ANTIAPOPTOTIC PHENOTYPE BY ACCUMULATION OF HIF-1ALPHA, LEADING TO UPREGULATION OF GLYCOLYTIC GENES UNDER HYPOXIA. THIS PROCESS WAS INDEPENDENT FROM IRF4. THESE RESULTS LED US TO CONCLUDE THAT THE HYPOXIA-INDUCIBLE HIF-1ALPHA-KDM3A-MALAT1 AXIS ALSO CONTRIBUTES TO ACQUISITION OF THE ANTIAPOPTOTIC PHENOTYPE VIA UPREGULATION OF GLYCOLYSIS-PROMOTING GENES. THUS, THIS AXIS IS A PROMISING THERAPEUTIC TARGET AGAINST MYELOMA CELLS IN THE BM MICROENVIRONMENT. 2018 11 6176 29 THE HISTONE H3 LYSINE-27 DEMETHYLASE JMJD3 LINKS INFLAMMATION TO INHIBITION OF POLYCOMB-MEDIATED GENE SILENCING. EPIGENETIC CHROMATIN MARKS RESTRICT THE ABILITY OF DIFFERENTIATED CELLS TO CHANGE GENE EXPRESSION PROGRAMS IN RESPONSE TO ENVIRONMENTAL CUES AND TO TRANSDIFFERENTIATE. POLYCOMB GROUP (PCG) PROTEINS MEDIATE GENE SILENCING AND REPRESS TRANSDIFFERENTIATION IN A MANNER DEPENDENT ON HISTONE H3 LYSINE 27 TRIMETHYLATION (H3K27ME3). HOWEVER, MACROPHAGES MIGRATED INTO INFLAMED TISSUES CAN TRANSDIFFERENTIATE, BUT IT IS UNKNOWN WHETHER INFLAMMATION ALTERS PCG-DEPENDENT SILENCING. HERE WE SHOW THAT THE JMJC-DOMAIN PROTEIN JMJD3 IS A H3K27ME DEMETHYLASE EXPRESSED IN MACROPHAGES IN RESPONSE TO BACTERIAL PRODUCTS AND INFLAMMATORY CYTOKINES. JMJD3 BINDS PCG TARGET GENES AND REGULATES THEIR H3K27ME3 LEVELS AND TRANSCRIPTIONAL ACTIVITY. THE DISCOVERY OF AN INDUCIBLE ENZYME THAT ERASES A HISTONE MARK CONTROLLING DIFFERENTIATION AND CELL IDENTITY PROVIDES A LINK BETWEEN INFLAMMATION AND REPROGRAMMING OF THE EPIGENOME, WHICH COULD BE THE BASIS FOR MACROPHAGE PLASTICITY AND MIGHT EXPLAIN THE DIFFERENTIATION ABNORMALITIES IN CHRONIC INFLAMMATION. 2007 12 6111 21 THE EPIGENETIC ARCHITECTURE AT GENE PROMOTERS DETERMINES CELL TYPE-SPECIFIC LPS TOLERANCE. SYNOVIAL FIBROBLASTS (SF) DRIVE INFLAMMATION AND JOINT DESTRUCTION IN CHRONIC ARTHRITIS. HERE WE SHOW THAT SF POSSESS A DISTINCT TYPE OF LPS TOLERANCE COMPARED TO MACROPHAGES AND OTHER TYPES OF FIBROBLASTS. IN SF AND DERMAL FIBROBLASTS, GENES THAT WERE NON-TOLERIZABLE AFTER REPEATED LPS STIMULATION INCLUDED PRO-INFLAMMATORY CYTOKINES, CHEMOKINES AND MATRIX METALLOPROTEINASES, WHEREAS ANTI-VIRAL GENES WERE TOLERIZABLE. IN MACROPHAGES, ALL MEASURED GENES WERE TOLERIZABLE, WHEREAS IN GINGIVAL AND FORESKIN FIBROBLASTS THESE GENES WERE NON-TOLERIZABLE. REPEATED STIMULATION OF SF WITH LPS RESULTED IN LOSS OF ACTIVATING HISTONE MARKS ONLY IN PROMOTERS OF TOLERIZABLE GENES. THE EPIGENETIC LANDSCAPE AT PROMOTERS OF TOLERIZABLE GENES WAS SIMILAR IN UNSTIMULATED SF AND MONOCYTES, WHEREAS THE BASAL CONFIGURATION OF HISTONE MARKS PROFOUNDLY DIFFERED IN GENES THAT WERE NON-TOLERIZABLE IN SF ONLY. OUR DATA SUGGEST THAT THE EPIGENETIC CONFIGURATION AT GENE PROMOTERS REGULATES CELL-SPECIFIC LPS-INDUCED RESPONSES AND PRIMES SF TO SUSTAIN THEIR INFLAMMATORY RESPONSE IN CHRONIC ARTHRITIS. 2017 13 3121 35 GESTATIONAL INTERMITTENT HYPOXIA INDUCES ENDOTHELIAL DYSFUNCTION, REDUCES PERIVASCULAR ADIPONECTIN AND CAUSES EPIGENETIC CHANGES IN ADULT MALE OFFSPRING. KEY POINTS: OBSTRUCTIVE SLEEP APNOEA (OSA) IS CHARACTERIZED BY INTERMITTENT HYPOXIA, WHICH CAUSES OXIDATIVE STRESS AND INFLAMMATION AND INCREASES THE RISK OF CARDIOVASCULAR DISEASE. OSA DURING PREGNANCY CAUSES ADVERSE MATERNAL AND FETAL OUTCOMES. THE EFFECTS OF PRE-EXISTING OSA IN PREGNANT WOMEN ON CARDIOMETABOLIC OUTCOMES IN THE OFFSPRING ARE UNKNOWN. WE EVALUATED BASIC METABOLIC PARAMETERS, AS WELL AS AORTIC VASCULAR AND PERIVASCULAR ADIPOSE TISSUE (PVAT) FUNCTION IN RESPONSE TO ADIPONECTIN, AND EXAMINED DNA METHYLATION OF ADIPONECTIN GENE PROMOTER IN PVAT IN 16-WEEK-OLD ADULT OFFSPRING EXPOSED TO GESTATIONAL INTERMITTENT HYPOXIA (GIH). GIH DECREASED BODY WEIGHTS AT WEEK 1 IN BOTH MALE AND FEMALE OFFSPRING, AND CAUSED SUBSEQUENT INCREASES IN BODY WEIGHT AND FOOD CONSUMPTION IN MALE OFFSPRING ONLY. ADULT FEMALE OFFSPRING HAD NORMAL LEVELS OF LIPIDS, GLUCOSE AND INSULIN, WITH NO ENDOTHELIAL DYSFUNCTION. ADULT MALE OFFSPRING EXHIBITED DYSLIPIDAEMIA, INSULIN RESISTANCE AND HYPERLEPTINAEMIA. DECREASED ENDOTHELIAL-DEPENDENT VASODILATATION, LOSS OF ANTI-CONTRACTILE ACTIVITY OF PVAT AND LOW CIRCULATING PVAT ADIPONECTIN LEVELS, AS WELL AS INCREASED PRO-INFLAMMATORY GENE EXPRESSION AND DNA METHYLATION OF ADIPONECTIN GENE PROMOTER, OCCURRED IN ADULT MALE OFFSPRING. OUR RESULTS SUGGEST THAT MALE OFFSPRING OF WOMEN WITH OSA COULD BE AT RISK OF DEVELOPING CARDIOMETABOLIC DISEASE DURING ADULTHOOD. ABSTRACT: PERTURBATIONS DURING PREGNANCY CAN PROGRAM THE OFFSPRING TO DEVELOP CARDIOMETABOLIC DISEASES LATER IN LIFE. OBSTRUCTIVE SLEEP APNOEA (OSA) IS A CHRONIC CONDITION THAT FREQUENTLY AFFECTS PREGNANCIES AND LEADS TO ADVERSE FETAL OUTCOMES. WE ASSESSED THE OFFSPRING OF FEMALE MICE EXPERIENCING GESTATIONAL INTERMITTENT HYPOXIA (GIH), A HALLMARK OF OSA, FOR CHANGES IN METABOLIC PROFILES, AORTIC NITRIC OXIDE (NO)-DEPENDENT RELAXATIONS, PERIVASCULAR ADIPOSE TISSUE (PVAT) ANTI-CONTRACTILE ACTIVITIES AND THE RESPONSES TO ADIPONECTIN, AND DNA METHYLATION OF THE ADIPONECTIN GENE PROMOTER IN PVAT TISSUE. PREGNANT MOUSE DAMS WERE EXPOSED TO INTERMITTENT HYPOXIC CYCLES ( FIO2 21-12%) FOR 18 DAYS. GIH RESULTED IN LOWER BODY WEIGHTS OF PUPS AT WEEK 1, FOLLOWED BY SIGNIFICANT WEIGHT GAIN BY WEEK 16 OF AGE IN MALE BUT NOT FEMALE OFFSPRING. PLASMA LIPIDS, LEPTIN AND INSULIN RESISTANCE WERE HIGHER IN GIH MALE ADULT OFFSPRING. ENDOTHELIUM-DEPENDENT RELAXATION IN RESPONSE TO ACH AND THE ANTI-CONTRACTILE ACTIVITY OF PVAT IN THE ABDOMINAL AORTA WAS REDUCED IN GIH ADULT MALE OFFSPRING. INCUBATION OF ARTERIES FROM GIH ADULT MALE OFFSPRING WITH ADIPONECTIN RESTORED THE ANTI-CONTRACTILE ACTIVITY OF PVAT. BOTH CIRCULATING AND PVAT TISSUE HOMOGENATE LEVELS OF ADIPONECTIN, AS WELL AS GENE EXPRESSION OF ADIPONECTIN IN PVAT, WERE LOWER IN GIH MALE OFFSPRING, ALONG WITH AN INCREASED GENE EXPRESSION OF INFLAMMATORY CYTOKINES. PYROSEQUENCING OF ADIPONECTIN GENE PROMOTER IN PVAT SHOWED INCREASED DNA METHYLATION IN GIH MALE OFFSPRING. OUR RESULTS INDICATE THAT GIH LEADS TO VASCULAR DISEASE IN ADULT MALE OFFSPRING THROUGH PVAT DYSFUNCTION, WHICH WAS ASSOCIATED WITH LOW ADIPONECTIN LEVELS AND EPIGENETIC MODIFICATIONS ON THE ADIPONECTIN GENE PROMOTER. 2019 14 5868 31 SUPPRESSIVE EFFECTS OF METFORMIN ON T-HELPER 1-RELATED CHEMOKINES EXPRESSION IN THE HUMAN MONOCYTIC LEUKEMIA CELL LINE THP-1. PURPOSE OF THE STUDY: TYPE 1 AND TYPE 2 DIABETES MELLITUS (DM) ARE CHRONIC T-CELL-MEDIATED INFLAMMATORY DISEASES. METFORMIN IS A WIDELY USED DRUG FOR TYPE 2 DM THAT REDUCES THE NEED FOR INSULIN IN TYPE 1 DM. HOWEVER, WHETHER METFORMIN HAS AN ANTI-INFLAMMATORY EFFECT FOR TREATING DM IS UNKNOWN. WE INVESTIGATED THE ANTI-INFLAMMATORY MECHANISM OF METFORMIN IN THE HUMAN MONOCYTIC LEUKEMIA CELL LINE THP-1. MATERIALS AND METHODS: THE HUMAN MONOCYTIC LEUKEMIA CELL LINE THP-1 WAS PRETREATED WITH METFORMIN AND STIMULATED WITH LIPOPOLYSACCHARIDE (LPS). THE PRODUCTION OF T-HELPER (TH)-1-RELATED CHEMOKINES INCLUDING INTERFERON-GAMMA-INDUCED PROTEIN-10 (IP-10) AND MONOCYTE CHEMOATTRACTANT PROTEIN-1 (MCP-1), TH2-RELATED CHEMOKINE MACROPHAGE-DERIVED CHEMOKINE, AND THE PROINFLAMMATORY CHEMOKINE TUMOR NECROSIS FACTOR-ALPHA WAS MEASURED USING ENZYME-LINKED IMMUNOSORBENT ASSAY. INTRACELLULAR SIGNALING PATHWAYS WERE INVESTIGATED USING WESTERN BLOT ANALYSIS AND CHROMATIN IMMUNOPRECIPITATION ASSAY. RESULTS: METFORMIN SUPPRESSED LPS-INDUCED IP-10 AND MCP-1 PRODUCTION AS WELL AS LPS-INDUCED PHOSPHORYLATION OF C-JUN N-TERMINAL KINASE (JNK), P38, EXTRACELLULAR SIGNAL-REGULATED KINASE (ERK), AND NUCLEAR FACTOR-KAPPA B (NF-KAPPAB). MOREOVER, METFORMIN SUPPRESSED LPS-INDUCED ACETYLATION OF HISTONES H3 AND H4 AT THE IP-10 PROMOTER. CONCLUSIONS: METFORMIN SUPPRESSED THE PRODUCTION OF TH1-RELATED CHEMOKINES IP-10 AND MCP-1 IN THP-1 CELLS. SUPPRESSIVE EFFECTS OF METFORMIN ON IP-10 PRODUCTION MIGHT BE ATTRIBUTED AT LEAST PARTIALLY TO THE JNK, P38, ERK, AND NF-KAPPAB PATHWAYS AS WELL AS TO EPIGENETIC REGULATION THROUGH THE ACETYLATION OF HISTONES H3 AND H4. THESE RESULTS INDICATED THE THERAPEUTIC ANTI-INFLAMMATORY POTENTIAL OF METFORMIN. 2018 15 6118 36 THE EPIGENETIC EFFECTS OF ASPIRIN: THE MODIFICATION OF HISTONE H3 LYSINE 27 ACETYLATION IN THE PREVENTION OF COLON CARCINOGENESIS IN AZOXYMETHANE- AND DEXTRAN SULFATE SODIUM-TREATED CF-1 MICE. COLORECTAL CANCER (CRC) IS THE THIRD MOST COMMON CANCER WORLDWIDE. CHRONIC INFLAMMATION APPEARS TO ENHANCE THE RISK OF CRC. EMERGING EVIDENCE HAS SUGGESTED THAT EPIGENETIC MECHANISMS PLAY AN IMPORTANT ROLE IN CRC. ASPIRIN [ACETYLSALICYLIC ACID (ASA)] HAS BEEN SHOWN TO PREVENT CRC; HOWEVER, THE EPIGENETIC MECHANISMS OF ITS ACTION REMAIN UNKNOWN. THIS STUDY INVESTIGATED THE PROTECTIVE ROLE OF ASA IN AZOXYMETHANE (AOM)-INITIATED AND DEXTRAN SULFATE SODIUM (DSS)-PROMOTED COLITIS-ASSOCIATED COLON CANCER (CAC) AND EXAMINED THE EPIGENETIC EFFECTS, PARTICULARLY ON HISTONE 3 LYSINE 27 ACETYLATION (H3K27AC), UNDERLYING THE PREVENTIVE EFFECT OF ASA. CF-1 MICE WERE FED WITH AIN-93M DIET WITH OR WITHOUT 0.02% ASA FROM 1 WEEK PRIOR TO AOM INITIATION UNTIL THE MICE WERE KILLED 20 WEEKS AFTER AOM INJECTION. OUR RESULTS SHOWED THAT AOM/DSS + ASA SIGNIFICANTLY SUPPRESSED INFLAMMATORY COLITIS SYMPTOMS AND TUMOR MULTIPLICITY. AOM/DSS + ASA REDUCED AOM/DSS-INDUCED PROTEIN EXPRESSION AND THE ACTIVITY OF HISTONE DEACETYLASES (HDACS) AND GLOBALLY RESTORED H3K27AC. FURTHERMORE, AOM/DSS + ASA INHIBITED AOM/DSS-INDUCED ENRICHMENT OF H3K27AC IN THE PROMOTERS OF INDUCIBLE NITRIC OXIDE SYNTHASE (INOS), TUMOR NECROSIS FACTOR ALPHA (TNF-ALPHA) AND INTERLEUKIN 6 (IL-6) THAT CORRESPONDED TO THE DRAMATIC SUPPRESSION OF THE MESSENGER RNA (MRNA) AND PROTEIN LEVELS. SURPRISINGLY, NO SIGNIFICANT CHANGES IN THE H3K27AC ABUNDANCE IN THE PROSTAGLANDIN-ENDOPEROXIDE SYNTHASE 2 (COX-2) PROMOTERS OR IN THE COX-2 MRNA AND PROTEIN EXPRESSION WERE OBSERVED. COLLECTIVELY, OUR RESULTS SUGGEST THAT A POTENTIAL NOVEL EPIGENETIC MECHANISM UNDERLIES THE CHEMOPREVENTIVE EFFECTS OF ASA, AND THIS MECHANISM ATTENUATES CAC IN AOM/DSS-INDUCED CF-1 MICE VIA THE INHIBITION OF HDACS AND THE MODIFICATION OF H3K27AC MARKS THAT SUPPRESS INOS, TNF-ALPHA AND IL-6. 2016 16 4506 37 MRTF-A MEDIATES LPS-INDUCED PRO-INFLAMMATORY TRANSCRIPTION BY INTERACTING WITH THE COMPASS COMPLEX. CHRONIC INFLAMMATION UNDERSCORES THE PATHOGENESIS OF A RANGE OF HUMAN DISEASES. LIPOPOLYSACCHARIDE (LPS) ELICITS STRONG PRO-INFLAMMATORY RESPONSES IN MACROPHAGES THROUGH THE TRANSCRIPTION FACTOR NF-KAPPAB. THE EPIGENETIC MECHANISM UNDERLYING LPS-INDUCED PRO-INFLAMMATORY TRANSCRIPTION IS NOT FULLY UNDERSTOOD. HEREIN, WE DESCRIBE A ROLE FOR MYOCARDIN-RELATED TRANSCRIPTION FACTOR A (MRTF-A, ALSO KNOWN AS MKL1) IN THIS PROCESS. MRTF-A OVEREXPRESSION ENHANCED NF-KAPPAB-DEPENDENT PRO-INFLAMMATORY TRANSCRIPTION, WHEREAS MRTF-A SILENCING INHIBITED THIS PROCESS. MRTF-A DEFICIENCY ALSO REDUCED THE SYNTHESIS OF PRO-INFLAMMATORY MEDIATORS IN A MOUSE MODEL OF COLITIS. LPS PROMOTED THE RECRUITMENT OF MRTF-A TO THE PROMOTERS OF PRO-INFLAMMATORY GENES IN AN NF-KAPPAB-DEPENDENT MANNER. RECIPROCALLY, MRTF-A INFLUENCED THE NUCLEAR ENRICHMENT AND TARGET BINDING OF NF-KAPPAB. MECHANISTICALLY, MRTF-A WAS NECESSARY FOR THE ACCUMULATION OF ACTIVE HISTONE MODIFICATIONS ON NF-KAPPAB TARGET PROMOTERS BY COMMUNICATING WITH THE HISTONE H3K4 METHYLTRANSFERASE COMPLEX (COMPASS). SILENCING OF INDIVIDUAL MEMBERS OF COMPASS, INCLUDING ASH2, WDR5 AND SET1 (ALSO KNOWN AS SETD1A), DOWNREGULATED THE PRODUCTION OF PRO-INFLAMMATORY MEDIATORS AND IMPAIRED THE NF-KAPPAB KINETICS. IN SUMMARY, OUR WORK HAS UNCOVERED A PREVIOUSLY UNKNOWN FUNCTION FOR MRTF-A AND PROVIDED INSIGHTS INTO THE RATIONALIZED DEVELOPMENT OF ANTI-INFLAMMATORY THERAPEUTIC STRATEGIES. 2014 17 673 33 BRAHMA-RELATED GENE 1 (BRG1) EPIGENETICALLY REGULATES CAM ACTIVATION DURING HYPOXIC PULMONARY HYPERTENSION. AIMS: ESTABLISHMENT OF AN INFLAMMATORY MILIEU FOLLOWING ELEVATED LEUKOCYTE ADHESION TO THE VASCULAR ENDOTHELIUM, WHICH IS MEDIATED BY TRANSCRIPTIONAL ACTIVATION OF CELL ADHESION MOLECULES (CAMS), CONTRIBUTES TO THE PATHOGENESIS OF CHRONIC HYPOXIA-INDUCED PULMONARY HYPERTENSION (HPH). THE EPIGENETIC SWITCH THAT DICTATES CAM TRANSACTIVATION IN RESPONSE TO HYPOXIA IN ENDOTHELIAL CELLS LEADING UP TO HPH IS NOT FULLY APPRECIATED. METHODS AND RESULTS: WE REPORT HERE THAT BRAHMA-RELATED GENE 1 (BRG1) AND BRAHMA (BRM), TWO CATALYTIC COMPONENTS OF THE MAMMALIAN CHROMATIN REMODELLING COMPLEX, WERE INDUCED IN CULTURED ENDOTHELIAL CELLS CHALLENGED WITH HYPOXIA IN VITRO AS WELL AS IN PULMONARY ARTERIES IN AN ANIMAL MODEL OF HPH. OVER-EXPRESSION OF BRG1/BRM ENHANCED, WHILE THE DEPLETION OF BRG1/BRM ATTENUATED, CAM TRANSACTIVATION AND ADHESION OF LEUKOCYTES. ENDOTHELIAL-SPECIFIC DELETION OF BRG1/BRM AMELIORATED VASCULAR INFLAMMATION AND HPH IN MICE. CHROMATIN IMMUNOPRECIPITATION (CHIP) AND RE-CHIP ASSAYS REVEALED THAT HYPOXIA UP-REGULATED THE OCCUPANCIES OF BRG1 AND BRM ON CAM PROMOTERS IN A NUCLEAR FACTOR KAPPAB (NF-KAPPAB) -DEPENDENT MANNER. FINALLY, BRG1 AND BRM ACTIVATED CAM TRANSCRIPTION BY ALTERING THE CHROMATIN STRUCTURE SURROUNDING THE CAM PROMOTERS. CONCLUSION: OUR DATA SUGGEST THAT BRG1 PROVIDES THE CRUCIAL EPIGENETIC LINK TO HYPOXIA-INDUCED CAM INDUCTION AND LEUKOCYTE ADHESION THAT ENGENDERS ENDOTHELIAL MALFUNCTION AND PATHOGENESIS OF HPH. AS SUCH, TARGETING BRG1 IN ENDOTHELIAL CELLS MAY YIELD PROMISING STRATEGIES IN THE INTERVENTION AND/OR PREVENTION OF HPH. 2013 18 2476 26 EPIGENETIC UPREGULATION OF CCL2 AND CCL3 VIA HISTONE MODIFICATIONS IN INFILTRATING MACROPHAGES AFTER PERIPHERAL NERVE INJURY. TO GAIN INSIGHT INTO THE EPIGENETIC REGULATION OF CC-CHEMOKINE LIGAND (CCL) 2 AND CCL3, KEY PLAYERS IN THE PERIPHERAL SENSITIZATION LEADING TO NEUROPATHIC PAIN, WE EXAMINED THE RELATIONSHIP BETWEEN HISTONE H3 MODIFICATION AND THE UPREGULATION OF THESE MOLECULES USING A MOUSE MODEL OF NEUROPATHIC PAIN AFTER PARTIAL SCIATIC NERVE LIGATION (PSL). WE FOUND THAT CIRCUITING BONE MARROW (BM)-DERIVED MACROPHAGES INFILTRATED INTO THE INJURED SCIATIC NERVE (SCN) USING ENHANCED GREEN FLUORESCENT PROTEIN CHIMERIC MICE. THE MRNA LEVELS OF CCL2, CCL3 AND THEIR RECEPTORS (CCR2 AND CCR1/CCR5, RESPECTIVELY) WERE INCREASED IN THE INJURED SCN. CHROMATIN IMMUNOPRECIPITATION ASSAY REVEALED THAT LEVELS OF LYSINE 9-ACETYLATED HISTONE H3 (H3K9AC) AND LYSINE 4-TRIMETHYLATED H3 (H3K4ME(3)) IN THE PROMOTER REGIONS OF THE CCL2 AND CCL3 GENES WERE INCREASED IN THE INJURED SCN AFTER PSL, INDICATING THE ENHANCEMENT OF GENE EXPRESSION. IMMUNOREACTIVITY FOR H3K9AC AND H3K4ME(3) WAS LOCALIZED IN THE NUCLEI OF INFILTRATING BM-DERIVED CELLS AND CCL-EXPRESSING CELLS IN THE INJURED SCN. WE OBSERVED H3K9AC AND H3K4ME(3) MAINLY IN THE NUCLEI OF RECRUITED MACROPHAGES ON DAY 7 AFTER PSL. FURTHERMORE, UPREGULATION OF CCLS AND CCRS WERE SUPPRESSED BY HISTONE ACETYLTRANSFERASE INHIBITOR, ANACARDIC ACID. TAKEN TOGETHER, OUR FINDINGS DEMONSTRATE THAT CCL2 AND CCL3 ARE UPREGULATED IN THE INJURED PERIPHERAL NERVE THROUGH EPIGENETIC HISTONE MODIFICATION IN INFILTRATING IMMUNE CELLS SUCH AS MACROPHAGES. THESE CHEMOKINE CASCADES MAY SUBSEQUENTLY ELICIT CHRONIC NEUROINFLAMMATION FOLLOWING NERVE INJURY. 2013 19 969 27 CHRONIC NON-BACTERIAL OSTEOMYELITIS IS ASSOCIATED WITH IMPAIRED SP1 SIGNALING, REDUCED IL10 PROMOTER PHOSPHORYLATION, AND REDUCED MYELOID IL-10 EXPRESSION. CHRONIC NON-BACTERIAL OSTEOMYELITIS (CNO) IS AN AUTO-INFLAMMATORY DISORDER THAT AFFECTS THE SKELETAL SYSTEM. INTERLEUKIN (IL-)10 IS AN IMMUNE-MODULATORY CYTOKINE THAT CONTROLS INFLAMMATION, AND LIMITS INFLAMMATORY CYTOKINE RESPONSES. DYSREGULATION OF IL-10 EXPRESSION HAS BEEN SHOWN TO RESULT IN AUTOIMMUNE AND INFECTIOUS DISEASES. WE INVESTIGATED IL-10 EXPRESSION BY MONOCYTIC CELLS FROM CNO PATIENTS AND CONTROLS. IN RESPONSE TO STIMULATION WITH LPS, IL-10 EXPRESSION FROM CNO MONOCYTES WAS REDUCED (P<0.001). THIS WAS INDEPENDENT OF IL10 PROMOTER POLYMORPHISMS. THUS, WE INVESTIGATED SP1 RECRUITMENT TO THE IL10 PROMOTER AND SAW MARKEDLY REDUCED BINDING IN CNO MONOCYTES. THIS WAS ACCOMPANIED WITH REDUCED PHOSPHORYLATION OF HISTONE H3 SERINE 10 (H3S10), AN ACTIVATING EPIGENETIC MARK. IMPAIRED RECRUITMENT OF SP1 TO THE IL10 PROMOTER, AND REDUCED H3S10 PHOSPHORYLATION, MAY BE A REFLECTION OF DEFICIENT MAPK SIGNALING IN CNO MONOCYTES IN RESPONSE TO LPS STIMULATION. THUS, WE HAVE DISCOVERED A MECHANISM THAT MAY BE CENTRAL IN THE PATHOPHYSIOLOGY OF CNO. 2011 20 6471 36 TNF-ALPHA REGULATES DIABETIC MACROPHAGE FUNCTION THROUGH THE HISTONE ACETYLTRANSFERASE MOF. A CRITICAL COMPONENT OF WOUND HEALING IS THE TRANSITION FROM THE INFLAMMATORY PHASE TO THE PROLIFERATION PHASE TO INITIATE HEALING AND REMODELING OF THE WOUND. MACROPHAGES ARE CRITICAL FOR THE INITIATION AND RESOLUTION OF THE INFLAMMATORY PHASE DURING WOUND REPAIR. IN DIABETES, MACROPHAGES DISPLAY A SUSTAINED INFLAMMATORY PHENOTYPE IN LATE WOUND HEALING CHARACTERIZED BY ELEVATED PRODUCTION OF INFLAMMATORY CYTOKINES, SUCH AS TNF-ALPHA. PREVIOUS STUDIES HAVE SHOWN THAT AN ALTERED EPIGENETIC PROGRAM DIRECTS DIABETIC MACROPHAGES TOWARD A PROINFLAMMATORY PHENOTYPE, CONTRIBUTING TO A SUSTAINED INFLAMMATORY PHASE. MALES ABSENT ON THE FIRST (MOF) IS A HISTONE ACETYLTRANSFERASE (HAT) THAT HAS BEEN SHOWN BE A COACTIVATOR OF TNF-ALPHA SIGNALING AND PROMOTE NF-KAPPAB-MEDIATED GENE TRANSCRIPTION IN PROSTATE CANCER CELL LINES. BASED ON MOF'S ROLE IN TNF-ALPHA/NF-KAPPAB-MEDIATED GENE EXPRESSION, WE HYPOTHESIZED THAT MOF INFLUENCES MACROPHAGE-MEDIATED INFLAMMATION DURING WOUND REPAIR. WE USED MYELOID-SPECIFIC MOF-KNOCKOUT (LYZ2CRE MOFFL/FL) AND DIET-INDUCED OBESE (DIO) MICE TO DETERMINE THE FUNCTION OF MOF IN DIABETIC WOUND HEALING. MOF-DEFICIENT MICE EXHIBITED REDUCED INFLAMMATORY CYTOKINE GENE EXPRESSION. FURTHERMORE, WE FOUND THAT WOUND MACROPHAGES FROM DIO MICE HAD ELEVATED MOF LEVELS AND HIGHER LEVELS OF ACETYLATED HISTONE H4K16, MOF'S PRIMARY SUBSTRATE OF HAT ACTIVITY, ON THE PROMOTERS OF INFLAMMATORY GENES. WE FURTHER IDENTIFIED THAT MOF EXPRESSION COULD BE STIMULATED BY TNF-ALPHA AND THAT TREATMENT WITH ETANERCEPT, AN FDA-APPROVED TNF-ALPHA INHIBITOR, REDUCED MOF LEVELS AND IMPROVED WOUND HEALING IN DIO MICE. THIS REPORT IS THE FIRST TO OUR KNOWLEDGE TO DEFINE AN IMPORTANT ROLE FOR MOF IN REGULATING MACROPHAGE-MEDIATED INFLAMMATION IN WOUND REPAIR AND IDENTIFIES TNF-ALPHA INHIBITION AS A POTENTIAL THERAPY FOR THE TREATMENT OF CHRONIC INFLAMMATION IN DIABETIC WOUNDS. 2020