1 1792 130 EFFECT OF CHRONIC WESTERN DIETS ON NON-ALCOHOLIC FATTY LIVER OF MALE MICE MODIFYING THE PPAR-GAMMA PATHWAY VIA MIR-27B-5P REGULATION. WESTERN DIETS CONTRIBUTE TO METABOLIC DISEASES. HOWEVER, THE EFFECTS OF VARIOUS DIETS AND EPIGENETIC MECHANISMS ARE MOSTLY UNKNOWN. HERE, SIX WEEK-OLD C57BL/6J MALE AND FEMALE MICE WERE FED WITH A LOW-FAT DIET (LFD), HIGH-FAT DIET (HFD), AND HIGH-FAT HIGH-FRUCTOSE DIET (HFD-HF) FOR 20 WEEKS. WE DETERMINED THAT HFD-HF OR HFD MICE EXPERIENCED SIGNIFICANT METABOLIC DYSREGULATION COMPARED TO THE LFD. HFD-HF AND HFD-FED MALE MICE SHOWED SIGNIFICANTLY INCREASED BODY WEIGHT, LIVER SIZE, AND FASTING GLUCOSE LEVELS WITH DOWNREGULATED PPARGAMMA, SCD1, AND FAS PROTEIN EXPRESSION. IN CONTRAST, FEMALE MICE WERE LESS AFFECTED BY HFD AND HFD-HF. AS MIR-27B CONTAINS A SEED SEQUENCE IN PPARGAMMA, IT WAS DISCOVERED THAT THESE CHANGES ARE ACCOMPANIED BY MALE-SPECIFIC UPREGULATION OF MIR-27B-5P, WHICH IS EVEN MORE PRONOUNCED IN THE HFD-HF GROUP (P < 0.01 VS. LFD) COMPARED TO THE HFD GROUP (P < 0.05 VS. LFD). OTHER MIR-27 SUBTYPES WERE INCREASED BUT NOT SIGNIFICANTLY. HFD-HF SHOWED INSIGNIFICANT CHANGES IN FIBROSIS MARKERS WHEN COMPARED TO LFD. INTERESTINGLY, FAT BALLOONING IN HEPATOCYTES WAS INCREASED IN HFD-FED MICE COMPARED TO HFD-HF FED MICE, HOWEVER, THE HFD-HF LIVER SHOWED AN INCREASE IN THE NUMBER OF SMALL CELLS. HERE, WE CONCLUDED THAT CHRONIC WESTERN DIET-COMPOSITION ADMINISTERED FOR 20 WEEKS MAY SURPASS THE NON-ALCOHOLIC FATTY LIVER (NAFL) STAGE BUT MAY BE AT AN INTERMEDIATE STAGE BETWEEN FATTY LIVER AND FIBROSIS VIA MIR-27B-5P-INDUCED PPARGAMMA DOWNREGULATION. 2021 2 4105 22 MECHANISM AND THERAPEUTIC TARGETS OF C-JUN-N-TERMINAL KINASES ACTIVATION IN NONALCOHOLIC FATTY LIVER DISEASE. NON-ALCOHOLIC FATTY LIVER (NAFL) IS THE MOST COMMON CHRONIC LIVER DISEASE. ACTIVATION OF MITOGEN-ACTIVATED KINASES (MAPK) CASCADE, WHICH LEADS TO C-JUN N-TERMINAL KINASE (JNK) ACTIVATION OCCURS IN THE LIVER IN RESPONSE TO THE NUTRITIONAL AND METABOLIC STRESS. THE ABERRANT ACTIVATION OF MAPKS, ESPECIALLY C-JUN-N-TERMINAL KINASES (JNKS), LEADS TO UNWANTED GENETIC AND EPI-GENETIC MODIFICATIONS IN ADDITION TO THE METABOLIC STRESS ADAPTATION IN HEPATOCYTES. A MECHANISM OF SUSTAINED P-JNK ACTIVATION WAS IDENTIFIED IN ACUTE AND CHRONIC LIVER DISEASES, SUGGESTING AN IMPORTANT ROLE OF ABERRANT JNK ACTIVATION IN NASH. THEREFORE, MODULATION OF JNK ACTIVATION, RATHER THAN TARGETING JNK PROTEIN LEVELS, IS A PLAUSIBLE THERAPEUTIC APPLICATION FOR THE TREATMENT OF CHRONIC LIVER DISEASE. 2022 3 6393 25 THE ROLE OF THE HISTONE METHYLTRANSFERASE EZH2 IN LIVER INFLAMMATION AND FIBROSIS IN STAM NASH MICE. NON-ALCOHOLIC FATTY LIVER DISEASE (NAFLD) IS A LEADING FORM OF CHRONIC LIVER DISEASE, WITH FEW BIOMARKERS AND TREATMENT OPTIONS CURRENTLY AVAILABLE. NON-ALCOHOLIC STEATOHEPATITIS (NASH), A PROGRESSIVE DISEASE OF NAFLD, MAY LEAD TO FIBROSIS, CIRRHOSIS, AND HEPATOCELLULAR CARCINOMA. EPIGENETIC MODIFICATION CAN CONTRIBUTE TO THE PROGRESSION OF NAFLD CAUSING NON-ALCOHOLIC STEATOHEPATITIS (NASH), IN WHICH THE EXACT ROLE OF EPIGENETICS REMAINS POORLY UNDERSTOOD. TO IDENTIFY POTENTIAL THERAPEUTICS FOR NASH, WE TESTED SMALL-MOLECULE INHIBITORS OF THE EPIGENETIC TARGET HISTONE METHYLTRANSFERASE EZH2, TAZEMETOSTAT (EPZ-6438), AND UNC1999 IN STAM NASH MICE. THE RESULTS DEMONSTRATE THAT TREATMENT WITH EZH2 INHIBITORS DECREASED SERUM TNF-ALPHA IN NASH. IN THIS STUDY, WE INVESTIGATED THAT INHIBITION OF EZH2 REDUCED MRNA EXPRESSION OF INFLAMMATORY CYTOKINES AND FIBROSIS MARKERS IN NASH MICE. IN CONCLUSION, THESE RESULTS SUGGEST THAT EZH2 MAY PRESENT A PROMISING THERAPEUTIC TARGET IN THE TREATMENT OF NASH. 2020 4 4108 22 MECHANISMS AND DISEASE CONSEQUENCES OF NONALCOHOLIC FATTY LIVER DISEASE. NONALCOHOLIC FATTY LIVER DISEASE (NAFLD) IS THE LEADING CHRONIC LIVER DISEASE WORLDWIDE. ITS MORE ADVANCED SUBTYPE, NONALCOHOLIC STEATOHEPATITIS (NASH), CONNOTES PROGRESSIVE LIVER INJURY THAT CAN LEAD TO CIRRHOSIS AND HEPATOCELLULAR CARCINOMA. HERE WE PROVIDE AN IN-DEPTH DISCUSSION OF THE UNDERLYING PATHOGENETIC MECHANISMS THAT LEAD TO PROGRESSIVE LIVER INJURY, INCLUDING THE METABOLIC ORIGINS OF NAFLD, THE EFFECT OF NAFLD ON HEPATIC GLUCOSE AND LIPID METABOLISM, BILE ACID TOXICITY, MACROPHAGE DYSFUNCTION, AND HEPATIC STELLATE CELL ACTIVATION, AND CONSIDER THE ROLE OF GENETIC, EPIGENETIC, AND ENVIRONMENTAL FACTORS THAT PROMOTE FIBROSIS PROGRESSION AND RISK OF HEPATOCELLULAR CARCINOMA IN NASH. 2021 5 4464 24 MOLECULAR MECHANISMS OF NONALCOHOLIC FATTY LIVER DISEASE (NAFLD)/NONALCOHOLIC STEATOHEPATITIS (NASH). NONALCOHOLIC FATTY LIVER DISEASE (NAFLD) IS ONE OF THE MOST COMMON CHRONIC LIVER DISEASES WORLDWIDE AND HAS GARNERED INCREASING ATTENTION IN RECENT DECADES. NAFLD IS CHARACTERIZED BY A WIDE RANGE OF LIVER CHANGES, FROM SIMPLE STEATOSIS TO NONALCOHOLIC STEATOHEPATITIS (NASH), CIRRHOSIS, AND HEPATOCELLULAR CARCINOMA. THE PATHOGENESIS OF NAFLD/NASH IS VERY COMPLICATED AND INVOLVES LIPID ACCUMULATION, INSULIN RESISTANCE, INFLAMMATION, AND FIBROGENESIS. IN ADDITION, NAFLD IS CLOSELY ASSOCIATED WITH COMPLICATIONS SUCH AS OBESITY, DYSLIPIDEMIA, AND TYPE 2 DIABETES. IN PARTICULAR, THE CLINICAL SPECTRUM, PATHOPHYSIOLOGY, AND THERAPEUTIC OPTIONS OF NAFLD SHARE MANY THINGS IN COMMON WITH DIABETES. INSULIN RESISTANCE IS AN UNDERLYING BASIS FOR THE PATHOGENESIS OF DIABETES AND NAFLD. THIS CHAPTER FOCUSES ON THE MOLECULAR MECHANISM INVOLVED IN THE PATHOGENESIS OF INSULIN RESISTANCE, DIABETES, AND NASH/NAFLD INCLUDING THOSE THAT DRIVE DISEASE PROGRESSION SUCH AS OXIDATIVE STRESS, GENETIC AND EPIGENETIC MECHANISMS, ADIPONECTIN, CYTOKINES, AND IMMUNE CELLS. 2021 6 5234 39 PROFILE ANALYSIS AND FUNCTIONAL MODELING IDENTIFY CIRCULAR RNAS IN NONALCOHOLIC FATTY LIVER DISEASE AS REGULATORS OF HEPATIC LIPID METABOLISM. NONALCOHOLIC FATTY LIVER DISEASE (NAFLD) IS THE LEADING CAUSE OF CHRONIC LIVER DISEASE, ASSOCIATED WITH AN OUTCOME OF HEPATIC FIBROSIS/CIRRHOSIS AND HEPATOCELLULAR CARCINOMA. HOWEVER, LIMITED EXPLORATION OF THE UNDERLYING MECHANISMS HINDERS ITS PREVENTION AND TREATMENT. TO INVESTIGATE THE MECHANISMS OF EPIGENETIC REGULATION IN NAFLD, THE EXPRESSION PROFILE OF CIRCULAR RNA (CIRCRNA) OF RODENTS IN WHICH NAFLD WAS INDUCED BY A HIGH-FAT, HIGH-CHOLESTEROL (HFHC) DIET WAS STUDIED. MODELING OF THE CIRCRNA-MICRORNA (MIRNA) -MRNA REGULATORY NETWORK REVEALED THE FUNCTIONAL CHARACTERISTICS OF NAFLD-SPECIFIC CIRCRNAS. THE TARGETS AND EFFECTS IN THE LIVER OF SUCH NAFLD-SPECIFIC CIRCRNAS WERE FURTHER ASSESSED. OUR RESULTS UNCOVERED THAT THE DOWNREGULATION OF 28 ANNOTATED CIRCRNAS CHARACTERIZES HFHC DIET-INDUCED NAFLD. AMONG THE DOWNREGULATED CIRCRNAS, LONG INTERGENIC NON-PROTEIN CODING RNA, P53 INDUCED TRANSCRIPT (LNCPINT) -DERIVED CIRCRNAS (CIRC_0001452, CIRC_0001453, AND CIRC_0001454) TARGETED BOTH MIR-466I-3P AND MIR-669C-3P. THEIR DEFICIENCY IN NAFLD ABROGATED THE CIRCRNA-BASED INHIBITORY EFFECT ON BOTH MIRNAS, WHICH FURTHER INACTIVATED THE AMPK SIGNALING PATHWAY VIA AMPK-ALPHA1 SUPPRESSION. INHIBITION OF THE AMPK SIGNALING PATHWAY PROMOTES HEPATIC STEATOSIS, DEPENDING ON THE TRANSCRIPTIONAL AND TRANSLATIONAL UPREGULATION OF LIPOGENIC GENES, SUCH AS THOSE ENCODING STEROL REGULATORY ELEMENT-BINDING PROTEIN 1 (SREBP1) AND FATTY ACID SYNTHASE (FASN) IN HEPATOCYTES. THE LEVELS OF LNCPINT-DERIVED CIRCRNAS DISPLAYED A NEGATIVE ASSOCIATION WITH HEPATIC TRIGLYCERIDE (TG) CONCENTRATION. THESE FINDINGS SUGGEST THAT LOSS OF LNCPINT-DERIVED CIRCRNAS MAY UNDERLIE NAFLD VIA MIR-466I-3P- AND MIR-669C-3P-DEPENDENT INACTIVATION OF THE AMPK SIGNALING PATHWAY. 2022 7 5604 39 ROSAVIN AMELIORATES HEPATIC INFLAMMATION AND FIBROSIS IN THE NASH RAT MODEL VIA TARGETING HEPATIC CELL DEATH. BACKGROUND: NON-ALCOHOLIC FATTY LIVER DISEASE (NAFLD) REPRESENTS THE MOST COMMON FORM OF CHRONIC LIVER DISEASE THAT URGENTLY NEEDS EFFECTIVE THERAPY. ROSAVIN, A MAJOR CONSTITUENT OF THE RHODIOLA ROSEA PLANT OF THE FAMILY CRASSULACEAE, IS BELIEVED TO EXHIBIT MULTIPLE PHARMACOLOGICAL EFFECTS ON DIVERSE DISEASES. HOWEVER, ITS EFFECT ON NON-ALCOHOLIC STEATOHEPATITIS (NASH), THE PROGRESSIVE FORM OF NAFLD, AND THE UNDERLYING MECHANISMS ARE NOT FULLY ILLUSTRATED. AIM: INVESTIGATE THE PHARMACOLOGICAL ACTIVITY AND POTENTIAL MECHANISM OF ROSAVIN TREATMENT ON NASH MANAGEMENT VIA TARGETING HEPATIC CELL DEATH-RELATED (HSPD1/TNF/MMP14/ITGB1) MRNAS AND THEIR UPSTREAM NONCODING RNA REGULATORS (MIRNA-6881-5P AND LNC-SPARCL1-1:2) IN NASH RATS. RESULTS: HIGH SUCROSE HIGH FAT (HSHF) DIET-INDUCED NASH RATS WERE TREATED WITH DIFFERENT CONCENTRATIONS OF ROSAVIN (10, 20, AND 30 MG/KG/DAY) FOR THE LAST FOUR WEEKS OF DIETARY MANIPULATION. THE DATA REVEALED THAT ROSAVIN HAD THE ABILITY TO MODULATE THE EXPRESSION OF THE HEPATIC CELL DEATH-RELATED RNA PANEL THROUGH THE UPREGULATION OF BOTH (HSPD1/TNF/MMP14/ITGB1) MRNAS AND THEIR EPIGENETIC REGULATORS (MIRNA-6881-5P AND LNC-SPARCL1-1:2). MOREOVER, ROSAVIN AMELIORATED THE DETERIORATION IN BOTH LIVER FUNCTIONS AND LIPID PROFILE, AND THEREBY IMPROVED THE HEPATIC INFLAMMATION, FIBROSIS, AND APOPTOSIS, AS EVIDENCED BY THE DECREASED PROTEIN LEVELS OF IL6, TNF-ALPHA, AND CASPASE-3 IN LIVER SECTIONS OF TREATED ANIMALS COMPARED TO THE UNTREATED NASH RATS. CONCLUSION: ROSAVIN HAS DEMONSTRATED A POTENTIAL ABILITY TO ATTENUATE DISEASE PROGRESSION AND INHIBIT HEPATIC CELL DEATH IN THE NASH ANIMAL MODEL. THE PRODUCED EFFECT WAS CORRELATED WITH UPREGULATION OF THE HEPATIC CELL DEATH-RELATED (HSPD1, TNF, MMP14, AND ITGB1) MRNAS-(MIRNA-6881-5P-(LNC-SPARCL1-1:2) RNA PANEL. 2022 8 5914 31 TARGETED-BISULFITE SEQUENCE ANALYSIS OF THE METHYLATION OF CPG ISLANDS IN GENES ENCODING PNPLA3, SAMM50, AND PARVB OF PATIENTS WITH NON-ALCOHOLIC FATTY LIVER DISEASE. BACKGROUND & AIMS: THE PATHOGENESIS OF NON-ALCOHOLIC FATTY LIVER DISEASE (NAFLD) IS AFFECTED BY EPIGENETIC FACTORS AS WELL AS BY GENETIC VARIATION. METHODS: WE PERFORMED TARGETED-BISULFITE SEQUENCING TO DETERMINE THE LEVELS OF DNA METHYLATION OF 4 CPG ISLANDS (CPG99, CPG71, CPG26, AND CPG101) IN THE REGULATORY REGIONS OF PNPLA3, SAMM50, PARVB VARIANT 1, AND PARVB VARIANT 2, RESPECTIVELY. WE COMPARED THE LEVELS OF METHYLATION OF DNA IN THE LIVERS OF THE FIRST AND SECOND SETS OF PATIENTS WITH MILD (FIBROSIS STAGES 0 AND 1) OR ADVANCED (FIBROSIS STAGES 2 TO 4) NAFLD AND IN THOSE OF PATIENTS WITH MILD (F0 TO F2) OR ADVANCED (F3 AND F4) CHRONIC HEPATITIS C INFECTION. THE HEPATIC MRNA LEVELS OF PNPLA3, SAMM50, AND PARVB WERE MEASURED USING QPCR. RESULTS: CPG26, WHICH RESIDES IN THE REGULATORY REGION OF PARVB VARIANT 1, WAS MARKEDLY HYPOMETHYLATED IN THE LIVERS OF PATIENTS WITH ADVANCED NAFLD. CONVERSELY, CPG99 IN THE REGULATORY REGION OF PNPLA3 WAS SUBSTANTIALLY HYPERMETHYLATED IN THESE PATIENTS. THESE DIFFERENCES IN DNA METHYLATION WERE REPLICATED IN A SECOND SET OF PATIENTS WITH NAFLD OR CHRONIC HEPATITIS C. PNPLA3 MRNA LEVELS IN THE LIVER OF THE SAME SECTION OF A BIOPSY SPECIMEN USED FOR GENOMIC DNA PREPARATION WERE LOWER IN PATIENTS WITH ADVANCED NAFLD COMPARED WITH THOSE WITH MILD NAFLD AND CORRELATED INVERSELY WITH CPG99 METHYLATION IN LIVER DNA. MOREOVER, THE LEVELS OF CPG99 METHYLATION AND PNPLA3 MRNA WERE AFFECTED BY THE RS738409 GENOTYPE. CONCLUSIONS: HYPOMETHYLATION OF CPG26 AND HYPERMETHYLATION OF CPG99 MAY CONTRIBUTE TO THE SEVERITY OF FIBROSIS IN PATIENTS WITH NAFLD OR CHRONIC HEPATITIS C INFECTION. 2015 9 2427 33 EPIGENETIC SILENCING OF MICRORNA-125B-5P PROMOTES LIVER FIBROSIS IN NONALCOHOLIC FATTY LIVER DISEASE VIA INTEGRIN ALPHA8-MEDIATED ACTIVATION OF RHOA SIGNALING PATHWAY. BACKGROUND: NONALCOHOLIC FATTY LIVER DISEASE (NAFLD) IS ONE OF THE MOST COMMON CHRONIC LIVER DISEASES THAT MAY PROGRESS TO LIVER FIBROSIS OR CANCER. THE PRESENT STUDY AIMED TO INVESTIGATE THE ROLE OF MICRORNA-125B-5P (MIR-125B-5P) IN NAFLD AND TO FURTHER EXPLORE UNDERLYING MOLECULAR MECHANISMS. METHODS: A MOUSE MODEL OF NAFLD WAS CONSTRUCTED BY HIGH CHOLESTEROL DIET FEEDING AND A CELL-MODEL WAS DEVELOPED BY TREATING THE MOUSE LIVER CELL LINE NCTC1469 WITH PALMITIC ACID. GAIN- AND LOSS-OF-FUNCTION EXPERIMENTS WERE PERFORMED TO DETERMINE THE EFFECTS OF MIR-125B-5P, INTEGRIN ALPHA8 (ITGA8), AND THE RHOA SIGNALING PATHWAY ON LIVER FIBROSIS IN NAFLD. AFTER THE EXPRESSION LEVELS OF MIR-125B-5P, ITGA8, AND RHOA WERE DETERMINED, LIVER FIBROSIS WAS EVALUATED IN VIVO AND IN VITRO. THE BINDING RELATIONSHIP OF MIR-125B-5P AND ITGA8 WAS THEN VALIDATED. FINALLY, MIR-125B-5P PROMOTER METHYLATION IN NAFLD LIVER TISSUES AND CELLS WAS DETERMINED. RESULTS: IN NAFLD CLINICAL SAMPLES, MOUSE MODEL, AND CELL-MODEL, MIR-125B-5P EXPRESSION WAS REDUCED, WHILE ITGA8 EXPRESSION WAS INCREASED. MOREOVER, MIR-125B-5P TARGETED AND DOWNREGULATED ITGA8, LEADING TO INHIBITION OF THE RHOA SIGNALING PATHWAY. IN NAFLD LIVER TISSUES AND CELLS, THE CPG ISLAND IN THE MIR-125B-5P PROMOTER WAS METHYLATED, CAUSING EPIGENETIC SILENCING OF MIR-125B-5P. BOTH MIR-125B-5P SILENCING AND ITGA8 OVEREXPRESSION PROMOTED IN VITRO AND IN VIVO LIVER FIBROSIS IN NAFLD VIA ACTIVATION OF THE RHOA SIGNALING PATHWAY. CONCLUSIONS: COLLECTIVELY, EPIGENETIC SILENCING OF MIR-125B-5P UPREGULATES ITGA8 EXPRESSION TO ACTIVATE THE RHOA SIGNALING PATHWAY, LEADING TO LIVER FIBROSIS IN NAFLD. 2020 10 2640 29 EPIGENOMIC AND TRANSCRIPTIONAL PROFILING IDENTIFIES IMPAIRED GLYOXYLATE DETOXIFICATION IN NAFLD AS A RISK FACTOR FOR HYPEROXALURIA. EPIGENETIC MODIFICATIONS (E.G. DNA METHYLATION) IN NAFLD AND THEIR CONTRIBUTION TO DISEASE PROGRESSION AND EXTRAHEPATIC COMPLICATIONS ARE POORLY EXPLORED. HERE, WE USE AN INTEGRATED EPIGENOME AND TRANSCRIPTOME ANALYSIS OF MOUSE NAFLD HEPATOCYTES AND IDENTIFY ALTERATIONS IN GLYOXYLATE METABOLISM, A PATHWAY RELEVANT IN KIDNEY DAMAGE VIA OXALATE RELEASE-A HARMFUL WASTE PRODUCT AND KIDNEY STONE-PROMOTING FACTOR. DOWNREGULATION AND HYPERMETHYLATION OF ALANINE-GLYOXYLATE AMINOTRANSFERASE (AGXT), WHICH DETOXIFIES GLYOXYLATE, PREVENTING EXCESSIVE OXALATE ACCUMULATION, IS ACCOMPANIED BY INCREASED OXALATE FORMATION AFTER METABOLISM OF THE PRECURSOR HYDROXYPROLINE. VIRAL-MEDIATED AGXT TRANSFER OR INHIBITING HYDROXYPROLINE CATABOLISM RESCUES EXCESSIVE OXALATE RELEASE. IN HUMAN STEATOTIC HEPATOCYTES, AGXT IS ALSO DOWNREGULATED AND HYPERMETHYLATED, AND IN NAFLD ADOLESCENTS, STEATOSIS SEVERITY CORRELATES WITH URINARY OXALATE EXCRETION. THUS, THIS WORK IDENTIFIES A REDUCED CAPACITY OF THE STEATOTIC LIVER TO DETOXIFY GLYOXYLATE, TRIGGERING ELEVATED OXALATE, AND PROVIDES A MECHANISTIC EXPLANATION FOR THE INCREASED RISK OF KIDNEY STONES AND CHRONIC KIDNEY DISEASE IN NAFLD PATIENTS. 2021 11 3239 34 HEPATIC INACTIVATION OF THE TYPE 2 DEIODINASE CONFERS RESISTANCE TO ALCOHOLIC LIVER STEATOSIS. BACKGROUND: A MOUSE WITH HEPATOCYTE-SPECIFIC DEIODINASE TYPE II INACTIVATION (ALB-D2KO) IS RESISTANT TO DIET-INDUCED OBESITY, HEPATIC STEATOSIS, AND HYPERTRIGLYCERIDEMIA DUE TO PERINATAL EPIGENETIC MODIFICATIONS IN THE LIVER. THIS PHENOTYPE IS LINKED TO LOW LEVELS OF ZFP125, A HEPATIC TRANSCRIPTIONAL REPRESSOR THAT PROMOTES LIVER STEATOSIS BY INHIBITING GENES INVOLVED IN PACKAGING AND SECRETION OF VERY-LOW-DENSITY LIPOPROTEIN. METHODS: HERE, WE USED CHRONIC AND BINGE ETHANOL (ETOH) IN MICE TO CAUSE LIVER STEATOSIS. RESULTS: THE ETOH TREATMENT CAUSES A 2.3-FOLD INCREASE IN HEPATIC TRIGLYCERIDE CONTENT; ZFP125 LEVELS WERE APPROXIMATELY 50% HIGHER IN THESE ANIMALS. IN CONTRAST, ALB-D2KO MICE DID NOT DEVELOP ETOH-INDUCED LIVER STEATOSIS. THEY ALSO FAILED TO ELEVATE ZFP125 TO THE SAME LEVELS, DESPITE BEING ON THE ETOH-CONTAINING DIET FOR THE SAME PERIOD OF TIME. THEIR PHENOTYPE WAS ASSOCIATED WITH 1.3- TO 2.9-FOLD UP-REGULATION OF HEPATIC GENES INVOLVED IN LIPID TRANSPORT AND EXPORT THAT ARE NORMALLY REPRESSED BY ZFP125, THAT IS, MTTP, ABCA1, LDLR, APOC1, APOC3, APOE, APOH, AND AZGP1. FURTHERMORE, GENES INVOLVED IN THE ETOH METABOLIC PATHWAY, THAT IS, ALDH2 AND ACSS2, WERE ALSO 1.6- TO 3.1-FOLD UP-REGULATED IN ALB-D2KO ETOH MICE COMPARED WITH CONTROL ANIMALS KEPT ON ETOH. CONCLUSIONS: ETOH CONSUMPTION ELEVATES EXPRESSION OF ZFP125. ALB-D2KO ANIMALS, WHICH HAVE LOWER LEVELS OF ZFP125, ARE MUCH LESS SUSCEPTIBLE TO ETOH-INDUCED LIVER STEATOSIS. 2019 12 469 30 ARID1A LOSS DRIVES NONALCOHOLIC STEATOHEPATITIS IN MICE THROUGH EPIGENETIC DYSREGULATION OF HEPATIC LIPOGENESIS AND FATTY ACID OXIDATION. NONALCOHOLIC STEATOHEPATITIS (NASH) IS A RAPIDLY GROWING CAUSE OF CHRONIC LIVER DAMAGE, CIRRHOSIS, AND HEPATOCELLULAR CARCINOMA. HOW FATTY LIVER PATHOGENESIS IS SUBJECT TO EPIGENETIC REGULATION IS UNKNOWN. WE HYPOTHESIZED THAT CHROMATIN REMODELING IS IMPORTANT FOR THE PATHOGENESIS OF FATTY LIVER DISEASE. AT-RICH INTERACTIVE DOMAIN-CONTAINING PROTEIN 1A (ARID1A), A DNA-BINDING COMPONENT OF THE SWITCH/SUCROSE NONFERMENTABLE ADENOSINE TRIPHOSPHATE-DEPENDENT CHROMATIN-REMODELING COMPLEX, CONTRIBUTES TO NUCLEOSOME REPOSITIONING AND ACCESS BY TRANSCRIPTIONAL REGULATORS. LIVER-SPECIFIC DELETION OF ARID1A (ARID1A LIVER KNOCKOUT [LKO]) CAUSED THE DEVELOPMENT OF AGE-DEPENDENT FATTY LIVER DISEASE IN MICE. TRANSCRIPTOME ANALYSIS REVEALED UP-REGULATION OF LIPOGENESIS AND DOWN-REGULATION OF FATTY ACID OXIDATION GENES. AS EVIDENCE OF DIRECT REGULATION, ARID1A DEMONSTRATED DIRECT BINDING TO THE PROMOTERS OF MANY OF THESE DIFFERENTIALLY REGULATED GENES. ADDITIONALLY, ARID1A LKO MICE WERE MORE SUSCEPTIBLE TO HIGH-FAT DIET-INDUCED LIVER STEATOSIS AND FIBROSIS. WE DELETED PTEN IN COMBINATION WITH ARID1A TO SYNERGISTICALLY DRIVE FATTY LIVER PROGRESSION. INHIBITION OF LIPOGENESIS USING CAT-2003, A POTENT STEROL REGULATORY ELEMENT-BINDING PROTEIN INHIBITOR, MEDIATED IMPROVEMENTS IN MARKERS OF FATTY LIVER DISEASE PROGRESSION IN THIS ARID1A/PTEN DOUBLE KNOCKOUT MODEL. CONCLUSION: ARID1A PLAYS A ROLE IN THE EPIGENETIC REGULATION OF HEPATIC LIPID HOMEOSTASIS, AND ITS SUPPRESSION CONTRIBUTES TO FATTY LIVER PATHOGENESIS. COMBINED ARID1A AND PTEN DELETION SHOWS ACCELERATED FATTY LIVER DISEASE PROGRESSION AND IS A USEFUL MOUSE MODEL FOR STUDYING THERAPEUTIC STRATEGIES FOR NASH. 2019 13 3354 37 HISTONE DEMETHYLATION PROFILES IN NONALCOHOLIC FATTY LIVER DISEASE AND PROGNOSTIC VALUES IN HEPATOCELLULAR CARCINOMA: A BIOINFORMATIC ANALYSIS. NONALCOHOLIC FATTY LIVER DISEASE (NAFLD) IS THE MOST COMMON CHRONIC LIVER DISEASE WITH MULTIFACTORIAL PATHOGENESIS; HISTONE DEMETHYLASES (HDMS) ARE EMERGING AS ATTRACTIVE TARGETS. WE IDENTIFIED HDM GENES (INCLUDING KDM5C, KDM6B, KDM8, KDM4A, AND JMJD7) THAT WERE DIFFERENTIALLY EXPRESSED IN NAFLD AND NORMAL SAMPLES BY EXPLORING GENE EXPRESSION PROFILING DATASETS. THERE WAS NO SIGNIFICANT DIFFERENCE IN THE EXPRESSION OF GENES RELATED TO HISTONE DEMETHYLATION BETWEEN MILD AND ADVANCED NAFLD. IN VITRO AND IN VIVO STUDIES INDICATED THAT KDM6B AND JMJD7 WERE UPREGULATED AT THE MRNA LEVEL IN NAFLD. WE EXPLORED THE EXPRESSION LEVELS AND PROGNOSTIC VALUES OF THE IDENTIFIED HDM GENES IN HEPATOCELLULAR CARCINOMA (HCC). KDM5C AND KDM4A WERE UPREGULATED IN HCC COMPARED TO NORMAL TISSUE, WHILE KDM8 SHOWED DOWNREGULATION. THE ABNORMAL EXPRESSION LEVELS OF THESE HDMS COULD PROVIDE PROGNOSTIC VALUES. FURTHERMORE, KDM5C AND KDM4A WERE ASSOCIATED WITH IMMUNE CELL INFILTRATION IN HCC. HDMS WERE ASSOCIATED WITH CELLULAR AND METABOLIC PROCESSES AND MAY BE INVOLVED IN THE REGULATION OF GENE EXPRESSION. DIFFERENTIALLY EXPRESSED HDM GENES IDENTIFIED IN NAFLD MAY PROVIDE VALUE TO UNDERSTANDING PATHOGENESIS AND IN THE DEVELOPMENT OF EPIGENETIC THERAPEUTIC TARGETS. HOWEVER, ON THE BASIS OF THE INCONSISTENT RESULTS OF IN VITRO STUDIES, FUTURE IN VIVO EXPERIMENTS COMBINED WITH TRANSCRIPTOMIC ANALYSIS ARE NEEDED FOR FURTHER VALIDATION. 2023 14 1128 33 COMPREHENSIVE ANALYSIS OF EPIGENETIC AND EPITRANSCRIPTOMIC GENES' EXPRESSION IN HUMAN NAFLD. NON-ALCOHOLIC FATTY LIVER DISEASE (NAFLD) IS A MULTIFACTORIAL CONDITION WITH A COMPLEX ETIOLOGY. ITS INCIDENCE IS INCREASING GLOBALLY IN PARALLEL WITH THE OBESITY EPIDEMIC, AND IT IS NOW CONSIDERED THE MOST COMMON LIVER DISEASE IN WESTERN COUNTRIES. THE PRECISE MECHANISMS UNDERLYING THE DEVELOPMENT AND PROGRESSION OF NAFLD ARE COMPLEX AND STILL POORLY UNDERSTOOD. THE DYSREGULATION OF EPIGENETIC AND EPITRANSCRIPTOMIC MECHANISMS IS INCREASINGLY RECOGNIZED TO PLAY PATHOGENIC ROLES IN MULTIPLE CONDITIONS, INCLUDING CHRONIC LIVER DISEASES. HERE, WE HAVE PERFORMED A COMPREHENSIVE ANALYSIS OF THE EXPRESSION OF EPIGENETIC AND EPITRANSCRIPTOMIC GENES IN A TOTAL OF 903 LIVER TISSUE SAMPLES CORRESPONDING TO PATIENTS WITH NORMAL LIVER, OBESE PATIENTS, AND PATIENTS WITH NON-ALCOHOLIC FATTY LIVER (NAFL) AND NON-ALCOHOLIC STEATOHEPATITIS (NASH), ADVANCING STAGES IN NAFLD PROGRESSION. WE INTEGRATED TEN TRANSCRIPTOMIC DATASETS IN AN UNBIASED MANNER, ENABLING THEIR ROBUST ANALYSIS AND COMPARISON. WE DESCRIBE THE COMPLETE LANDSCAPE OF EPIGENETIC AND EPITRANSCRIPTOMIC GENES' EXPRESSION ALONG THE COURSE OF THE DISEASE. WE IDENTIFY SIGNATURES OF GENES SIGNIFICANTLY DYSREGULATED IN ASSOCIATION WITH DISEASE PROGRESSION, PARTICULARLY WITH LIVER FIBROSIS DEVELOPMENT. MOST OF THESE EPIGENETIC AND EPITRANSCRIPTOMIC EFFECTORS HAVE NOT BEEN PREVIOUSLY DESCRIBED IN HUMAN NAFLD, AND THEIR ALTERED EXPRESSION MAY HAVE PATHOGENIC IMPLICATIONS. WE ALSO PERFORMED A COMPREHENSIVE ANALYSIS OF THE EXPRESSION OF ENZYMES INVOLVED IN THE METABOLISM OF THE SUBSTRATES AND COFACTORS OF EPIGENETIC AND EPITRANSCRIPTOMIC EFFECTORS. THIS STUDY PROVIDES NOVEL INFORMATION ON NAFLD PATHOGENESIS AND MAY ALSO GUIDE THE IDENTIFICATION OF DRUG TARGETS TO TREAT THIS CONDITION AND ITS PROGRESSION TOWARDS HEPATOCELLULAR CARCINOMA. 2023 15 4478 27 MOLECULAR PATHOGENESIS OF NONALCOHOLIC STEATOHEPATITIS- (NASH-) RELATED HEPATOCELLULAR CARCINOMA. THE PROPORTION OF OBESE OR DIABETIC POPULATION HAS BEEN ANTICIPATED TO INCREASE IN THE UPCOMING DECADES, WHICH RISES THE PREVALENCE OF NONALCOHOLIC FATTY LIVER DISEASE (NAFLD) AND ITS PROGRESSION TO NONALCOHOLIC STEATOHEPATITIS (NASH). RECENT EVIDENCE INDICATES THAT NASH IS THE MAIN CAUSE OF CHRONIC LIVER DISEASES AND IT IS AN IMPORTANT RISK FACTOR FOR DEVELOPMENT OF HEPATOCELLULAR CARCINOMA (HCC). ALTHOUGH THE LITERATURE ADDRESSING NASH-HCC IS GROWING RAPIDLY, LIMITED DATA IS AVAILABLE ABOUT THE ETIOLOGY OF NASH-RELATED HCC. EXPERIMENTAL STUDIES ON THE MOLECULAR MECHANISM OF HCC DEVELOPMENT IN NASH REVEAL THAT THE CARCINOGENESIS IS RELEVANT TO COMPLEX CHANGES IN SIGNALING PATHWAYS THAT MEDIATE CELL PROLIFERATION AND ENERGY METABOLISM. GENETIC OR EPIGENETIC MODIFICATIONS AND ALTERATIONS IN METABOLIC, IMMUNOLOGIC, AND ENDOCRINE PATHWAYS HAVE BEEN SHOWN TO BE CLOSELY RELATED TO INFLAMMATION, LIVER INJURY, AND FIBROSIS IN NASH ALONG WITH ITS SUBSEQUENT PROGRESSION TO HCC. IN THIS REVIEW, WE PROVIDE AN OVERVIEW ON THE CURRENT KNOWLEDGE OF NASH-RELATED HCC DEVELOPMENT AND EMPHASIZE MOLECULAR SIGNALING PATHWAYS REGARDING THEIR MECHANISM OF ACTION IN NASH-DERIVED HCC. 2018 16 6385 32 THE ROLE OF PROMYELOCYTIC LEUKEMIA PROTEIN IN STEATOSIS-ASSOCIATED HEPATIC TUMORS RELATED TO CHRONIC HEPATITIS B VIRUS INFECTION. THE PERSISTENCE OF HEPATITIS B SURFACE ANTIGEN (HBSAG) IS A RISK FACTOR FOR THE DEVELOPMENT OF STEATOSIS-ASSOCIATED TUMORS IN CHRONIC HEPATITIS B VIRUS (HBV) INFECTION, YET LITTLE IS KNOWN ABOUT THE METABOLIC LINK WITH THIS FACTOR. WE CORRELATED HBV-RELATED PATHOGENESIS IN GENETICALLY ENGINEERED MICE AND HUMAN CARRIERS WITH METABOLIC PROTEOMICS AND LIPOGENIC GENE EXPRESSION PROFILES. THE IMMUNOHISTOCHEMISTRY SHOWED THAT THE PROMYELOCYTIC LEUKEMIA PROTEIN (PML, A TUMOR SUPPRESSOR INVOLVED IN GENOME MAINTENANCE AND FATTY ACID OXIDATION), BEING INVERSELY INFLUENCED BY THE DYNAMIC HBSAG LEVELS FROM ACUTE PHASE TO SEROCLEARANCE, APPEARED AS A LIPO-METABOLIC SWITCH LINKING HBSAG-INDUCED STEATOSIS (LIPOGENESIS) TO HBSAG-LOST FAT-BURNING HEPATOCARCINOGENESIS (LIPOLYSIS). KNOCKDOWN OF PML IN HBSAG-TRANSGENIC MICE PREDISPOSED TO OBESITY AND DROVE EARLY STEATOSIS-SPECIFIC LIVER TUMORIGENESIS. PROTEOME ANALYSIS REVEALED THAT THE SIGNALING PATHWAYS CORRESPONDING TO ENERGY METABOLISM AND ITS REGULATORS WERE FREQUENTLY ALTERED BY SUPPRESSION OR DEPLETION OF PML IN THE HBSAG-TRANSGENIC MICE, MAINLY INCLUDING OXIDATIVE PHOSPHORYLATION AND FATTY ACID METABOLISM. EXPRESSION PROFILING FURTHER IDENTIFIED UPREGULATION OF STEAROYL-COA DESATURASE 1 (SCD1) AND EPIGENETIC METHYLATION OF NDUFA13 IN THE MITOCHONDRIAL RESPIRATORY CHAIN AND THE CELL CYCLE INHIBITOR CDKN1C IN CONCORDANCE TO THE INCREASED SEVERITY OF LIPODYSTROPHY AND NEOPLASIA IN THE LIVERS OF HBSAG-TRANSGENIC MICE WITH PML INSUFFICIENCY. THE DEFECT IN LIPOLYSIS IN PML-DEFICIENT HBSAG-TRANSGENIC MICE MADE THE HBSAG-INDUCED ADIPOSE-LIKE LIVER TUMORS VULNERABLE TO SYNTHETIC LETHALITY FROM TOXIC SATURATED FAT ACCUMULATION WITH A SCD1 INHIBITOR. OUR FINDINGS PROVIDE MECHANISTIC INSIGHTS INTO THE EVOLUTION OF STEATOSIS-ASSOCIATED HEPATIC TUMORS DRIVEN BY RECIPROCAL INTERACTIONS OF HBSAG AND PML, AND A POTENTIAL UTILITY OF LIPID METABOLIC REPROGRAMMING AS A TREATMENT TARGET. 2018 17 5386 29 REDOX HOMEOSTASIS AND EPIGENETICS IN NON-ALCOHOLIC FATTY LIVER DISEASE (NAFLD). NON-ALCOHOLIC FATTY LIVER DISEASE (NAFLD), AN ACCUMULATION OF INTRA-HEPATIC TRIGLYCERIDES THAT IS OFTEN CONSIDERED THE HEPATIC MANIFESTATION OF INSULIN RESISTANCE, IS THE MOST COMMON CAUSE OF CHRONIC LIVER DISEASE IN THE WESTERN COUNTRIES WITH UP TO ONE THIRD OF THE POPULATION AFFECTED. NAFLD IS A SPECTRUM OF DISTURBANCES THAT ENCOMPASSES VARIOUS DEGREES OF LIVER DAMAGE RANGING FROM SIMPLE STEATOSIS TO NON-ALCOHOLIC STEATOHEPATITIS (NASH). NASH IS CHARACTERIZED BY HEPATOCELLULAR INJURY/INFLAMMATION WITH OR WITHOUT FIBROSIS. THE INDIVIDUALS WITH NAFLD DEVELOP NASH IN 10% OF THE CASES, AND ARE ALSO AT RISK OF DEVELOPING HEPATOCELLULAR CARCINOMA (HCC). EPIGENETIC MECHANISMS OF NUCLEAR CHROMATIN REMODELING, SUCH AS DNA METHYLATION, POST-TRANSLATIONAL MODIFICATIONS OF HISTONES, AND INCORPORATION OF HISTONE VARIANTS INTO THE CHROMATIN ARE INCREASINGLY RECOGNIZED AS CRUCIAL FACTORS IN THE PATHOPHYSIOLOGY OF NAFLD. NAFLD IS OFTEN ACCOMPANIED BY OXIDATIVE STRESS: REACTIVE OXYGEN SPECIES (ROS) ARE IMPLICATED IN ALTERED REDUCTION/OXIDATION (REDOX) REACTIONS THAT ATTACK CELLULAR MACROMOLECULES AND ARE DETECTED IN THE LIVER OF PATIENTS AND ANIMAL MODELS OF NAFLD. IN THIS REVIEW, WE SUMMARIZE RECENT KNOWLEDGE ADVANCEMENTS IN THE HEPATIC EPIGENETIC AND REDOX MECHANISMS, AND THEIR POSSIBLE LINKS, INVOLVED IN THE PATHOGENESIS AND TREATMENT OF NAFLD. 2013 18 3237 44 HEPATIC COX-2 EXPRESSION PROTECTS MICE FROM AN ALCOHOL-HIGH FAT DIET-INDUCED METABOLIC DISORDER BY INVOLVING PROTEIN ACETYLATION RELATED ENERGY METABOLISM. PURPOSE: A DIET HIGH IN FAT AND ETHANOL OFTEN RESULTS IN CHRONIC METABOLIC DISORDER, HEPATIC STEATOSIS, AND LIVER INFLAMMATION. CONSTITUTIVE HEPATIC CYCLOOXYGENASE-2 (COX-2) EXPRESSION COULD PROTECT FROM HIGH FAT-INDUCED METABOLISM DISTURBANCE IN A MURINE MODEL. IN THIS STUDY, WE EXPLORED THE INFLUENCE OF HCOX-2 TRANSGENIC [TG] TO HIGH FAT WITH ETHANOL-INDUCED METABOLIC DISORDER AND LIVER INJURY USING A MOUSE ANIMAL MODEL. METHODS: 12-WEEK-OLD MALE HEPATIC HCOX-2 TRANSGENIC (TG) OR WILD TYPE MICE (WT) WERE FED EITHER A HIGH FAT AND ETHANOL LIQUID DIET (HF+ETH) OR A REGULAR CONTROL DIET (RCD) FOR 5 WEEKS (FOUR GROUPS: RCD/WT, RCD/TG; HF+ETH/TG, HF+ETH/WT). WE ASSESSED METABOLIC BIOMARKERS, CYTOKINE PROFILES, HISTOMORPHOLOGY, AND GENE EXPRESSION TO STUDY THE IMPACT OF PERSISTENT HEPATIC COX-2 EXPRESSION ON DIET-INDUCED LIVER INJURY. RESULTS: IN THE HF+ETH DIET, CONSTITUTIVELY HEPATIC HUMAN COX-2 EXPRESSION PROTECTS MICE FROM BODY WEIGHT GAIN AND WHITE ADIPOSE TISSUE ACCUMULATION, ACCOMPANIED BY IMPROVED IPGTT RESPONSE, SERUM TRIGLYCERIDE/CHOLESTEROL LEVELS, AND LOWER LEVELS OF SERUM AND LIVER INFLAMMATORY CYTOKINES. HISTOLOGICALLY, HCOX-2 MICE SHOWED DECREASED HEPATIC LIPID DROPLETS ACCUMULATION, DECREASED HEPATOCYTE BALLOONING, AND IMPROVED STEATOSIS SCORES. HEPATIC HCOX-2 OVEREXPRESSION ENHANCED AKT INSULIN SIGNALING AND INCREASED FATTY ACID SYNTHESIS IN BOTH RCD AND HF+ETH DIET GROUPS. THE ANTI-LIPOGENIC EFFECT OF HCOX-2 TG IN THE HF+ETH DIET ANIMALS WAS MEDIATED BY INCREASING LIPID DISPOSAL THROUGH ENHANCED BETA-OXIDATION VIA ELEVATIONS IN THE EXPRESSION OF PPARALPHA AND PPARGAMMA, AND INCREASED HEPATIC AUTOPHAGY AS ASSESSED BY THE RATIO OF AUTOPHAGY MARKERS LC3 II/I IN HEPATIC TISSUE. VARIOUS PROTEIN ACETYLATION PATHWAY COMPONENTS, INCLUDING HAT, HDAC1, SIRT1, AND SNAIL1, WERE MODULATED IN HCOX-2 TG MICE IN EITHER RCD OR HF+ETH DIET. CONCLUSIONS: HEPATIC HUMAN COX-2 EXPRESSION PROTECTED MICE FROM THE METABOLIC DISORDER AND LIVER INJURY INDUCED BY A HIGH FAT AND ETHANOL DIET BY ENHANCING HEPATIC LIPID EXPENDITURE. EPIGENETIC REPROGRAMMING OF DIVERSE METABOLIC GENES MIGHT BE INVOLVED IN THE ANTI-LIPOGENIC EFFECT OF COX-2. 2021 19 4326 30 MICRORNAS IN THE PATHOGENESIS OF NONALCOHOLIC FATTY LIVER DISEASE. NONALCOHOLIC FATTY LIVER DISEASE (NAFLD), OR, MORE ACCURATELY, METABOLIC ASSOCIATED FATTY LIVER DISEASE, ACCOUNTS FOR A LARGE PROPORTION OF CHRONIC LIVER DISORDERS WORLDWIDE AND IS CLOSELY ASSOCIATED WITH OTHER CONDITIONS SUCH AS CARDIOVASCULAR DISEASE, OBESITY, AND TYPE 2 DIABETES MELLITUS. NAFLD RANGES FROM SIMPLE STEATOSIS TO NONALCOHOLIC STEATOHEPATITIS (NASH) AND CAN PROGRESS TO CIRRHOSIS AND, EVENTUALLY, ALSO HEPATOCELLULAR CARCINOMA. THE MORBIDITY AND MORTALITY ASSOCIATED WITH NAFLD ARE INCREASING RAPIDLY YEAR ON YEAR. CONSEQUENTLY, THERE IS AN URGENT NEED TO UNDERSTAND THE ETIOLOGY AND PATHOGENESIS OF NAFLD AND IDENTIFY EFFECTIVE THERAPEUTIC TARGETS. MICRORNAS (MIRNAS), IMPORTANT EPIGENETIC FACTORS, HAVE RECENTLY BEEN PROPOSED TO PARTICIPATE IN NAFLD PATHOGENESIS. HERE, WE REVIEW THE ROLES OF MIRNAS IN LIPID METABOLISM, INFLAMMATION, APOPTOSIS, FIBROSIS, HEPATIC STELLATE CELL ACTIVATION, INSULIN RESISTANCE, AND OXIDATIVE STRESS, KEY FACTORS THAT CONTRIBUTE TO THE OCCURRENCE AND PROGRESSION OF NAFLD. ADDITIONALLY, WE SUMMARIZE THE ROLE OF MIRNA-ENRICHED EXTRACELLULAR VESICLES IN NAFLD. THESE MIRNAS MAY COMPRISE SUITABLE THERAPEUTIC TARGETS FOR THE TREATMENT OF THIS CONDITION. 2021 20 2263 26 EPIGENETIC PROGRAMMING AT THE MOGAT1 LOCUS MAY LINK NEONATAL OVERNUTRITION WITH LONG-TERM HEPATIC STEATOSIS AND INSULIN RESISTANCE. POSTNATAL OVERFEEDING INCREASES THE RISK OF CHRONIC DISEASES LATER IN LIFE, INCLUDING OBESITY, INSULIN RESISTANCE, HEPATIC STEATOSIS, AND TYPE 2 DIABETES. EPIGENETIC MECHANISMS MIGHT UNDERLIE THE LONG-LASTING EFFECTS ASSOCIATED WITH EARLY NUTRITION. HERE WE AIMED TO EXPLORE THE MOLECULAR PATHWAYS INVOLVED IN EARLY DEVELOPMENT OF INSULIN RESISTANCE AND HEPATIC STEATOSIS, AND WE EXAMINED THE POTENTIAL CONTRIBUTION OF DNA METHYLATION AND HISTONE MODIFICATIONS TO LONG-TERM PROGRAMMING OF METABOLIC DISEASE. WE USED A WELL-CHARACTERIZED MOUSE MODEL OF NEONATAL OVERFEEDING AND EARLY ADIPOSITY BY LITTER SIZE REDUCTION. NEONATAL OVERFEEDING LED TO HEPATIC INSULIN RESISTANCE VERY EARLY IN LIFE THAT PERSISTED THROUGHOUT ADULTHOOD DESPITE NORMALIZING FOOD INTAKE. UP-REGULATION OF MONOACYLGLYCEROL O-ACYLTRANSFERASE ( MOGAT) 1 CONCEIVABLY MEDIATES HEPATIC STEATOSIS AND INSULIN RESISTANCE THROUGH INCREASING INTRACELLULAR DIACYLGLYCEROL CONTENT. EARLY AND SUSTAINED DEREGULATION OF MOGAT1 WAS ASSOCIATED WITH A COMBINATION OF HISTONE MODIFICATIONS THAT MIGHT FAVOR MOGAT1 EXPRESSION. IN SUM, POSTNATAL OVERFEEDING CAUSES EXTREMELY RAPID DERANGEMENTS OF HEPATIC INSULIN SENSITIVITY THAT REMAIN RELATIVELY STABLE UNTIL ADULTHOOD. EPIGENETIC MECHANISMS, PARTICULARLY HISTONE MODIFICATIONS, COULD CONTRIBUTE TO SUCH LONG-LASTING EFFECTS. OUR DATA SUGGEST THAT TARGETING HEPATIC MONOACYLGLYCEROL ACYLTRANSFERASE ACTIVITY DURING EARLY LIFE MIGHT PROVIDE A NOVEL STRATEGY TO IMPROVE HEPATIC INSULIN SENSITIVITY AND PREVENT LATE-ONSET INSULIN RESISTANCE AND FATTY LIVER DISEASE.-RAMON-KRAUEL, M., PENTINAT, T., BLOKS, V. W., CEBRIA, J., RIBO, S., PEREZ-WIENESE, R., VILA, M., PALACIOS-MARIN, I., FERNANDEZ-PEREZ, A., VALLEJO, M., TELLEZ, N., RODRIGUEZ, M. A., YANES, O., LERIN, C., DIAZ, R., PLOSCH, T., TIETGE, U. J. F., JIMENEZ-CHILLARON, J. C. EPIGENETIC PROGRAMMING AT THE MOGAT1 LOCUS MAY LINK NEONATAL OVERNUTRITION WITH LONG-TERM HEPATIC STEATOSIS AND INSULIN RESISTANCE. 2018