1 4737 144 NOVEL EPIGENETIC-SENSITIVE CLINICAL CHALLENGES BOTH IN TYPE 1 AND TYPE 2 DIABETES. BACKGROUND: EPIGENETICS MODULATED TISSUE-SPECIFIC GENE EXPRESSION DURING THE ONSET OF TYPE 1 AND TYPE 2 DIABETES AND THEIR COMPLICATIONS. METHODS: WE SEARCHED THE PUBMED RECENT STUDIES ABOUT THE MAIN EPIGENETIC TAGS INVOLVED IN TYPE 1 AND TYPE 2 DIABETES ONSET AND THEIR CLINICAL COMPLICATIONS. PUBMED STUDIES ABOUT THE EPIGENETIC TAGS INVOLVED IN TYPE 1 AND 2 DIABETES ONSET WAS SEARCHED. RESULTS: THE EPIGENETIC METHYLATION MAPS OF CORD BLOOD SAMPLES HIGHLIGHTED DIFFERENCES IN THE METHYLATION STATUS OF CPG SITES WITHIN THE MHC GENES BETWEEN CARRIERS OF DIABETES TYPE 1 DR3-DQ2 AND DR4-DQ8 RISK HAPLOTYPES. BETA CELL-DERIVED UNMETHYLATED INS DNA SHOWED THE DECLINE OF BETA-CELL MASS PRESERVING INSULIN SECRETION. DIFFERENTIALLY METHYLATED REGIONS IN PANCREATIC ISLETS FROM TYPE 2 DIABETES COVERED PDX1, TCF7L2, AND ADCY5 PROMOTERS DURING ISLET DYSFUNCTION. THE RECRUITMENT OF SET7 AND SUV39H1 HISTONE METHYLTRANSFERASES AND LSD-1 LYSINE-SPECIFIC DEMETHYLASE-1 AT NF-KBETA-P65 PROMOTER IN VASCULAR CELLS WAS INVOLVED IN CORONARY HEART DISEASE. NEUTROPHIL EXTRACELLULAR TRAP, ACTIVATED BY PROTEIN ARGININE DEIMINASE-4, IMPAIRED WOUND HEALING FROM DIABETIC FOOT ULCERS. MIR-199A-3P OVER-EXPRESSION INDUCED COAGULATIVE CASCADE, SWELLING AND PAIN BY A DOWN-REGULATION OF SERPIN-E2 IN DIABETIC PERIPHERAL NEUROPATHY. A DNA HYPO-METHYLATION AND HISTONE HYPER-ACETYLATION AT MIOX PROMOTER LED AN OVEREXPRESSION OF ROS, FIBRONECTIN, HIF-1ALPHA, AND NOX-4 ASSOCIATED WITH DIABETIC TUBULOPATHY. A HYPO-METHYLATION OF H3K4 AT SOD2 PROMOTER BY LSD-1 INCREASED ROS CAUSING DIABETIC RETINOPATHY. CONCLUSIONS: EPIGENETICS PLAYED A RELEVANT ROLE IN PREVENTION, DIAGNOSIS, AND TREATMENT OF DIABETES.	2018	
                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                  
2 6093  36 THE EFFECTS OF HIGH GLUCOSE EXPOSURE ON GLOBAL GENE EXPRESSION AND DNA METHYLATION IN HUMAN PANCREATIC ISLETS. BACKGROUND: TYPE 2 DIABETES (T2D) IS A COMPLEX DISEASE CHARACTERISED BY CHRONIC HYPERGLYCAEMIA. THE EFFECTS OF ELEVATED GLUCOSE ON GLOBAL GENE EXPRESSION IN COMBINATION WITH DNA METHYLATION PATTERNS HAVE NOT YET BEEN STUDIED IN HUMAN PANCREATIC ISLETS. OUR AIM WAS TO STUDY THE IMPACT OF 48 H EXPOSURE TO HIGH (19 MM) VERSUS CONTROL (5.6 MM) GLUCOSE LEVELS ON GLUCOSE-STIMULATED INSULIN SECRETION, GENE EXPRESSION AND DNA METHYLATION IN HUMAN PANCREATIC ISLETS. RESULTS: WHILE ISLETS KEPT AT 5.6 MM GLUCOSE SECRETED SIGNIFICANTLY MORE INSULIN IN RESPONSE TO SHORT TERM GLUCOSE-STIMULATION (P = 0.0067), ISLETS EXPOSED TO HIGH GLUCOSE FOR 48 H WERE DESENSITISED AND UNRESPONSIVE TO SHORT TERM GLUCOSE-STIMULATION WITH RESPECT TO INSULIN SECRETION (P = 0.32). MOREOVER, THE EXPOSURE OF HUMAN ISLETS TO 19 MM GLUCOSE RESULTED IN SIGNIFICANTLY ALTERED EXPRESSION OF EIGHT GENES (FDR<5%), WITH FIVE OF THESE (GLRA1, RASD1, VAC14, SLCO5A1, CHRNA5) ALSO EXHIBITING CHANGES IN DNA METHYLATION (P < 0.05). A GENE SET ENRICHMENT ANALYSIS OF THE EXPRESSION DATA SHOWED SIGNIFICANT ENRICHMENT OF E.G. TGF-BETA SIGNALLING PATHWAY, NOTCH SIGNALLING PATHWAY AND SNARE INTERACTIONS IN VESICULAR TRANSPORT; THESE PATHWAYS ARE OF RELEVANCE FOR ISLET FUNCTION AND POSSIBLY ALSO DIABETES. WE ALSO FOUND INCREASED DNA METHYLATION OF CPG SITES ANNOTATED TO PDX1 IN HUMAN ISLETS EXPOSED TO 19 MM GLUCOSE FOR 48 H. FINALLY, WE COULD FUNCTIONALLY VALIDATE A ROLE FOR GLRA1 IN INSULIN SECRETION. CONCLUSION: OUR DATA DEMONSTRATE THAT HIGH GLUCOSE LEVELS AFFECT HUMAN PANCREATIC ISLET GENE EXPRESSION AND SEVERAL OF THESE GENES ALSO EXHIBIT EPIGENETIC CHANGES. THIS MIGHT CONTRIBUTE TO THE IMPAIRED INSULIN SECRETION SEEN IN T2D.	2018	
                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                    
3 1567  28 DNA METHYLATION OF THE KLF14 GENE REGION IN WHOLE BLOOD CELLS PROVIDES PREDICTION FOR THE CHRONIC INFLAMMATION IN THE ADIPOSE TISSUE. KRUPPEL-LIKE FACTOR 14 (KLF14) GENE, WHICH APPEARS TO BE A MASTER REGULATOR OF GENE EXPRESSION IN THE ADIPOSE TISSUE AND HAVE PREVIOUSLY BEEN ASSOCIATED WITH BMI AND TYPE 2 DIABETES (T2D) BY LARGE GENOME-WIDE ASSOCIATION STUDIES. IN ORDER TO FIND PREDICTIVE BIOMARKERS FOR THE DEVELOPMENT OF T2D, IT IS NECESSARY TO TAKE EPIGENOMIC CHANGES AFFECTED BY ENVIRONMENTAL FACTORS INTO ACCOUNT. THIS STUDY FOCUSES ON AGEING AND OBESITY, WHICH ARE T2D RISK FACTORS, AND EXAMINES EPIGENETIC CHANGES AND INFLAMMATORY CHANGES. WE INVESTIGATED DNA METHYLATION CHANGES IN THE KLF14 PROMOTER REGION IN DIFFERENT ORGANS OF MICE FOR COMPARING AGING AND WEIGHT. WE FOUND THAT METHYLATION LEVELS OF THESE SITES WERE INCREASED WITH AGING AND WEIGHT IN THE SPLEEN, THE ADIPOSE TISSUE, THE KIDNEY, THE LUNG, THE COLON AND THE WHOLE BLOOD CELLS. IN ADDITION, IN THE SPLEEN, THE ADIPOSE TISSUE AND THE WHOLE BLOOD, THESE EPIGENETIC CHANGES WERE ALSO SIGNIFICANTLY ASSOCIATED WITH INFLAMMATORY LEVELS. MOREOVER, NOT ONLY KLF14, BUT ALSO EXPRESSION LEVELS OF SOME DOWNSTREAM GENES WERE DECREASED WITH METHYLATION IN THE SPLEEN, THE ADIPOSE TISSUE AND THE WHOLE BLOOD CELLS. TAKEN TOGETHER, OUR RESULTS SUGGEST THAT METHYLATION CHANGES OF KLF14 IN THOSE TISSUES MAY BE ASSOCIATED WITH CHANGES IN GENE EXPRESSION AND INFLAMMATION ON THE ADIPOSE TISSUE OF OBESITY AND T2D. IN ADDITION, THE METHYLATION CHANGES IN THE WHOLE BLOOD CELLS MAY SERVE AS A PREDICTIVE EPIGENETIC BIOMARKER FOR THE DEVELOPMENT OF T2D.	2018	
                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                          
4 2024  31 EPIGENETIC CHANGES CAUSED BY DIABETES AND THEIR POTENTIAL ROLE IN THE DEVELOPMENT OF PERIODONTITIS. AIMS/INTRODUCTION: PERIODONTAL DISEASE, A CHRONIC INFLAMMATION INDUCED BY BACTERIA, IS CLOSELY LINKED WITH DIABETES MELLITUS. MANY COMPLICATIONS ASSOCIATED WITH DIABETES ARE RELATED TO EPIGENETIC CHANGES. HOWEVER, THE EXACT EPIGENETIC CHANGES WHEREBY DIABETES AFFECTS PERIODONTAL DISEASE REMAIN LARGELY UNKNOWN. THUS, WE SOUGHT TO INVESTIGATE THE ROLE OF DIABETES-DEPENDENT EPIGENETIC CHANGES OF GINGIVAL TISSUE IN THE SUSCEPTIBILITY TO PERIODONTAL DISEASE. MATERIALS AND METHODS: WE STUDIED THE EFFECT OF STREPTOZOTOCIN-INDUCED DIABETES IN MINIPIGS ON GINGIVAL MORPHOLOGICAL AND EPIGENETIC TISSUE CHANGES. ACCORDINGLY, WE RANDOMLY DIVIDED SIX MINIPIGS INTO TWO GROUPS: STREPTOZOTOCIN-INDUCED DIABETES GROUP, N = 3; AND NON-DIABETES HEALTHY CONTROL GROUP, N = 3. AFTER 85 DAYS, ALL ANIMALS WERE KILLED, AND GINGIVAL TISSUE WAS COLLECTED FOR HISTOLOGY, DEOXYRIBONUCLEIC ACID METHYLATION ANALYSIS AND IMMUNOHISTOCHEMISTRY. RESULTS: A DIABETES MELLITUS MODEL WAS SUCCESSFULLY CREATED, AS EVIDENCED BY SIGNIFICANTLY INCREASED BLOOD GLUCOSE LEVELS, REDUCTION OF PANCREATIC INSULIN-PRODUCING BETA-CELLS AND HISTOPATHOLOGICAL CHANGES IN THE KIDNEYS. THE GINGIVAL TISSUES IN THE DIABETES GROUP PRESENTED ACANTHOSIS OF BOTH GINGIVAL SQUAMOUS EPITHELIUM AND SULCULAR/JUNCTIONAL EPITHELIUM, AND A SIGNIFICANT REDUCTION IN THE NUMBER AND LENGTH OF RETE PEGS. DEOXYRIBONUCLEIC ACID METHYLATION ANALYSIS SHOWED A TOTAL OF 1,163 AFFECTED GENES, OF WHICH 599 AND 564 WERE SIGNIFICANTLY HYPERMETHYLATED AND HYPOMETHYLATED, RESPECTIVELY. IMMUNOHISTOCHEMISTRY STAINING SHOWED THAT THE HYPOMETHYLATED GENES - TUMOR NECROSIS FACTOR-ALPHA AND INTERLEUKIN-6 - WERE POSITIVELY EXPRESSED UNDER THE JUNCTIONAL EPITHELIUM AREA IN THE DIABETES GROUP. CONCLUSIONS: DIABETES MELLITUS INDUCES MORPHOLOGICAL AND EPIGENETIC CHANGES IN PERIODONTAL TISSUE, WHICH MIGHT CONTRIBUTE TO THE INCREASED SUSCEPTIBILITY OF PERIODONTAL DISEASES IN PATIENTS WITH DIABETES.	2021	
                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                              
5 5614  28 SAFETY AND EFFICACY OF EPIGENETICALLY CONVERTED HUMAN FIBROBLASTS INTO INSULIN-SECRETING CELLS: A PRECLINICAL STUDY. TYPE 1 DIABETES MELLITUS (T1DM) IS A CHRONIC DISEASE THAT LEADS TO LOSS OF INSULIN SECRETING BETA-CELLS, CAUSING HIGH LEVELS OF BLOOD GLUCOSE. EXOGENOUS INSULIN ADMINISTRATION IS NOT SUFFICIENT TO MIMIC THE NORMAL FUNCTION OF BETA-CELLS AND, CONSEQUENTLY, DIABETES MELLITUS OFTEN PROGRESSES AND CAN LEAD TO MAJOR CHRONIC COMPLICATIONS AND MORBIDITY. THE PHYSIOLOGICAL CONTROL OF GLUCOSE LEVELS CAN ONLY BE RESTORED BY REPLACING THE BETA-CELL MASS.WE RECENTLY DEVELOPED A NEW STRATEGY THAT ALLOWS FOR EPIGENETIC CONVERSION OF DERMAL FIBROBLASTS INTO INSULIN-SECRETING CELLS (EPICC), USING A BRIEF EXPOSURE TO THE DEMETHYLATING AGENT 5-AZA-CYTIDINE (5-AZA-CR), FOLLOWED BY A PANCREATIC INDUCTION PROTOCOL. THIS METHOD HAS NOTABLE ADVANTAGES COMPARED TO THE ALTERNATIVE AVAILABLE PROCEDURES AND MAY REPRESENT A PROMISING TOOL FOR CLINICAL TRANSLATION AS A THERAPY FOR T1DM. HOWEVER, A THOUGHT EVALUATION OF ITS THERAPEUTIC SAFETY AND EFFICACY IS MANDATORY TO SUPPORT PRECLINICAL STUDIES BASED ON EPICC TREATMENT.WE HERE REPORT THE DATA OBTAINED USING HUMAN FIBROBLASTS ISOLATED FROM DIABETIC AND HEALTHY INDIVIDUALS, BELONGING THE TWO GENDERS. EPICC WERE INJECTED INTO 650 DIABETIC SEVERE COMBINED IMMUNODEFICIENCY (SCID) MICE AND DEMONSTRATED TO BE ABLE TO RESTORE AND MAINTAIN GLYCEMIC LEVELS WITHIN THE PHYSIOLOGICAL RANGE. CELLS HAD THE ABILITY TO SELF-REGULATE AND NOT TO CAUSE HYPOGLYCEMIA, WHEN TRANSPLANTED IN HEALTHY ANIMALS. EFFICACY TESTS SHOWED THAT EPICC SUCCESSFULLY RE-ESTABLISHED NORMOGLYCEMIA IN DIABETIC MICE, USING A DOSE RANGE THAT APPEARED CLINICALLY RELEVANT TO THE CONCENTRATION 0.6 X 10(6) EPICC. NECROPSY AND HISTOPATHOLOGICAL INVESTIGATIONS DEMONSTRATED THE ABSENCE OF MALIGNANT TRANSFORMATION AND CELL MIGRATION TO ORGANS AND LYMPH NODES.THE PRESENT PRECLINICAL STUDY DEMONSTRATES SAFETY AND EFFICACY OF HUMAN EPICC IN DIABETIC MICE AND SUPPORTS THE USE OF EPIGENETIC CONVERTED CELLS FOR REGENERATIVE MEDICINE OF DIABETES MELLITUS.	2018	
                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                 
6 2395  29 EPIGENETIC REPROGRAMMING IN MIST1(-/-) MICE PREDICTS THE MOLECULAR RESPONSE TO CERULEIN-INDUCED PANCREATITIS. GENE EXPRESSION IS AFFECTED BY MODIFICATIONS TO HISTONE CORE PROTEINS WITHIN CHROMATIN. CHANGES IN THESE MODIFICATIONS, OR EPIGENETIC REPROGRAMMING, CAN DICTATE CELL FATE AND PROMOTE SUSCEPTIBILITY TO DISEASE. THE GOAL OF THIS STUDY WAS TO DETERMINE THE EXTENT OF EPIGENETIC REPROGRAMMING IN RESPONSE TO CHRONIC STRESS THAT OCCURS FOLLOWING ABLATION OF MIST1 (MIST1(-/-) ), WHICH IS REPRESSED IN PANCREATIC DISEASE. CHROMATIN IMMUNOPRECIPITATION FOR TRIMETHYLATION OF LYSINE RESIDUE 4 ON HISTONE 3 (H3K4ME3) IN PURIFIED ACINAR CELLS FROM WILD TYPE AND MIST1(-/-) MICE WAS FOLLOWED BY NEXT GENERATION SEQUENCING (CHIP-SEQ) OR CHIP-QPCR. H3K4ME3-ENRICHED GENES WERE ASSESSED FOR EXPRESSION BY QRT-PCR IN PANCREATIC TISSUE BEFORE AND AFTER INDUCTION OF CERULEIN-INDUCED PANCREATITIS. WHILE MOST OF H3K4ME3-ENRICHMENT IS RESTRICTED TO TRANSCRIPTIONAL START SITES, >25% OF ENRICHMENT SITES ARE FOUND WITHIN, DOWNSTREAM OR BETWEEN ANNOTATED GENES. LESS THAN 10% OF THESE SITES WERE ALTERED IN MIST1(-/-) ACINI, WITH MOST CHANGES IN H3K4ME3 ENRICHMENT NOT REFLECTING ALTERED GENE EXPRESSION. INGENUITY PATHWAY ANALYSIS OF GENES DIFFERENTIALLY-ENRICHED FOR H3K4ME3 REVEALED AN ASSOCIATION WITH PANCREATITIS AND PANCREATIC DUCTAL ADENOCARCINOMA IN MIST1(-/-) TISSUE. MOST OF THESE GENES WERE NOT DIFFERENTIALLY EXPRESSED BUT SEVERAL WERE READILY INDUCED BY ACUTE EXPERIMENTAL PANCREATITIS, WITH SIGNIFICANTLY INCREASED EXPRESSION IN MIST1(-/-) TISSUE RELATIVE TO WILD TYPE MICE. WE SUGGEST THAT THE CHRONIC CELL STRESS OBSERVED IN THE ABSENCE OF MIST1 RESULTS IN EPIGENETIC REPROGRAMMING OF GENES INVOLVED IN PROMOTING PANCREATITIS TO A POISED STATE, THEREBY INCREASING THE SENSITIVITY TO EVENTS THAT PROMOTE DISEASE.	2014	
                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                               
7 1584  22 DNA METHYLATION PROFILES OF SELECTED PRO-INFLAMMATORY CYTOKINES IN ALZHEIMER DISEASE. BY MEANS OF FUNCTIONAL GENOMICS ANALYSIS, WE RECENTLY DESCRIBED THE MRNA EXPRESSION PROFILES OF VARIOUS GENES INVOLVED IN THE NEUROINFLAMMATORY RESPONSE IN THE BRAINS OF SUBJECTS WITH LATE-ONSET ALZHEIMER DISEASE (LOAD). SOME OF THESE GENES, NAMELY INTERLEUKIN (IL)-1BETA AND IL-6, SHOWED DISTINCT EXPRESSION PROFILES WITH PEAK EXPRESSION DURING THE FIRST STAGES OF THE DISEASE AND CONTROL-LIKE LEVELS AT LATER STAGES. IL-1BETA AND IL-6 GENES ARE MODULATED BY DNA METHYLATION IN DIFFERENT CHRONIC AND DEGENERATIVE DISEASES; IT IS ALSO WELL KNOWN THAT LOAD MAY HAVE AN EPIGENETIC BASIS. INDEED, WE AND OTHERS HAVE PREVIOUSLY REPORTED GENE-SPECIFIC DNA METHYLATION ALTERATIONS IN LOAD AND IN RELATED ANIMAL MODELS. BASED ON THESE DATA, WE STUDIED THE DNA METHYLATION PROFILES, AT SINGLE CYTOSINE RESOLUTION, OF IL-1BETA AND IL-6 5'-FLANKING REGION BY BISULPHITE MODIFICATION IN THE CORTEX OF HEALTHY CONTROLS AND LOAD PATIENTS AT 2 DIFFERENT DISEASE STAGES: BRAAK I-II/A AND BRAAK V-VI/C. OUR ANALYSIS PROVIDES EVIDENCE THAT NEUROINFLAMMATION IN LOAD IS ASSOCIATED WITH (AND POSSIBLY MEDIATED BY) EPIGENETIC MODIFICATIONS.	2017	
                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                   
8 1841  30 EFFECTS OF SHORT CHAIN FATTY ACID PRODUCING BACTERIA ON EPIGENETIC REGULATION OF FFAR3 IN TYPE 2 DIABETES AND OBESITY. THE HUMAN GUT MICROBIOTA AND MICROBIAL INFLUENCES ON LIPID AND GLUCOSE METABOLISM, SATIETY, AND CHRONIC LOW-GRADE INFLAMMATION ARE KNOWN TO BE INVOLVED IN METABOLIC SYNDROME. FERMENTATION END PRODUCTS, ESPECIALLY SHORT CHAIN FATTY ACIDS, ARE BELIEVED TO ENGAGE THE EPIGENETIC REGULATION OF INFLAMMATORY REACTIONS VIA FFARS (FREE FATTY ACID RECEPTOR) AND OTHER SHORT CHAIN FATTY ACID RECEPTORS. WE STUDIED A POTENTIAL INTERACTION OF THE MICROBIOTA WITH EPIGENETIC REGULATION IN OBESE AND TYPE 2 DIABETES PATIENTS COMPARED TO A LEAN CONTROL GROUP OVER A FOUR MONTH INTERVENTION PERIOD. INTERVENTION COMPRISED A GLP-1 AGONIST (GLUCAGON-LIKE PEPTIDE 1) FOR TYPE 2 DIABETICS AND NUTRITIONAL COUNSELING FOR BOTH INTERVENTION GROUPS. MICROBIOTA WAS ANALYZED FOR ABUNDANCE, BUTYRYL-COA:ACETATE COA-TRANSFERASE GENE AND FOR DIVERSITY BY POLYMERASE CHAIN REACTION AND 454 HIGH-THROUGHPUT SEQUENCING. EPIGENETIC METHYLATION OF THE PROMOTER REGION OF FFAR3 AND LINE1 (LONG INTERSPERSED NUCLEAR ELEMENT 1) WAS ANALYZED USING BISULFITE CONVERSION AND PYROSEQUENCING. THE DIVERSITY OF THE MICROBIOTA AS WELL AS THE ABUNDANCE OF FAECALIBACTERIUM PRAUSNITZII WERE SIGNIFICANTLY LOWER IN OBESE AND TYPE 2 DIABETIC PATIENTS COMPARED TO LEAN INDIVIDUALS. RESULTS FROM CLOSTRIDIUM CLUSTER IV AND CLOSTRIDIUM CLUSTER XIVA SHOWED A DECREASING TREND IN TYPE 2 DIABETICS IN COMPARISON TO THE BUTYRYL-COA:ACETATE COA-TRANSFERASE GENE AND ACCORDING TO MELT CURVE ANALYSIS. DURING INTERVENTION NO SIGNIFICANT CHANGES WERE OBSERVED IN EITHER INTERVENTION GROUP. THE ANALYSIS OF FIVE CPGS IN THE PROMOTER REGION OF FFAR3 SHOWED A SIGNIFICANT LOWER METHYLATION IN OBESE AND TYPE 2 DIABETICS WITH AN INCREASE IN OBESE PATIENTS OVER THE INTERVENTION PERIOD. THESE RESULTS DISCLOSED A SIGNIFICANT CORRELATION BETWEEN A HIGHER BODY MASS INDEX AND LOWER METHYLATION OF FFAR3. LINE-1, A MARKER OF GLOBAL METHYLATION, INDICATED NO SIGNIFICANT DIFFERENCES BETWEEN THE THREE GROUPS OR THE TIME POINTS, ALTHOUGH METHYLATION OF TYPE 2 DIABETICS TENDED TO INCREASE OVER TIME. OUR RESULTS PROVIDE EVIDENCE THAT A DIFFERENT COMPOSITION OF GUT MICROBIOTA IN OBESITY AND TYPE 2 DIABETES AFFECT THE EPIGENETIC REGULATION OF GENES. INTERACTIONS BETWEEN THE MICROBIOTA AND EPIGENETIC REGULATION MAY INVOLVE NOT ONLY SHORT CHAIN FATTY ACIDS BINDING TO FFARS. THEREFORE DIETARY INTERVENTIONS INFLUENCING MICROBIAL COMPOSITION MAY BE CONSIDERED AS AN OPTION IN THE ENGAGEMENT AGAINST METABOLIC SYNDROME.	2014	

9 2776  35 EXTRAUTERINE GROWTH RESTRICTION ON PULMONARY VASCULAR ENDOTHELIAL DYSFUNCTION IN ADULT MALE RATS: THE ROLE OF EPIGENETIC MECHANISMS. OBJECTIVE: EARLY POSTNATAL LIFE IS CONSIDERED AS A CRITICAL TIME WINDOW FOR THE DETERMINATION OF LONG-TERM METABOLIC STATES AND ORGAN FUNCTIONS. EXTRAUTERINE GROWTH RESTRICTION (EUGR) CAUSES THE DEVELOPMENT OF ADULT-ONSET CHRONIC DISEASES, INCLUDING PULMONARY HYPERTENSION. HOWEVER, THE EFFECTS OF NUTRITIONAL DISADVANTAGES DURING THE EARLY POSTNATAL PERIOD ON PULMONARY VASCULAR CONSEQUENCES IN LATER LIFE ARE NOT FULLY UNDERSTOOD. OUR STUDY WAS DESIGNED TO TEST WHETHER EPIGENETICS DYSREGULATION MEDIATES THE CELLULAR MEMORY OF THIS EARLY POSTNATAL EVENT. METHODS AND RESULTS: TO TEST THIS HYPOTHESIS, WE ISOLATED PULMONARY VASCULAR ENDOTHELIAL CELLS BY MAGNETIC-ACTIVATED CELL SORTING FROM EUGR AND CONTROL RATS. A POSTNATAL INSULT, NUTRITIONAL RESTRICTION-INDUCED EUGR CAUSED DEVELOPMENT OF AN INCREASED PULMONARY ARTERY PRESSURE AT 9 WEEKS OF AGE IN MALE SPRAGUE-DAWLEY RATS. METHYL-DNA IMMUNE PRECIPITATION CHIP, GENOME-SCALE MAPPING STUDIES TO SEARCH FOR DIFFERENTIALLY METHYLATED LOCI BETWEEN CONTROL AND EUGR RATS, REVEALED SIGNIFICANT DIFFERENCE IN CYTOSINE METHYLATION BETWEEN EUGR AND CONTROL RATS. EUGR CHANGES THE CYTOSINE METHYLATION AT APPROXIMATELY 500 LOCI IN MALE RATS AT 9 WEEKS OF AGE, PRECEDING THE DEVELOPMENT OF PULMONARY HYPERTENSION AND THESE REPRESENT THE CANDIDATE LOCI FOR MEDIATING THE PATHOGENESIS OF PULMONARY VASCULAR DISEASE THAT OCCURS LATER IN LIFE. GENE ONTOLOGY ANALYSIS ON DIFFERENTIALLY METHYLATED GENES SHOWED THAT HYPERMETHYLATED GENES IN EUGR ARE VASCULAR DEVELOPMENT-ASSOCIATED GENES AND HYPOMETHYLATED GENES IN EUGR ARE LATE-DIFFERENTIATION-ASSOCIATED AND SIGNAL TRANSDUCTION GENES. WE VALIDATED CANDIDATE DYSREGULATED LOCI WITH THE QUANTITATIVE ASSAYS OF CYTOSINE METHYLATION AND GENE EXPRESSIONS. CONCLUSION: THESE RESULTS DEMONSTRATE THAT EPIGENETICS DYSREGULATION IS A STRONG MECHANISM FOR PROPAGATING THE CELLULAR MEMORY OF EARLY POSTNATAL EVENTS, CAUSING CHANGES IN THE EXPRESSION OF GENES AND LONG-TERM SUSCEPTIBILITY TO PULMONARY HYPERTENSION, AND FURTHER PROVIDING A NEW INSIGHT INTO THE PREVENTION AND TREATMENT OF EUGR-RELATED PULMONARY HYPERTENSION.	2014	
                                                                                                                                                                                                                                                                                                                                          
10 3473  30 IDENTIFICATION OF A NOVEL, METHYLATION-DEPENDENT, RUNX2 REGULATORY REGION ASSOCIATED WITH OSTEOARTHRITIS RISK. OSTEOARTHRITIS (OA) IS A COMMON, MULTIFACTORIAL AND POLYGENIC SKELETAL DISEASE THAT, IN ITS SEVEREST FORM, REQUIRES JOINT REPLACEMENT SURGERY TO RESTORE MOBILITY AND TO RELIEVE CHRONIC PAIN. USING TISSUES FROM THE ARTICULATING JOINTS OF 260 PATIENTS WITH OA AND A RANGE OF IN VITRO EXPERIMENTS, INCLUDING CRISPR-CAS9, WE HAVE CHARACTERIZED AN INTERGENIC REGULATORY ELEMENT. HERE, GENOTYPE AT AN OA RISK LOCUS CORRELATES WITH DIFFERENTIAL DNA METHYLATION, WITH ALTERED GENE EXPRESSION OF BOTH A TRANSCRIPTIONAL REGULATOR (RUNX2), AND A CHROMATIN REMODELLING PROTEIN (SUPT3H). RUNX2 IS A STRONG CANDIDATE FOR OA SUSCEPTIBILITY, WITH ITS ENCODED PROTEIN BEING ESSENTIAL FOR SKELETOGENESIS AND HEALTHY JOINT FUNCTION. THE OA RISK LOCUS INCLUDES SINGLE NUCLEOTIDE POLYMORPHISMS (SNPS) LOCATED WITHIN AND FLANKING THE DIFFERENTIALLY METHYLATED REGION (DMR). THE OA ASSOCIATION SNP, RS10948172, DEMONSTRATES PARTICULARLY STRONG CORRELATION WITH METHYLATION, AND TWO INTERGENIC SNPS FALLING WITHIN THE DMR (RS62435998 AND RS62435999) DEMONSTRATE GENETIC AND EPIGENETIC EFFECTS ON THE REGULATORY ACTIVITY OF THIS REGION. WE THEREFORE POSIT THAT THE OA SIGNAL MEDIATES ITS EFFECT BY MODULATING THE METHYLATION OF THE REGULATORY ELEMENT, WHICH THEN IMPACTS ON GENE EXPRESSION, WITH RUNX2 BEING THE PRINCIPAL TARGET. OUR STUDY HIGHLIGHTS THE INTERPLAY BETWEEN DNA METHYLATION, OA GENETIC RISK AND THE DOWNSTREAM REGULATION OF GENES CRITICAL TO NORMAL JOINT FUNCTION.	2018	
                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                           
11  366  29 AMINO ACID-INDUCED GENE EXPRESSION PROFILING IN CLONAL BETA-CELL LINE INS-1E CELLS. BACKGROUND: THERE IS ABUNDANT EVIDENCE THAT GLUCOTOXICITY AND LIPOTOXICITY CONTRIBUTE TO IMPAIRED BETA-CELL FUNCTION IN TYPE 2 DIABETES. INTERESTINGLY, AMINO ACID (AA) DERANGEMENT IS ALSO A CHARACTERISTIC PART OF THE DIABETIC STATE. THE ACUTE EFFECTS OF AA ON PANCREATIC BETA-CELL FUNCTION HAVE BEEN WIDELY EXPLORED; HOWEVER, TO OUR KNOWLEDGE, THE CHRONIC EFFECTS OF AA, E.G. PROLINE (PRO), HOMOCYSTEINE (HCY), AND LEUCINE (LEU), ON PANCREATIC BETA-CELL FUNCTION AND INTEGRITY HAVE NOT YET BEEN STUDIED. WE AIMED TO INVESTIGATE GLOBAL ALTERATIONS IN BETA-CELL GENE EXPRESSION AFTER LONG-TERM EXPOSURE OF CLONAL INS-1E CELLS TO ELEVATED LEVEL OF SPECIFIC AA IN VITRO. METHODS: GLOBAL GENE EXPRESSION PROFILING WAS PERFORMED TO CHARACTERIZE GENES DIFFERENTLY MODIFIED BY PRO, HCY, AND LEU, RESPECTIVELY, IN INS-1E CELLS. RESULTS: GENE EXPRESSION PROFILING REVEALED SIGNIFICANT CHANGES IN INS-1E CELL MRNAS INVOLVED IN THE CONTROL OF SEVERAL ASPECTS OF BETA-CELL FUNCTION, E.G. EPIGENETIC REGULATION OF GENE EXPRESSION, METABOLISM, INNATE AND ADAPTIVE IMMUNE RESPONSES, CELLULAR SIGNALLING, PROTEIN SYNTHESIS, APOPTOSIS, AND CELLULAR STRESS RESPONSE. AFTER 72 H, INS-1E CELLS WERE DIFFERENTIALLY REGULATED (>/=1.5- OR </= -1.5-FOLD) BY PRO (295 TRANSCRIPTS), HCY (301 TRANSCRIPTS), AND LEU (701 TRANSCRIPTS). IT APPEARS THAT HCY EFFECTS CHANGES OPPOSITE TO THOSE INDUCED BY LEU AND/OR PRO. CONCLUSIONS: AA APPEARS TO PARTICIPATE IN AND TO INFLUENCE MANY PHYSIOLOGICAL PROCESSES INCLUDING THOSE INVOLVED IN CHOLESTEROL METABOLISM, IMMUNE RESPONSES, AND OXIDATIVE PHOSPHORYLATION. WHETHER SUCH EVENTS PROMOTE THE BETA-CELL DYSFUNCTION AND THE BETA-CELL FAILURE IN DIABETES REMAINS TO BE ELUCIDATED. OUR DATA STRONGLY INDICATE THAT AA ELEVATION MAY TAKE PART IN THE PROGRESSIVE DEVELOPMENT OF TYPE 2 DIABETES.	2011	
                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
12  164  25 ABNORMAL HISTONE METHYLATION IS RESPONSIBLE FOR INCREASED VASCULAR ENDOTHELIAL GROWTH FACTOR 165A SECRETION FROM AIRWAY SMOOTH MUSCLE CELLS IN ASTHMA. VASCULAR ENDOTHELIAL GROWTH FACTOR (VEGF), A KEY ANGIOGENIC MOLECULE, IS ABERRANTLY EXPRESSED IN SEVERAL DISEASES INCLUDING ASTHMA WHERE IT CONTRIBUTES TO BRONCHIAL VASCULAR REMODELING AND CHRONIC INFLAMMATION. ASTHMATIC HUMAN AIRWAY SMOOTH MUSCLE CELLS HYPERSECRETE VEGF, BUT THE MECHANISM IS UNCLEAR. IN THIS STUDY, WE DEFINED THE MECHANISM IN HUMAN AIRWAY SMOOTH MUSCLE CELLS FROM NONASTHMATIC AND ASTHMATIC PATIENTS. WE FOUND THAT ASTHMATIC CELLS LACKED A REPRESSION COMPLEX AT THE VEGF PROMOTER, WHICH WAS PRESENT IN NONASTHMATIC CELLS. RECRUITMENT OF G9A, TRIMETHYLATION OF HISTONE H3 AT LYSINE 9 (H3K9ME3), AND A RESULTANT DECREASE IN RNA POLYMERASE II AT THE VEGF PROMOTER WAS CRITICAL TO REPRESSION OF VEGF SECRETION IN NONASTHMATIC CELLS. AT THE ASTHMATIC PROMOTER, H3K9ME3 WAS ABSENT BECAUSE OF FAILED RECRUITMENT OF G9A; RNA POLYMERASE II BINDING, IN ASSOCIATION WITH TATA-BINDING PROTEIN-ASSOCIATED FACTOR 1, WAS INCREASED; H3K4ME3 WAS PRESENT; AND SP1 BINDING WAS EXAGGERATED AND SUSTAINED. IN CONTRAST, DNA METHYLATION AND HISTONE ACETYLATION WERE SIMILAR IN ASTHMATIC AND NONASTHMATIC CELLS. THIS IS THE FIRST STUDY, TO OUR KNOWLEDGE, TO SHOW THAT AIRWAY CELLS IN ASTHMA HAVE ALTERED EPIGENETIC REGULATION OF REMODELING GENE(S). HISTONE METHYLATION AT GENES SUCH AS VEGF MAY BE AN IMPORTANT NEW THERAPEUTIC TARGET.	2012	
                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                               
13 3468  33 HYPOXIA-INDUCED DNA HYPERMETHYLATION IN HUMAN PULMONARY FIBROBLASTS IS ASSOCIATED WITH THY-1 PROMOTER METHYLATION AND THE DEVELOPMENT OF A PRO-FIBROTIC PHENOTYPE. BACKGROUND: PULMONARY FIBROSIS IS A DEBILITATING AND LETHAL DISEASE WITH NO EFFECTIVE TREATMENT OPTIONS. UNDERSTANDING THE PATHOLOGICAL PROCESSES AT PLAY WILL DIRECT THE APPLICATION OF NOVEL THERAPEUTIC AVENUES. HYPOXIA HAS BEEN IMPLICATED IN THE PATHOGENESIS OF PULMONARY FIBROSIS YET THE PRECISE MECHANISM BY WHICH IT CONTRIBUTES TO DISEASE PROGRESSION REMAINS TO BE FULLY ELUCIDATED. IT HAS BEEN SHOWN THAT CHRONIC HYPOXIA CAN ALTER DNA METHYLATION PATTERNS IN TUMOUR-DERIVED CELL LINES. THIS EPIGENETIC ALTERATION CAN INDUCE CHANGES IN CELLULAR PHENOTYPE WITH PROMOTER METHYLATION BEING ASSOCIATED WITH GENE SILENCING. OF PARTICULAR RELEVANCE TO IDIOPATHIC PULMONARY FIBROSIS (IPF) IS THE OBSERVATION THAT THY-1 PROMOTER METHYLATION IS ASSOCIATED WITH A MYOFIBROBLAST PHENOTYPE WHERE LOSS OF THY-1 OCCURS ALONGSIDE INCREASED ALPHA SMOOTH MUSCLE ACTIN (ALPHA-SMA) EXPRESSION. THE INITIAL AIM OF THIS STUDY WAS TO DETERMINE WHETHER HYPOXIA REGULATES DNA METHYLATION IN NORMAL HUMAN LUNG FIBROBLASTS (CCD19LU). AS IT HAS BEEN REPORTED THAT HYPOXIA SUPPRESSES THY-1 EXPRESSION DURING LUNG DEVELOPMENT WE ALSO STUDIED THE EFFECT OF HYPOXIA ON THY-1 PROMOTER METHYLATION AND GENE EXPRESSION. METHODS: CCD19LU WERE GROWN FOR UP TO 8 DAYS IN HYPOXIA AND ASSESSED FOR GLOBAL CHANGES IN DNA METHYLATION USING FLOW CYTOMETRY. REAL-TIME PCR WAS USED TO QUANTIFY EXPRESSION OF THY-1, ALPHA-SMA, COLLAGEN I AND III. GENOMIC DNA WAS BISULPHITE TREATED AND METHYLATION SPECIFIC PCR (MSPCR) WAS USED TO EXAMINE THE METHYLATION STATUS OF THE THY-1 PROMOTER. RESULTS: SIGNIFICANT GLOBAL HYPERMETHYLATION WAS DETECTED IN HYPOXIC FIBROBLASTS RELATIVE TO NORMOXIC CONTROLS AND WAS ACCOMPANIED BY INCREASED EXPRESSION OF MYOFIBROBLAST MARKERS. THY-1 MRNA EXPRESSION WAS SUPPRESSED IN HYPOXIC CELLS, WHICH WAS RESTORED WITH THE DEMETHYLATING AGENT 5-AZA-2'-DEOXYCYTIDINE. MSPCR REVEALED THAT THY-1 BECAME METHYLATED FOLLOWING FIBROBLAST EXPOSURE TO 1% O2. CONCLUSION: THESE DATA SUGGEST THAT GLOBAL AND GENE-SPECIFIC CHANGES IN DNA METHYLATION MAY PLAY AN IMPORTANT ROLE IN FIBROBLAST FUNCTION IN HYPOXIA.	2012	
                                                                                                                                                                                                                                                                                                                                
14 6564  26 TRANSIENT EXPOSURE TO ELEVATED GLUCOSE LEVELS CAUSES PERSISTENT CHANGES IN DERMAL MICROVASCULAR ENDOTHELIAL CELL RESPONSES TO INJURY. BACKGROUND: THE PURPOSE OF THIS STUDY WAS TO DETERMINE WHETHER ELEVATED GLUCOSE CAN INDUCE A DERMAL MICROVASCULAR ENDOTHELIAL CELL METABOLIC MEMORY, THUS AFFECTING ANGIOGENESIS IN THE REPAIR PROCESS OF MAMMALIAN CUTANEOUS WOUND. WE HYPOTHESIZED THAT TRANSIENT ELEVATED GLUCOSE LEVELS CAUSE SUSTAINED ALTERATION OF ENDOTHELIAL CELL RESPONSES TO INJURY AND PERSISTENT EPIGENETIC CHANGES IN GENE EXPRESSION. METHODS: HUMAN DERMAL MICROVASCULAR ENDOTHELIAL CELLS WERE EXPOSED TO EXPERIMENTAL CONDITIONS WITH OR WITHOUT 30 MM D-GLUCOSE. THE CONTROL GROUP WAS MAINTAINED AT 5 MM D-GLUCOSE; WHILE IN THE TRANSIENT GLUCOSE GROUP, AFTER BEING EXPOSED TO 30 MM D-GLUCOSE FOR TWO DAYS, THEN BEING PUT UNDER THE CONTROL CONDITIONS DURING THE EXPERIMENT. BESIDES, IN THE WHOLE PROCESS OF THE EXPERIMENT, THE CHRONIC GLUCOSE GROUP WAS KEPT IN THE CONDITION WITH 30 MM D-GLUCOSE. PROLIFERATION, MIGRATION, TUBE FORMATION, GENE EXPRESSION AND HISTONE METHYLATION WERE ASSESSED FOR INDIVIDUAL CONDITIONS. RESULTS: TRANSIENT ELEVATED GLUCOSE CAUSED SUSTAINED EFFECTS ON ENDOTHELIAL CELL MIGRATION, TUBE FORMATION AND TIMP3 GENE EXPRESSION. THE EFFECTS ON TIMP3 EXPRESSION WERE ASSOCIATED WITH PERSISTENT CHANGES IN HISTONE MODIFICATION AT THE 5' END OF THE TIMP3 GENE, SUGGESTING AN EPIGENETIC EFFECT. CONCLUSIONS: HYPERGLYCEMIA INDUCED METABOLIC MEMORY COULD PROMOTE THE REGULATION OF TIMP3, AND IT CAN BE USED AS A POSSIBLE INNOVATIVE MOLECULAR TARGET FOR THERAPEUTIC INTERVENTION IN THE TREATMENT OF CHRONIC NON-HEALING DIABETIC WOUNDS.	2021	
                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                 
15  658  29 BLOOD DNA METHYLATION PREDICTS DIABETIC KIDNEY DISEASE PROGRESSION IN HIGH FAT DIET-FED MICE. DIABETIC KIDNEY DISEASE (DKD) PROGRESSES AT DIFFERENT RATES AMONG PATIENTS WITH TYPE 2 DIABETES MELLITUS (T2D). EARLY IDENTIFICATION OF PATIENTS WITH A HIGHER RISK OF DKD PROGRESSION IS ESSENTIAL TO IMPROVE PROGNOSIS. EPIGENETIC MODIFICATIONS, PARTICULARLY DNA METHYLATION, HAVE BEEN INDEPENDENTLY IMPLICATED IN T2D AND CHRONIC KIDNEY DISEASE. THE CURRENT STUDY AIMED TO DETERMINE CHANGES IN BLOOD DNA METHYLATION THAT REFLECTS AND PREDICTS DKD PROGRESSION. C57BL/6 MICE WERE FED A HIGH-FAT DIET (HFD) FROM WEANING AND SUBCLASSIFIED INTO TWO GROUPS, HFD-1 AND HFD-2, ACCORDING TO URINARY KIDNEY INJURY MARKER KIM-1/CREATININE RATIOS (LOW VS. HIGH) AND HISTOLOGICAL ABNORMALITIES (MILD-MODERATE VS. ADVANCED). DNA METHYLATION PROFILES WERE DETERMINED BY REDUCED REPRESENTATIVE BISULFIDE SEQUENCING (RRBS). OUR RESULTS CONFIRMED EARLY AND ESTABLISHED DKD AT WEEK 9 AND WEEK 32, RESPECTIVELY. AT WEEK 32, ADVANCED KIDNEY INJURY WAS ASSOCIATED WITH DYSREGULATION OF METHYLATION AND DEMETHYLATION ENZYMES IN THE KIDNEY. BLOOD RRBS REVEALED 579 AND 203 DIFFERENTIALLY METHYLATED SITES (DMS) BETWEEN HFD-1 AND HFD-2 ANIMALS AT WEEK 32 AND WEEK 9, RESPECTIVELY, AMONG WHICH 11 WERE COMMON. THE DMS IN BLOOD AND KIDNEY AT WEEK 32 WERE BOTH RELATED TO ORGAN DEVELOPMENT, NEUROGENESIS, CELL JUNCTION, AND WNT SIGNALLING, WHILE THE DMS IN BLOOD AT WEEK 9 SUGGESTED A SPECIFIC ENRICHMENT OF KIDNEY DEVELOPMENT PROCESSES. IN CONCLUSION, OUR DATA STRONGLY SUPPORT THE IMPLICATION OF EARLY BLOOD DNA METHYLATION MODIFICATIONS AND DKD PROGRESSION IN T2D THAT COULD BE USED TO IMPROVE THE DISEASE'S PROGNOSTICATION.	2022	
                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                             
16 3764  23 INTEGRATIVE ANALYSIS OF DNA METHYLATION AND GENE EXPRESSION DATA IDENTIFIES EPAS1 AS A KEY REGULATOR OF COPD. CHRONIC OBSTRUCTIVE PULMONARY DISEASE (COPD) IS A COMPLEX DISEASE. GENETIC, EPIGENETIC, AND ENVIRONMENTAL FACTORS ARE KNOWN TO CONTRIBUTE TO COPD RISK AND DISEASE PROGRESSION. THEREFORE WE DEVELOPED A SYSTEMATIC APPROACH TO IDENTIFY KEY REGULATORS OF COPD THAT INTEGRATES GENOME-WIDE DNA METHYLATION, GENE EXPRESSION, AND PHENOTYPE DATA IN LUNG TISSUE FROM COPD AND CONTROL SAMPLES. OUR INTEGRATIVE ANALYSIS IDENTIFIED 126 KEY REGULATORS OF COPD. WE IDENTIFIED EPAS1 AS THE ONLY KEY REGULATOR WHOSE DOWNSTREAM GENES SIGNIFICANTLY OVERLAPPED WITH MULTIPLE GENES SETS ASSOCIATED WITH COPD DISEASE SEVERITY. EPAS1 IS DISTINCT IN COMPARISON WITH OTHER KEY REGULATORS IN TERMS OF METHYLATION PROFILE AND DOWNSTREAM TARGET GENES. GENES PREDICTED TO BE REGULATED BY EPAS1 WERE ENRICHED FOR BIOLOGICAL PROCESSES INCLUDING SIGNALING, CELL COMMUNICATIONS, AND SYSTEM DEVELOPMENT. WE CONFIRMED THAT EPAS1 PROTEIN LEVELS ARE LOWER IN HUMAN COPD LUNG TISSUE COMPARED TO NON-DISEASE CONTROLS AND THAT EPAS1 GENE EXPRESSION IS REDUCED IN MICE CHRONICALLY EXPOSED TO CIGARETTE SMOKE. AS EPAS1 DOWNSTREAM GENES WERE SIGNIFICANTLY ENRICHED FOR HYPOXIA RESPONSIVE GENES IN ENDOTHELIAL CELLS, WE TESTED EPAS1 FUNCTION IN HUMAN ENDOTHELIAL CELLS. EPAS1 KNOCKDOWN BY SIRNA IN ENDOTHELIAL CELLS IMPACTED GENES THAT SIGNIFICANTLY OVERLAPPED WITH EPAS1 DOWNSTREAM GENES IN LUNG TISSUE INCLUDING HYPOXIA RESPONSIVE GENES, AND GENES ASSOCIATED WITH EMPHYSEMA SEVERITY. OUR FIRST INTEGRATIVE ANALYSIS OF GENOME-WIDE DNA METHYLATION AND GENE EXPRESSION PROFILES ILLUSTRATES THAT NOT ONLY DOES DNA METHYLATION PLAY A 'CAUSAL' ROLE IN THE MOLECULAR PATHOPHYSIOLOGY OF COPD, BUT IT CAN BE LEVERAGED TO DIRECTLY IDENTIFY NOVEL KEY MEDIATORS OF THIS PATHOPHYSIOLOGY.	2015	
                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                      
17 1117  23 COMPARATIVE AND EXPERIMENTAL STUDIES ON THE GENES ALTERED BY CHRONIC HYPOXIA IN HUMAN BRAIN MICROENDOTHELIAL CELLS. BACKGROUND : HYPOXIA INDUCIBLE FACTOR 1 ALPHA (HIF1A) IS A MASTER REGULATOR OF ACUTE HYPOXIA; HOWEVER, WITH CHRONIC HYPOXIA, HIF1A LEVELS RETURN TO THE NORMOXIC LEVELS. IMPORTANTLY, THE GENES THAT ARE INVOLVED IN THE CELL SURVIVAL AND VIABILITY UNDER CHRONIC HYPOXIA ARE NOT KNOWN. THEREFORE, WE TESTED THE HYPOTHESIS THAT CHRONIC HYPOXIA LEADS TO THE UPREGULATION OF A CORE GROUP OF GENES WITH ASSOCIATED CHANGES IN THE PROMOTER DNA METHYLATION THAT MEDIATES THE CELL SURVIVAL UNDER HYPOXIA. RESULTS : WE EXAMINED THE EFFECT OF CHRONIC HYPOXIA (3 DAYS; 0.5% OXYGEN) ON HUMAN BRAIN MICRO ENDOTHELIAL CELLS (HBMEC) VIABILITY AND APOPTOSIS. HYPOXIA CAUSED A SIGNIFICANT REDUCTION IN CELL VIABILITY AND AN INCREASE IN APOPTOSIS. NEXT, WE EXAMINED CHRONIC HYPOXIA ASSOCIATED CHANGES IN TRANSCRIPTOME AND GENOME-WIDE PROMOTER METHYLATION. THE DATA OBTAINED WAS COMPARED WITH 16 OTHER MICROARRAY STUDIES ON CHRONIC HYPOXIA. NINE GENES WERE ALTERED IN RESPONSE TO CHRONIC HYPOXIA IN ALL 17 STUDIES. INTERESTINGLY, HIF1A WAS NOT ALTERED WITH CHRONIC HYPOXIA IN ANY OF THE STUDIES. FURTHERMORE, WE COMPARED OUR DATA TO THREE OTHER STUDIES THAT IDENTIFIED HIF-RESPONSIVE GENES BY VARIOUS APPROACHES. ONLY TWO GENES WERE FOUND TO BE HIF DEPENDENT. WE SILENCED EACH OF THESE 9 GENES USING CRISPR/CAS9 SYSTEM. DOWNREGULATION OF EGLN3 SIGNIFICANTLY INCREASED THE CELL DEATH UNDER CHRONIC HYPOXIA, WHEREAS DOWNREGULATION OF ERO1L, ENO2, ADRENOMEDULLIN, AND SPAG4 REDUCED THE CELL DEATH UNDER HYPOXIA. CONCLUSIONS : WE PROVIDE A CORE GROUP OF GENES THAT REGULATES CELLULAR ACCLIMATIZATION UNDER CHRONIC HYPOXIC STRESS, AND MOST OF THEM ARE HIF INDEPENDENT.	2017	
                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                            
18 1739  41 EARLY DNA METHYLATION CHANGES IN CHILDREN DEVELOPING BETA CELL AUTOIMMUNITY AT A YOUNG AGE. AIMS/HYPOTHESIS: TYPE 1 DIABETES IS A CHRONIC AUTOIMMUNE DISEASE OF COMPLEX AETIOLOGY, INCLUDING A POTENTIAL ROLE FOR EPIGENETIC REGULATION. PREVIOUS EPIGENOMIC STUDIES FOCUSED MAINLY ON CLINICALLY DIAGNOSED INDIVIDUALS. THE AIM OF THE STUDY WAS TO ASSESS EARLY DNA METHYLATION CHANGES ASSOCIATED WITH TYPE 1 DIABETES ALREADY BEFORE THE DIAGNOSIS OR EVEN BEFORE THE APPEARANCE OF AUTOANTIBODIES. METHODS: REDUCED REPRESENTATION BISULPHITE SEQUENCING (RRBS) WAS APPLIED TO STUDY DNA METHYLATION IN PURIFIED CD4(+) T CELL, CD8(+) T CELL AND CD4(-)CD8(-) CELL FRACTIONS OF 226 PERIPHERAL BLOOD MONONUCLEAR CELL SAMPLES LONGITUDINALLY COLLECTED FROM SEVEN TYPE 1 DIABETES-SPECIFIC AUTOANTIBODY-POSITIVE INDIVIDUALS AND CONTROL INDIVIDUALS MATCHED FOR AGE, SEX, HLA RISK AND PLACE OF BIRTH. WE ALSO EXPLORED CORRELATIONS BETWEEN DNA METHYLATION AND GENE EXPRESSION USING RNA SEQUENCING DATA FROM THE SAME SAMPLES. TECHNICAL VALIDATION OF RRBS RESULTS WAS PERFORMED USING PYROSEQUENCING. RESULTS: WE IDENTIFIED 79, 56 AND 45 DIFFERENTIALLY METHYLATED REGIONS IN CD4(+) T CELLS, CD8(+) T CELLS AND CD4(-)CD8(-) CELL FRACTIONS, RESPECTIVELY, BETWEEN TYPE 1 DIABETES-SPECIFIC AUTOANTIBODY-POSITIVE INDIVIDUALS AND CONTROL PARTICIPANTS. THE ANALYSIS OF PRE-SEROCONVERSION SAMPLES IDENTIFIED DNA METHYLATION SIGNATURES AT THE VERY EARLY STAGE OF DISEASE, INCLUDING DIFFERENTIAL METHYLATION AT THE PROMOTER OF IRF5 IN CD4(+) T CELLS. FURTHER, WE VALIDATED RRBS RESULTS USING PYROSEQUENCING AT THE FOLLOWING CPG SITES: CHR19:18118304 IN THE PROMOTER OF ARRDC2; CHR21:47307815 IN THE INTRON OF PCBP3; AND CHR14:81128398 IN THE INTERGENIC REGION NEAR TRAF3 IN CD4(+) T CELLS. CONCLUSIONS/INTERPRETATION: THESE PRELIMINARY RESULTS PROVIDE NOVEL INSIGHTS INTO CELL TYPE-SPECIFIC DIFFERENTIAL EPIGENETIC REGULATION OF GENES, WHICH MAY CONTRIBUTE TO TYPE 1 DIABETES PATHOGENESIS AT THE VERY EARLY STAGE OF DISEASE DEVELOPMENT. SHOULD THESE FINDINGS BE VALIDATED, THEY MAY SERVE AS A POTENTIAL SIGNATURE USEFUL FOR DISEASE PREDICTION AND MANAGEMENT.	2022	
                                                                                                                                                                                                                                                                                                                                                                                                                                                               
19 2997  28 GENETIC VARIANTS IN DNMT1 AND THE RISK OF CARDIAC AUTONOMIC NEUROPATHY IN WOMEN WITH TYPE 1 DIABETES. AIMS/INTRODUCTION: EPIGENETICS PARTICIPATE IN THE PATHOGENESIS OF METABOLIC MEMORY, A SITUATION IN WHICH HYPERGLYCEMIA EXERTS PROLONGED DELETERIOUS EFFECTS EVEN AFTER ITS NORMALIZATION. WE TESTED THE HYPOTHESIS THAT GENETIC VARIANTS IN AN EPIGENETIC GENE COULD PREDISPOSE TO DIABETES COMPLICATIONS. MATERIAL AND METHODS: WE ASSESSED THE FREQUENCY OF FIVE SINGLE-NUCLEOTIDE POLYMORPHISMS IN THE GENE ENCODING DEOXYRIBONUCLEIC ACID METHYTRANSFERASE 1 (DNMT1; RS8112895, RS7254567, RS11085721, RS17291414 AND RS10854076), AND THEIR ASSOCIATIONS WITH DIABETIC KIDNEY DISEASE, RETINOPATHY, DISTAL POLYNEUROPATHY AND AUTONOMIC CARDIOVASCULAR NEUROPATHY IN 359 INDIVIDUALS WITH LONG-TERM TYPE 1 DIABETES. RESULTS: NONE OF THE SINGLE-NUCLEOTIDE POLYMORPHISMS STUDIED WAS SIGNIFICANTLY ASSOCIATED WITH THE PRESENCE OF CHRONIC COMPLICATIONS IN THE OVERALL POPULATION. HOWEVER, AFTER SEX STRATIFICATION, THE MINOR ALLELE C OF RS11085721 CONFERRED RISK FOR CARDIOVASCULAR NEUROPATHY IN WOMEN AFTER ADJUSTMENT FOR CONFOUNDING VARIABLES (ODDS RATIO 2.32; 95% CONFIDENCE INTERVAL 1.26-4.33; P = 0.006). CONCLUSIONS: THE FACT THAT HETEROZYGOUS MUTATIONS IN DNMT1 ARE ASSOCIATED WITH HEREDITARY SENSORY AUTONOMIC NEUROPATHY PROVIDES PLAUSIBILITY TO THE PRESENT FINDING. IF CONFIRMED IN INDEPENDENT SAMPLES, IT SUGGESTS THAT GENETIC VARIANTS IN EPIGENETIC GENES MIGHT PREDISPOSE TO MORE OR FEWER EPIGENETIC CHANGES IN THE FACE OF SIMILAR METABOLIC DERANGEMENTS TRIGGERED BY HYPERGLYCEMIA, CONSTITUTING THE "GENETICS OF EPIGENETICS" FOR MICROVASCULAR DIABETES COMPLICATIONS.	2019	
                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                               
20 5571  26 ROLE OF MICRORNA 1207-5P AND ITS HOST GENE, THE LONG NON-CODING RNA PVT1, AS MEDIATORS OF EXTRACELLULAR MATRIX ACCUMULATION IN THE KIDNEY: IMPLICATIONS FOR DIABETIC NEPHROPATHY. DIABETIC NEPHROPATHY IS THE MOST COMMON CAUSE OF CHRONIC KIDNEY FAILURE AND END-STAGE RENAL DISEASE IN THE WESTERN WORLD. ONE OF THE MAJOR CHARACTERISTICS OF THIS DISEASE IS THE EXCESSIVE ACCUMULATION OF EXTRACELLULAR MATRIX (ECM) IN THE KIDNEY GLOMERULI. WHILE BOTH ENVIRONMENTAL AND GENETIC DETERMINANTS ARE RECOGNIZED FOR THEIR ROLE IN THE DEVELOPMENT OF DIABETIC NEPHROPATHY, EPIGENETIC FACTORS, SUCH AS DNA METHYLATION, LONG NON-CODING RNAS, AND MICRORNAS, HAVE ALSO RECENTLY BEEN FOUND TO UNDERLIE SOME OF THE BIOLOGICAL MECHANISMS, INCLUDING ECM ACCUMULATION, LEADING TO THE DISEASE. WE PREVIOUSLY FOUND THAT A LONG NON-CODING RNA, THE PLASMACYTOMA VARIANT TRANSLOCATION 1 (PVT1), INCREASES PLASMINOGEN ACTIVATOR INHIBITOR 1 (PAI-1) AND TRANSFORMING GROWTH FACTOR BETA 1 (TGF-BETA1) IN MESANGIAL CELLS, THE TWO MAIN CONTRIBUTORS TO ECM ACCUMULATION IN THE GLOMERULI UNDER HYPERGLYCEMIC CONDITIONS, AS WELL AS FIBRONECTIN 1 (FN1), A MAJOR ECM COMPONENT. HERE, WE REPORT THAT MIR-1207-5P, A PVT1-DERIVED MICRORNA, IS ABUNDANTLY EXPRESSED IN KIDNEY CELLS, AND IS UPREGULATED BY GLUCOSE AND TGF-BETA1. WE ALSO FOUND THAT LIKE PVT1, MIR-1207-5P INCREASES EXPRESSION OF TGF-BETA1, PAI-1, AND FN1 BUT IN A MANNER THAT IS INDEPENDENT OF ITS HOST GENE. IN ADDITION, REGULATION OF MIR-1207-5P EXPRESSION BY GLUCOSE AND TGFBETA1 IS INDEPENDENT OF PVT1. THESE RESULTS PROVIDE EVIDENCE SUPPORTING IMPORTANT ROLES FOR MIR-1207-5P AND ITS HOST GENE IN THE COMPLEX PATHOGENESIS OF DIABETIC NEPHROPATHY.	2013