1 5366 101 RECENT ADVANCES IN LEAN NAFLD. AS THE PREDOMINANT TYPE OF CHRONIC LIVER DISEASE, THE GROWING PREVALENCE OF NONALCOHOLIC FATTY LIVER DISEASE (NAFLD) HAS BECOME A CONCERN WORLDWIDE. ALTHOUGH OBESITY PLAYS THE MOST PIVOTAL ROLE IN NAFLD, APPROXIMATELY 10-20% OF INDIVIDUALS WITH NAFLD WHO ARE NOT OVERWEIGHT OR OBESE (BMI < 25 KG/M2, OR BMI < 23 KG/M2 IN ASIANS) HAVE "LEAN NAFLD." LEAN INDIVIDUALS WITH NAFLD HAVE A LOWER PREVALENCE OF DIABETES, HYPERTENSION, HYPERTRIGLYCERIDEMIA, CENTRAL OBESITY, AND METABOLIC SYNDROME THAN NONLEAN INDIVIDUALS WITH NAFLD, BUT HIGHER FIBROSIS SCORES AND RATES OF CARDIOVASCULAR MORBIDITY AND ALL-CAUSE MORTALITY IN ADVANCED STAGES. THE PATHOPHYSIOLOGICAL MECHANISMS OF LEAN NAFLD REMAIN POORLY UNDERSTOOD. STUDIES HAVE SHOWN THAT LEAN NAFLD IS MORE CORRELATED WITH FACTORS SUCH AS ENVIRONMENTAL, GENETIC SUSCEPTIBILITY, AND EPIGENETIC REGULATION. THIS REVIEW WILL EXAMINE THE WAY IN WHICH THE RESEARCH PROGRESS AND CHARACTERISTIC OF LEAN NAFLD, AND EXPLORE THE FUNCTION OF EPIGENETIC MODIFICATION TO PROVIDE THE BASIS FOR THE CLINICAL TREATMENT AND DIAGNOSIS OF LEAN NAFLD. 2022 2 701 21 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 3 4752 25 NOVEL ROLE OF GESTATIONAL HYDRALAZINE IN LIMITING MATERNAL AND DIETARY OBESITY-RELATED CHRONIC KIDNEY DISEASE. BACKGROUND: MATERNAL OBESITY IS A RISK FACTOR FOR CHRONIC KIDNEY DISEASE (CKD) IN OFFSPRING, UNDERPINNING THE THEORY OF THE DEVELOPMENTAL ORIGINS OF HEALTH AND DISEASE. DNA METHYLATION HAS BEEN IMPLICATED IN THE PROGRAMMING OF ADULT CHRONIC DISEASE BY MATERNAL OBESITY, THEREFORE, DNA DEMETHYLATING AGENTS MAY MITIGATE OFFSPRING RISK OF DISEASE. IN RODENT MODELS, LOW-DOSE HYDRALAZINE HAS PREVIOUSLY BEEN SHOWN TO REDUCE RENAL FIBROSIS VIA DNA DEMETHYLATION. WE USED MOUSE MODELS OF MATERNAL OBESITY AND OFFSPRING OBESITY TO DETERMINE WHETHER ADMINISTRATION OF LOW-DOSE HYDRALAZINE DURING GESTATION CAN PREVENT FETAL PROGRAMMING OF CKD IN OFFSPRING. METHODS: FEMALE C57BL/6 MICE RECEIVED HIGH FAT DIET (HFD) OR CHOW PRIOR TO MATING, DURING GESTATION AND LACTATION. DURING GESTATION, DAMS RECEIVED SUBCUTANEOUS HYDRALAZINE (5 MG/KG) OR SALINE THRICE-WEEKLY. MALE OFFSPRING WEANED TO HFD OR CHOW, WHICH CONTINUED UNTIL ENDPOINT AT 32 WEEKS. BIOMETRIC AND METABOLIC PARAMETERS, RENAL GLOBAL DNA METHYLATION, RENAL FUNCTIONAL AND STRUCTURAL CHANGES, AND RENAL MARKERS OF FIBROSIS, INFLAMMATION AND OXIDATIVE STRESS WERE ASSESSED AT ENDPOINT. RESULTS: OFFSPRING EXPOSED TO MATERNAL OBESITY OR DIET-INDUCED OBESITY HAD SIGNIFICANTLY INCREASED RENAL GLOBAL DNA METHYLATION, TOGETHER WITH OTHER ADVERSE RENAL EFFECTS INCLUDING ALBUMINURIA, GLOMERULOSCLEROSIS, RENAL FIBROSIS, AND OXIDATIVE STRESS. OFFSPRING EXPOSED TO GESTATIONAL HYDRALAZINE HAD SIGNIFICANTLY REDUCED RENAL GLOBAL DNA METHYLATION. IN OBESE OFFSPRING OF OBESE MOTHERS, GESTATIONAL HYDRALAZINE SIGNIFICANTLY DECREASED ALBUMINURIA, GLOMERULOSCLEROSIS, AND SERUM CREATININE. OBESE OFFSPRING OF HYDRALAZINE-TREATED LEAN MOTHERS DISPLAYED REDUCED MARKERS OF RENAL FIBROSIS AND OXIDATIVE STRESS. CONCLUSION: GESTATIONAL HYDRALAZINE DECREASED RENAL GLOBAL DNA METHYLATION AND EXERTED RENOPROTECTIVE EFFECTS IN OFFSPRING. THIS SUPPORTS A POTENTIAL THERAPEUTIC EFFECT OF HYDRALAZINE IN PREVENTING MATERNAL OBESITY OR DIETARY OBESITY-RELATED CKD, THROUGH AN EPIGENETIC MECHANISM. 2021 4 2287 53 EPIGENETIC REGULATION IN LEAN NONALCOHOLIC FATTY LIVER DISEASE. NONALCOHOLIC FATTY LIVER DISEASE (NAFLD), THE MOST PROMINENT CAUSE OF CHRONIC LIVER DISEASE WORLDWIDE, IS A RAPIDLY GROWING EPIDEMIC. IT CONSISTS OF A WIDE RANGE OF LIVER DISEASES, FROM STEATOSIS TO NONALCOHOLIC STEATOHEPATITIS, AND PREDISPOSES PATIENTS TO LIVER FIBROSIS, CIRRHOSIS, AND EVEN HEPATOCELLULAR CARCINOMA. NAFLD IS STRONGLY CORRELATED WITH OBESITY; HOWEVER, IT HAS BEEN EXTENSIVELY REPORTED AMONG LEAN/NONOBESE INDIVIDUALS IN RECENT YEARS. ALTHOUGH LEAN PATIENTS DEMONSTRATE A LOWER PREVALENCE OF DIABETES MELLITUS, CENTRAL OBESITY, DYSLIPIDEMIA, HYPERTENSION, AND METABOLIC SYNDROME, A PERCENTAGE OF THESE PATIENTS MAY DEVELOP STEATOHEPATITIS, ADVANCED LIVER FIBROSIS, AND CARDIOVASCULAR DISEASE, AND HAVE INCREASED ALL-CAUSE MORTALITY. THE PATHOPHYSIOLOGICAL MECHANISMS OF LEAN NAFLD REMAIN VAGUE. STUDIES HAVE REPORTED THAT LEAN NAFLD DEMONSTRATES A CLOSE ASSOCIATION WITH ENVIRONMENTAL FACTORS, GENETIC PREDISPOSITION, AND EPIGENETIC MODIFICATIONS. IN THIS REVIEW, WE AIM TO DISCUSS AND SUMMARIZE THE EPIGENETIC MECHANISMS INVOLVED IN LEAN NAFLD AND TO INTRODUCE THE INTERACTION BETWEEN EPIGENETIC PATTERNS AND GENETIC OR NON GENETIC FACTORS. SEVERAL EPIGENETIC MECHANISMS HAVE BEEN IMPLICATED IN THE REGULATION OF LEAN NAFLD. THESE INCLUDE DNA METHYLATION, HISTONE MODIFICATIONS, AND NONCODING-RNA-MEDIATED GENE REGULATION. EPIGENETICS IS AN AREA OF SPECIAL INTEREST IN THE SETTING OF LEAN NAFLD AS IT COULD PROVIDE NEW INSIGHTS INTO THE THERAPEUTIC OPTIONS AND NONINVASIVE BIOMARKERS THAT TARGET THIS UNDER-RECOGNIZED AND CHALLENGING DISORDER. 2023 5 4017 30 LOW-DOSE HYDRALAZINE REDUCES ALBUMINURIA AND GLOMERULOSCLEROSIS IN A MOUSE MODEL OF OBESITY-RELATED CHRONIC KIDNEY DISEASE. AIM: TO DETERMINE, USING A MOUSE MODEL OF OBESITY, WHETHER LOW-DOSE HYDRALAZINE PREVENTS OBESITY-RELATED CHRONIC KIDNEY DISEASE (CKD). METHODS: FROM 8 WEEKS OF AGE, MALE C57BL/6 MICE RECEIVED A HIGH-FAT DIET (HFD) OR CHOW, WITH OR WITHOUT LOW-DOSE HYDRALAZINE (25 MG/L) IN DRINKING WATER, FOR 24 WEEKS. BIOMETRIC AND METABOLIC VARIABLES, RENAL FUNCTION AND STRUCTURAL CHANGES, RENAL GLOBAL DNA METHYLATION, DNA METHYLATION PROFILE AND MARKERS OF RENAL FIBROSIS, INJURY, INFLAMMATION AND OXIDATIVE STRESS WERE ASSESSED. RESULTS: THE HFD-FED MICE DEVELOPED OBESITY, WITH GLUCOSE INTOLERANCE, HYPERINSULINAEMIA AND DYSLIPIDAEMIA. OBESITY INCREASED ALBUMINURIA AND GLOMERULOSCLEROSIS, WHICH WERE SIGNIFICANTLY AMELIORATED BY LOW-DOSE HYDRALAZINE IN THE ABSENCE OF A BLOOD PRESSURE-LOWERING EFFECT. OBESITY INCREASED RENAL GLOBAL DNA METHYLATION AND THIS WAS ATTENUATED BY LOW-DOSE HYDRALAZINE. HFD-INDUCED CHANGES IN METHYLATION OF INDIVIDUAL LOCI WERE ALSO SIGNIFICANTLY REVERSED BY LOW-DOSE HYDRALAZINE. OBESE MICE DEMONSTRATED INCREASED MARKERS OF KIDNEY FIBROSIS, INFLAMMATION AND OXIDATIVE STRESS, BUT THESE MARKERS WERE NOT SIGNIFICANTLY IMPROVED BY HYDRALAZINE. CONCLUSION: LOW-DOSE HYDRALAZINE AMELIORATED HFD-INDUCED ALBUMINURIA AND GLOMERULOSCLEROSIS, INDEPENDENT OF ALTERATIONS IN BIOMETRIC AND METABOLIC VARIABLES OR BLOOD PRESSURE REGULATION. ALTHOUGH THE PRECISE MECHANISM OF RENOPROTECTION IN OBESITY IS UNCLEAR, AN EPIGENETIC BASIS MAY BE IMPLICATED. THESE DATA SUPPORT REPURPOSING HYDRALAZINE AS A NOVEL THERAPY TO PREVENT CKD PROGRESSION IN OBESE PATIENTS. 2022 6 5305 30 PROTEOMICS ANALYSIS OF HUMAN OBESITY REVEALS THE EPIGENETIC FACTOR HDAC4 AS A POTENTIAL TARGET FOR OBESITY. SEDENTARY LIFESTYLE AND EXCESSIVE ENERGY INTAKE ARE PROMINENT CONTRIBUTORS TO OBESITY; A MAJOR RISK FACTORS FOR THE DEVELOPMENT OF INSULIN RESISTANCE, TYPE 2 DIABETES AND CARDIOVASCULAR DISEASES. ELUCIDATING THE MOLECULAR MECHANISMS UNDERLYING THESE CHRONIC CONDITIONS IS OF RELEVANT IMPORTANCE AS IT MIGHT LEAD TO THE IDENTIFICATION OF NOVEL ANTI-OBESITY TARGETS. THE PURPOSE OF THE CURRENT STUDY IS TO INVESTIGATE DIFFERENTIALLY EXPRESSED PROTEINS BETWEEN LEAN AND OBESE SUBJECTS THROUGH A SHOT-GUN QUANTITATIVE PROTEOMICS APPROACH USING PERIPHERAL BLOOD MONONUCLEAR CELLS (PBMCS) EXTRACTS AS WELL AS POTENTIAL MODULATION OF THOSE PROTEINS BY PHYSICAL EXERCISE. USING THIS APPROACH, A TOTAL OF 47 PROTEINS SHOWED AT LEAST 1.5 FOLD CHANGE BETWEEN LEAN AND OBESE SUBJECTS. IN OBESE, THE PROTEOMIC PROFILING BEFORE AND AFTER 3 MONTHS OF PHYSICAL EXERCISE SHOWED DIFFERENTIAL EXPRESSION OF 38 PROTEINS. THROMBOSPONDIN 1 (TSP1) WAS AMONG THE PROTEINS THAT WERE UPREGULATED IN OBESE SUBJECTS AND THEN DECREASED BY PHYSICAL EXERCISE. CONVERSELY, THE HISTONE DEACETYLASE 4 (HDAC4) WAS DOWNREGULATED IN OBESE SUBJECTS AND THEN INDUCED BY PHYSICAL EXERCISE. THE PROTEOMIC DATA WAS FURTHER VALIDATED BY QRT-PCR, WESTERN BLOT AND IMMUNOHISTOCHEMISTRY IN BOTH PBMCS AND ADIPOSE TISSUE. WE ALSO SHOWED THAT HDAC4 LEVELS CORRELATED POSITIVELY WITH MAXIMUM OXYGEN CONSUMPTION (VO2 MAX) BUT NEGATIVELY WITH BODY MASS INDEX, PERCENT BODY FAT, AND THE INFLAMMATORY CHEMOKINE RANTES. IN FUNCTIONAL ASSAYS, OUR DATA INDICATED THAT ECTOPIC EXPRESSION OF HDAC4 SIGNIFICANTLY IMPAIRED TNF-ALPHA-DEPENDENT ACTIVATION OF NF-KAPPAB, ESTABLISHING THUS A LINK BETWEEN HDAC4 AND REGULATION OF THE IMMUNE SYSTEM. TOGETHER, THE EXPRESSION PATTERN OF HDAC4 IN OBESE SUBJECTS BEFORE AND AFTER PHYSICAL EXERCISE, ITS CORRELATION WITH VARIOUS PHYSICAL, CLINICAL AND METABOLIC PARAMETERS ALONG WITH ITS INHIBITORY EFFECT ON NF-KAPPAB ARE SUGGESTIVE OF A PROTECTIVE ROLE OF HDAC4 AGAINST OBESITY. HDAC4 COULD THEREFORE REPRESENT A POTENTIAL THERAPEUTIC TARGET FOR THE CONTROL AND MANAGEMENT OF OBESITY AND PRESUMABLY INSULIN RESISTANCE. 2013 7 3410 21 HOXA5 UNDERGOES DYNAMIC DNA METHYLATION AND TRANSCRIPTIONAL REPRESSION IN THE ADIPOSE TISSUE OF MICE EXPOSED TO HIGH-FAT DIET. BACKGROUND/OBJECTIVES: THE GENOMIC BASES OF THE ADIPOSE TISSUE ABNORMALITIES INDUCED BY CHRONIC POSITIVE CALORIE EXCESS HAVE BEEN ONLY PARTIALLY ELUCIDATED. WE ADOPTED A GENOME-WIDE APPROACH TO DIRECTLY TEST WHETHER LONG-TERM HIGH-FAT DIET (HFD) EXPOSURE AFFECTS THE DNA METHYLATION PROFILE OF THE MOUSE ADIPOSE TISSUE AND TO IDENTIFY THE FUNCTIONAL CONSEQUENCES OF THESE CHANGES. SUBJECTS/METHODS: WE HAVE USED EPIDIDYMAL FAT OF MICE FED EITHER HIGH-FAT (HFD) OR REGULAR CHOW (STD) DIET FOR 5 MONTHS AND PERFORMED GENOME-WIDE DNA METHYLATION ANALYSES BY METHYLATED DNA IMMUNOPRECIPITATION SEQUENCING (MEDIP-SEQ). MOUSE HOMEOBOX (HOX) GENE DNA METHYLATION PCR, RT-QPCR AND BISULPHITE SEQUENCING ANALYSES WERE THEN PERFORMED. RESULTS: MICE FED THE HFD PROGRESSIVELY EXPANDED THEIR ADIPOSE MASS ACCOMPANIED BY A SIGNIFICANT DECREASE IN GLUCOSE TOLERANCE (P<0.001) AND INSULIN SENSITIVITY (P<0.05). MEDIP-SEQ DATA ANALYSIS REVEALED A UNIFORM DISTRIBUTION OF DIFFERENTIALLY METHYLATED REGIONS (DMR) THROUGH THE ENTIRE ADIPOCYTE GENOME, WITH A HIGHER NUMBER OF HYPERMETHYLATED REGIONS IN HFD MICE (P<0.005). THIS DIFFERENT METHYLATION PROFILE WAS ACCOMPANIED BY INCREASED EXPRESSION OF THE DNMT3A DNA METHYLTRANSFERASE (DNMT; P<0.05) AND THE METHYL-CPG-BINDING DOMAIN PROTEIN MBD3 (P<0.05) GENES IN HFD MICE. GENE ONTOLOGY ANALYSIS REVEALED THAT, IN THE HFD-TREATED MICE, THE HOX FAMILY OF DEVELOPMENT GENES WAS HIGHLY ENRICHED IN DIFFERENTIALLY METHYLATED GENES (P=0.008). TO VALIDATE THIS FINDING, HOXA5, WHICH IS IMPLICATED IN FAT TISSUE DIFFERENTIATION AND REMODELING, HAS BEEN SELECTED AND ANALYZED BY BISULPHITE SEQUENCING, CONFIRMING HYPERMETHYLATION IN THE ADIPOSE TISSUE FROM THE HFD MICE. HOXA5 HYPERMETHYLATION WAS ASSOCIATED WITH DOWNREGULATION OF HOXA5 MRNA AND PROTEIN EXPRESSION. FEEDING ANIMALS PREVIOUSLY EXPOSED TO THE HFD WITH A STANDARD CHOW DIET FOR TWO FURTHER MONTHS IMPROVED THE METABOLIC PHENOTYPE OF THE ANIMALS, ACCOMPANIED BY RETURN OF HOXA5 METHYLATION AND EXPRESSION LEVELS (P<0.05) TO VALUES SIMILAR TO THOSE OF THE CONTROL MICE MAINTAINED UNDER STANDARD CHOW. CONCLUSIONS: HFD INDUCES ADIPOSE TISSUE ABNORMALITIES ACCOMPANIED BY EPIGENETIC CHANGES AT THE HOXA5 ADIPOSE TISSUE REMODELING GENE. 2016 8 4066 23 MATERNAL AND PATERNAL PERICONCEPTIONAL NUTRITION AS AN INDICATOR OF OFFSPRING METABOLIC SYNDROME RISK IN LATER LIFE THROUGH EPIGENETIC IMPRINTING: A SYSTEMATIC REVIEW. AIMS: THIS REVIEW EXAMINED WHETHER MATERNAL AND PATERNAL PERICONCEPTIONAL NUTRITION EFFECTS AN OFFSPRING'S LIKELIHOOD OF DEVELOPING CHRONIC METABOLIC RELATED CONDITIONS DUE TO EPIGENETIC IMPRINTING. METHODS: A LITERATURE SEARCH WAS CONDUCTED IN MULTIPLE SCIENCE DATABASES AND LIMITED TO STUDIES PUBLISHED AFTER 2012, IN ENGLISH LANGUAGE AND PEER REVIEWED. THE DATA FROM SELECTED ARTICLES WERE EXTRACTED AND A QUALITATIVE APPROACH WAS EMPLOYED DUE TO HETEROGENEITY OF RESULTS. RESULTS: NEWBORNS FROM OBESE FATHERS SHOWED ALTERED METHYLATION OVERALL AND SIGNIFICANT HYPOMETHYLATION AT THE INSULIN-LIKE GROWTH FACTOR 2 (IGF2) GENE. HIGH MATERNAL PRE-PREGNANCY BODY MASS INDEX (BMI) WAS ASSOCIATED WITH ALTERED OFFSPRING DNA METHYLATION LEVELS AND GESTATIONAL DIABETES MELLITUS INDUCED SIGNIFICANTLY INCREASED METHYLATION LEVELS IN OFFSPRING. GESTATIONAL WEIGHT GAIN WAS NOT ASSOCIATED WITH DIFFERENTIALLY METHYLATED CORD BLOOD. BIRTH WEIGHT WAS HIGHER IN OFFSPRING EXPOSED TO FAMINE IN EARLY GESTATION. OFFSPRING BORN POST MATERNAL BARIATRIC SURGERY SHOWED A LOWER PERCENTAGE OF BODY FAT AND IMPROVED FASTING INSULIN LEVELS COMPARED TO SIBLINGS BORN PRE-MATERNAL BARIATRIC SURGERY. CONCLUSIONS: THE AVAILABLE EVIDENCE SUGGESTS THAT POOR MATERNAL AND PATERNAL PERICONCEPTIONAL NUTRITION CAN INCREASE THE RISK OF METABOLIC SYNDROME IN OFFSPRING, THROUGH EPIGENETIC IMPRINTING. POTENTIAL PARENTS SHOULD BE ADVISED THAT MAINTAINING A HEALTHY DIET AND BMI IS LIKELY TO REDUCE THE RISK OF METABOLIC SYNDROME IN OFFSPRING. 2017 9 4010 17 LOW MATERNAL ADHERENCE TO A MEDITERRANEAN DIET IS ASSOCIATED WITH INCREASE IN METHYLATION AT THE MEG3-IG DIFFERENTIALLY METHYLATED REGION IN FEMALE INFANTS. DIET IS DICTATED BY THE SURROUNDING ENVIRONMENT, AS FOOD ACCESS AND AVAILABILITY MAY CHANGE DEPENDING ON WHERE ONE LIVES. MATERNAL DIET DURING PREGNANCY IS AN IMPORTANT PART OF THE IN UTERO ENVIRONMENT, AND MAY AFFECT THE EPIGENOME. STUDIES LOOKING AT OVERALL DIET PATTERN IN RELATION TO DNA METHYLATION HAVE BEEN LACKING. THE MEDITERRANEAN DIET IS KNOWN FOR ITS HEALTH BENEFITS, INCLUDING DECREASED INFLAMMATION, WEIGHT LOSS, AND MANAGEMENT OF CHRONIC DISEASES. THIS STUDY ASSESSES THE ASSOCIATION BETWEEN MATERNAL ADHERENCE TO A MEDITERRANEAN DIET PATTERN DURING PREGNANCY AND INFANT DNA METHYLATION AT BIRTH. MEDITERRANEAN DIET ADHERENCE IN EARLY PREGNANCY WAS MEASURED IN 390 WOMEN ENROLLED IN THE NEWBORN EPIGENETIC STUDY, AND DNA METHYLATION WAS ASSESSED IN THEIR INFANTS AT BIRTH. MULTINOMIAL LOGISTIC REGRESSION WAS USED TO ASSESS THE ASSOCIATION BETWEEN ADHERENCE TO A MEDITERRANEAN DIET AND INFANT METHYLATION AT THE MEG3, MEG3-IG, PLEIOMORPHIC ADENOMA GENE-LIKE 1, INSULIN-LIKE GROWTH FACTOR 2 GENE, H19, MESODERM-SPECIFIC TRANSCRIPT, NEURONATIN, PATERNALLY EXPRESSED GENE 3, SARCOGLYCAN AND PATERNALLY EXPRESSED GENE 10 REGIONS, MEASURED BY PYROSEQUENCING. INFANTS OF MOTHERS WITH A LOW ADHERENCE TO A MEDITERRANEAN DIET HAD A GREATER ODDS OF HYPO-METHYLATION AT THE MEG3-IG DIFFERENTIALLY METHYLATED REGION (DMR). SEX-STRATIFIED MODELS SHOWED THAT THIS ASSOCIATION WAS PRESENT IN GIRLS ONLY. THIS STUDY PROVIDES EARLY EVIDENCE ON THE ASSOCIATION BETWEEN OVERALL DIET PATTERN AND METHYLATION AT THE 9 DMRS INCLUDED IN THIS STUDY, AND SUGGESTS THAT MATERNAL DIET CAN HAVE A SEX-SPECIFIC IMPACT ON INFANT DNA METHYLATION AT SPECIFIC IMPRINTED DMRS. 2017 10 5294 22 PROTECTIVE EFFECTS OF MATERNAL METHYL DONOR SUPPLEMENTATION ON ADULT OFFSPRING OF HIGH FAT DIET-FED DAMS. OBESITY HAS BECOME A GLOBAL PUBLIC HEALTH PROBLEM ASSOCIATED WITH METABOLIC DYSFUNCTION AND CHRONIC DISORDERS. IT HAS BEEN SHOWN THAT THE RISK OF OBESITY AND THE DNA METHYLATION PROFILES OF THE OFFSPRING CAN BE AFFECTED BY MATERNAL NUTRITION, SUCH AS HIGH-FAT DIET (HFD) CONSUMPTION. THE AIM OF THIS STUDY WAS TO INVESTIGATE WHETHER METABOLIC DYSREGULATION AND PHYSIOLOGICAL ABNORMALITIES IN OFFSPRING CAUSED BY MATERNAL HFD CAN BE ALLEVIATED BY THE TREATMENT OF METHYL DONORS DURING PREGNANCY AND LACTATION OF DAMS. FEMALE C57BL/6 MICE WERE ASSIGNED TO SPECIFIC GROUPS AND GIVEN DIFFERENT NUTRIENTS (CONTROL DIET, CONTROL+MET, HFD AND HFD+MET) THROUGHOUT GESTATION AND LACTATION. OFFSPRING OF EACH GROUP WERE WEANED ONTO A CONTROL DIET AT 3 WEEKS OF AGE. PHYSIOLOGICAL (WEIGHT GAIN AND ADIPOSE COMPOSITION) AND METABOLIC (PLASMA BIOCHEMICAL ANALYSES) OUTCOMES WERE ASSESSED IN MALE AND FEMALE ADULT OFFSPRING. EXPRESSION AND DNA METHYLATION PROFILES OF OBESOGENIC-RELATED GENES INCLUDING PPAR GAMMA, FATTY ACID SYNTHASE, LEPTIN AND ADIPONECTIN WERE ALSO DETECTED IN VISCERAL FAT OF OFFSPRING. THE RESULTS SHOWED THAT DIETARY SUPPLEMENTATION WITH METHYL DONORS CAN PREVENT THE ADVERSE EFFECTS OF MATERNAL HFD ON OFFSPRING. CHANGES IN THE EXPRESSION AND DNA METHYLATION OF OBESOGENIC-RELATED GENES INDICATED THAT EPIGENETIC REGULATION MAY CONTRIBUTE TO THE EFFECTS OF MATERNAL DIETARY FACTORS ON OFFSPRING OUTCOMES. 2016 11 1795 16 EFFECT OF DIFFERENT COMBINATION OF MATERNAL AND POSTNATAL DIET ON ADIPOSE TISSUE MORPHOLOGY IN MALE RAT OFFSPRING. PURPOSE: ADIPOSE TISSUE EXPANSION CAN OCCUR THROUGH SEVERAL DIFFERENT WAYS AND, UNDER CERTAIN CONDITIONS, CAN BE CONNECTED WITH CHRONIC INFLAMMATION. TNF-ALPHA IS ONE OF THE IMPORTANT CYTOKINES INVOLVED IN THIS PROCESS. PROLONGED INFLAMMATION IN OBESITY CAN LEAD TO OBESITY-RELATED INSULIN RESISTANCE AND TISSUE DYSFUNCTION. THE AIM OF OUR STUDY WAS TO INVESTIGATE HOW DIFFERENT COMBINATION OF MATERNAL AND POSTNATAL DIET AFFECTS OFFSPRING ADIPOSE TISSUE MORPHOLOGY AND ADIPOSE TISSUE TNF-ALPHA EXPRESSION. METHODS: TEN FEMALE SPRAGUE DAWLEY RATS, 9 WEEKS OLD, WERE RANDOMLY DIVIDED INTO TWO GROUPS AND FED EITHER STANDARD LABORATORY CHOW OR FOOD RICH IN SATURATED FATTY ACIDS DURING 6 WEEKS AND THEN MATED WITH THE SAME MALE RAT. AFTER BIRTH AND LACTATION MALE RAT OFFSPRING FROM BOTH GROUPS WERE DIVIDED INTO FOUR SUBGROUPS DEPENDING ON THE DIET THEY WERE FED UNTIL 22 WEEKS OLD. SAMPLES OF WHITE ADIPOSE TISSUE WERE TAKEN FROM THE SUBCUTANEOUS, EPIDIDYMAL, AND PERIRENAL FAT PAD. ON TISSUE SECTIONS, HISTOMORPHOMETRIC ANALYSIS WAS CONDUCTED USING CELLPROFILER PROGRAM V 2.1.1, AND IMMUNOHISTOCHEMICAL STAINING FOR TNF-ALPHA WAS PERFORMED. RESULTS: GREATER MEAN SURFACE AREA OF SUBCUTANEOUS AND EPIDIDYMAL ADIPOCYTES WAS FOUND IN GROUPS OF MALE RAT OFFSPRING WITH ALTERED DIET. IN PERIRENAL ADIPOSE TISSUE, THE HIGHEST NUMBER OF ADIPOCYTES WAS MEASURED IN THE GROUP WHERE BOTH MOTHER AND OFFSPRING WERE FED A HIGH-FAT DIET. ADIPOCYTE STAINING INTENSITY FOR TNF-ALPHA DID NOT DIFFER SIGNIFICANTLY BETWEEN THE GROUPS. CONCLUSIONS: TOGETHER WITH OUR PREVIOUSLY PUBLISHED DATA, OUR RESULTS LEAD TO THE CONCLUSION THAT ALTERATION OF POSTNATAL DIET CAN LEAD TO TNF-ALPHA AND ADIPOCYTE MORPHOLOGY CHANGES. 2019 12 1373 30 DEVELOPMENTAL ORIGINS OF NONALCOHOLIC FATTY LIVER DISEASE. OBESE PREGNANT WOMEN MAY TRANSMIT THEIR METABOLIC PHENOTYPE TO OFFSPRING, LEADING TO A CYCLE OF OBESITY AND DIABETES OVER GENERATIONS. EARLY CHILDHOOD OBESITY PREDICTS NONALCOHOLIC FATTY LIVER DISEASE (NAFLD), THE MOST COMMON CHRONIC HUMAN LIVER DISEASE. THE FETUS MAY BE VULNERABLE TO STEATOSIS BECAUSE IMMATURE FETAL ADIPOSE DEPOTS ARE NOT AVAILABLE TO BUFFER THE EXCESS TRANSPLACENTAL LIPID DELIVERY IN MATERNAL OBESITY. IN ANIMAL MODELS, IN UTERO HIGH-FAT DIET EXPOSURE RESULTS IN AN INCREASE IN THE ACCUMULATION OF LIVER TRIGLYCERIDES IN OFFSPRING AND INCREASED HEPATIC OXIDATIVE STRESS AND APOPTOSIS, PERHAPS PRIMING THE LIVER FOR LATER DEVELOPMENT OF NAFLD. INNATE IMMUNE DYSFUNCTION AND NECROINFLAMMATORY CHANGES HAVE BEEN OBSERVED IN POSTNATAL OFFSPRING LIVER OF ANIMALS BORN TO HIGH-FAT-FED DAMS. POSTWEANING, LIVERS OF OFFSPRING EXPOSED TO MATERNAL HIGH-FAT FEEDING IN UTERO SHARE PATHOPHYSIOLOGIC FEATURES WITH HUMAN NAFLD, INCLUDING INCREASED DE NOVO LIPOGENESIS AND DECREASED FREE FATTY ACID OXIDATION. HUMAN STUDIES USING MAGNETIC RESONANCE IMAGING HAVE SHOWN THAT MATERNAL BMI PREDICTS INFANT INTRAHEPATOCELLULAR LIPID STORAGE, AS SEEN IN ANIMAL MODELS. THE GENERATIONAL TRANSFER OF NAFLD MAY OCCUR VIA EPIGENETIC CHANGES IN OFFSPRING LIVER. TRANSMISSION OF MICROBIOTA FROM MOTHER TO INFANT MAY IMPACT ENERGY RETENTION AND IMMUNE FUNCTION THAT CONTRIBUTE TO A PREDISPOSITION TO NAFLD. 2014 13 4711 39 NON-ALCOHOLIC FATTY LIVER DISEASE IN OBESE CHILDREN AND ADOLESCENTS: A ROLE FOR NUTRITION? NON-ALCOHOLIC FATTY LIVER DISEASE (NAFLD) HAS BECOME THE MOST COMMON CAUSE OF CHRONIC LIVER DISEASE IN CHILDREN, PARALLELING THE INCREASING PREVALENCE OF OBESITY WORLDWIDE. THE PATHOGENESIS OF PAEDIATRIC NAFLD IS NOT FULLY UNDERSTOOD, BUT IT IS KNOWN THAT OBESITY, NUTRITION, LIFESTYLE VARIABLES, GENETIC AND EPIGENETIC FACTORS MAY BE CAUSALLY INVOLVED IN THE DEVELOPMENT OF THIS COMMON METABOLIC LIVER DISEASE. IN PARTICULAR, OBESITY AND NUTRITION ARE AMONG THE STRONGEST RISK FACTORS FOR PAEDIATRIC NAFLD, WHICH MAY EXERT THEIR ADVERSE HEPATIC EFFECTS ALREADY BEFORE BIRTH. EXCESS ENERGY INTAKE INDUCES HYPERTROPHY AND HYPERPLASIA OF ADIPOSE TISSUE WITH SUBSEQUENT DEVELOPMENT OF SYSTEMIC INSULIN RESISTANCE, WHICH IS ANOTHER IMPORTANT RISK FACTOR FOR NAFLD. DIET COMPOSITION AND IN PARTICULAR SIMPLE CARBOHYDRATE INTAKE (ESPECIALLY HIGH FRUCTOSE INTAKE) MAY PROMOTE THE DEVELOPMENT OF NAFLD, WHEREAS NON-DIGESTIBLE CARBOHYDRATES (DIETARY FIBER), BY AFFECTING GUT MICROBIOTA, MAY FAVOUR THE INTEGRITY OF GUT WALL AND REDUCE INFLAMMATION, OPPOSING THIS PROCESS. SATURATED FAT INTAKE MAY ALSO PROMOTE NAFLD DEVELOPMENT, WHEREAS UNSATURATED FAT INTAKE HAS SOME BENEFICIAL EFFECTS. PROTEIN INTAKE DOES NOT SEEM TO AFFECT THE DEVELOPMENT OF NAFLD, BUT FURTHER INVESTIGATION IS NEEDED. IN CONCLUSION, LIFESTYLE MODIFICATIONS TO INDUCE WEIGHT LOSS, THROUGH DIET AND PHYSICAL ACTIVITY, REMAIN THE MAINSTAY OF TREATMENT FOR PAEDIATRIC NAFLD. THE USE OF DIETARY SUPPLEMENTS, SUCH AS OMEGA-3 FATTY ACIDS AND PROBIOTICS, NEEDS FURTHER STUDY BEFORE RECOMMENDATION. 2022 14 2149 24 EPIGENETIC MARKERS TO PREDICT CONVERSION FROM GESTATIONAL DIABETES TO TYPE 2 DIABETES. CONTEXT: LIFESTYLE FACTORS MEDIATE EPIGENETIC CHANGES THAT CAN CAUSE CHRONIC DISEASES. ALTHOUGH ANIMAL AND LABORATORY STUDIES LINK EPIGENETIC CHANGES TO DIABETES, EPIGENETIC INFORMATION IN WOMEN WITH GESTATIONAL DIABETES (GDM) AND TYPE 2 DIABETES IS LACKING. OBJECTIVE: THIS STUDY SOUGHT TO MEASURE EPIGENETIC MARKERS ACROSS PREGNANCY AND EARLY POSTPARTUM AND IDENTIFY MARKERS THAT COULD BE USED AS PREDICTORS FOR CONVERSION FROM GDM TO TYPE 2 DIABETES. DESIGN: GLOBAL HISTONE H3 DIMETHYLATION WAS MEASURED IN WHITE BLOOD CELLS AT THREE TIME POINTS: 30 WK GESTATION, 8-10 WK POSTPARTUM, AND 20 WK POSTPARTUM, FROM FOUR GROUPS OF WOMEN WITH AND WITHOUT DIABETES. SETTING AND PARTICIPANTS: A TOTAL OF 39 PARTICIPANTS (SIX TO NINE IN EACH GROUP) WERE RECRUITED INCLUDING: NONDIABETIC WOMEN; WOMEN WITH GDM WHO DEVELOPED POSTPARTUM TYPE 2 DIABETES; WOMEN WITH GDM WITHOUT POSTPARTUM TYPE 2 DIABETES; AND WOMEN WITH TYPE 2 DIABETES. MAIN OUTCOME MEASURE: PERCENTAGES OF DIMETHYLATION OF H3 HISTONES RELATIVE TO TOTAL H3 HISTONE METHYLATION WERE COMPARED BETWEEN DIABETIC/NONDIABETIC GROUPS USING APPROPRIATE COMPARATIVE STATISTICS. RESULTS: H3K27 DIMETHYLATION WAS 50-60% LOWER AT 8-10 AND 20 WK POSTPARTUM IN WOMEN WITH GDM WHO DEVELOPED TYPE 2 DIABETES, COMPARED WITH NONDIABETIC WOMEN. H3K4 DIMETHYLATION WAS 75% LOWER AT 8-10 WK POSTPARTUM IN WOMEN WITH GDM WHO SUBSEQUENTLY DEVELOPED TYPE 2 DIABETES COMPARED WITH WOMEN WHO HAD GDM WHO DID NOT. CONCLUSIONS: THE PERCENTAGE OF DIMETHYLATION OF HISTONES H3K27 AND H3K4 VARIED WITH DIABETIC STATE AND HAS THE POTENTIAL AS A PREDICTIVE TOOL TO IDENTIFY WOMEN WHO WILL CONVERT FROM GDM TO TYPE 2 DIABETES. 2016 15 1399 28 DIET-INDUCED OBESITY MODULATES EPIGENETIC RESPONSES TO IONIZING RADIATION IN MICE. BOTH EXPOSURE TO IONIZING RADIATION AND OBESITY HAVE BEEN ASSOCIATED WITH VARIOUS PATHOLOGIES INCLUDING CANCER. THERE IS A CRUCIAL NEED IN BETTER UNDERSTANDING THE INTERACTIONS BETWEEN IONIZING RADIATION EFFECTS (ESPECIALLY AT LOW DOSES) AND OTHER RISK FACTORS, SUCH AS OBESITY. IN ORDER TO EVALUATE RADIATION RESPONSES IN OBESE ANIMALS, C3H AND C57BL/6J MICE FED A CONTROL NORMAL FAT OR A HIGH FAT (HF) DIET WERE EXPOSED TO FRACTIONATED DOSES OF X-RAYS (0.75 GY X4). BONE MARROW MICRONUCLEUS ASSAYS DID NOT SUGGEST A MODULATION OF RADIATION-INDUCED GENOTOXICITY BY HF DIET. USING MSP, WE OBSERVED THAT THE PROMOTERS OF P16 AND DAPK GENES WERE METHYLATED IN THE LIVERS OF C57BL/6J MICE FED A HF DIET (IRRADIATED AND NON-IRRADIATED); MGMT PROMOTER WAS METHYLATED IN IRRADIATED AND/OR HF DIET-FED MICE. IN ADDITION, METHYLATION PCR ARRAYS IDENTIFIED EP300 AND SOCS1 (WHOSE PROMOTERS EXHIBITED HIGHER METHYLATION LEVELS IN NON-IRRADIATED HF DIET-FED MICE) AS POTENTIAL TARGETS FOR FURTHER STUDIES. WE THEN COMPARED MICRORNA REGULATIONS AFTER RADIATION EXPOSURE IN THE LIVERS OF C57BL/6J MICE FED A NORMAL OR AN HF DIET, USING MICRORNA ARRAYS. INTERESTINGLY, RADIATION-TRIGGERED MICRORNA REGULATIONS OBSERVED IN NORMAL MICE WERE NOT OBSERVED IN OBESE MICE. MIR-466E WAS UPREGULATED IN NON-IRRADIATED OBESE MICE. IN VITRO FREE FATTY ACID (PALMITIC ACID, OLEIC ACID) ADMINISTRATION SENSITIZED AML12 MOUSE LIVER CELLS TO IONIZING RADIATION, BUT THE INHIBITION OF MIR-466E COUNTERACTED THIS RADIO-SENSITIZATION, SUGGESTING THAT THE MODULATION OF RADIATION RESPONSES BY DIET-INDUCED OBESITY MIGHT INVOLVE MIR-466E EXPRESSION. ALL TOGETHER, OUR RESULTS SUGGESTED THE EXISTENCE OF DIETARY EFFECTS ON RADIATION RESPONSES (ESPECIALLY EPIGENETIC REGULATIONS) IN MICE, POSSIBLY IN RELATIONSHIP WITH OBESITY-INDUCED CHRONIC OXIDATIVE STRESS. 2014 16 2045 34 EPIGENETIC CLOCK ANALYSIS OF DIET, EXERCISE, EDUCATION, AND LIFESTYLE FACTORS. BEHAVIORAL AND LIFESTYLE FACTORS HAVE BEEN SHOWN TO RELATE TO A NUMBER OF HEALTH-RELATED OUTCOMES, YET THERE IS A NEED FOR STUDIES THAT EXAMINE THEIR RELATIONSHIP TO MOLECULAR AGING RATES. TOWARD THIS END, WE USE RECENT EPIGENETIC BIOMARKERS OF AGE THAT HAVE PREVIOUSLY BEEN SHOWN TO PREDICT ALL-CAUSE MORTALITY, CHRONIC CONDITIONS, AND AGE-RELATED FUNCTIONAL DECLINE. WE ANALYZE CROSS-SECTIONAL DATA FROM 4,173 POSTMENOPAUSAL FEMALE PARTICIPANTS FROM THE WOMEN'S HEALTH INITIATIVE, AS WELL AS 402 MALE AND FEMALE PARTICIPANTS FROM THE ITALIAN COHORT STUDY, INVECCHIARE NEL CHIANTI.EXTRINSIC EPIGENETIC AGE ACCELERATION (EEAA) EXHIBITS SIGNIFICANT ASSOCIATIONS WITH FISH INTAKE (P=0.02), MODERATE ALCOHOL CONSUMPTION (P=0.01), EDUCATION (P=3X10(-5)), BMI (P=0.01), AND BLOOD CAROTENOID LEVELS (P=1X10(-5))-AN INDICATOR OF FRUIT AND VEGETABLE CONSUMPTION, WHEREAS INTRINSIC EPIGENETIC AGE ACCELERATION (IEAA) IS ASSOCIATED WITH POULTRY INTAKE (P=0.03) AND BMI (P=0.05). BOTH EEAA AND IEAA WERE ALSO FOUND TO RELATE TO INDICATORS OF METABOLIC SYNDROME, WHICH APPEAR TO MEDIATE THEIR ASSOCIATIONS WITH BMI. METFORMIN-THE FIRST-LINE MEDICATION FOR THE TREATMENT OF TYPE 2 DIABETES-DOES NOT DELAY EPIGENETIC AGING IN THIS OBSERVATIONAL STUDY. FINALLY, LONGITUDINAL DATA SUGGESTS THAT AN INCREASE IN BMI IS ASSOCIATED WITH INCREASE IN BOTH EEAA AND IEAA.OVERALL, THE EPIGENETIC AGE ANALYSIS OF BLOOD CONFIRMS THE CONVENTIONAL WISDOM REGARDING THE BENEFITS OF EATING A HIGH PLANT DIET WITH LEAN MEATS, MODERATE ALCOHOL CONSUMPTION, PHYSICAL ACTIVITY, AND EDUCATION, AS WELL AS THE HEALTH RISKS OF OBESITY AND METABOLIC SYNDROME. 2017 17 649 30 BIRTHWEIGHT, MATERNAL WEIGHT TRAJECTORIES AND GLOBAL DNA METHYLATION OF LINE-1 REPETITIVE ELEMENTS. LOW BIRTHWEIGHT, PREMATURE BIRTH, INTRAUTERINE GROWTH RETARDATION, AND MATERNAL MALNUTRITION HAVE BEEN RELATED TO AN INCREASED RISK OF CARDIOVASCULAR DISEASE, TYPE 2 DIABETES MELLITUS, OBESITY, AND NEUROPSYCHIATRIC DISORDERS LATER IN LIFE. CONVERSELY, HIGH BIRTHWEIGHT HAS BEEN LINKED TO FUTURE RISK OF CANCER. GLOBAL DNA METHYLATION ESTIMATED BY THE METHYLATION OF REPETITIVE SEQUENCES IN THE GENOME IS AN INDICATOR OF SUSCEPTIBILITY TO CHRONIC DISEASES. WE USED DATA AND BIOSPECIMENS FROM AN EPIGENETIC BIRTH COHORT TO EXPLORE THE ASSOCIATION BETWEEN TRAJECTORIES OF FETAL AND MATERNAL WEIGHT AND LINE-1 METHYLATION IN 319 MOTHER-CHILD DYADS. NEWBORNS WITH LOW OR HIGH BIRTHWEIGHT HAD SIGNIFICANTLY LOWER LINE-1 METHYLATION LEVELS IN THEIR CORD BLOOD COMPARED TO NORMAL WEIGHT INFANTS AFTER ADJUSTING FOR GESTATIONAL AGE, SEX OF THE CHILD, MATERNAL AGE AT DELIVERY, AND MATERNAL SMOKING DURING PREGNANCY (P = 0.007 AND P = 0.036, RESPECTIVELY), BUT THE MAGNITUDE OF THE DIFFERENCE WAS SMALL. INFANTS BORN PREMATURELY ALSO HAD LOWER LINE-1 METHYLATION LEVELS IN CORD BLOOD COMPARED TO TERM INFANTS, AND THIS DIFFERENCE, THOUGH SMALL, WAS STATISTICALLY SIGNIFICANT (P = 0.004). WE DID NOT FIND IMPORTANT ASSOCIATIONS BETWEEN MATERNAL PREPREGNANCY BMI OR GESTATIONAL WEIGHT GAIN AND GLOBAL METHYLATION OF THE CORD BLOOD OR FETAL PLACENTAL TISSUE. IN CONCLUSION, WE FOUND SIGNIFICANT DIFFERENCES IN CORD BLOOD LINE-1 METHYLATION AMONG NEWBORNS WITH LOW AND HIGH BIRTHWEIGHT AS WELL AS AMONG PREMATURELY BORN INFANTS. FUTURE STUDIES MAY ELUCIDATE WHETHER CHROMOSOMAL INSTABILITIES OR OTHER FUNCTIONAL CONSEQUENCES OF THESE CHANGES CONTRIBUTE TO THE INCREASED RISK OF CHRONIC DISEASES AMONG INDIVIDUALS WITH THESE CHARACTERISTICS. 2011 18 2699 36 EXCESS BODY WEIGHT: NOVEL INSIGHTS INTO ITS ROLES IN OBESITY COMORBIDITIES. EXCESS BODY WEIGHT IS A GLOBAL HEALTH PROBLEM DUE TO SEDENTARY LIFESTYLE AND UNHEALTHY DIET, AFFECTING 2 BILLION POPULATION WORLDWIDE. OBESITY IS A MAJOR RISK FACTOR FOR METABOLIC DISEASES. NOTABLY, THE METABOLIC RISK OF OBESITY LARGELY DEPENDS ON BODY WEIGHT DISTRIBUTION, OF WHICH VISCERAL ADIPOSE TISSUES BUT NOT SUBCUTANEOUS FATS ARE CLOSELY ASSOCIATED WITH OBESITY COMORBIDITIES, INCLUDING TYPE 2 DIABETES, NON-ALCOHOLIC FATTY LIVER DISEASE, CARDIOVASCULAR DISEASE AND CERTAIN TYPES OF CANCER. LATEST MULTI-OMICS AND MECHANISTICAL STUDIES REPORTED THE CRUCIAL INVOLVEMENT OF GENETIC AND EPIGENETIC ALTERATIONS, ADIPOKINES DYSREGULATION, IMMUNITY CHANGES, IMBALANCE OF WHITE AND BROWN ADIPOSE TISSUES, AND GUT MICROBIAL DYSBIOSIS IN MEDIATING THE PATHOGENIC ASSOCIATION BETWEEN VISCERAL ADIPOSE TISSUES AND COMORBIDITIES. IN THIS REVIEW, WE EXPLORE THE EPIDEMIOLOGY OF EXCESS BODY WEIGHT AND THE UP-TO-DATE MECHANISM OF HOW EXCESS BODY WEIGHT AND OBESITY LEAD TO CHRONIC COMPLICATIONS. WE ALSO EXAMINE THE UTILIZATION OF VISCERAL FAT MEASUREMENT AS AN ACCURATE CLINICAL PARAMETER FOR RISK ASSESSMENT IN HEALTHY INDIVIDUALS AND CLINICAL OUTCOME PREDICTION IN OBESE SUBJECTS. IN ADDITION, CURRENT APPROACHES FOR THE PREVENTION AND TREATMENT OF EXCESS BODY WEIGHT AND ITS RELATED METABOLIC COMORBIDITIES ARE FURTHER DISCUSSED. 2023 19 3557 23 IMPACT OF BMI AND WAIST CIRCUMFERENCE ON EPIGENOME-WIDE DNA METHYLATION AND IDENTIFICATION OF EPIGENETIC BIOMARKERS IN BLOOD: AN EWAS IN MULTI-ETHNIC ASIAN INDIVIDUALS. BACKGROUND: THE PREVALENCE OF OBESITY AND ITS RELATED CHRONIC DISEASES HAVE BEEN INCREASING ESPECIALLY IN ASIAN COUNTRIES. OBESITY-RELATED GENETIC VARIANTS HAVE BEEN IDENTIFIED, BUT THESE EXPLAIN LITTLE OF THE VARIATION IN BMI. RECENT STUDIES REPORTED ASSOCIATIONS BETWEEN DNA METHYLATION AND OBESITY, MOSTLY IN NON-ASIAN POPULATIONS. METHODS: WE PERFORMED AN EPIGENOME-WIDE ASSOCIATION STUDY (EWAS) ON GENERAL ADIPOSITY (BODY MASS INDEX, BMI) AND ABDOMINAL ADIPOSITY (WAIST CIRCUMFERENCE, WC) IN 409 MULTI-ETHNIC ASIAN INDIVIDUALS AND REPLICATED BMI AND WAIST-ASSOCIATED DNA METHYLATION CPGS IDENTIFIED IN OTHER POPULATIONS. THE CROSS-LAGGED PANEL MODEL AND MENDELIAN RANDOMIZATION WERE USED TO ASSESS THE TEMPORAL RELATIONSHIP BETWEEN METHYLATION AND BMI. THE TEMPORAL RELATIONSHIP BETWEEN THE IDENTIFIED CPGS AND INFLAMMATION AND METABOLIC MARKERS WAS ALSO EXAMINED. RESULTS: EWAS IDENTIFIED 116 DNA METHYLATION CPGS INDEPENDENTLY ASSOCIATED WITH BMI AND EIGHT INDEPENDENTLY ASSOCIATED WITH WC AT FALSE DISCOVERY RATE P(FDR) < 0.05 IN 409 ASIAN SAMPLES. WE REPLICATED 110 BMI-ASSOCIATED CPGS PREVIOUSLY REPORTED IN EUROPEANS AND IDENTIFIED SIX NOVEL BMI-ASSOCIATED CPGS AND TWO NOVEL WC-ASSOCIATED CPGS. WE OBSERVED HIGH CONSISTENCY IN ASSOCIATION DIRECTION OF EFFECT COMPARED TO STUDIES IN OTHER POPULATIONS. CAUSAL RELATIONSHIP ANALYSES INDICATED THAT BMI WAS MORE LIKELY TO BE THE CAUSE OF DNA METHYLATION ALTERATION, RATHER THAN THE CONSEQUENCE. THE CAUSAL ANALYSES USING BMI-ASSOCIATED METHYLATION RISK SCORE ALSO SUGGESTED THAT HIGHER LEVELS OF THE INFLAMMATION MARKER IL-6 WERE LIKELY THE CONSEQUENCE OF METHYLATION CHANGE. CONCLUSION: OUR STUDY PROVIDES EVIDENCE OF AN ASSOCIATION BETWEEN OBESITY AND DNA METHYLATION IN MULTI-ETHNIC ASIANS AND SUGGESTS THAT OBESITY CAN DRIVE METHYLATION CHANGE. THE RESULTS ALSO SUGGESTED POSSIBLE CAUSAL INFLUENCE THAT OBESITY-RELATED METHYLATION CHANGES MIGHT HAVE ON INFLAMMATION AND LIPOPROTEIN LEVELS. 2021 20 4307 25 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