1 6221 138 THE LANDSCAPE OF HISTONE MODIFICATIONS IN A HIGH-FAT DIET-INDUCED OBESE (DIO) MOUSE MODEL. TYPE 2 DIABETES (T2D) IS A MAJOR CHRONIC HEALTHCARE CONCERN WORLDWIDE. EMERGING EVIDENCE SUGGESTS THAT A HISTONE-MODIFICATION-MEDIATED EPIGENETIC MECHANISM UNDERLIES T2D. NEVERTHELESS, THE DYNAMICS OF HISTONE MARKS IN T2D HAVE NOT YET BEEN CAREFULLY ANALYZED. USING A MASS SPECTROMETRY-BASED LABEL-FREE AND CHEMICAL STABLE ISOTOPE LABELING QUANTITATIVE PROTEOMIC APPROACH, WE SYSTEMATICALLY PROFILED LIVER HISTONE POST-TRANSLATIONAL MODIFICATIONS (PTMS) IN A PREDIABETIC HIGH-FAT DIET-INDUCED OBESE (DIO) MOUSE MODEL. WE IDENTIFIED 170 HISTONE MARKS, 30 OF WHICH WERE PREVIOUSLY UNKNOWN. INTERESTINGLY, ABOUT 30% OF THE HISTONE MARKS IDENTIFIED IN DIO MOUSE LIVER BELONGED TO A SET OF RECENTLY REPORTED LYSINE ACYLATION MODIFICATIONS, INCLUDING PROPIONYLATION, BUTYRYLATION, MALONYLATION, AND SUCCINYLATION, SUGGESTING POSSIBLE ROLES OF THESE NEWLY IDENTIFIED HISTONE ACYLATIONS IN DIABETES AND OBESITY. THESE HISTONE MARKS WERE DETECTED WITHOUT PRIOR AFFINITY ENRICHMENT WITH AN ANTIBODY, DEMONSTRATING THAT THE HISTONE ACYLATION MARKS ARE PRESENT AT REASONABLY HIGH STOICHIOMETRY. FIFTEEN HISTONE MARKS DIFFERED IN ABUNDANCE IN DIO MOUSE LIVER COMPARED WITH LIVER FROM CHOW-FED MICE IN LABEL-FREE QUANTIFICATION, AND SIX HISTONE MARKS IN STABLE ISOTOPE LABELING QUANTIFICATION. ANALYSIS OF HEPATIC HISTONE MODIFICATIONS FROM METFORMIN-TREATED DIO MICE REVEALED THAT METFORMIN, A DRUG WIDELY USED FOR T2D, COULD REVERSE DIO-STIMULATED HISTONE H3K36ME2 IN PREDIABETES, SUGGESTING THAT THIS MARK IS LIKELY ASSOCIATED WITH T2D DEVELOPMENT. OUR STUDY THUS OFFERS A COMPREHENSIVE LANDSCAPE OF HISTONE MARKS IN A PREDIABETIC MOUSE MODEL, PROVIDES A RESOURCE FOR STUDYING EPIGENETIC FUNCTIONS OF HISTONE MODIFICATIONS IN OBESITY AND T2D, AND SUGGEST A NEW EPIGENETIC MECHANISM FOR THE PHYSIOLOGICAL FUNCTION OF METFORMIN. 2017 2 2241 30 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 3 917 32 CHRONIC HIGH-FAT DIET DRIVES POSTNATAL EPIGENETIC REGULATION OF MU-OPIOID RECEPTOR IN THE BRAIN. OPIOID SYSTEM DYSREGULATION HAS BEEN OBSERVED IN BOTH GENETIC AND HIGH-FAT DIET (HFD)-INDUCED MODELS OF OBESITY. AN UNDERSTANDING OF THE MOLECULAR MECHANISMS OF MOR TRANSCRIPTIONAL REGULATION, PARTICULARLY WITHIN AN IN VIVO CONTEXT, IS LACKING. USING A DIET-INDUCED MODEL OF OBESITY (DIO), MICE WERE FED A HIGH-FAT DIET (60% CALORIES FROM FAT) FROM WEANING TO >18 WEEKS OF AGE. COMPARED WITH MICE FED THE CONTROL DIET, DIO MICE HAD A DECREASED PREFERENCE FOR SUCROSE. MOR MRNA EXPRESSION WAS DECREASED IN REWARD-RELATED CIRCUITRY (VENTRAL TEGMENTAL AREA (VTA), NUCLEUS ACCUMBENS (NAC), AND PREFRONTAL CORTEX (PFC)) BUT NOT THE HYPOTHALAMUS, IMPORTANT IN THE HOMEOSTATIC REGULATION OF FEEDING. DNA METHYLATION IS AN EPIGENETIC MODIFICATION THAT LINKS ENVIRONMENTAL EXPOSURES TO ALTERED GENE EXPRESSION. WE FOUND A SIGNIFICANT INCREASE IN DNA METHYLATION IN THE MOR PROMOTER REGION WITHIN THE REWARD-RELATED BRAIN REGIONS. METHYL CPG-BINDING PROTEIN 2 (MECP2) CAN BIND METHYLATED DNA AND REPRESS TRANSCRIPTION, AND DIO MICE SHOWED INCREASED BINDING OF MECP2 TO THE MOR PROMOTER IN REWARD-RELATED REGIONS OF THE BRAIN. FINALLY, USING CHIP ASSAYS WE EXAMINED H3K9 METHYLATION (INACTIVE CHROMATIN) AND H3 ACETYLATION (ACTIVE CHROMATIN) WITHIN THE MOR PROMOTER REGION AND FOUND INCREASED H3K9 METHYLATION AND DECREASED H3 ACETYLATION. THESE DATA ARE THE FIRST TO IDENTIFY DNA METHYLATION, MECP2 RECRUITMENT, AND CHROMATIN REMODELING AS MECHANISMS LEADING TO TRANSCRIPTIONAL REPRESSION OF MOR IN THE BRAINS OF MICE FED A HIGH-FAT DIET. 2011 4 4811 33 OBESITY-ASSOCIATED ALTERATIONS IN INFLAMMATION, EPIGENETICS, AND MAMMARY TUMOR GROWTH PERSIST IN FORMERLY OBESE MICE. USING A MURINE MODEL OF BASAL-LIKE BREAST CANCER, WE TESTED THE HYPOTHESIS THAT CHRONIC OBESITY, AN ESTABLISHED BREAST CANCER RISK AND PROGRESSION FACTOR IN WOMEN, INDUCES MAMMARY GLAND EPIGENETIC REPROGRAMMING AND INCREASES MAMMARY TUMOR GROWTH. MOREOVER, WE ASSESSED WHETHER THE OBESITY-INDUCED EPIGENETIC AND PROTUMOR EFFECTS ARE REVERSED BY WEIGHT NORMALIZATION. OVARIECTOMIZED FEMALE C57BL/6 MICE WERE FED A CONTROL DIET OR DIET-INDUCED OBESITY (DIO) REGIMEN FOR 17 WEEKS, RESULTING IN A NORMAL WEIGHT OR OBESE PHENOTYPE, RESPECTIVELY. MICE ON THE DIO REGIMEN WERE THEN RANDOMIZED TO CONTINUE THE DIO DIET OR WERE SWITCHED TO THE CONTROL DIET, RESULTING IN FORMERLY OBESE (FOB) MICE WITH WEIGHTS COMPARABLE WITH CONTROL MICE. AT WEEK 24, ALL MICE WERE ORTHOTOPICALLY INJECTED WITH MMTV-WNT-1 MOUSE MAMMARY TUMOR CELLS. MEAN TUMOR VOLUME, SERUM IL6 LEVELS, EXPRESSION OF PROINFLAMMATORY GENES IN THE MAMMARY FAT PAD, AND MAMMARY DNA METHYLATION PROFILES WERE SIMILAR IN DIO AND FOB MICE AND HIGHER THAN IN CONTROLS. MANY OF THE GENES FOUND TO HAVE OBESITY-ASSOCIATED HYPERMETHYLATION IN MICE WERE ALSO FOUND TO BE HYPERMETHYLATED IN THE NORMAL BREAST TISSUE OF OBESE VERSUS NONOBESE HUMAN SUBJECTS, AND NEARLY ALL OF THESE CONCORDANT GENES REMAINED HYPERMETHYLATED AFTER SIGNIFICANT WEIGHT LOSS IN THE FOB MICE. OUR FINDINGS SUGGEST THAT WEIGHT NORMALIZATION MAY NOT BE SUFFICIENT TO REVERSE THE EFFECTS OF CHRONIC OBESITY ON EPIGENETIC REPROGRAMMING AND INFLAMMATORY SIGNALS IN THE MICROENVIRONMENT THAT ARE ASSOCIATED WITH BREAST CANCER PROGRESSION. CANCER PREV RES; 9(5); 339-48. (C)2016 AACR. 2016 5 6471 31 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 6 773 28 CELL AND MOLECULAR MECHANISMS BEHIND DIET-INDUCED HYPOTHALAMIC INFLAMMATION AND OBESITY. DIET-INDUCED OBESITY (DIO) IS ASSOCIATED WITH CHRONIC, LOW-GRADE INFLAMMATION IN THE HYPOTHALAMUS, A KEY REGULATOR OF ENERGY HOMEOSTASIS. CURRENT STUDIES HAVE REVEALED THE INVOLVEMENT OF DIFFERENT CELL TYPES, AS WELL AS CELL AND MOLECULAR MECHANISMS, THAT CONTRIBUTE TO DIET-INDUCED HYPOTHALAMIC INFLAMMATION (DIHI) AND DIO. SUBSEQUENT TO THE DISCOVERY THAT HIGH-FAT DIET AND SATURATED FATTY ACIDS INCREASE THE EXPRESSION OF HYPOTHALAMIC CYTOKINES PRIOR TO WEIGHT GAIN, RESEARCH HAS FOCUSED ON UNDERSTANDING THE CELLULAR AND MOLECULAR MECHANISMS UNDERLYING THESE CHANGES, IN ADDITION TO THE ROLE OF INFLAMMATION IN THE PATHOGENESIS OF OBESITY. RECENT STUDIES HAVE PROPOSED THAT THE INHIBITION OF PRO-INFLAMMATORY PATHWAYS IN MICROGLIA AND ASTROCYTES IS SUFFICIENT TO PROTECT AGAINST DIHI AND PREVENT OBESITY. IN ADDITION, IMPAIRMENT OF INTRACELLULAR AND EPIGENETIC MECHANISMS, SUCH AS HYPOTHALAMIC AUTOPHAGY AND CHANGES IN THE METHYLATION PATTERN OF CERTAIN GENES, HAVE BEEN IMPLICATED IN SUSCEPTIBILITY TO DIHI AND DIO. INTERESTINGLY, A SEXUAL DIMORPHISM HAS BEEN FOUND DURING DIO IN HYPOTHALAMIC INFLAMMATION, GLIAL ACTIVATION AND METABOLIC DISEASES, AND RECENT DATA SUPPORT AN IMPORTANT ROLE OF SEX STEROIDS IN DIHI. THESE NEW EXCITING FINDINGS UNCOVER NOVEL OBESITY PATHOGENIC MECHANISMS AND PROVIDE TARGETS TO DEVELOP THERAPEUTIC APPROACHES. 2018 7 2089 29 EPIGENETIC DYSREGULATION OF THE DOPAMINE SYSTEM IN DIET-INDUCED OBESITY. CHRONIC INTAKE OF HIGH-FAT (HF) DIET IS KNOWN TO ALTER BRAIN NEUROTRANSMITTER SYSTEMS THAT PARTICIPATE IN THE CENTRAL REGULATION OF FOOD INTAKE. DOPAMINE (DA) SYSTEM CHANGES IN RESPONSE TO HF DIET HAVE BEEN OBSERVED IN THE HYPOTHALAMUS, IMPORTANT IN THE HOMEOSTATIC CONTROL OF FOOD INTAKE, AS WELL AS WITHIN THE CENTRAL REWARD CIRCUITRY [VENTRAL TEGMENTAL AREA (VTA), NUCLEUS ACCUMBENS (NAC), AND PRE-FRONTAL CORTEX (PFC)], CRITICAL FOR CODING THE REWARDING PROPERTIES OF PALATABLE FOOD AND IMPORTANT IN HEDONICALLY DRIVEN FEEDING BEHAVIOR. USING A MOUSE MODEL OF DIET-INDUCED OBESITY (DIO), SIGNIFICANT ALTERATIONS IN THE EXPRESSION OF DA-RELATED GENES WERE DOCUMENTED IN ADULT ANIMALS, AND THE GENERAL PATTERN OF GENE EXPRESSION CHANGES WAS OPPOSITE WITHIN THE HYPOTHALAMUS VERSUS THE REWARD CIRCUITRY (INCREASED VS. DECREASED, RESPECTIVELY). DIFFERENTIAL DNA METHYLATION WAS IDENTIFIED WITHIN THE PROMOTER REGIONS OF TYROSINE HYDROXYLASE (TH) AND DOPAMINE TRANSPORTER (DAT), AND THE PATTERN OF THIS RESPONSE WAS CONSISTENT WITH THE PATTERN OF GENE EXPRESSION. BEHAVIORS CONSISTENT WITH INCREASED HYPOTHALAMIC DA AND DECREASED REWARD CIRCUITRY DA WERE OBSERVED. THESE DATA IDENTIFY DIFFERENTIAL DNA METHYLATION AS AN EPIGENETIC MECHANISM LINKING THE CHRONIC INTAKE OF HF DIET WITH ALTERED DA-RELATED GENE EXPRESSION, AND THIS RESPONSE VARIES BY BRAIN REGION AND DNA SEQUENCE. 2012 8 3359 27 HISTONE H4 LYSINE 16 ACETYLATION CONTROLS CENTRAL CARBON METABOLISM AND DIET-INDUCED OBESITY IN MICE. NONCOMMUNICABLE DISEASES (NCDS) ACCOUNT FOR OVER 70% OF DEATHS WORLD-WIDE. PREVIOUS WORK HAS LINKED NCDS SUCH AS TYPE 2 DIABETES (T2D) TO DISRUPTION OF CHROMATIN REGULATORS. HOWEVER, THE EXACT MOLECULAR ORIGINS OF THESE CHRONIC CONDITIONS REMAIN ELUSIVE. HERE, WE IDENTIFY THE H4 LYSINE 16 ACETYLTRANSFERASE MOF AS A CRITICAL REGULATOR OF CENTRAL CARBON METABOLISM. HIGH-THROUGHPUT METABOLOMICS UNVEIL A SYSTEMIC AMINO ACID AND CARBOHYDRATE IMBALANCE IN MOF DEFICIENT MICE, MANIFESTING IN T2D PREDISPOSITION. ORAL GLUCOSE TOLERANCE TESTING (OGTT) REVEALS DEFECTS IN GLUCOSE ASSIMILATION AND INSULIN SECRETION IN THESE ANIMALS. FURTHERMORE, MOF DEFICIENT MICE ARE RESISTANT TO DIET-INDUCED FAT GAIN DUE TO DEFECTS IN GLUCOSE UPTAKE IN ADIPOSE TISSUE. MOF-MEDIATED H4K16AC DEPOSITION CONTROLS EXPRESSION OF THE MASTER REGULATOR OF GLUCOSE METABOLISM, PPARG AND THE ENTIRE DOWNSTREAM TRANSCRIPTIONAL NETWORK. GLUCOSE UPTAKE AND LIPID STORAGE CAN BE RECONSTITUTED IN MOF-DEPLETED ADIPOCYTES IN VITRO BY ECTOPIC GLUT4 EXPRESSION, PPARGAMMA AGONIST THIAZOLIDINEDIONE (TZD) TREATMENT OR SIRT1 INHIBITION. HENCE, CHRONIC IMBALANCE IN H4K16AC PROMOTES A DESTABILISATION OF METABOLISM TRIGGERING THE DEVELOPMENT OF A METABOLIC DISORDER, AND ITS MAINTENANCE PROVIDES AN UNPRECEDENTED REGULATORY EPIGENETIC MECHANISM CONTROLLING DIET-INDUCED OBESITY. 2021 9 701 28 BROWN FAT DNMT3B DEFICIENCY AMELIORATES OBESITY IN FEMALE MICE. OBESITY RESULTS FROM A CHRONIC ENERGY IMBALANCE DUE TO ENERGY INTAKE EXCEEDING ENERGY EXPENDITURE. ACTIVATION OF BROWN FAT THERMOGENESIS HAS BEEN SHOWN TO COMBAT OBESITY. EPIGENETIC REGULATION, INCLUDING DNA METHYLATION, HAS EMERGED AS A KEY REGULATOR OF BROWN FAT THERMOGENIC FUNCTION. HERE WE AIMED TO STUDY THE ROLE OF DNMT3B, A DNA METHYLTRANSFERASE INVOLVED IN DE NOVO DNA METHYLATION, IN THE REGULATION OF BROWN FAT THERMOGENESIS AND OBESITY. WE FOUND THAT THE SPECIFIC DELETION OF DNMT3B IN BROWN FAT PROMOTES THE THERMOGENIC AND MITOCHONDRIAL PROGRAM IN BROWN FAT, ENHANCES ENERGY EXPENDITURE, AND DECREASES ADIPOSITY IN FEMALE MICE FED A REGULAR CHOW DIET. WITH A LEAN PHENOTYPE, THE FEMALE KNOCKOUT MICE ALSO EXHIBIT INCREASED INSULIN SENSITIVITY. IN ADDITION, DNMT3B DEFICIENCY IN BROWN FAT ALSO PREVENTS DIET-INDUCED OBESITY AND INSULIN RESISTANCE IN FEMALE MICE. INTERESTINGLY, OUR RNA-SEQ ANALYSIS REVEALED AN UPREGULATION OF THE PI3K-AKT PATHWAY IN THE BROWN FAT OF FEMALE DNMT3B KNOCKOUT MICE. HOWEVER, MALE DNMT3B KNOCKOUT MICE HAVE NO CHANGE IN THEIR BODY WEIGHT, SUGGESTING THE EXISTENCE OF SEXUAL DIMORPHISM IN THE BROWN FAT DNMT3B KNOCKOUT MODEL. OUR DATA DEMONSTRATE THAT DNMT3B PLAYS AN IMPORTANT ROLE IN THE REGULATION OF BROWN FAT FUNCTION, ENERGY METABOLISM AND OBESITY IN FEMALE MICE. 2021 10 4627 29 NEUROENDOCRINOLOGICAL AND EPIGENETIC MECHANISMS SUBSERVING AUTONOMIC IMBALANCE AND HPA DYSFUNCTION IN THE METABOLIC SYNDROME. IMPACT OF ENVIRONMENTAL STRESS UPON PATHOPHYSIOLOGY OF THE METABOLIC SYNDROME (METS) HAS BEEN SUBSTANTIATED BY EPIDEMIOLOGICAL, PSYCHOPHYSIOLOGICAL, AND ENDOCRINOLOGICAL STUDIES. THIS REVIEW DISCUSSES RECENT ADVANCES IN THE UNDERSTANDING OF CAUSATIVE ROLES OF NUTRITIONAL FACTORS, SYMPATHOMEDULLO-ADRENAL (SMA) AND HYPOTHALAMIC-PITUITARY ADRENOCORTICAL (HPA) AXES, AND ADIPOSE TISSUE CHRONIC LOW-GRADE INFLAMMATION PROCESSES IN METS. DISTURBANCES IN THE NEUROENDOCRINE SYSTEMS FOR LEPTIN, MELANOCORTIN, AND NEUROPEPTIDE Y (NPY)/AGOUTI-RELATED PROTEIN SYSTEMS HAVE BEEN FOUND RESULTING DIRECTLY IN METS-LIKE CONDITIONS. THE REVIEW IDENTIFIES CANDIDATE RISK GENES FROM FACTORS SHOWN CRITICAL FOR THE FUNCTIONING OF EACH OF THESE NEUROENDOCRINE SIGNALING CASCADES. IN ITS META-ANALYTIC PART, RECENT STUDIES IN EPIGENETIC MODIFICATION (HISTONE METHYLATION, ACETYLATION, PHOSPHORYLATION, UBIQUITINATION) AND POSTTRANSCRIPTIONAL GENE REGULATION BY MICRORNAS ARE EVALUATED. SEVERAL STUDIES SUGGEST MODIFICATION MECHANISMS OF EARLY LIFE STRESS (ELS) AND DIET-INDUCED OBESITY (DIO) PROGRAMMING IN THE HYPOTHALAMIC REGIONS WITH POPULATIONS OF POMC-EXPRESSING NEURONS. EPIGENETIC MODIFICATIONS WERE FOUND IN CORTISOL (HERE HSD11B1 EXPRESSION), MELANOCORTIN, LEPTIN, NPY, AND ADIPONECTIN GENES. WITH RESPECT TO ADIPOSITY GENES, EPIGENETIC MODIFICATIONS WERE DOCUMENTED FOR FAT MASS GENE CLUSTER APOA1/C3/A4/A5, AND THE LIPOLYSIS GENE LIPE. WITH REGARD TO INFLAMMATORY, IMMUNE AND SUBCELLULAR METABOLISM, PPARG, NKBF1, TNFA, TCF7C2, AND THOSE GENES EXPRESSING CYTOCHROME P450 FAMILY ENZYMES INVOLVED IN STEROIDOGENESIS AND IN HEPATIC LIPOPROTEINS WERE DOCUMENTED FOR EPIGENETIC MODIFICATIONS. 2016 11 4307 32 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 12 6545 24 TRANSCRIPTOMIC AND EPIGENETIC CHANGES IN THE HYPOTHALAMUS ARE INVOLVED IN AN INCREASED SUSCEPTIBILITY TO A HIGH-FAT-SUCROSE DIET IN PRENATALLY STRESSED FEMALE RATS. DISTURBANCES IN THE PRENATAL PERIOD ARE LINKED TO METABOLIC DISORDERS IN ADULTHOOD, IMPLYING THE HYPOTHALAMIC SYSTEMS OF APPETITE AND ENERGY BALANCE REGULATION. IN ORDER TO ANALYZE THE CENTRAL EFFECTS OF A HIGH-FAT-SUCROSE (HFS) DIET IN PRENATALLY STRESSED (PNS) FEMALE ADULT RATS, WISTAR DAMS WERE EXPOSED TO CHRONIC-MILD-STRESS DURING THE THIRD WEEK OF GESTATION AND WERE THEN COMPARED WITH UNSTRESSED CONTROLS. ADULT FEMALE OFFSPRING WERE FED A CHOW OR HFS DIET FOR 10 WEEKS. CHANGES IN BODY WEIGHT, ADIPOSITY AS WELL AS EXPRESSION AND METHYLATION LEVELS OF SELECTED HYPOTHALAMIC GENES WERE ANALYZED. PNS INDUCED LOWER BIRTHWEIGHT AND BODY LENGTH WITH NO CHANGES IN BODY FAT MASS. AFTER THE HFS DIET, THE EXPECTED OVERWEIGHT MODEL WAS OBSERVED ACCOMPANIED BY HIGHER ADIPOSITY AND INSULIN RESISTANCE, WHICH WAS WORSENED BY PNS. THE STRESS MODEL INDUCED HIGHER ENERGY INTAKE IN ADULTHOOD. HYPOTHALAMIC GENE EXPRESSION ANALYSIS REVEALED THAT THE HFS DIET DECREASED SLC6A3 (DOPAMINE ACTIVE TRANSPORTER), NPY (NEUROPEPTIDE Y) AND IR (INSULIN RECEPTOR) AND INCREASED POMC (PRO-OPIOMELANOCORTIN). HYPOTHALAMIC DNA METHYLATION LEVELS IN THE PROMOTER REGION OF SLC6A3 REVEALED THAT SLC6A3 WAS HYPERMETHYLATED BY THE HFS DIET IN CPG SITE -53 BP TO THE TRANSCRIPTION START SITE. HFS DIET ALSO HYPERMETHYLATED CPG SITE -167 BP OF THE POMC PROMOTER ONLY IN NONSTRESSED ANIMALS. NO CORRELATIONS WERE FOUND BETWEEN GENE EXPRESSION AND DNA METHYLATION LEVELS. THESE RESULTS IMPLY THAT EARLY-LIFE STRESS IN FEMALES INCREASED PREDISPOSITION TO DIET-INDUCED OBESITY IN ADULTHOOD. 2012 13 5198 25 PRENATAL HIGH ESTRADIOL EXPOSURE INDUCES SEX-SPECIFIC AND DIETARILY REVERSIBLE INSULIN RESISTANCE THROUGH DECREASED HYPOTHALAMIC INSR. AN ADVERSE INTRAUTERINE ENVIRONMENT MAY INDUCE ADULT DISEASE IN OFFSPRING, BUT THE MECHANISMS ARE NOT WELL UNDERSTOOD. IT IS REPORTED THAT FRESH EMBRYO TRANSFER (ET) IN ASSISTED REPRODUCTIVE TECHNOLOGY LEADS TO HIGH MATERNAL ESTRADIOL (E2), AND PRENATAL HIGH E2 EXPOSURE INCREASES THE RISK OF ORGAN DISORDERS IN LATER LIFE. WE FOUND THAT MALE NEWBORNS AND CHILDREN OF FRESH ET SHOWED ELEVATED FASTING INSULIN AND HOMEOSTASIS MODEL OF ASSESSMENT FOR INSULIN RESISTANCE INDEX (HOMA-IR) SCORES. MALE MICE WITH HIGH PRENATAL ESTRADIOL EXPOSURE (HE) GREW HEAVIER THAN CONTROL MICE AND DEVELOPED INSULIN RESISTANCE; THEY ALSO SHOWED INCREASED FOOD INTAKE, WITH INCREASED OREXIGENIC HYPOTHALAMIC NEUROPEPTIDE Y (NPY) EXPRESSION. THE HYPOTHALAMIC INSULIN RECEPTOR (INSR) WAS DECREASED IN MALE HE MICE, ASSOCIATED WITH ELEVATED PROMOTER METHYLATION. CHRONIC FOOD RESTRICTION (FR) IN HE MICE REVERSED INSULIN RESISTANCE AND RESCUED HYPOTHALAMIC INSR EXPRESSION BY CORRECTING THE ELEVATED INSR PROMOTER METHYLATION. OUR FINDINGS SUGGEST THAT PRENATAL EXPOSURE TO HIGH E2 MAY INDUCE SEX-SPECIFIC METABOLIC DISORDERS IN LATER LIFE THROUGH EPIGENETIC PROGRAMMING OF HYPOTHALAMIC INSR PROMOTER, AND DIETARY INTERVENTION MAY REVERSE INSULIN RESISTANCE BY REMODELING ITS METHYLATION PATTERN. 2018 14 4075 32 MATERNAL HIGH-FAT DIET IMPAIRS LEPTIN SIGNALING AND UP-REGULATES TYPE-1 CANNABINOID RECEPTOR WITH SEX-SPECIFIC EPIGENETIC CHANGES IN THE HYPOTHALAMUS OF NEWBORN RATS. MATERNAL NUTRITIONAL IMBALANCES TRIGGER DEVELOPMENTAL ADAPTATIONS INVOLVING EARLY EPIGENETIC MECHANISMS ASSOCIATED WITH ADULT CHRONIC DISEASE. MATERNAL HIGH-FAT (HF) DIET PROMOTES OBESITY AND HYPOTHALAMIC LEPTIN RESISTANCE IN MALE RAT OFFSPRING AT WEANING AND ADULTHOOD. LEPTIN RESISTANCE IS ASSOCIATED WITH OVER ACTIVATION OF THE ENDOCANNABINOID SYSTEM (ECS). THE ECS MAINLY CONSISTS OF ENDOCANNABINOIDS DERIVED FROM N-6 FATTY ACIDS AND CANNABINOID RECEPTORS (CB1 CODED BY CNR1 AND CB2 CODED BY CNR2). THE CB1 ACTIVATION IN HYPOTHALAMUS STIMULATES FEEDING AND APPETITE FOR FAT WHILE CB2 ACTIVATION SEEMS TO PLAY AN IMMUNOMODULATORY ROLE. WE DEMONSTRATED THAT MATERNAL HF DIET INCREASES HYPOTHALAMIC CB1 IN MALE OFFSPRING WHILE INCREASES CB2 IN FEMALE OFFSPRING AT BIRTH, PRIOR TO OBESITY DEVELOPMENT. HOWEVER, THE MOLECULAR MECHANISMS BEHIND THESE CHANGES REMAIN UNEXPLORED. WE HYPOTHESIZED THAT MATERNAL HF DIET WOULD DOWN-REGULATE LEPTIN SIGNALING AND UP-REGULATE CNR1 MRNA LEVELS IN THE HYPOTHALAMUS OF THE OFFSPRING AT BIRTH, ASSOCIATED WITH SEX-SPECIFIC CHANGES IN EPIGENETIC MARKERS AND SEX STEROID SIGNALING. TO TEST OUR HYPOTHESIS, WE USED PROGENITOR FEMALE RATS THAT RECEIVED CONTROL DIET (C, 9% FAT) OR ISOCALORIC HIGH-FAT DIET (HF, 28% FAT) FROM 8 WEEKS BEFORE MATING UNTIL DELIVERY. BLOOD, HYPOTHALAMUS AND CARCASS FROM C AND HF MALE AND FEMALE OFFSPRING WERE COLLECTED FOR BIOCHEMICAL AND MOLECULAR ANALYSES AT BIRTH. MATERNAL HF DIET DOWN-REGULATED THE TRANSCRIPTIONAL FACTOR STAT3 IN THE HYPOTHALAMUS OF MALE AND FEMALE OFFSPRING, BUT INDUCED HYPOLEPTINEMIA ONLY IN MALES AND DECREASED PHOSPHORYLATED STAT3 ONLY IN FEMALE OFFSPRING. BECAUSE LEPTIN ACTS THROUGH STAT3 PATHWAY TO INHIBIT CENTRAL ECS, OUR RESULTS SUGGEST THAT LEPTIN PATHWAY IMPAIRMENT MIGHT CONTRIBUTE TO INCREASED LEVELS OF CRN1 MRNA IN HYPOTHALAMUS OF BOTH SEX OFFSPRING. BESIDES, MATERNAL HF DIET INCREASED THE HISTONE ACETYLATION PERCENTAGE OF CNR1 PROMOTER IN MALE OFFSPRING AND INCREASED THE ANDROGEN RECEPTOR BINDING TO THE CNR1 PROMOTER, WHICH CAN CONTRIBUTE TO HIGHER EXPRESSION OF CNR1 IN NEWBORN HF OFFSPRING. MATERNAL HF DIET INCREASED PLASMA N6 TO N3 FATTY ACID RATIO IN MALE OFFSPRING, WHICH IS AN IMPORTANT RISK FACTOR TO METABOLIC DISEASES AND MIGHT INDICATE AN OVER ACTIVATION OF ENDOCANNABINOID SIGNALING. THUS, ALTHOUGH MATERNAL HF DIET PROGRAMS A SIMILAR PHENOTYPE IN ADULT OFFSPRING OF BOTH SEXES (OBESITY, HYPERPHAGIA AND HIGHER PREFERENCE FOR FAT), HERE WE SHOWED THAT MOLECULAR MECHANISMS INVOLVING LEPTIN SIGNALING, ECS, EPIGENETIC MARKERS AND SEX HORMONE SIGNALING WERE MODIFIED PRIOR TO OBESITY DEVELOPMENT AND CAN DIFFER BETWEEN NEWBORN MALE AND FEMALE OFFSPRING. THESE OBSERVATIONS MAY PROVIDE MOLECULAR INSIGHTS INTO SEX-SPECIFIC TARGETS FOR ANTI-OBESITY THERAPIES. 2019 15 76 31 A NEW ASPECT OF CHRONIC PAIN AS A LIFESTYLE-RELATED DISEASE. PHYSICAL EXERCISE HAS BEEN ESTABLISHED AS A LOW-COST, SAFE, AND EFFECTIVE WAY TO MANAGE CHRONIC INTRACTABLE PAIN. WE INVESTIGATED THE UNDERLYING MECHANISMS OF EXERCISE-INDUCED HYPOALGESIA (EIH) USING A MOUSE MODEL OF NEUROPATHIC PAIN (NPP). EPIGENETIC CHANGES IN ACTIVATED MICROGLIA AND MAINTAINED GABA SYNTHESIS IN THE SPINAL DORSAL HORN MAY CONTRIBUTE TO EIH. VOLUNTARY EXERCISE (VE), A STRONG REWARD FOR ANIMALS, ALSO INDUCED EIH, WHICH MAY BE DUE IN PART TO THE ACTIVATION OF DOPAMINE (DA) NEURONS IN THE VENTRAL TEGMENTAL AREA (VTA). VE INCREASES THE EXPRESSION OF PCREB IN DOPAMINERGIC NEURONS IN THE VTA, WHICH WOULD ENHANCE DOPAMINE PRODUCTION, AND THEREBY CONTRIBUTES TO THE ACTIVATION OF THE MESOLIMBIC REWARD SYSTEM IN NPP MODEL MICE. WE DEMONSTRATED THAT NEURONS IN THE LATERODORSAL TEGMENTAL AND PEDUNCULOPONTINE TEGMENTAL NUCLEI, A MAJOR INPUT SOURCE OF REWARDING STIMULI TO THE VTA, WERE ACTIVATED BY EXERCISE. CHRONIC PAIN IS AT LEAST PARTLY ATTRIBUTED TO SEDENTARY AND INACTIVE LIFESTYLE AS INDICATED BY THE FEAR-AVOIDANCE MODEL. THEREFORE, CHRONIC PAIN COULD BE RECOGNIZED AS A LIFESTYLE-RELATED DISEASE. PHYSICAL ACTIVITY/INACTIVITY MAY BE DETERMINED BY GENETIC/EPIGENETIC AND NEURAL FACTORS ENCODED IN OUR BRAIN. THE HYPOTHALAMUS AND REWARD SYSTEM IS CLOSELY RELATED IN THE AXIS OF FOOD INTAKE, ENERGY METABOLISM AND PHYSICAL ACTIVITY. UNDERSTANDING THE INTERACTIONS BETWEEN THE MESOLIMBIC DA SYSTEM AND THE HYPOTHALAMUS THAT SENSE AND REGULATE ENERGY BALANCE IS THUS OF SIGNIFICANT IMPORTANCE. FOR EXAMPLE, PROOPIOMELANOCORTIN NEURONS AND MELANOCORTIN 4 RECEPTORS MAY PLAY A ROLE IN CONNECTING THESE TWO SYSTEMS. THEREFORE, IN A CERTAIN SENSE, CHRONIC PAIN AND OBESITY MAY SHARE COMMON BEHAVIORAL AND NEURAL PATHOLOGY, I.E. PHYSICAL INACTIVITY, AS A RESULT OF INACTIVATION OF THE MESOLIMBIC DA SYSTEM. EXERCISE AND INCREASING PHYSICAL ACTIVITY IN DAILY LIFE MAY BE IMPORTANT IN TREATING AND PREVENTING CHRONIC PAIN, A LIFE-STYLE RELATED DISEASE. 2017 16 1698 20 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 17 2026 35 EPIGENETIC CHANGES IN BONE MARROW PROGENITOR CELLS INFLUENCE THE INFLAMMATORY PHENOTYPE AND ALTER WOUND HEALING IN TYPE 2 DIABETES. CLASSICALLY ACTIVATED (M1) MACROPHAGES ARE KNOWN TO PLAY A ROLE IN THE DEVELOPMENT OF CHRONIC INFLAMMATION ASSOCIATED WITH IMPAIRED WOUND HEALING IN TYPE 2 DIABETES (T2D); HOWEVER, THE MECHANISM RESPONSIBLE FOR THE DOMINANT PROINFLAMMATORY (M1) MACROPHAGE PHENOTYPE IN T2D WOUNDS IS UNKNOWN. SINCE EPIGENETIC ENZYMES CAN DIRECT MACROPHAGE PHENOTYPES, WE ASSESSED THE ROLE OF HISTONE METHYLATION IN BONE MARROW (BM) STEM/PROGENITOR CELLS IN THE PROGRAMMING OF MACROPHAGES TOWARD A PROINFLAMMATORY PHENOTYPE. WE HAVE FOUND THAT A REPRESSIVE HISTONE METHYLATION MARK, H3K27ME3, IS DECREASED AT THE PROMOTER OF THE IL-12 GENE IN BM PROGENITORS AND THIS EPIGENETIC SIGNATURE IS PASSED DOWN TO WOUND MACROPHAGES IN A MURINE MODEL OF GLUCOSE INTOLERANCE (DIET-INDUCED OBESE). THESE EPIGENETICALLY "PREPROGRAMMED" MACROPHAGES RESULT IN POISED MACROPHAGES IN PERIPHERAL TISSUE AND NEGATIVELY IMPACT WOUND REPAIR. WE FOUND THAT IN DIABETIC CONDITIONS THE H3K27 DEMETHYLASE JMJD3 DRIVES IL-12 PRODUCTION IN MACROPHAGES AND THAT IL-12 PRODUCTION CAN BE MODULATED BY INHIBITING JMJD3. USING HUMAN T2D TISSUE AND MURINE MODELS, WE HAVE IDENTIFIED A PREVIOUSLY UNRECOGNIZED MECHANISM BY WHICH MACROPHAGES ARE PROGRAMMED TOWARD A PROINFLAMMATORY PHENOTYPE, ESTABLISHING A PATTERN OF UNRESTRAINED INFLAMMATION ASSOCIATED WITH NONHEALING WOUNDS. HENCE, HISTONE DEMETHYLASE INHIBITOR-BASED THERAPY MAY REPRESENT A NOVEL TREATMENT OPTION FOR DIABETIC WOUNDS. 2015 18 875 22 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 19 1752 30 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 20 2266 29 EPIGENETIC PROGRAMMING OF MU-OPIOID RECEPTOR GENE IN MOUSE BRAIN IS REGULATED BY MECP2 AND BRG1 CHROMATIN REMODELLING FACTOR. THE PHARMACOLOGICAL ACTION OF MORPHINE AS A PAIN MEDICATION IS MEDIATED PRIMARILY THROUGH THE MU-OPIOID RECEPTOR (MOR). WITH FEW EXCEPTIONS, MOR IS EXPRESSED IN BRAIN REGIONS WHERE OPIOID ACTIONS TAKE PLACE. THE BASIS FOR THIS UNIQUE SPATIAL EXPRESSION OF MOR REMAINS UNDETERMINED. RECENTLY, WE REPORTED THAT DNA METHYLATION OF THE MOR PROMOTER PLAYS AN IMPORTANT ROLE IN REGULATING MOR IN P19 CELLS. IN THIS STUDY, WE SHOW THAT THE DIFFERENTIAL EXPRESSION OF MOR IN MICRODISSECTED MOUSE BRAIN REGIONS COINCIDES WITH DNA METHYLATION AND HISTONE MODIFICATIONS. MOR EXPRESSION COULD BE INDUCED BY A DEMETHYLATING AGENT OR A HISTONE DEACETYLASE INHIBITOR IN MOR-NEGATIVE CELLS, SUGGESTING THAT THE MOR GENE CAN BE SILENCED UNDER EPIGENETIC CONTROL. INCREASES IN THE IN VIVO INTERACTION OF METHYL-CPG-BINDING PROTEIN 2 (MECP2) WERE OBSERVED IN THE CEREBELLUM, IN WHICH THE MOR PROMOTER WAS HYPERMETHYLATED AND MOR EXPRESSION WAS THE LOWEST AMONG ALL BRAIN REGIONS TESTED. MECP2 IS ASSOCIATED CLOSELY WITH RETT SYNDROME, A NEURODEVELOPMENTAL DISORDER. WE ALSO ESTABLISHED NOVEL EVIDENCE FOR A FUNCTIONAL ROLE FOR MECP2'S ASSOCIATION WITH THE CHROMATIN-REMODELLING FACTOR BRG1 AND DNA METHYLTRANSFERASE DNMT1, SUGGESTING A POSSIBLE ROLE FOR MECP2 IN CHROMATIN REMODELLING DURING MOR GENE REGULATION. WE CONCLUDE THAT MOR GENE EXPRESSION IS EPIGENETICALLY PROGRAMMED IN VARIOUS BRAIN REGIONS AND THAT MECP2 ASSISTS THE EPIGENETIC PROGRAM DURING DNA METHYLATION AND CHROMATIN REMODELLING OF THE MOR PROMOTER. 2009