1  1399 148 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	
                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                  
2  1030  43 CIRCULATING PLASMA MICRORNAS DYSREGULATION AND METABOLIC ENDOTOXEMIA INDUCED BY A HIGH-FAT HIGH-SATURATED DIET. HIGH-FAT DIET INCREASE TWO TO THREE TIMES THE PLASMA LIPOPOLYSACCHARIDE (LPS) LEVELS AND INDUCE SUBCLINICAL INFLAMMATION. DIET CAN MODIFY GENE EXPRESSION DUE TO EPIGENETIC PROCESSES RELATED TO MICRORNAS (MIRNAS). MICRORNAS (MIRNAS) PLAY IMPORTANT ROLE IN THE POST-TRANSCRIPTIONAL MECHANISMS INVOLVED IN REGULATION OF EXPRESSION OF GENES RELATED TO THE INFLAMMATORY RESPONSE. ALSO, DIET CAN INDIRECTLY INDUCE POST-TRANSCRIPTIONAL REGULATION OF GENE EXPRESSION BY MIRNAS, WHICH MAY AFFECT THE RISK FOR THE DEVELOPMENT OF CHRONIC DISEASES. OBJECTIVE: THIS STUDY INVESTIGATED THE EFFECT OF HIGH-FAT HIGH-SATURATED MEAL INGESTION ON PLASMA MIRNA EXPRESSION AND LPS LEVELS DURING THE POSTPRANDIAL PERIOD IN HEALTHY WOMEN. METHODS: AN INTERVENTIONAL STUDY WAS CARRIED OUT IN WHICH A HIGH-FAT BREAKFAST (1067.45 KCAL), COMPOSED MAINLY OF SATURATED FATTY ACIDS (56 G), AND 500 ML OF WATER, WAS OFFERED. BLOOD SAMPLES WERE COLLECTED AT BASELINE AND 1, 3 AND 5 H AFTER MEAL INTAKE. THE STUDIED POPULATION CONSISTED OF HEALTHY WOMEN (N = 11), AGED BETWEEN 20 AND 40 YEARS, AND BODY MASS INDEX (BMI) BETWEEN 18.5 AND 25 KG/M(2). PLASMA LEVELS OF LIPID PROFILE, CYTOKINES, ADHESION MOLECULES, AND LPS WERE MEASURED AT THE 3 TIME POINTS. A PROFILE OF 752 HUMAN PLASMA MIRNA EXPRESSION WAS ANALYZED BY REAL-TIME PCR ASSAY. THESE ANALYZES WERE PERFORMED FOR ALL BLOOD COLLECTION TIME-POINTS. RESULTS: EXPRESSION PROFILE ANALYSIS REVEALED 33 DIFFERENTIALLY EXPRESSED PLASMA CIRCULATING MIRNAS COMPARED TO THAT OF THE CONTROL GROUP. MIR-145-5P AND MIR-200 WERE DIFFERENTIALLY MODULATED IN ALL TIME-POINTS POST MEAL CONSUMPTION. IN ADDITION, THERE WAS A SIGNIFICANT INCREASE IN PLASMA LPS, TRIGLYCERIDES, MYRISTIC AND PALMITIC SATURATED FATTY ACIDS LEVELS AT THE 3 TIME-POINTS IN COMPARISON WITH THE CONTROL BASAL LEVELS. WE ALSO OBSERVED INCREASED LEVELS OF THE PLASMA TUMOR NECROSIS FACTOR ALPHA (TNF-ALPHA) CYTOKINE AND THE VASCULAR CELL ADHESION MOLECULE 1 (VCAM-1) LEVELS AFTER 5 H POST MEAL INGESTION. CONCLUSION: INGESTION OF HIGH-FAT HIGH-SATURATED MEAL WAS ABLE TO INDUCE METABOLIC ENDOTOXEMIA AND INCREASE THE EXPRESSION OF PRO-INFLAMMATORY MOLECULES SUCH AS TNF-ALPHA AND VCAM-1, AS WELL AS MODULATING CIRCULATING MIRNAS POSSIBLY CONTROLLING INFLAMMATORY AND LIPID METABOLISM PROTEINS AT THE POSTPRANDIAL PERIOD.	2020	
                                                                                                                                                                                                                                                                                                                                       
3  2809  45 FGF1 AMELIORATES OBESITY-ASSOCIATED HEPATIC STEATOSIS BY REVERSING IGFBP2 HYPERMETHYLATION. OBESITY IS A MAJOR CONTRIBUTING FACTOR FOR METABOLIC-ASSOCIATED FATTY LIVER DISEASE (MAFLD). FIBROBLAST GROWTH FACTOR (FGF) 1 IS THE FIRST PARACRINE FGF FAMILY MEMBER IDENTIFIED TO EXHIBIT PROMISING METABOLIC REGULATORY PROPERTIES CAPABLE OF CONFERRING GLUCOSE-LOWERING AND INSULIN-SENSITIZING EFFECT. THIS STUDY EXPLORES THE ROLE AND MOLECULAR UNDERPINNINGS OF FGF1 IN OBESITY-ASSOCIATED HEPATIC STEATOSIS. IN A MOUSE HIGH-FAT DIET (HFD)-INDUCED MAFLD MODEL, CHRONIC TREATMENT WITH RECOMBINANT FGF1(RFGF1) WAS FOUND TO EFFECTIVELY REDUCE THE SEVERITY OF INSULIN RESISTANCE, HYPERLIPIDEMIA, AND INFLAMMATION. FGF1 TREATMENT DECREASED LIPID ACCUMULATION IN THE MOUSE LIVER AND PALMITIC ACID-TREATED AML12 CELLS. THESE EFFECTS WERE ASSOCIATED WITH DECREASED MATURE FORM SREBF1 EXPRESSION AND ITS TARGET GENES FASN AND SCD1. INTERESTINGLY, WE UNCOVERED THAT RFGF1 SIGNIFICANTLY INDUCED IGFBP2 EXPRESSION AT BOTH MRNA AND PROTEIN LEVELS IN HFD-FED MOUSE LIVERS AND CULTURED HEPATOCYTES TREATED WITH PALMITIC ACID. ADENO-ASSOCIATED VIRUS-MEDIATED IGFBP2 SUPPRESSION SIGNIFICANTLY DIMINISHED THE THERAPEUTIC BENEFIT OF RFGF1 ON MAFLD-ASSOCIATED PHENOTYPES, INDICATING THAT IGFBP2 PLAYS A CRUCIAL ROLE IN THE FGF1-MEDIATED REDUCTION OF HEPATIC STEATOSIS. FURTHER ANALYSIS REVEALED THAT RFGF1 TREATMENT REDUCES THE RECRUITMENT OF DNA METHYLTRANSFERASE 3 ALPHA TO THE IGFBP2 GENOMIC LOCUS, LEADING TO DECREASED IGFBP2 GENE METHYLATION AND INCREASED MRNA AND PROTEIN EXPRESSION. COLLECTIVELY, OUR FINDINGS REVEAL FGF1 MODULATION OF LIPID METABOLISM VIA EPIGENETIC REGULATION OF IGFBP2 EXPRESSION, AND UNRAVEL THE THERAPEUTIC POTENTIAL OF THE FGF1-IGFBP2 AXIS IN METABOLIC DISEASES ASSOCIATED WITH OBESITY.	2023	
                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                           
4  6277  32 THE PATHOGENIC ROLE OF PERSISTENT MILK SIGNALING IN MTORC1- AND MILK-MICRORNA-DRIVEN TYPE 2 DIABETES MELLITUS. MILK, THE SECRETORY PRODUCT OF THE LACTATION GENOME, PROMOTES GROWTH OF THE NEWBORN MAMMAL. MILK DELIVERS INSULINOTROPIC AMINO ACIDS, THUS MAINTAINS A MOLECULAR CROSSTALK WITH THE PANCREATIC BETA-CELL OF THE MILK RECIPIENT. HOMEOSTASIS OF BETA-CELLS AND INSULIN PRODUCTION DEPEND ON THE APPROPRIATE MAGNITUDE OF MTORC1 SIGNALING. MTORC1 IS ACTIVATED BY BRANCHED-CHAIN AMINO ACIDS (BCAAS), GLUTAMINE, AND PALMITIC ACID, ABUNDANT NUTRIENT SIGNALS OF COW S MILK. FURTHERMORE, MILK DELIVERS BIOACTIVE EXOSOMAL MICRORNAS. AFTER MILK CONSUMPTION, BOVINE MICRORNA-29B, A MEMBER OF THE DIABETOGENIC MICRORNA-29- FAMILY, REACHES THE SYSTEMIC CIRCULATION AND THE CELLS OF THE MILK CONSUMER. MICRORNA-29B DOWNREGULATES BRANCHEDCHAIN ALPHA-KETOACID DEHYDROGENASE, A POTENTIAL EXPLANATION FOR INCREASED BCAA SERUM LEVELS, THE METABOLIC SIGNATURE OF INSULIN RESISTANCE AND TYPE 2 DIABETES MELLITUS (T2DM). IN NON-OBESE DIABETIC MICE, MICRORNA-29B DOWNREGULATES THE ANTIAPOPTOTIC PROTEIN MCL-1, WHICH LEADS TO EARLY BETA-CELL DEATH. IN ALL MAMMALS EXCEPT NEOLITHIC HUMANS, MILK-DRIVEN MTORC1 SIGNALING IS PHYSIOLOGICALLY RESTRICTED TO THE POSTNATAL PERIOD. IN CONTRAST, CHRONIC HYPERACTIVATED MTORC1 SIGNALING HAS BEEN ASSOCIATED WITH THE DEVELOPMENT OF AGE-RELATED DISEASES OF CIVILIZATION INCLUDING T2DM. NOTABLY, CHRONIC HYPERACTIVATION OF MTORC1 ENHANCES ENDOPLASMIC RETICULUM STRESS THAT PROMOTES APOPTOSIS. IN FACT, HYPERACTIVATED BETA-CELL MTORC1 SIGNALING INDUCED EARLY BETA-CELL APOPTOSIS IN A MOUSE MODEL. THE EPIC-INTERACT STUDY DEMONSTRATED AN ASSOCIATION BETWEEN MILK CONSUMPTION AND T2DM IN FRANCE, ITALY, UNITED KINGDOM, GERMANY, AND SWEDEN. IN CONTRAST, FERMENTED MILK PRODUCTS AND CHEESE EXHIBIT AN INVERSE CORRELATION. SINCE THE EARLY 1950 S, REFRIGERATION TECHNOLOGY ALLOWED WIDESPREAD CONSUMPTION OF FRESH PASTEURIZED MILK, WHICH FACILITATES DAILY INTAKE OF BIOACTIVE BOVINE MICRORNAS. PERSISTENT UPTAKE OF COW S MILK-DERIVED MICRORNAS APPARENTLY TRANSFERS AN OVERLOOKED EPIGENETIC DIABETOGENIC PROGRAM THAT SHOULD NOT REACH THE HUMAN FOOD CHAIN.	2015	
                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                    
5  2794  38 FATTY ACIDS, EPIGENETIC MECHANISMS AND CHRONIC DISEASES: A SYSTEMATIC REVIEW. BACKGROUND: CHRONIC ILLNESSES LIKE OBESITY, TYPE 2 DIABETES (T2D) AND CARDIOVASCULAR DISEASES, ARE WORLDWIDE MAJOR CAUSES OF MORBIDITY AND MORTALITY. THESE PATHOLOGICAL CONDITIONS INVOLVE INTERACTIONS BETWEEN ENVIRONMENTAL, GENETIC, AND EPIGENETIC FACTORS. RECENT ADVANCES IN NUTRIEPIGENOMICS ARE CONTRIBUTING TO CLARIFY THE ROLE OF SOME NUTRITIONAL FACTORS, INCLUDING DIETARY FATTY ACIDS IN GENE EXPRESSION REGULATION. THIS SYSTEMATIC REVIEW ASSESSES CURRENTLY AVAILABLE INFORMATION CONCERNING THE ROLE OF THE DIFFERENT FATTY ACIDS ON EPIGENETIC MECHANISMS THAT AFFECT THE DEVELOPMENT OF CHRONIC DISEASES OR INDUCE PROTECTIVE EFFECTS ON METABOLIC ALTERATIONS. METHODS: A TARGETED SEARCH WAS CONDUCTED IN THE PUBMED/MEDLINE DATABASES USING THE KEYWORDS "FATTY ACIDS AND EPIGENETIC". THE DATA WERE ANALYZED ACCORDING TO THE PRISMA-P GUIDELINES. RESULTS: CONSUMPTION FATTY ACIDS LIKE N-3 PUFA: EPA AND DHA, AND MUFA: OLEIC AND PALMITOLEIC ACID WAS ASSOCIATED WITH AN IMPROVEMENT OF METABOLIC ALTERATIONS. ON THE OTHER HAND, FATTY ACIDS THAT HAVE BEEN ASSOCIATED WITH THE PRESENCE OR DEVELOPMENT OF OBESITY, T2D, PRO-INFLAMMATORY PROFILE, ATHEROSCLEROSIS AND IR WERE N-6 PUFA, SATURATED FATTY ACIDS (STEARIC AND PALMITIC), AND TRANS FATTY ACIDS (ELAIDIC), HAVE BEEN ALSO LINKED WITH EPIGENETIC CHANGES. CONCLUSIONS: FATTY ACIDS CAN REGULATE GENE EXPRESSION BY MODIFYING EPIGENETIC MECHANISMS AND CONSEQUENTLY RESULT IN POSITIVE OR NEGATIVE IMPACTS ON METABOLIC OUTCOMES.	2019	
                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                             
6  5868  30 SUPPRESSIVE EFFECTS OF METFORMIN ON T-HELPER 1-RELATED CHEMOKINES EXPRESSION IN THE HUMAN MONOCYTIC LEUKEMIA CELL LINE THP-1. PURPOSE OF THE STUDY: TYPE 1 AND TYPE 2 DIABETES MELLITUS (DM) ARE CHRONIC T-CELL-MEDIATED INFLAMMATORY DISEASES. METFORMIN IS A WIDELY USED DRUG FOR TYPE 2 DM THAT REDUCES THE NEED FOR INSULIN IN TYPE 1 DM. HOWEVER, WHETHER METFORMIN HAS AN ANTI-INFLAMMATORY EFFECT FOR TREATING DM IS UNKNOWN. WE INVESTIGATED THE ANTI-INFLAMMATORY MECHANISM OF METFORMIN IN THE HUMAN MONOCYTIC LEUKEMIA CELL LINE THP-1. MATERIALS AND METHODS: THE HUMAN MONOCYTIC LEUKEMIA CELL LINE THP-1 WAS PRETREATED WITH METFORMIN AND STIMULATED WITH LIPOPOLYSACCHARIDE (LPS). THE PRODUCTION OF T-HELPER (TH)-1-RELATED CHEMOKINES INCLUDING INTERFERON-GAMMA-INDUCED PROTEIN-10 (IP-10) AND MONOCYTE CHEMOATTRACTANT PROTEIN-1 (MCP-1), TH2-RELATED CHEMOKINE MACROPHAGE-DERIVED CHEMOKINE, AND THE PROINFLAMMATORY CHEMOKINE TUMOR NECROSIS FACTOR-ALPHA WAS MEASURED USING ENZYME-LINKED IMMUNOSORBENT ASSAY. INTRACELLULAR SIGNALING PATHWAYS WERE INVESTIGATED USING WESTERN BLOT ANALYSIS AND CHROMATIN IMMUNOPRECIPITATION ASSAY. RESULTS: METFORMIN SUPPRESSED LPS-INDUCED IP-10 AND MCP-1 PRODUCTION AS WELL AS LPS-INDUCED PHOSPHORYLATION OF C-JUN N-TERMINAL KINASE (JNK), P38, EXTRACELLULAR SIGNAL-REGULATED KINASE (ERK), AND NUCLEAR FACTOR-KAPPA B (NF-KAPPAB). MOREOVER, METFORMIN SUPPRESSED LPS-INDUCED ACETYLATION OF HISTONES H3 AND H4 AT THE IP-10 PROMOTER. CONCLUSIONS: METFORMIN SUPPRESSED THE PRODUCTION OF TH1-RELATED CHEMOKINES IP-10 AND MCP-1 IN THP-1 CELLS. SUPPRESSIVE EFFECTS OF METFORMIN ON IP-10 PRODUCTION MIGHT BE ATTRIBUTED AT LEAST PARTIALLY TO THE JNK, P38, ERK, AND NF-KAPPAB PATHWAYS AS WELL AS TO EPIGENETIC REGULATION THROUGH THE ACETYLATION OF HISTONES H3 AND H4. THESE RESULTS INDICATED THE THERAPEUTIC ANTI-INFLAMMATORY POTENTIAL OF METFORMIN.	2018	
                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                    
7  5234  40 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	
                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                      
8  3164  42 GREEN TEA PREVENTS NAFLD BY MODULATION OF MIR-34A AND MIR-194 EXPRESSION IN A HIGH-FAT DIET MOUSE MODEL. BACKGROUND/AIMS: NONALCOHOLIC FATTY LIVER DISEASE (NAFLD) IS CONSIDERED THE HEPATIC MANIFESTATION OF METABOLIC SYNDROME. IT IS CURRENTLY THE MOST COMMON CHRONIC LIVER DISEASE WITH COMPLEX PATHOGENESIS AND CHALLENGING TREATMENT. HERE, WE INVESTIGATED THE HEPATOPROTECTIVE ROLE OF GREEN TEA (GT) AND DETERMINED THE INVOLVEMENT OF MIRNAS AND ITS MECHANISM OF ACTION. METHODS: MALE C57BL/6 MICE WERE FED WITH A HIGH-FAT DIET FOR 4 WEEKS. AFTER THIS PERIOD, THE ANIMALS RECEIVED GAVAGE WITH GT (500 MG/KG BODY WEIGHT) OVER 12 WEEKS (5 DAYS/WEEK). HEPG2 CELL LINES WERE TRANSFECTED WITH MIR-34A OR MIR-194 MIMETICS AND INHIBITORS TO VALIDATE THE IN VIVO RESULTS OR WERE TREATED WITH TNF-ALPHA TO EVALUATE MIRNA REGULATION. RESULTS: GT SUPPLEMENTATION PROTECTS AGAINST NAFLD DEVELOPMENT BY ALTERING LIPID METABOLISM, INCREASING GENE EXPRESSION INVOLVED IN TRIGLYCERIDES AND FATTY ACID CATABOLISM, AND DECREASING UPTAKE AND LIPID ACCUMULATION. THIS PHENOTYPE WAS ACCOMPANIED BY MIR-34A DOWNREGULATION AND AN INCREASE IN THEIR MRNA TARGETS SIRT1, PPARALPHA, AND INSIG2. GT UPREGULATED HEPATIC MIR-194 BY INHIBITING TNF-ALPHA ACTION LEADING TO A DECREASE IN MIR-194 TARGET GENES HMGCS/APOA5. CONCLUSION: OUR STUDY IDENTIFIED FOR THE FIRST TIME THAT THE BENEFICIAL EFFECTS OF GT IN THE LIVER CAN BE DUE TO THE MODULATION OF MIRNAS, OPENING NEW PERSPECTIVES FOR THE TREATMENT OF NAFLD FOCUSING ON EPIGENETIC REGULATION OF MIR-34A AND MIR-194 AS GREEN TEA TARGETS.	2019	
                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                  
9  3241  34 HEPATIC MICRORNA MODULATION MIGHT BE AN EARLY EVENT TO NON-ALCOHOLIC FATTY LIVER DISEASE DEVELOPMENT DRIVEN BY HIGH-FAT DIET IN MALE MICE. INTRODUCTION: METABOLIC ALTERATIONS CAUSED BY AN IMBALANCE OF MACRONUTRIENT CONSUMPTION ARE OFTEN RELATED TO THE MODULATION OF MICRORNAS (MIRNAS), WHICH COULD ALTER MRNAS EXPRESSION PROFILE AND ACCELERATE THE DEVELOPMENT OF NON-ALCOHOLIC FATTY LIVER DISEASE (NAFLD). AIMS: THIS STUDY AIMED TO INVESTIGATE THE CONTRIBUTION OF MIRNAS IN MODULATING EARLY STAGES OF NAFLD IN MICE SUBMITTED TO A HIGH-FAT DIET (HFD). METHODS AND RESULTS: MALE SWISS MICE, FED EITHER A CONTROL DIET OR AN HFD FOR 1, 3, 7, 15, 30, 56 DAYS, WERE ASSESSED FOR METABOLIC ALTERATIONS, GENE EXPRESSION AND NAFLD MARKERS. A HEPATOCYTE CELL LINE WAS USED TO INVESTIGATE THE EFFECTS OF MIR-370 MODULATION ON ENZYMES INVOLVED IN BETA-OXIDATION. BODY WEIGHT AND ADIPOSITY WERE HIGHER AFTER 7 DAYS OF HFD. FASTING GLUCOSE AND INSULIN INCREASED AFTER 3 AND 7 DAYS OF HFD, RESPECTIVELY. WHILE HEPATIC LIPID CONTENT INCREASED FROM THE FIRST DAY ON, HEPATIC GLYCOGEN HAD A DECREASE AFTER 3 DAYS OF HFD CONSUMPTION. MIR-370 AND LET-7 EXPRESSION INCREASED WITH ACUTE AND CHRONIC EXPOSURE TO HFD, ACCOMPANIED BY CARNITINE PALMITOYLTRANSFERASE 1A (CPT1A), ACYL-COA DEHYDROGENASE VERY LONG CHAIN (ACADVL) AND PROTEIN KINASE AMP-ACTIVATED CATALYTIC SUBUNIT 2 (PRKAA2) DOWNREGULATION, WHILE DECREASED MIR-122 EXPRESSION WAS ACCOMPANIED BY 1-ACYLGLYCEROL-3-PHOSPHATE-O-ACYLTRANSFERASE (AGPAT) UPREGULATION AFTER 56 DAYS OF HFD CONSUMPTION, SOME OF THEM CONFIRMED BY IN VITRO EXPERIMENTS. DESPITE FLUCTUATIONS IN TNFA AND IL6 MRNA LEVELS, MOLECULAR MODULATION WAS CONSISTENT WITH HEPATIC TG AND NAFLD DEVELOPMENT. CONCLUSION: HEPATIC MIR-370-122-LET7 MIRNA MODULATION COULD BE THE FIRST INSULT TO NAFLD DEVELOPMENT, PRECEDING CHANGES IN GLYCEMIC HOMEOSTASIS AND ADIPOSITY.	2022	
                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                               
10  5915  36 TARGETING A PHOSPHO-STAT3-MIRNAS PATHWAY IMPROVES VESICULAR HEPATIC STEATOSIS IN AN IN VITRO AND IN VIVO MODEL. NON-ALCOHOLIC FATTY LIVER DISEASE (NAFLD) IS A LEADING CAUSE OF CHRONIC LIVER DISEASE. ALTHOUGH GENETIC PREDISPOSITION AND EPIGENETIC FACTORS CONTRIBUTE TO THE DEVELOPMENT OF NAFLD, OUR UNDERSTANDING OF THE MOLECULAR MECHANISM INVOLVED IN THE PATHOGENESIS OF THE DISEASE IS STILL EMERGING. HERE WE INVESTIGATED A POSSIBLE ROLE OF A MICRORNAS-STAT3 PATHWAY IN THE INDUCTION OF HEPATIC STEATOSIS. DIFFERENTIATED HEPARG CELLS TREATED WITH THE FATTY ACID SODIUM OLEATE (FATTY DHEPARG) RECAPITULATED FEATURES OF LIVER VESICULAR STEATOSIS AND ACTIVATED A CELL-AUTONOMOUS INFLAMMATORY RESPONSE, INDUCING STAT3-TYROSINE-PHOSPHORYLATION. WITH A GENOME-WIDE APPROACH (CHROMATIN IMMUNOPRECIPITATION SEQUENCING), MANY PHOSPHO-STAT3 BINDING SITES WERE IDENTIFIED IN FATTY DHEPARG CELLS AND SEVERAL STAT3 AND/OR NAFLD-REGULATED MICRORNAS SHOWED INCREASED EXPRESSION LEVELS, INCLUDING MIR-21. INNOVATIVE CARS (COHERENT ANTI-STOKES RAMAN SCATTERING) MICROSCOPY REVEALED THAT CHEMICAL INHIBITION OF STAT3 ACTIVITY DECREASED LIPID ACCUMULATION AND DEREGULATED STAT3-RESPONSIVE MICRORNAS, INCLUDING MIR-21, IN LIPID OVERLOADED DHEPARG CELLS. WE WERE ABLE TO SHOW IN VIVO THAT REDUCING PHOSPHO-STAT3-MIR-21 LEVELS IN C57/BL6 MICE LIVER, BY LONG-TERM TREATMENT WITH METFORMIN, PROTECTED MICE FROM AGING-DEPENDENT HEPATIC VESICULAR STEATOSIS. OUR RESULTS IDENTIFIED A MICRORNAS-PHOSPHOSTAT3 PATHWAY INVOLVED IN THE DEVELOPMENT OF HEPATIC STEATOSIS, WHICH MAY REPRESENT A MOLECULAR MARKER FOR BOTH DIAGNOSIS AND THERAPEUTIC TARGETING.	2018	
                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                              
11  4629  41 NEUROEPIGENETIC CHANGES IN DNA METHYLATION AFFECTING DIABETES-INDUCED COGNITIVE IMPAIRMENT. CHRONIC DIABETIC CONDITIONS HAVE BEEN ASSOCIATED WITH CERTAIN CEREBRAL COMPLICATIONS, THAT INCLUDE NEUROBEHAVIORAL DYSFUNCTIONAL PATTERNS AND MORPHOLOGICAL ALTERATIONS OF NEURONS, ESPECIALLY THE HIPPOCAMPUS. NEUROANATOMICAL STUDIES DONE BY THE AUTHORS HAVE SHOWN DECREASED TOTAL DENDRITIC LENGTH, INTERSECTIONS, DENDRITIC LENGTH PER BRANCH ORDER AND NODES IN THE CA1 HIPPOCAMPAL REGION OF THE DIABETIC BRAIN AS COMPARED TO ITS NORMAL CONTROL GROUP, INDICATING REDUCED DENDRITIC ARBORIZATION OF THE HIPPOCAMPAL CA1 NEURONS. EPIGENETIC ALTERATIONS IN THE BRAIN ARE WELL KNOWN TO AFFECT AGE-ASSOCIATED DISORDERS, HOWEVER ITS ASSOCIATION WITH THE EVOLVING DIABETES-INDUCED DAMAGE IN THE BRAIN IS STILL NOT FULLY UNDERSTOOD. DNA HYPERMETHYLATION WITHIN THE NEURONS, TEND TO SILENT THE GENE EXPRESSION OF SEVERAL REGULATORY PROTEINS. THE FINDINGS IN THE STUDY HAVE SHOWN AN INCREASE IN GLOBAL DNA METHYLATION IN PALMITIC ACID-INDUCED LIPOTOXIC NEURO-2A CELLS AS WELL AS WITHIN THE DIABETIC MICE BRAIN. INHIBITING DNA METHYLATION, RESTORED THE LEVELS OF HSF1 AND CERTAIN HSPS, SUGGESTING PLAUSIBLE EFFECT OF DNMTS IN MAINTAINING THE PROTEOSTASIS AND SYNAPTIC FIDELITY. NEUROINFLAMMATION, AS EXHIBITED BY THE ASTROCYTE ACTIVATION (GFAP), WERE FURTHER SIGNIFICANTLY DECREASED IN THE 5-AZADEOXYCYTIDINE GROUP (DNMT INHIBITOR). THIS WAS FURTHER EVIDENCED BY DECREASE IN PROINFLAMMATORY CYTOKINES TNF?, IL-6, AND MEDIATORS INOS AND PHOSPHO-NFKB. OUR RESULTS SUGGEST THAT CHANGES IN DNA METHYLATION ADVOCATE EPIGENETIC DYSREGULATION AND ITS INVOLVEMENT IN DISRUPTING THE SYNAPTIC EXACTITUDE IN THE HIPPOCAMPUS OF DIABETIC MICE MODEL, PROVIDING AN INSIGHT INTO THE PATHOPHYSIOLOGY OF DIABETES-INDUCED NEUROEPIGENETIC CHANGES.	2023	
                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                          
12  1837  43 EFFECTS OF PALMITATE ON GENOME-WIDE MRNA EXPRESSION AND DNA METHYLATION PATTERNS IN HUMAN PANCREATIC ISLETS. BACKGROUND: CIRCULATING FREE FATTY ACIDS ARE OFTEN ELEVATED IN PATIENTS WITH TYPE 2 DIABETES (T2D) AND OBESE INDIVIDUALS. CHRONIC EXPOSURE TO HIGH LEVELS OF SATURATED FATTY ACIDS HAS DETRIMENTAL EFFECTS ON ISLET FUNCTION AND INSULIN SECRETION. ALTERED GENE EXPRESSION AND EPIGENETICS MAY CONTRIBUTE TO T2D AND OBESITY. HOWEVER, THERE IS LIMITED INFORMATION ON WHETHER FATTY ACIDS ALTER THE GENOME-WIDE TRANSCRIPTOME PROFILE IN CONJUNCTION WITH DNA METHYLATION PATTERNS IN HUMAN PANCREATIC ISLETS. TO DISSECT THE MOLECULAR MECHANISMS LINKING LIPOTOXICITY TO IMPAIRED INSULIN SECRETION, WE INVESTIGATED THE EFFECTS OF A 48 H PALMITATE TREATMENT IN VITRO ON GENOME-WIDE MRNA EXPRESSION AND DNA METHYLATION PATTERNS IN HUMAN PANCREATIC ISLETS. METHODS: GENOME-WIDE MRNA EXPRESSION WAS ANALYZED USING AFFYMETRIX GENECHIP((R)) HUMAN GENE 1.0 ST WHOLE TRANSCRIPT-BASED ARRAY (N = 13) AND GENOME-WIDE DNA METHYLATION WAS ANALYZED USING INFINIUM HUMANMETHYLATION450K BEADCHIP (N = 13) IN HUMAN PANCREATIC ISLETS EXPOSED TO PALMITATE OR CONTROL MEDIA FOR 48 H. A NON-PARAMETRIC PAIRED WILCOXON STATISTICAL TEST WAS USED TO ANALYZE MRNA EXPRESSION. APOPTOSIS WAS MEASURED USING APO-ONE((R)) HOMOGENEOUS CASPASE-3/7 ASSAY (N = 4). RESULTS: WHILE GLUCOSE-STIMULATED INSULIN SECRETION WAS DECREASED, THERE WAS NO SIGNIFICANT EFFECT ON APOPTOSIS IN HUMAN ISLETS EXPOSED TO PALMITATE. WE IDENTIFIED 1,860 DIFFERENTIALLY EXPRESSED GENES IN PALMITATE-TREATED HUMAN ISLETS. THESE INCLUDE CANDIDATE GENES FOR T2D, SUCH AS TCF7L2, GLIS3, HNF1B AND SLC30A8. ADDITIONALLY, GENES IN GLYCOLYSIS/GLUCONEOGENESIS, PYRUVATE METABOLISM, FATTY ACID METABOLISM, GLUTATHIONE METABOLISM AND ONE CARBON POOL BY FOLATE WERE DIFFERENTIALLY EXPRESSED IN PALMITATE-TREATED HUMAN ISLETS. PALMITATE TREATMENT ALTERED THE GLOBAL DNA METHYLATION LEVEL AND DNA METHYLATION LEVELS OF CPG ISLAND SHELVES AND SHORES, 5'UTR, 3'UTR AND GENE BODY REGIONS IN HUMAN ISLETS. MOREOVER, 290 GENES WITH DIFFERENTIAL EXPRESSION HAD A CORRESPONDING CHANGE IN DNA METHYLATION, FOR EXAMPLE, TCF7L2 AND GLIS3. IMPORTANTLY, OUT OF THE GENES DIFFERENTIALLY EXPRESSED DUE TO PALMITATE TREATMENT IN HUMAN ISLETS, 67 WERE ALSO ASSOCIATED WITH BMI AND 37 WERE DIFFERENTIALLY EXPRESSED IN ISLETS FROM T2D PATIENTS. CONCLUSION: OUR STUDY DEMONSTRATES THAT PALMITATE TREATMENT OF HUMAN PANCREATIC ISLETS GIVES RISE TO EPIGENETIC MODIFICATIONS THAT TOGETHER WITH ALTERED GENE EXPRESSION MAY CONTRIBUTE TO IMPAIRED INSULIN SECRETION AND T2D.	2014	
                                                                                                                                                                  
13  3456  34 HYPOMETHYLATION OF IL1RN AND NFKB1 GENES IS LINKED TO THE DYSBALANCE IN IL1BETA/IL-1RA AXIS IN FEMALE PATIENTS WITH TYPE 2 DIABETES MELLITUS. INFLAMMATION HAS RECEIVED CONSIDERABLE ATTENTION IN THE PATHOGENESIS OF TYPE 2 DIABETES MELLITUS (T2DM). SUPPORTING THIS CONCEPT, ENHANCED EXPRESSION OF INTERLEUKIN (IL)-1BETA AND INCREASED INFILTRATION OF MACROPHAGES ARE OBSERVED IN PANCREATIC ISLETS OF PATIENTS WITH T2DM. ALTHOUGH IL-1 RECEPTOR ANTAGONIST (IL-1RA) PLAYS A MAJOR ROLE IN CONTROLLING OF IL-1BETA-MEDIATED INFLAMMATION, ITS COUNTERACTION EFFECTS AND EPIGENETIC ALTERATIONS IN T2DM ARE LESS STUDIED. THUS, WE AIMED TO ANALYZE THE DNA METHYLATION STATUS IN IL1RN, RELA (P65) AND NFKB1 (P50) GENES IN PERIPHERAL BLOOD MONONUCLEAR CELLS (PBMCS) FROM TREATED T2DM PATIENTS (N = 35) AND AGE-/SEX- MATCHED HEALTHY CONTROLS (N = 31). PRODUCTION OF IL-1BETA AND IL-1RA WAS ANALYZED IN PLASMA AND SUPERNATANTS FROM LPS-INDUCED PBMCS. IMMUNOMODULATORY EFFECTS OF IL-1BETA AND IL-1RA WERE STUDIED ON THP-1 CELLS. AVERAGE DNA METHYLATION LEVEL OF IL1RN AND NFKB1 GENE PROMOTERS WAS SIGNIFICANTLY DECREASED IN T2DM PATIENTS IN COMPARISON WITH HEALTHY CONTROLS (P< 0.05), WHICH WAS ASSOCIATED WITH THE INCREASED IL-1RA (P< 0.001) AND IL-1BETA (P = 0.039) PLASMA LEVELS IN T2DM PATIENTS. NEGATIVE ASSOCIATION BETWEEN AVERAGE METHYLATION OF IL1RN GENE AND IL-1RA PLASMA LEVELS WERE OBSERVED IN FEMALE T2DM PATIENTS. METHYLATION OF NFKB1 GENE WAS NEGATIVELY CORRELATED WITH IL-1RA LEVELS IN THE PATIENTS AND POSITIVELY WITH IL-1BETA LEVELS IN FEMALE PATIENTS. LPS-STIMULATED PBMCS FROM FEMALE PATIENTS FAILED TO RAISE IL-1BETA PRODUCTION, WHILE THE CELLS FROM HEALTHY FEMALES INCREASED IL-1BETA PRODUCTION IN COMPARISON WITH UNSTIMULATED CELLS (P< 0.001). TAKEN TOGETHER, THE FINDINGS SUGGEST THAT HYPOMETHYLATION OF IL1RN AND NFKB1 GENE PROMOTERS MAY PROMOTE THE INCREASED IL-1BETA/IL-1RA PRODUCTION AND REGULATE CHRONIC INFLAMMATION IN T2DM. FURTHER STUDIES ARE NECESSARY TO ELUCIDATE THE CAUSAL DIRECTION OF THESE ASSOCIATIONS AND POTENTIAL ROLE OF IL-1RA IN ANTI-INFLAMMATORY PROCESSES IN TREATED PATIENTS WITH T2DM.	2020	
                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                      
14  1666  46 DOWNREGULATION OF MICRORNA-145A-5P PROMOTES STEATOSIS-TO-NASH PROGRESSION THROUGH UPREGULATION OF NR4A2. BACKGROUND & AIMS: THE MOLECULAR MECHANISMS UNDERLYING THE PROGRESSION OF SIMPLE STEATOSIS TO NON-ALCOHOLIC STEATOHEPATITIS (NASH) REMAIN INCOMPLETELY UNDERSTOOD, THOUGH THE POTENTIAL ROLE OF EPIGENETIC REGULATION BY MICRORNA (MIRNAS) IS AN AREA OF INCREASING INTEREST. IN THE PRESENT STUDY, WE AIMED TO INVESTIGATE THE ROLE AND MECHANISM OF MIRNAS DURING STEATOSIS-TO-NASH PROGRESSION. METHODS: MIR-145A-5P WAS IDENTIFIED AS AN IMPORTANT CHECKPOINT IN STEATOSIS-TO-NASH PROGRESSION. IN VIVO LOSS-OF-FUNCTION AND GAIN-OF-FUNCTION STUDIES WERE PERFORMED TO EXPLORE THE ROLE OF MIR-145A-5P AND NR4A2 IN NASH PROGRESSION. RNA-SEQUENCING AND BIOINFORMATIC ANALYSIS WERE USED TO INVESTIGATE THE TARGETS OF MIR-145A-5P. RESULTS: SUPPRESSION OF MIR-145A-5P IN THE LIVER AGGRAVATED LIPID ACCUMULATION AND ACTIVATED HEPATIC INFLAMMATION, LIVER INJURY AND FIBROSIS IN STEATOTIC MICE, WHEREAS ITS RESTORATION MARKEDLY ATTENUATED DIET-INDUCED NASH PATHOGENESIS. MECHANISTICALLY, MIR-145A-5P WAS ABLE TO DOWNREGULATE THE NUCLEAR RECEPTOR NR4A2 AND THUS INHIBIT THE EXPRESSION OF NASH-ASSOCIATED GENES. SIMILARLY, NR4A2 OVEREXPRESSION PROMOTED STEATOSIS-TO-NASH PROGRESSION WHILE LIVER-SPECIFIC NR4A2 KNOCKOUT MICE WERE PROTECTED FROM DIET-INDUCED NASH. THIS ROLE OF THE MIR-145A-5P/NR4A2 REGULATORY AXIS WAS ALSO CONFIRMED IN PRIMARY HUMAN HEPATOCYTES. FURTHERMORE, THE EXPRESSION OF MIR-145A-5P WAS REDUCED AND THE EXPRESSION OF NR4A2 WAS INCREASED IN THE LIVERS OF PATIENTS WITH NASH, WHILE THEIR EXPRESSION LEVELS SIGNIFICANTLY NEGATIVELY AND POSITIVELY CORRELATED WITH FEATURES OF LIVER PATHOLOGY, RESPECTIVELY. CONCLUSIONS: OUR FINDINGS HIGHLIGHT THE ROLE OF THE MIR-145A-5P/NR4A2 REGULATORY AXIS IN STEATOSIS-TO-NASH PROGRESSION, SUGGESTING THAT EITHER SUPPLEMENTATION OF MIR-145A-5P OR PHARMACOLOGICAL INHIBITION OF NR4A2 IN HEPATOCYTES MAY PROVIDE A PROMISING THERAPEUTIC APPROACH FOR THE TREATMENT OF NASH. IMPACT AND IMPLICATIONS: NON-ALCOHOLIC FATTY LIVER DISEASE (NAFLD) IS A DYNAMIC SPECTRUM OF CHRONIC LIVER DISEASES RANGING FROM SIMPLE STEATOSIS TO NON-ALCOHOLIC STEATOHEPATITIS (NASH). UNFORTUNATELY, THERE ARE CURRENTLY NO APPROVED DRUGS FOR NASH. OUR CURRENT STUDY IDENTIFIED MIR-145A-5P AS A NOVEL REGULATOR THAT INHIBITS STEATOSIS-TO-NASH PROGRESSION. WE FOUND THAT MIR-145A-5P WAS ABLE TO DOWNREGULATE THE NUCLEAR RECEPTOR NR4A2 TO SUPPRESS THE EXPRESSION OF NASH-ASSOCIATED GENES. THE DIFFERENTIAL EXPRESSION OF MIR-145A-5P AND NR4A2 WAS FURTHER CONFIRMED IN PATIENTS WITH NASH, RAISING THE POSSIBILITY THAT SUPPLEMENTATION OF MIR-145A-5P OR SUPPRESSION OF NR4A2 IN HEPATOCYTES MIGHT PROVIDE NOVEL STRATEGIES FOR TREATING NASH.	2023	

15  4303  40 MICRORNA-223 INHIBITS TISSUE FACTOR EXPRESSION IN VASCULAR ENDOTHELIAL CELLS. OBJECTIVE: ATHEROSCLEROSIS IS A CHRONIC INFLAMMATORY PROCESS, IN WHICH VASCULAR ENDOTHELIAL CELLS (ECS) BECOME DYSFUNCTIONAL OWING TO THE EFFECTS OF CHEMICAL SUBSTANCES, SUCH AS INFLAMMATORY FACTOR AND GROWTH FACTORS. TISSUE FACTOR (TF) EXPRESSION IS INDUCED BY THE ABOVE CHEMICAL SUBSTANCES IN ACTIVATED ECS. TF INITIATES THROMBOSIS ON DISRUPTED ATHEROSCLEROTIC PLAQUES WHICH PLAYS AN ESSENTIAL ROLE DURING THE ONSET OF ACUTE CORONARY SYNDROMES (ACS). INCREASING EVIDENCES SUGGEST THE IMPORTANT ROLE OF MICRORNAS AS EPIGENETIC REGULATORS OF ATHEROSCLEROTIC DISEASE. THE AIM OF OUR STUDY IS TO IDENTIFY IF MICRORNA-223 (MIR-223) TARGETS TF IN ECS. METHODS AND RESULTS: BIOINFORMATIC ANALYSIS SHOWED THAT TF IS A TARGET CANDIDATE OF MIR-223. WESTERN BLOTTING ANALYSIS REVEALED THAT TUMOR NECROSIS FACTOR ALPHA (TNF-ALPHA) INCREASED TF EXPRESSION IN AORTA OF C57BL/6J MICE AND CULTURED ECS (EA.HY926 CELLS AND HUVEC) AFTER 4 H TREATMENT. IN TNF-ALPHA TREATED ECS, TF MRNA WAS ALSO INCREASED MEASURED BY REAL-TIME PCR. REAL-TIME PCR RESULTS SHOWED THAT MIR-223 LEVELS WERE DOWNREGULATED IN TNF-ALPHA-TREATED AORTA OF C57BL/6J MICE AND CULTURED ECS. TRANSFECTION OF ECS WITH MIR-223 MIMIC OR MIR-223 INHIBITOR MODIFIED TF EXPRESSION BOTH IN MRNA AND PROTEIN LEVELS. LUCIFERASE ASSAYS CONFIRMED THAT MIR-223 SUPPRESSED TF EXPRESSION BY BINDING TO THE SEQUENCE OF TF 3'-UNTRANSLATED REGIONS (3'UTR). TF PROCOAGULANT ACTIVITY WAS INHIBITED BY OVEREXPRESSING MIR-223 WITH OR WITHOUT TNF-ALPHA STIMULATION. CONCLUSIONS: MIR-223-MEDIATED SUPPRESSION OF TF EXPRESSION PROVIDES A NOVEL MOLECULAR MECHANISM FOR THE REGULATION OF COAGULATION CASCADE, AND SUGGESTS A CLUE AGAINST THROMBOGENESIS DURING THE PROCESS OF ATHEROSCLEROTIC PLAQUE RUPTURE.	2014	
                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                  
16  6235  35 THE M(6)A DEMETHYLASE FTO PROMOTES RENAL EPITHELIAL-MESENCHYMAL TRANSITION BY REDUCING THE M(6)A MODIFICATION OF LNCRNA GAS5. BACKGROUND: RENAL INTERSTITIAL FIBROSIS (RIF) IS THE MAIN PATHOLOGICAL CHANGE OF A VARIETY OF CHRONIC KIDNEY DISEASES (CKD). EPIGENETIC MODIFICATIONS OF FIBROSIS-PRONE GENES REGULATE RIF PROGRESSION. THIS STUDY AIMED TO INVESTIGATE LONG NON-CODING RNA (LNCRNA) N6-METHYLADENOSINE (M(6)A) MODIFICATION AND ITS ROLE IN REGULATING RIF PROGRESSION. METHODS: UNILATERAL URETERAL OCCLUSION (UUO) WAS EMPLOYED TO CONSTRUCT THE RIF IN VIVO MODEL; AND TGF-BETA1-TREATED HK-2 AND HKC-8 CELLS WERE USED FOR IN VITRO EXPERIMENTS. THE MRNA AND PROTEIN EXPRESSIONS WERE ASSESSED USING QRT-PCR AND WESTERN BLOT. THE PROLIFERATION AND MIGRATION WERE EVALUATED BY EDU ASSAY AND TRANSWELL ASSAY, RESPECTIVELY. IN ADDITION, LEVELS OF INFLAMMATORY CYTOKINES WERE DETERMINED BY ELISA ASSAY AND QRT-PCR. MOREOVER, LNCRNA GAS5 M(6)A LEVEL WAS DETECTED USING ME-RIP ASSAY. HE AND MASSON STAINING WERE EMPLOYED TO EVALUATE FIBROTIC LESIONS OF THE KIDNEY. RESULTS: FTO EXPRESSION WAS ELEVATED IN HK-2 AND HKC-8 CELLS AFTER TGF-BETA1 TREATMENT AND MOUSE KIDNEY TISSUE FOLLOWING UUO, AND LNCRNA GAS5 WAS DOWNREGULATED. LNCRNA GAS5 OVEREXPRESSION OR FTO SILENCING SUPPRESSED TGF-BETA1-INDUCED THE INCREASE OF EMT-RELATED PROTEINS (VIMENTIN, SNAIL AND N-CADHERIN) AND INFLAMMATORY CYTOKINES (IL-6, IL-1BETA AND TNF-ALPHA) LEVELS IN HK-2 CELLS. FTO SUPPRESSED LNCRNA GAS5 EXPRESSION BY REDUCING THE M6A MODIFICATION OF LNCRNA GAS5. ADDITIONALLY, FTO KNOCKDOWN COULD SUPPRESS EMT PROCESS AND INFLAMMATION RESPONSE INDUCED BY TGF-BETA1 AND UUO IN VITRO AND IN VIVO. AS EXPECTED, FTO KNOCKDOWN ABROGATED THE PROMOTION EFFECTS OF LNCRNA GAS5 SILENCING ON TGF-BETA1-INDUCED EMT PROCESS AND INFLAMMATION RESPONSE IN HK-2 AND HKC-8 CELLS. CONCLUSION: FTO PROMOTED EMT PROCESS AND INFLAMMATION RESPONSE THROUGH REDUCING THE M(6)A MODIFICATION OF LNCRNA GAS5.	2022	
                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                            
17  2326  38 EPIGENETIC REGULATION OF HOTAIR IN ADVANCED CHRONIC MYELOID LEUKEMIA. PURPOSE: CHRONIC MYELOID LEUKEMIA (CML) ACCOUNTS FOR ~10% OF LEUKEMIA CASES, AND ITS PROGRESSION INVOLVES EPIGENETIC GENE REGULATION. THIS STUDY INVESTIGATED EPIGENETIC REGULATION OF HOTAIR AND ITS TARGET MICRORNA, MIR-143, IN ADVANCED CML. PATIENTS AND METHODS: WE FIRST ISOLATED BONE MARROW MONONUCLEAR CELLS FROM 70 PATIENTS WITH DIFFERENT PHASES OF CML AND FROM HEALTHY DONORS AS NORMAL CONTROL; WE ALSO CULTURED K562 AND KCL22 CELLS, TREATED WITH DEMETHYLATION DRUG; MTT ASSAY, FLOW CYTOMETRY, QUANTITATIVE REAL-TIME POLYMERASE CHAIN REACTION (QPCR), METHYLATION-SPECIFIC POLYMERASE CHAIN REACTION (MSP), WESTERN BLOT, LUCIFERASE ASSAY, RNA PULL-DOWN ASSAY AND RNA-BINDING PROTEIN IMMUNOPRECIPITATION (RIP) ASSAY WERE PERFORMED. RESULT: AS MEASURED BY QPCR, HOTAIR EXPRESSION IN K562 CELLS, KCL22 CELLS, AND SAMPLES FROM CASES OF ADVANCED-STAGE CML INCREASED WITH LEVELS OF SEVERAL DNA METHYLTRANSFERASES AND HISTONE DEACETYLATES, INCLUDING DNMT1, DNMT3A, HDAC1, EZH2, AND LSD1, AND MIR-143 LEVELS WERE DECREASED AND HOTAIR LEVELS WERE INCREASED. TREATMENT WITH 5-AZACYTIDINE, A DNA METHYLATION INHIBITOR, DECREASED DNMT1, DNMT3A, HDAC1, EZH2, LSD1 MRNA, PROTEIN LEVELS, AND HOTAIR MRNA LEVELS BUT INCREASED MIR-143 LEVELS. HOTAIR KNOCKDOWN AND MIR-143 OVEREXPRESSION BOTH INHIBITED PROLIFERATION AND PROMOTED APOPTOSIS IN KCL22 AND K562 CELLS THROUGH THE PI3K/AKT PATHWAY. RNA PULL-DOWN, MASS SPECTROMETRY, AND RIP ASSAYS SHOWED THAT HOTAIR INTERACTED WITH EZH2 AND LSD1. A DUAL-LUCIFERASE ASSAY DEMONSTRATED THAT HOTAIR INTERACTED WITH MIR-143. CONCLUSION: OUR FINDINGS DEMONSTRATE THE KEY EPIGENETIC INTERACTIONS OF HOTAIR RELATED TO CML PROGRESSION AND SUGGEST HOTAIR AS A POTENTIAL THERAPEUTIC TARGET FOR ADVANCED CML. FURTHERMORE, OUR RESULTS SUPPORT THE USE OF DEMETHYLATION DRUGS AS A CML TREATMENT STRATEGY.	2018	
                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                  
18   701  33 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	
                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                      
19  4286  47 MICRORNA EXPRESSION ANALYSIS IN HIGH FAT DIET-INDUCED NAFLD-NASH-HCC PROGRESSION: STUDY ON C57BL/6J MICE. BACKGROUND: HEPATOCELLULAR CARCINOMA (HCC) IS THE MOST COMMON MALIGNANT TUMOR OF THE LIVER. NON-ALCOHOLIC FATTY LIVER DISEASE (NAFLD) IS A FREQUENT CHRONIC LIVER DISORDER IN DEVELOPED COUNTRIES. NAFLD CAN PROGRESS THROUGH THE MORE SEVERE NON ALCOHOLIC STEATOHEPATITIS (NASH), CIRRHOSIS AND, LASTLY, HCC. GENETIC AND EPIGENETIC ALTERATIONS OF CODING GENES AS WELL AS DEREGULATION OF MICRORNAS (MIRNAS) ACTIVITY PLAY A ROLE IN HCC DEVELOPMENT. IN THIS STUDY, THE C57BL/6J MOUSE MODEL WAS LONG TERM HIGH-FAT (HF) OR LOW-FAT (LF) DIET FED, IN ORDER TO ANALYZE MOLECULAR MECHANISMS RESPONSIBLE FOR THE HEPATIC DAMAGE PROGRESSION. METHODS: MICE WERE HF OR LF DIET FED FOR DIFFERENT TIME POINTS, THEN PLASMA AND HEPATIC TISSUES WERE COLLECTED. HISTOLOGICAL AND CLINICAL CHEMISTRY ASSAYS WERE PERFORMED TO ASSESS THE PROGRESSION OF LIVER DISEASE. MICRORNAS' DIFFERENTIAL EXPRESSION WAS EVALUATED ON POOLED RNAS FROM TISSUES, AND SOME MIRNAS SHOWING DYSREGULATION WERE FURTHER ANALYZED AT THE INDIVIDUAL LEVEL. RESULTS: CHOLESTEROL, LOW AND HIGH DENSITY LIPOPROTEINS, TRIGLYCERIDES AND ALANINE AMINOTRANSFERASE INCREASE WAS DETECTED IN HF MICE. GROSS ANATOMICAL EXAMINATION REVEALED HEPATOMEGALY IN HF LIVERS, AND HISTOLOGICAL ANALYSIS HIGHLIGHTED DIFFERENT DEGREES AND LEVELS OF STEATOSIS, INFLAMMATORY INFILTRATE AND FIBROSIS IN HF AND LF ANIMALS, DEMONSTRATING THE PROGRESSION FROM NAFLD THROUGH NASH. MACROSCOPIC NODULES, SHOWING TYPICAL NEOPLASTIC FEATURES, WERE OBSERVED IN 20% OF HF DIET FED MICE. FIFTEEN MIRNAS DIFFERENTIALLY EXPRESSED IN HF WITH RESPECT TO LF HEPATIC TISSUES DURING THE PROGRESSION OF LIVER DAMAGE, AND IN TUMORS WITH RESPECT TO HF NON TUMOR LIVER SPECIMENS WERE IDENTIFIED. AMONG THEM, MIR-340-5P, MIR-484, MIR-574-3P, MIR-720, WHOSE EXPRESSION WAS NEVER DESCRIBED IN NAFLD, NASH AND HCC TISSUES, AND MIR-125A-5P AND MIR-182, WHICH SHOWED EARLY AND SIGNIFICANT DYSREGULATION IN THE SEQUENTIAL HEPATIC DAMAGE PROCESS. CONCLUSIONS: IN THIS STUDY, FIFTEEN MICRORNAS WHICH WERE MODULATED IN HEPATIC TISSUES AND IN TUMORS DURING THE TRANSITION NAFLD-NASH-HCC ARE REPORTED. BESIDES SOME ALREADY DESCRIBED, NEW AND EARLY DYSREGULATED MIRNAS WERE IDENTIFIED. FUNCTIONAL ANALYSES ARE NEEDED TO VALIDATE THE RESULTS HERE OBTAINED, AND TO BETTER DEFINE THE ROLE OF THESE MOLECULES IN THE PROGRESSION OF THE HEPATIC DISEASE.	2016	
                                                                                                                                                                                                                                                                                                                
20  1906  33 ENHANCER OF ZESTE HOMOLOG 2-CATALYSED H3K27 TRIMETHYLATION PLAYS A KEY ROLE IN ACUTE-ON-CHRONIC LIVER FAILURE VIA TNF-MEDIATED PATHWAY. ACUTE-ON-CHRONIC LIVER FAILURE IS MAINLY DUE TO HOST IMMUNITY SELF-DESTRUCTION. THE HISTONE H3 LYSINE 27 (H3K27) TRIMETHYLATING ENZYME, ENHANCER OF ZESTE HOMOLOG 2 (EZH2) MEDIATES EPIGENETIC SILENCING OF GENE EXPRESSION AND REGULATES IMMUNITY, ALSO INVOLVES PATHOGENESIS OF SEVERAL LIVER DISEASES. THE CURRENT STUDY WAS TO DETERMINE THE ROLE OF METHYLTRANSFERASE EZH2 AND ITS CATALYSED H3K27 TRIMETHYLATION (H3K27ME3) IN LIVER FAILURE, AND TO FURTHER INVESTIGATE THE POTENTIAL TARGET FOR LIVER FAILURE TREATMENT. EZH2 AND ITS CATALYSED H3K27ME3 WERE DETERMINED IN PERIPHERAL BLOOD MONONUCLEAR CELLS (PBMC) FROM LIVER FAILURE PATIENTS AND KUPFFER CELLS FROM EXPERIMENTAL MICE. FURTHERMORE, GSK126 (AN INHIBITOR FOR EZH2 TRIMETHYLATION FUNCTION) WAS APPLIED IN LIVER FAILURE MICE IN VIVO, AND LIPOPOLYSACCHARIDE-STIMULATED MONONUCLEAR CELLS IN VITRO. EZH2 AND H3K27ME3 WERE SIGNIFICANTLY UPREGULATED IN HUMAN PBMC FROM LIVER FAILURE PATIENTS OR MURINE KUPFFER CELLS FROM THE LIVER FAILURE ANIMALS, RESPECTIVELY. GSK126 AMELIORATED DISEASE SEVERITY IN LIVER FAILURE MICE, WHICH MAYBE ATTRIBUTE TO DOWN-REGULATE CIRCULATING AND HEPATIC PROINFLAMMATORY CYTOKINES, ESPECIALLY TNF VIA REDUCING H3K27ME3. IN-DEPTH CHROMATIN IMMUNOPRECIPITATION ANALYSIS UNRAVELLED THAT DECREASED ENRICHMENT OF H3K27ME3 ON TNF PROMOTOR, RESULTING IN TNF ELEVATION IN KUPFFER CELLS FROM LIVER FAILURE MICE. NUCLEAR FACTOR KAPPA B (NF-KAPPAB) AND PROTEIN KINASE B (AKT) SIGNALLING PATHWAYS WERE ACTIVATED UPON LIPOPOLYSACCHARIDE STIMULATION, BUT ATTENUATED BY USING GSK126, ACCOMPANIED WITH DECREASED TNF IN VITRO. IN CONCLUSION, EZH2 AND H3K27ME3 CONTRIBUTED TO THE PATHOGENESIS OF LIVER FAILURE VIA TRIGGERING TNF AND OTHER INDISPENSABLE PROINFLAMMATORY CYTOKINES. EZH2 WAS TO MODIFY H3K27ME3 ENRICHMENT, AS WELL AS, ACTIVATION OF THE DOWNSTREAM NF-KAPPAB AND AKT SIGNALLING PATHWAYS.	2018