1 2768 174 EXPRESSIONS OF SERUM LNCRNAS IN DIABETIC RETINOPATHY - A POTENTIAL DIAGNOSTIC TOOL. WITH INCREASING INCIDENCE OF DIABETES WORLDWIDE, THERE IS AN EVER-EXPANDING NUMBER OF PATIENTS WITH CHRONIC DIABETIC COMPLICATIONS SUCH AS DIABETIC RETINOPATHY (DR), ONE OF THE LEADING CAUSES OF BLINDNESS IN THE WORKING AGE POPULATION. EARLY SCREENING FOR THE ONSET AND SEVERITY OF DR IS ESSENTIAL FOR TIMELY INTERVENTION. WITH RECENT ADVANCEMENTS IN GENOMIC TECHNOLOGIES, EPIGENETIC ALTERATIONS IN DR ARE BEGINNING TO UNRAVEL. LONG NON-CODING RNAS (LNCRNAS), WHICH ARE KEY EPIGENETIC MEDIATORS, HAVE DEMONSTRATED IMPLICATIONS IN SEVERAL (DR) RELATED PROCESSES. BASED ON THE PREVIOUS RESEARCH, WE HAVE DEVELOPED A SERUM-BASED, MULTI-PANEL PCR TEST USING 9 LNCRNAS (ANRIL, MALAT1, WISPER, ZFAS1, H19, HOTAIR, HULC, MEG3, AND MIAT) TO IDENTIFY AND VALIDATE WHETHER THIS PANEL COULD BE USED AS A DIAGNOSTIC AND PROGNOSTIC TOOL FOR DR. WE INITIALLY USED A CELL CULTURE MODEL (HUMAN RETINAL ENDOTHELIAL CELLS) AND CONFIRMED THAT 25 MM GLUCOSE INDUCES UPREGULATIONS OF ANRIL, HOTAIR, HULC, MALAT1, AND ZFAS1, AND DOWNREGULATION OF H19 COMPARED TO 5 MM GLUCOSE CONTROLS. THEN AS AN INITIAL PROOF-OF-CONCEPT, WE TESTED VITREOUS HUMOR AND SERUM SAMPLES FROM A SMALL COHORT OF NON-DIABETIC (N=10) AND DIABETIC PATIENTS WITH PROLIFERATIVE RETINOPATHY (PDR, N=11) AND MEASURED THE LEVELS OF THE 9 LNCRNAS. DIFFERENTIAL EXPRESSIONS OF LNCRNAS WERE FOUND IN THE VITREOUS AND SERUM OF PATIENTS AND SHOWED SIGNIFICANT CORRELATIONS. WE EXPANDED OUR APPROACH AND ASSESSED THE SAME LNCRNAS USING SAMPLES FROM A LARGER COHORT OF DIABETIC (N= 59; M/F:44/15) AND NON-DIABETIC PATIENTS (N= 11; M/F:4/7). SIGNIFICANT INCREASED LNCRNA EXPRESSIONS OF ANRIL, H19, HOTAIR, HULC, MIAT, WISPER AND ZFAS1 WERE OBSERVED IN THE SERUM OF DIABETIC PATIENTS (WITH VARYING STAGES OF DR) COMPARED TO NON-DIABETICS. NO SIGNIFICANT CORRELATIONS WERE DEMONSTRATED BETWEEN LNCRNA EXPRESSIONS AND CREATININE OR GLYCATED HEMOGLOBIN (HBA1C) LEVELS. USING ROC AND FURTHER ANALYSES, WE IDENTIFIED DISTINCT LNCRNA PHENOTYPE COMBINATIONS, WHICH MAY BE USED TO IDENTIFY PATIENTS WITH DR. DATA FROM THIS STUDY INDICATE THAT A PANEL OF SERUM LNCRNAS MAY BE USED FOR A POTENTIAL SCREENING TEST FOR DR. FURTHER LARGE-SCALE STUDIES ARE NEEDED TO VALIDATE THIS NOTION. 2022 2 3442 39 HYPERMETHYLATION IN THE PROMOTER OF THE MTHFR GENE IS ASSOCIATED WITH DIABETIC COMPLICATIONS AND BIOCHEMICAL INDICATORS. BACKGROUND: DNA METHYLATION IS AN EPIGENETIC MECHANISM FOR REGULATING THE TRANSCRIPTION OF MANY GENES AND HAS BEEN LINKED TO THE DEVELOPMENT OF VARIOUS DISEASES. A PROMISING GENE TO INVESTIGATE IS METHYLENETETRAHYDROFOLATE REDUCTASE (MTHFR), SINCE THE ENZYME METHYLENETETRAHYDROFOLATE REDUCTASE (MTHFR) PROMOTES METHYL RADICAL SYNTHESIS IN THE HOMOCYSTEINE CYCLE AND CAN PROVIDE METHYL GROUPS FOR DNA METHYLATION. IN ADDITION, SEVERAL STUDIES HAVE CORRELATED GENE POLYMORPHISMS OF THIS ENZYME WITH A GREATER RISK OF DIABETES, BUT LITTLE IS KNOWN REGARDING THE RELATIONSHIP BETWEEN EPIGENETIC CHANGES IN THIS GENE AND DIABETES AND ITS COMPLICATIONS. THE AIM OF THIS STUDY WAS TO INVESTIGATE THE RELATIONSHIP BETWEEN METHYLATION PROFILE IN THE MTHFR GENE PROMOTER AND BIOCHEMICAL, INFLAMMATORY AND OXIDATIVE STRESS MARKERS IN INDIVIDUALS WITH TYPE 2 DIABETES (T2DM) WHO HAVE BEEN DIAGNOSED FOR 5-10 YEARS WITH OR WITHOUT DIABETIC RETINOPATHY (DR) AND NEPHROPATHY (DN). METHODS: SPECIFIC PCR FOR METHYLATION (MSP) WAS USED TO ANALYZE MTHFR METHYLATION PROFILE IN LEUCOCYTES DNA. BIOCHEMICAL MARKERS (GLYCEMIA, GLYCATED HEMOGLOBIN, TOTAL CHOLESTEROL, LDL, HDL, TRIGLYCERIDES, SERUM CREATININE), INFLAMMATORY MARKERS (C-REACTIVE PROTEIN AND ALPHA-1 ACID GLYCOPROTEIN) AND OXIDATIVE STRESS (TOTAL ANTIOXIDANT AND MALONALDEHYDE) WERE DETERMINED IN PERIPHERIC BLOOD SAMPLES AND MICROALBUMINURIA IN 24 H URINE SAMPLES. THE X(2) AND MANN-WHITNEY STATISTICAL TESTS WERE PERFORMED AND P < 0.05 WERE CONSIDERED SIGNIFICANT. RESULTS: THE HYPERMETHYLATED PROFILE WAS MOST FREQUENTLY OBSERVED IN INDIVIDUALS WITH RETINOPATHY (P < 0.01) AND WAS ASSOCIATED WITH HIGHER TOTAL CHOLESTEROL AND LDL LEVELS (P = 0.0046, 0.0267, RESPECTIVELY). INDIVIDUALS WITH DN AND HYPERMETHYLATED PROFILES HAD HIGHER LEVELS OF ALPHA-1 ACID GLYCOPROTEIN (P = 0.0080) AND TOTAL ANTIOXIDANT CAPACITY (P = 0.0169) COMPARED TO SUBJECTS WITHOUT COMPLICATIONS. CONCLUSIONS: HYPERMETHYLATION IN THE PROMOTER OF THE MTHFR GENE IS ASSOCIATED WITH THE OCCURRENCE OF DR AND WITH BIOCHEMICAL, INFLAMMATORY AND OXIDATIVE STRESS PARAMETERS IN THE CONTEXT OF CHRONIC COMPLICATIONS. 2017 3 516 38 ASSOCIATION OF THE CPG METHYLATION PATTERN OF THE PROXIMAL INSULIN GENE PROMOTER WITH TYPE 1 DIABETES. THE INSULIN (INS) REGION IS THE SECOND MOST IMPORTANT LOCUS ASSOCIATED WITH TYPE 1 DIABETES (T1D). THE STUDY OF THE DNA METHYLATION PATTERN OF THE 7 CPGS PROXIMAL TO THE TSS IN THE INS GENE PROMOTER REVEALED THAT T1D PATIENTS HAVE A LOWER LEVEL OF METHYLATION OF CPG -19, -135 AND -234 (P = 2.10(-16)) AND A HIGHER METHYLATION OF CPG -180 THAN CONTROLS, WHILE METHYLATION WAS COMPARABLE FOR CPG -69, -102, -206. THE MAGNITUDE OF THE HYPOMETHYLATION RELATIVE TO A CONTROL POPULATION WAS 8-15% OF THE CORRESPONDING LEVELS IN CONTROLS AND WAS CORRELATED IN CPGS -19 AND -135 (R = 0.77) AND CPG -135 AND -234 (R = 0.65). 70/485 (14%) OF T1D PATIENTS HAD A SIMULTANEOUS DECREASE IN METHYLATION OF CPG -19, -135, -234 VERSUS NONE IN 317 CONTROLS. CPG METHYLATION DID NOT CORRELATE WITH GLYCATED HEMOGLOBIN OR WITH T1D DURATION. THE METHYLATION OF CPG -69, -102, -180, -206, BUT NOT CPG -19, -135, -234 WAS STRONGLY INFLUENCED BY THE CIS-GENOTYPE AT RS689, A SNP KNOWN TO SHOW A STRONG ASSOCIATION WITH T1D. WE HYPOTHESIZE THAT PART OF THIS GENETIC ASSOCIATION COULD IN FACT BE MEDIATED AT THE STATISTICAL AND FUNCTIONAL LEVEL BY THE UNDERLYING CHANGES IN NEIGHBORING CPG METHYLATION. OUR OBSERVATION OF A CPG-SPECIFIC, LOCUS-SPECIFIC METHYLATION PATTERN, ALTHOUGH IT CAN PROVIDE AN EPIGENETIC BIOMARKER OF A MULTIFACTORIAL DISEASE, DOES NOT INDICATE WHETHER THE REPORTED EPIGENETIC PATTERN PREEXISTS OR FOLLOWS THE ESTABLISHMENT OF T1D. TO EXPLORE THE EFFECT OF CHRONIC HYPERGLYCEMIA ON CPG METHYLATION, WE STUDIED NON OBESE PATIENTS WITH TYPE 2 DIABETES (T2D) WHO WERE FOUND TO HAVE DECREASED CPG-19 METHYLATION VERSUS AGE-MATCHED CONTROLS, SIMILAR TO T1D (P = 2.10(-6)) BUT INCREASED CPG-234 METHYLATION (P = 5.10(-8)), THE OPPOSITE OF T1D. THE CAUSALITY AND NATURAL HISTORY OF THE DIFFERENT EPIGENETIC CHANGES ASSOCIATED WITH T1D OR T2D REMAIN TO BE DETERMINED. 2012 4 4234 42 METHYLATION OF SPECIFIC CPG SITES IN IL-1BETA AND IL1R1 GENES IS AFFECTED BY HYPERGLYCAEMIA IN TYPE 2 DIABETIC PATIENTS. OBJECTIVE: TYPE 2 DIABETES (T2D), WHICH IS THE MOST COMMON METABOLIC DISORDER IN THE WORLD, RESULTS FROM INSULIN RESISTANCE OF TARGET TISSUES AND REDUCED PRODUCTION OF INSULIN FROM PANCREATIC BETA CELLS WITH GENETIC AND ENVIRONMENTAL FACTORS BOTH PLAYING ROLES IN THE PATHOGENESIS. THE AIM OF THIS STUDY WAS TO INVESTIGATE THE EFFECT OF BLOOD GLUCOSE LEVELS ON DNA METHYLATION OF IL-1BETA AND IL1R1 GENES IN THE PERIPHERAL BLOOD MONONUCLEAR CELLS (PBMCS) OF NON-DIABETIC, TYPE 2 PRE-DIABETIC AND DIABETIC INDIVIDUALS.METHODS: IN THIS CASE-CONTROL STUDY, 54 NON-DIABETIC, PRE-DIABETIC AND TYPE 2 DIABETIC INDIVIDUALS WERE ENROLLED AND CATEGORIZED BASED ON THEIR FASTING PLASMA GLUCOSE (FPG) AND GLYCATED HEMOGLOBIN (A1C) LEVELS. DNA WAS EXTRACTED FROM PBMCS AND SUBJECTED TO BISULFITE TREATMENT. THE METHYLATION STATUS OF TWO CPG SITES IN THE IL-1BETA GENE AND THREE CPG SITES IN IL1R1 GENE WAS THEN DETERMINED USING SANGER SEQUENCING.RESULTS: OUR RESULTS SHOW THAT THE METHYLATION OF IL-1BETA GENE IS DECREASED AND THE METHYLATION OF IL1R1 GENE IS INCREASED IN DIABETIC INDIVIDUALS WITH HYPERGLYCEMIA. FURTHER ANALYSIS REVEALED THAT BOTH CPG SITES IN IL-1BETA GENE ARE AFFECTED BY HYPERGLYCEMIA AND DISPLAY DECREASED METHYLATION WHILE ONLY ONE CPG SITE IN IL1R1 GENE IS AFFECTED BY HYPERGLYCEMIA.CONCLUSION: WE PROPOSE THAT THE DNA METHYLATION STATUS OF THE CPG SITES CG18773937 AND CG23149881 IN IL-1BETA GENE AND THE CPG SITE CG13399261 IN IL1R1 GENE COULD SERVE AS AN EPIGENETIC MARKER OF CHRONIC INFLAMMATION AND T2D DEVELOPMENT. THESE CPG SITES CAN ALSO BE CONSIDERED FOR STUDIES ON METABOLIC MEMORY. 2020 5 3046 40 GENOME-WIDE ANALYSIS OF DNA METHYLATION IDENTIFIES S100A13 AS AN EPIGENETIC BIOMARKER IN INDIVIDUALS WITH CHRONIC (>/= 30 YEARS) TYPE 2 DIABETES WITHOUT DIABETIC RETINOPATHY. BACKGROUND: THIS STUDY AIMED TO DETERMINE THE EPIGENETIC BIOMARKERS OF DIABETIC RETINOPATHY (DR) IN SUBJECTS WITH TYPE 2 DIABETES MELLITUS (T2DM). THIS RETROSPECTIVE STUDY IS BASED ON THE SHANGHAI XINJING COMMUNITY PREVENTION AND TREATMENT ADMINISTRATIVE SYSTEM OF CHRONIC DISEASES. THE SUBJECTS ENROLLED HEREIN WERE T2DM PATIENTS WHO HAD UNDERGONE LONG-TERM FOLLOW-UP EVALUATION IN THE SYSTEM. TWO CONSECUTIVE STUDIES WERE CONDUCTED. IN THE DISCOVERY COHORT, AMONG 19 SUBJECTS WHO HAD DEVELOPED DR WITH A DM DURATION < 3 YEARS AND 21 SUBJECTS WITHOUT DR > 30 YEARS AFTER BEING DIAGNOSED WITH DM, AN INFINIUM HUMAN METHYLATION 850 BEADCHIP WAS USED TO IDENTIFY DIFFERENTIAL METHYLATION REGIONS (DMRS) AND DIFFERENTIAL METHYLATION SITES (DMSS). THE FUNCTION OF THE GENES WAS ASSESSED THROUGH KEGG ENRICHMENT ANALYSIS, GENE ONTOLOGY (GO) ANALYSIS, AND PATHWAY NETWORK ANALYSIS. IN THE REPLICATION COHORT, 87 DR PATIENTS WITH A SHORT DM DURATION AND 89 PATIENTS WITHOUT DR OVER A DM DURATION > 20 YEARS WERE COMPARED TO ASSESS THE ASSOCIATION BETWEEN DMSS AND DR UPON PYROSEQUENCING. RESULTS: A TOTAL OF 34 DMRS WERE IDENTIFIED. GENES CONTAINING DMSS WITH THE TOP 5 HIGHEST BETA VALUE DIFFERENCES BETWEEN DR AND NON-DR PARTICIPANTS WERE LOCATED ON CHROMOSOME 1 AND WERE PRESENT IN THE S100A13 GENE, WHICH WAS ASSOCIATED WITH 71 GO TERMS. TWO S100A13 GENE SITES, I.E., CG02873163 AND CG11343894, DISPLAYED A GOOD CORRELATION WITH DR ON PYROSEQUENCING. CONCLUSIONS: DMSS IN THE S100A13 GENE MAY BE POTENTIAL BIOMARKERS OF DR. 2020 6 3456 36 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 7 1794 39 EFFECT OF DIABETES STATUS AND HYPERGLYCEMIA ON GLOBAL DNA METHYLATION AND HYDROXYMETHYLATION. TYPE 2 DIABETES MELLITUS (T2DM) IS CHARACTERIZED BY OXIDATIVE STRESS THAT COULD LEAD TO CHRONIC MICRO- AND MACROVASCULAR COMPLICATIONS. WE HYPOTHESIZED THAT SOME OF THE TARGET ORGAN DAMAGE IS MEDIATED BY OXIDATIVE ALTERATIONS IN EPIGENETIC MECHANISMS INVOLVING DNA METHYLATION (5MC) AND DNA HYDROXYMETHYLATION (5HMC). WE ANALYZED GLOBAL DNA METHYLATION AND HYDROXYMETHYLATION IN PERIPHERAL BLOOD CELLS IN WELL-CONTROLLED AND POORLY CONTROLLED PATIENTS WITH T2DM AND COMPARED THEM WITH HEALTHY CONTROLS. WE ALSO ANALYZED MICROARRAYS OF DNA METHYLATION AND GENE EXPRESSION OF OTHER IMPORTANT TISSUES IN THE CONTEXT OF DIABETES FROM THE GEO DATABASE REPOSITORY AND THEN COMPARED THESE RESULTS WITH OUR EXPERIMENTAL GENE EXPRESSION DATA. DNA METHYLATION AND, MORE IMPORTANTLY, DNA HYDROXYMETHYLATION LEVELS WERE INCREASED IN POORLY CONTROLLED PATIENTS COMPARED TO WELL-CONTROLLED AND HEALTHY INDIVIDUALS. BOTH 5MC AND 5HMC MEASUREMENTS WERE CORRELATED WITH THE PERCENTAGE OF GLYCATED HEMOGLOBIN, INDICATING A DIRECT IMPACT OF HYPERGLYCEMIA ON CHANGES OVER THE EPIGENOME. THE ANALYSIS OF METHYLATION MICROARRAYS WAS CONCORDANT, AND 5MC LEVELS WERE INCREASED IN THE PERIPHERAL BLOOD OF T2DM PATIENTS. HOWEVER, THE DNA METHYLATION LEVELS WERE THE OPPOSITE OF THOSE IN OTHER TISSUES, SUCH AS THE PANCREAS, ADIPOSE TISSUE AND SKELETAL MUSCLE. WE HYPOTHESIZE THAT A PROCESS OF DNA OXIDATION ASSOCIATED WITH HYPERGLYCEMIA MAY EXPLAIN THE DNA DEMETHYLATION IN WHICH THE ACTIVITY OF TEN-ELEVEN TRANSLOCATION (TET) PROTEINS IS NOT SUFFICIENT TO COMPLETE THE PROCESS. HIGH LEVELS OF GLUCOSE LEAD TO CELLULAR OXIDATION, WHICH TRIGGERS THE PROCESS OF DNA DEMETHYLATION AIDED BY TET ENZYMES, RESULTING IN EPIGENETIC DYSREGULATION OF THE DAMAGED TISSUES. 2017 8 273 42 AGE-INDUCED SUPPRESSION OF EZH2 MEDIATES INJURY OF PODOCYTES BY REDUCING H3K27ME3. BACKGROUND: CHRONIC HYPERGLYCEMIA, A PIVOTAL FEATURE OF DIABETES MELLITUS (DM), INITIATES THE FORMATION OF ADVANCED GLYCATION END PRODUCTS (AGES) AND THE DYSREGULATION OF EPIGENETIC MECHANISMS, WHICH MAY CAUSE INJURY TO RENAL PODOCYTES, A CENTRAL FEATURE OF DIABETIC KIDNEY DISEASE (DKD). PREVIOUS DATA OF OUR GROUP SHOWED THAT AGES SIGNIFICANTLY REDUCE THE EXPRESSION OF NIPP1 (NUCLEAR INHIBITOR OF PROTEIN PHOSPHATASE 1) IN PODOCYTES IN VITRO AS WELL AS IN HUMAN AND MURINE DKD. NIPP1 WAS SHOWN BY OTHERS TO INTERACT WITH ENHANCER OF ZESTE HOMOLOG 2 (EZH2), WHICH CATALYZES THE REPRESSIVE METHYLATION OF H3K27ME3 ON HISTONE 3. THEREFORE, WE HYPOTHESIZED THAT AGES CAN DIRECTLY INDUCE EPIGENETIC CHANGES IN PODOCYTES. METHODS: WE ANALYZED THE RELEVANCE OF AGES ON EZH2 EXPRESSION AND ACTIVITY IN A MURINE PODOCYTE CELL LINE. CELLS WERE TREATED WITH 5 MG/ML GLYCATED BSA FOR 24 H. TO DETERMINE THE MEANING OF EZH2 SUPPRESSION, EZH2 ACTIVITY WAS INHIBITED BY INCUBATING THE CELLS WITH THE PHARMACOLOGICAL METHYLTRANSFERASE INHIBITOR 3-DEAZANEPLANOCIN A; EZH2 EXPRESSION WAS REPRESSED WITH SIRNA. MRNA EXPRESSION WAS ANALYZED WITH REAL-TIME PCR, AND PROTEIN EXPRESSION WITH WESTERN BLOT. EZH2 EXPRESSION AND LEVEL OF H3K27 TRIMETHYLATION IN PODOCYTES OF DIABETIC DB/DB MICE, A MOUSE MODEL FOR TYPE 2 DM, WERE ANALYZED USING IMMUNOFLUORESCENCE. RESULTS: OUR DATA DEMONSTRATED THAT AGES DECREASE EZH2 EXPRESSION IN PODOCYTES AND CONSEQUENTLY REDUCE H3K27ME3. THIS SUPPRESSION OF EZH2 MIMICKED THE AGE EFFECTS AND CAUSED AN UPREGULATED EXPRESSION OF PATHOLOGICAL FACTORS THAT CONTRIBUTE TO PODOCYTE INJURY IN DKD. IN ADDITION, ANALYSES OF DB/DB MICE SHOWED SIGNIFICANTLY REDUCED H3K27ME3 AND EZH2 EXPRESSION IN PODOCYTES. MOREOVER, THE SUPPRESSION OF NIPP1 AND EZH2 SHOWED SIMILAR EFFECTS REGARDING PODOCYTE INJURY. CONCLUSIONS: OUR STUDIES PROVIDE A NOVEL PATHWAY HOW AGES CONTRIBUTE TO PODOCYTE INJURY AND THE FORMATION OF THE SO-CALLED METABOLIC MEMORY IN DKD. 2020 9 1189 34 CORRELATION BETWEEN GLOBAL METHYLATION LEVEL OF PERIPHERAL BLOOD LEUKOCYTES AND SERUM C REACTIVE PROTEIN LEVEL MODIFIED BY MTHFR POLYMORPHISM: A CROSS-SECTIONAL STUDY. BACKGROUND: CHRONIC INFLAMMATORY CONDITIONS ARE ASSOCIATED WITH HIGHER TUMOR INCIDENCE THROUGH EPIGENETIC AND GENETIC ALTERATIONS. HERE, WE FOCUSED ON AN ASSOCIATION BETWEEN AN INFLAMMATION MARKER, C-REACTIVE-PROTEIN (CRP), AND GLOBAL DNA METHYLATION LEVELS OF PERIPHERAL BLOOD LEUKOCYTES. METHODS: THE SUBJECTS WERE 384 HEALTHY JAPANESE WOMEN ENROLLED AS THE CONTROL GROUP OF A CASE-CONTROL STUDY FOR BREAST CANCER CONDUCTED FROM 2001 TO 2005. GLOBAL DNA METHYLATION WAS QUANTIFIED BY LUMINOMETRIC METHYLATION ASSAY (LUMA). RESULTS: WITH ADJUSTMENT FOR LIFESTYLE-RELATED FACTORS, INCLUDING FOLATE INTAKE, THE GLOBAL DNA METHYLATION LEVEL OF PERIPHERAL BLOOD LEUKOCYTES WAS SIGNIFICANTLY BUT WEAKLY INCREASED BY 0.43% PER QUARTILE CATEGORY FOR CRP (P FOR TREND = 0.010). ESTIMATED METHYLATION LEVELS STRATIFIED BY CRP QUARTILE WERE 70.0%, 70.8%, 71.4%, AND 71.3%, RESPECTIVELY. IN ADDITION, INTERACTION BETWEEN POLYMORPHISM OF MTHFR (RS1801133, KNOWN AS C677T) AND CRP WAS SIGNIFICANT (P FOR INTERACTION = 0.046); THE GLOBAL METHYLATION LEVEL WAS SIGNIFICANTLY INCREASED BY 0.61% PER QUARTILE CATEGORY FOR CRP IN THE CT/TT GROUP (THOSE WITH THE MINOR ALLELE T, P FOR TREND = 0.001), WHEREAS NO ASSOCIATION WAS OBSERVED IN THE CC GROUP (WILD TYPE). CONCLUSIONS: OUR STUDY SUGGESTS THAT CRP CONCENTRATION IS WEAKLY ASSOCIATED WITH GLOBAL DNA METHYLATION LEVEL. HOWEVER, THIS ASSOCIATION WAS OBSERVED MORE CLEARLY IN INDIVIDUALS WITH THE MINOR ALLELE OF THE MTHFR MISSENSE SNP RS1801133. BY ELUCIDATING THE COMPLEX MECHANISM OF THE REGULATION OF DNA METHYLATION BY BOTH ACQUIRED AND GENETIC FACTORS, OUR RESULTS MAY BE IMPORTANT FOR CANCER PREVENTION. 2018 10 1837 41 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 11 1389 34 DIABETIC RETINOPATHY AND SYSTEMIC FACTORS. DIABETIC RETINOPATHY, AN OCULARDISEASE, IS GOVERNED BY SYSTEMIC AS WELL AS LOCAL OCULAR FACTORS. THESE INCLUDE PRIMARILY CHRONIC LEVELS OF BLOOD GLUCOSE. INDIVIDUALS WITH CHRONICALLY ELEVATED BLOOD GLUCOSE LEVELS HAVE SUBSTANTIALLY MORE, AND MORE SEVERE, RETINOPATHY THAN THOSE WITH LOWER BLOOD GLUCOSE LEVELS. THE RELATIONSHIP OF BLOOD GLUCOSE TO RETINOPATHY IS CONTINUOUS, WITH NO THRESHOLD ALTHOUGH INDIVIDUALS WITH HEMOGLOBIN A1C LEVELS (A MEASURE OF CHRONIC GLYCEMIA) <6.5%, GENERALLY DEVELOP LITTLE OR NO RETINOPATHY. BLOOD PRESSURE LEVELS HAVE BEEN CLAIMED TO INFLUENCE RETINOPATHY DEVELOPMENT AND PROGRESSION, BUT MULTIPLE CONTROLLED CLINICAL TRIALS OF ANTIHYPERTENSIVE AGENTS IN DIABETIC SUBJECTS HAVE PRODUCED ONLY WEAK EVIDENCE OF BENEFIT FROM BLOOD PRESSURE LOWERING ON THE INCIDENCE AND PROGRESSION OF DIABETIC RETINOPATHY. ELEVATED BLOOD LIPIDS SEEM TO PLAY A ROLE IN THE PROGRESSION OF RETINOPATHY, AND TWO TRIALS OF FENOFIBRATE, A LIPID-LOWERING AGENT THAT HAS NOT PROVED EFFECTIVE IN PREVENTING CARDIOVASCULAR DISEASE, HAVE SHOWN BENEFIT IN PREVENTING RETINOPATHY PROGRESSION. THE MECHANISM OF THIS EFFECT MAY NOT, HOWEVER, BE DIRECTLY RELATED TO THE REDUCTION IN BLOOD LIPIDS. FINALLY, THERE IS STRONG, BUT ONLY CIRCUMSTANTIAL, EVIDENCE FOR A GENETIC OR EPIGENETIC INFLUENCE ON THE PATHOGENESIS OF DIABETIC RETINOPATHY. DESPITE THE POWER OF LARGE-SCALE EPIDEMIOLOGIC STUDIES AND MODERN MOLECULAR BIOLOGICAL AND COMPUTATIONAL TECHNIQUES, THE GENE OR GENES, WHICH PREDISPOSE OR PROTECT AGAINST THE DEVELOPMENT AND PROGRESSION OF DIABETIC RETINOPATHY REMAIN ELUSIVE. 2015 12 6250 33 THE METHYLENETETRAHYDROFOLATE REDUCTASE 677C>T GENE POLYMORPHISM IS NOT ASSOCIATED WITH CHRONIC PLAQUE PSORIASIS. BACKGROUND: METHYLENETETRAHYDROFOLATE REDUCTASE (MTHFR) IS INVOLVED IN THE FORMATION OF METHYL DONORS, WHICH CONTRIBUTE TO DNA METHYLATION. DNA METHYLATION IS AN ESSENTIAL EPIGENETIC FEATURE PLAYING A CRITICAL ROLE IN GENE REGULATION AND CELLULAR DIFFERENTIATION. IN ADDITION, MTHFR ACTIVITY AFFECTS PLASMA HOMOCYSTEINE LEVELS. A FUNCTIONAL POLYMORPHISM IN THE MTHFR GENE (677C>T, RS1801133) LEADING TO REDUCED ENZYME ACTIVITY HAS BEEN ASSOCIATED WITH CHRONIC PLAQUE PSORIASIS IN A CHINESE POPULATION. THIS FINDING, HOWEVER, HAS NOT YET BEEN EITHER CONFIRMED OR REFUTED IN OTHER POPULATIONS. THE PURPOSE OF THE PRESENT STUDY WAS TO INVESTIGATE A HYPOTHESIZED ASSOCIATION BETWEEN THE MTHFR 677C>T POLYMORPHISM AND THE PRESENCE OF CHRONIC PLAQUE PSORIASIS IN A CAUCASIAN POPULATION. METHODS: GENOTYPES FOR THE MTHFR 677C>T POLYMORPHISM WERE DETERMINED IN 310 PATIENTS AND 247 CONTROL SUBJECTS. IN A SUBGROUP OF 33 PATIENTS AND 33 SEX- AND AGE-MATCHED CONTROL SUBJECTS, FASTING PLASMA HOMOCYSTEINE CONCENTRATIONS WERE DETERMINED BY HIGH-PERFORMANCE LIQUID CHROMATOGRAPHY AND IMMUNOLOGICAL ASSAYS WERE USED FOR THE MEASUREMENT OF FOLATE AND VITAMIN B(12). RESULTS: PREVALENCE OF THE HOMOZYGOUS MTHFR 677TT GENOTYPE DID NOT SIGNIFICANTLY DIFFER BETWEEN PATIENTS AND CONTROLS (15.2% VS 11.7%, P = 0.24). MEAN PLASMA HOMOCYSTEINE CONCENTRATIONS WERE SIGNIFICANTLY HIGHER IN PSORIASIS PATIENTS THAN AMONG CONTROL SUBJECTS (13.5 +/- 5.3 MICROMOL/L VS 11.0 +/- 2.2 MICROMOL/L, P = 0.026). NO SIGNIFICANT DIFFERENCES BETWEEN EITHER MEAN PLASMA FOLATE OR VITAMIN B(12) CONCENTRATIONS WERE OBSERVED BETWEEN BOTH GROUPS. CONCLUSION: OUR DATA SUGGEST THAT THE MTHFR 677C>T GENE POLYMORPHISM IS NOT ASSOCIATED WITH CHRONIC PLAQUE PSORIASIS AMONG CAUCASIANS. 2008 13 6386 38 THE ROLE OF QUANTITATIVE NPTX2 HYPERMETHYLATION AS A NOVEL SERUM DIAGNOSTIC MARKER IN PANCREATIC CANCER. OBJECTIVES: THE MAJORITY OF PANCREATIC CANCERS ARE FOUND TO BE UNRESECTABLE, AND THE ONLY CHANCE FOR CURE LIES ON EARLY DETECTION AND COMPLETE RESECTION. SEVERAL GENES HAVE BEEN DISCOVERED TO BE ABERRANTLY METHYLATED IN PRIMARY PANCREATIC CANCER TISSUE, AND THIS CANCER DNA CAN BE DETECTED IN THE PLASMA. THE AIMS OF THIS STUDY WERE TO DEVELOP A NOVEL DIAGNOSTIC MARKER BASED ON EPIGENETIC CHARACTERISTICS OF PANCREATIC CANCER. METHODS: WE ENROLLED 104 PATIENTS WITH PANCREATIC CANCER, 60 WITH CHRONIC PANCREATITIS, AND 5 WITH BENIGN BILIARY STONE DISEASES. THE BLOOD SAMPLES WERE COLLECTED BEFORE SURGERY OR ANY KINDS OF TREATMENT MODALITIES. DNA WAS EXTRACTED FROM THE PLASMA OF EACH PATIENT, AND NPTX2 (NEURONAL PENTRAXIN II) CPG ISLAND HYPERMETHYLATION WAS EXAMINED QUANTITATIVELY BY REAL-TIME POLYMERASE CHAIN REACTION. RESULTS: NPTX2 HYPERMETHYLATION LEVELS WERE SIGNIFICANTLY HIGHER COMPARED WITH CHRONIC PANCREATITIS (P = 0.016). THE SENSITIVITY AND SPECIFICITY WERE 80% AND 76%, RESPECTIVELY (CUTOFF = 0.015). NPTX2 GENE HYPERMETHYLATION LEVEL WAS SIGNIFICANTLY ELEVATED IN CORRELATION WITH HIGHER AMERICAN JOINT COMMITTEE ON CANCER STAGES. CONCLUSIONS: THE ABERRANTLY METHYLATED NPTX2 GENE MAY HELP TO DISTINGUISH BETWEEN CHRONIC PANCREATITIS AND PANCREATIC CANCER WITH CONVENTIONAL DIAGNOSTIC TOOLS AND COULD BECOME A VALUABLE DIAGNOSTIC MARKER. 2012 14 1064 44 CLINICAL SIGNIFICANCE OF PROMOTER METHYLATION STATUS OF TUMOR SUPPRESSOR GENES IN CIRCULATING DNA OF PANCREATIC CANCER PATIENTS. INTRODUCTION: PANCREATIC DUCTAL ADENOCARCINOMA (PDAC) IS A VERY AGGRESSIVE CANCER. THERE ARE VARIOUS SUB-CELLULAR EVENTS (BOTH GENETIC AND EPIGENETIC) THAT GET DYSREGULATED LEADING TO TUMORIGENESIS. METHYLATION IN PROMOTERS OF TUMOR SUPPRESSOR GENES IS ONE OF THESE EPIGENETIC PHENOMENA CONTRIBUTING TO THE PATHOGENESIS OF CANCER. GENES ANALYZED FOR PROMOTER METHYLATION STATUS IN THIS STUDY NAMELY SPARC (SECRETED PROTEIN ACIDIC AND RICH IN CYSTEINE, UCHL1 (UBIQUITIN CARBOXY-TERMINAL HYDROLASE L1), NPTX2 (NEURONAL PENTRAXIN 2), PENK (PROENKEPHALIN) HAD BEEN STUDIED IN PANCREATIC CANCER, BUT THERE IS A NEED TO CHECK METHYLATION IN THESE GENES AS CIRCULATORY NON-INVASIVE MARKERS. THIS STUDY ANALYZED THE ABSOLUTE QUANTIFICATION OF METHYLATION LEVELS OF SPARC, UCHL1, PENK, AND NPTX2 GENES PROMOTERS IN PDAC PATIENTS AS WELL AS IN CHRONIC PANCREATITIS (CP) PATIENTS AND HEALTHY SUBJECTS (HC) AND EVALUATED ITS CLINICAL SIGNIFICANCE IN PDAC. MATERIALS AND METHODS: THE STUDY INCLUDED 65 PDAC PATIENTS, 25 CP PATIENTS, AND 25 HEALTHY CONTROLS. DNA WAS EXTRACTED FROM THEIR PLASMA SAMPLES AND SUBSEQUENTLY GIVEN BISULFITE TREATMENT. ABSOLUTE QUANTIZATION OF METHYLATED AND UNMETHYLATED COPIES OF GENE PROMOTERS OF ALL THE FOUR GENES WAS PERFORMED USING REAL-TIME PCR (SYBR GREEN) BY THE STANDARD CURVE METHOD. METHYLATION LEVELS WERE EXPRESSED AS METHYLATION INDEX (MI) FOR EACH GENE IN EACH PATIENT. MI WAS CALCULATED FROM ABSOLUTE COPY NUMBERS AS FOLLOWS: MI-METHYLATED COPY NUMBER/METHYLATED COPY NUMBER + UNMETHYLATED COPY NUMBER). THESE INDICES WERE USED TO COMPARE GENE METHYLATION LEVELS WITHIN DIFFERENT GROUPS AND TO CORRELATE WITH CLINICOPATHOLOGICAL FEATURES AND SURVIVAL OF PANCREATIC CANCER PATIENTS. AN APPROPRIATE STATISTICAL ANALYSIS WAS APPLIED. RESULTS: METHYLATION INDICES FOR ALL THE FOUR GENES IN PDAC CASES WERE FOUND TO BE SIGNIFICANTLY HIGHER AS COMPARED TO THAT IN HEALTHY INDIVIDUALS. SPARC MI VALUES WERE FOUND TO DIFFERENTIATE EARLY-STAGE PDAC PATIENTS FROM CP PATIENTS. PDAC PATIENTS WITH THE METASTASIZED DISEASE AND STAGE IV DISEASE WERE FOUND TO HAVE HIGH MI FOR THE SPARC GENE AS WELL AS FOR THE NPTX2 GENE, WHILE A HIGHER UCHL1 METHYLATION INDEX WAS FOUND TO CORRELATE WITH AN ADVANCED STAGE OF THE DISEASE. HIGHER MI VALUES FOR SPARC AND NPTX2 GENES WERE FOUND TO ASSOCIATE WITH POOR SURVIVAL IN PATIENTS WITH PDAC. CONCLUSION: METHYLATION LOAD IN THE FORM OF MI FOR EACH OF THE FOUR GENES ASSESSED IN PLASMA MAY EMERGE AS A NON-INVASIVE BIOMARKER TO DIFFERENTIATE PANCREATIC CANCER FROM HEALTHY INDIVIDUALS. BUT ONLY SPARC AND NPTX2 HYPERMETHYLATION WERE ABLE TO DISTINGUISH PANCREATIC CANCER FROM CHRONIC PANCREATITIS. ASSOCIATION OF ABERRANT METHYLATION IN SPARC AND NPTX2 GENE WITH METASTASIS AND POOR SURVIVAL OF PATIENTS SUGGEST THE ROLE OF METHYLATION IN THESE GENES AS PROGNOSTIC MARKERS. 2020 15 5448 29 REPRESSION OF HDAC5 BY ACETATE RESTORES HYPOTHALAMIC-PITUITARY-OVARIAN FUNCTION IN TYPE 2 DIABETES MELLITUS. TYPE 2 DIABETES MELLITUS (T2DM) ACCOUNTS FOR 90-95 % OF WORLDWIDE DIABETES CASES AND IS PRIMARILY CHARACTERIZED BY INSULIN RESISTANCE. ITS PROGRESSION AS A CHRONIC METABOLIC DISEASE HAS BEEN LARGELY ASSOCIATED WITH FEMALE REPRODUCTIVE ABNORMALITIES, INCLUDING OVARIAN DYSFUNCTION WITH CONSEQUENT INFERTILITY. EPIGENETIC MODIFICATIONS HAVE BEEN SUGGESTED AS A POSSIBLE LINK TO METABOLIC COMORBIDITIES. WE THEREFORE HYPOTHESIZED THAT SHORT CHAIN FATTY ACIDS, ACETATE (ACA), A POTENTIAL HISTONE DEACETYLASE INHIBITOR (HDAC) AMELIORATES HYPOTHALAMIC-PITUITARY-OVARIAN (HPO) DYSFUNCTION IN T2DM. FEMALE WISTAR RATS WEIGHING 160-190 G WERE ALLOTTED INTO THREE GROUPS (N = 6/GROUP): CONTROL (VEHICLE; PO), T2D AND T2D + ACA (200 MG/KG; PO). T2DM WAS INDUCED BY FRUCTOSE ADMINISTRATION (10 %; W/V) FOR 6 WEEKS AND SINGLE DOSE OF STREPTOZOTOCIN (35 MG/KG; IP). THE PRESENT DATA SHOWED THAT IN ADDITION TO INSULIN RESISTANCE, INCREASED FASTING BLOOD GLUCOSE AND INSULIN, T2DM INDUCED ELEVATED PLASMA, HYPOTHALAMIC AND OVARIAN TRIGLYCERIDE, LIPID PEROXIDATION, TNF-ALPHA AND GLUTATHIONE DEPLETION. ASIDE, T2DM ALSO LED TO INCREASED PLASMA LACTATE PRODUCTION AND GAMMA-GLUTAMYL TRANSFERASE AS WELL AS DECREASED GONADOTROPINS/17BETA-ESTRADIOL. HISTOLOGICALLY, HYPOTHALAMUS, PITUITARY AND OVARIES REVEALED DISRUPTED NEURONAL CELLS/MODERATE HEMORRHAGE, ALTERED MORPHOLOGY/VASCULAR CONGESTIONS, AND DEGENERATED ANTRAL FOLLICLE/GRAAFIAN FOLLICLE WITH MILD FIBROSIS AND INFILTRATED INFLAMMATORY CELLS RESPECTIVELY IN T2D ANIMALS. INTERESTINGLY, THESE ALTERATIONS WERE ACCOMPANIED BY ELEVATED PLASMA/HYPOTHALAMIC HDAC5 AND ATTENUATED WHEN TREATED WITH ACETATE. THE PRESENT RESULTS DEMONSTRATE THAT T2DM INDUCES HPO DYSFUNCTION, WHICH IS ACCOMPANIED BY ELEVATED CIRCULATING/HYPOTHALAMIC HDAC5. THE RESULTS IN ADDITION SUGGEST THAT ACETATE RESTORES HPO FUNCTION IN T2DM BY SUPPRESSION OF HDAC5 AND ENHANCEMENT OF INSULIN SENSITIVITY. 2021 16 1781 33 EFFECT OF 1 YEAR B AND D VITAMIN SUPPLEMENTATION ON LINE-1 REPETITIVE ELEMENT METHYLATION IN OLDER SUBJECTS. BACKGROUND: DISTURBED DNA METHYLATION IS CAUSALLY RELATED TO CHRONIC DISEASES LIKE CANCER AND ATHEROSCLEROSIS. B VITAMINS ARE COFACTORS REQUIRED FOR METHYL GROUP SYNTHESIS AND MAY THEREFORE AFFECT DNA METHYLATION. VITAMIN D HAS EPIGENETIC EFFECTS. WE TESTED IF B AND D VITAMIN SUPPLEMENTATION HAS AN EFFECT ON GENOMIC LONG INTERSPERSED NUCLEAR ELEMENT-1 (LINE-1) METHYLATION AND THE METABOLITES S-ADENOSYLMETHIONINE (SAM) AND S-ADENOSYLHOMOCYSTEINE (SAH). METHODS: FIFTY SUBJECTS (MEDIAN AGE 68.0 YEARS) WERE SUPPLEMENTED WITH A DAILY ORAL DOSE OF B VITAMINS (500 MICROG FOLIC ACID, 500 MICROG VITAMIN B12 AND 50 MG VITAMIN B6), 1200 IU VITAMIN D AND 456 MG CALCIUM. FASTING BLOOD SAMPLES WERE COLLECTED BEFORE AND AFTER 1 YEAR OF SUPPLEMENTATION. LINE-1 METHYLATION WAS DETERMINED IN GENOMIC DNA FROM BLOOD CELLS AS A SURROGATE FOR WHOLE GENOME METHYLATION. IN ADDITION, SAM, SAH AND TOTAL HOMOCYSTEINE (THCY) WERE MEASURED IN PLASMA SAMPLES. RESULTS: PLASMA HOMOCYSTEINE DECREASED SIGNIFICANTLY AFTER SUPPLEMENTATION (12.8 VS. 9.1 MICROMOL/L; P<0.05), WHEREAS SAM, SAH, THE SAM/SAH RATIO AND LINE-1 METHYLATION DID NOT CHANGE SIGNIFICANTLY. LINE-1 METHYLATION WAS NOT SIGNIFICANTLY CORRELATED WITH SAH, HOMOCYSTEINE OR B VITAMINS. CONCLUSIONS: LONG-TERM VITAMIN B SUPPLEMENTATION HAD NO EFFECT ON LINE-1 METHYLATION IN BLOOD CELLS NOR ON PLASMA LEVELS OF SAM AND SAH. VITAMIN B AND D SUPPLEMENTATION SEEMS TO HAVE NO EFFECT ON DNA METHYLATION, ESPECIALLY IN CASES WHERE NO SEVERE DEFICIENCY EXISTS. 2013 17 250 34 ADVANCED GLYCATION END PRODUCTS (AGES): BIOCHEMISTRY, SIGNALING, ANALYTICAL METHODS, AND EPIGENETIC EFFECTS. THE ADVANCED GLYCATION END PRODUCTS (AGES) ARE ORGANIC MOLECULES FORMED IN ANY LIVING ORGANISMS WITH A GREAT VARIETY OF STRUCTURAL AND FUNCTIONAL PROPERTIES. THEY ARE CONSIDERED ORGANIC MARKERS OF THE GLYCATION PROCESS. DUE TO THEIR GREAT HETEROGENEITY, THERE IS NO SPECIFIC TEST FOR THEIR OPERATIONAL MEASUREMENT. IN THIS REVIEW, WE HAVE UPDATED THE MOST COMMON CHROMATOGRAPHIC, COLORIMETRIC, SPECTROSCOPIC, MASS SPECTROMETRIC, AND SEROLOGICAL METHODS, TYPICALLY USED FOR THE DETERMINATION OF AGES IN BIOLOGICAL SAMPLES. WE HAVE DESCRIBED THEIR SIGNALING AND SIGNAL TRANSDUCTION MECHANISMS AND CELL EPIGENETIC EFFECTS. ALTHOUGH MASS SPECTROMETRIC ANALYSIS IS NOT WIDESPREAD IN THE DETECTION OF AGES AT THE CLINICAL LEVEL, THIS TECHNIQUE IS HIGHLY PROMISING FOR THE EARLY DIAGNOSIS AND THERAPEUTICS OF DISEASES CAUSED BY AGES. PROTOCOLS ARE AVAILABLE FOR HIGH-RESOLUTION MASS SPECTROMETRY OF GLYCATED PROTEINS ALTHOUGH THEY ARE CHARACTERIZED BY COMPLEX MACHINE MANAGEMENT. SIMPLER PROCEDURES ARE AVAILABLE ALTHOUGH MUCH LESS PRECISE THAN MASS SPECTROMETRY. AMONG THEM, IMMUNOCHEMICAL TESTS ARE VERY COMMON SINCE THEY ARE ABLE TO DETECT AGES IN A SIMPLE AND IMMEDIATE WAY. IN THESE YEARS, NEW METHODOLOGIES HAVE BEEN DEVELOPED USING AN IN VIVO NOVEL AND NONINVASIVE SPECTROSCOPIC METHODS. THESE METHODS ARE BASED ON THE MEASUREMENT OF AUTOFLUORESCENCE OF AGES. ANOTHER METHOD CONSISTS OF DETECTING AGES IN THE HUMAN SKIN TO DETECT CHRONIC EXPOSURE, WITHOUT THE INCONVENIENCE OF INVASIVE METHODS. THE AIM OF THIS REVIEW IS TO COMPARE THE DIFFERENT APPROACHES OF MEASURING AGES AT A CLINICAL PERSPECTIVE DUE TO THEIR STRICT ASSOCIATION WITH OXIDATIVE STRESS AND INFLAMMATION. 2020 18 2149 33 EPIGENETIC MARKERS TO PREDICT CONVERSION FROM GESTATIONAL DIABETES TO TYPE 2 DIABETES. CONTEXT: LIFESTYLE FACTORS MEDIATE EPIGENETIC CHANGES THAT CAN CAUSE CHRONIC DISEASES. ALTHOUGH ANIMAL AND LABORATORY STUDIES LINK EPIGENETIC CHANGES TO DIABETES, EPIGENETIC INFORMATION IN WOMEN WITH GESTATIONAL DIABETES (GDM) AND TYPE 2 DIABETES IS LACKING. OBJECTIVE: THIS STUDY SOUGHT TO MEASURE EPIGENETIC MARKERS ACROSS PREGNANCY AND EARLY POSTPARTUM AND IDENTIFY MARKERS THAT COULD BE USED AS PREDICTORS FOR CONVERSION FROM GDM TO TYPE 2 DIABETES. DESIGN: GLOBAL HISTONE H3 DIMETHYLATION WAS MEASURED IN WHITE BLOOD CELLS AT THREE TIME POINTS: 30 WK GESTATION, 8-10 WK POSTPARTUM, AND 20 WK POSTPARTUM, FROM FOUR GROUPS OF WOMEN WITH AND WITHOUT DIABETES. SETTING AND PARTICIPANTS: A TOTAL OF 39 PARTICIPANTS (SIX TO NINE IN EACH GROUP) WERE RECRUITED INCLUDING: NONDIABETIC WOMEN; WOMEN WITH GDM WHO DEVELOPED POSTPARTUM TYPE 2 DIABETES; WOMEN WITH GDM WITHOUT POSTPARTUM TYPE 2 DIABETES; AND WOMEN WITH TYPE 2 DIABETES. MAIN OUTCOME MEASURE: PERCENTAGES OF DIMETHYLATION OF H3 HISTONES RELATIVE TO TOTAL H3 HISTONE METHYLATION WERE COMPARED BETWEEN DIABETIC/NONDIABETIC GROUPS USING APPROPRIATE COMPARATIVE STATISTICS. RESULTS: H3K27 DIMETHYLATION WAS 50-60% LOWER AT 8-10 AND 20 WK POSTPARTUM IN WOMEN WITH GDM WHO DEVELOPED TYPE 2 DIABETES, COMPARED WITH NONDIABETIC WOMEN. H3K4 DIMETHYLATION WAS 75% LOWER AT 8-10 WK POSTPARTUM IN WOMEN WITH GDM WHO SUBSEQUENTLY DEVELOPED TYPE 2 DIABETES COMPARED WITH WOMEN WHO HAD GDM WHO DID NOT. CONCLUSIONS: THE PERCENTAGE OF DIMETHYLATION OF HISTONES H3K27 AND H3K4 VARIED WITH DIABETIC STATE AND HAS THE POTENTIAL AS A PREDICTIVE TOOL TO IDENTIFY WOMEN WHO WILL CONVERT FROM GDM TO TYPE 2 DIABETES. 2016 19 2151 41 EPIGENETIC MECHANISM IN SEARCH FOR THE PATHOMECHANISM OF DIABETIC NEUROPATHY DEVELOPMENT IN DIABETES MELLITUS TYPE 1 (T1DM). OBJECTIVE: THE AIM OF THIS STUDY WAS TO CHECK THE HYPOTHESIS CONCERNING THE CRUCIAL ROLE OF DNA METHYLATION (ONE OF THE EPIGENETIC MECHANISMS) WITHIN SELECTED GENES RELATED TO THE DESTRUCTION AND REGENERATION OF NEURAL CELLS AND ITS INPUT IN THE PATHOGENESIS OF DIABETIC NEUROPATHY, USING A MODEL OF THE DNA IN PERIPHERAL BLOOD CELLS. METHODS: A CROSS-SECTIONAL, CASE-CONTROL STUDY WAS CONDUCTED, CONSISTING OF 24 ADULT TYPE 1 DIABETES MELITUS (T1DM) PATIENTS WITH AUTONOMIC NEUROPATHY (CAN), 25 T1DM PATIENTS WITHOUT NEUROPATHY AND 25 MATCHED, HEALTHY ADULTS ACTING AS A CONTROL (CTRL). THE EWING'S TESTS, USING THE PROSCICARD APPARATUS (MEWICON CATEEM-TEC GMBH), WAS EMPLOYED TO ASSESS THE SEVERITY OF THE PATIENTS' SYMPTOMS OF AUTONOMIC NEUROPATHY. FOR DNA METHYLATION ANALYSIS, DNA MATERIAL OF EACH SAMPLE DNA AFTER BISULFITE CONVERSION WAS USED FOR THE HYBRIDIZATION OF BEADCHIPS (INFINIUM METHYLATION EPIC KIT, ILLUMINA), AND IMAGED ON THE ILLUMINA HISCAN. THE CHANGES IN THE EXPRESSION OF SELECTED GENES WERE EXAMINED USING REAL-TIME PCR. PROBES WERE LABELED USING FLUORESCEIN AMIDITE, FAM (THERMO FISHER SCIENTIFIC). AMPLIFICATION WAS PERFORMED USING THE CONTINUOUS FLUORESCENCE DETECTION 7900 HT FAST REAL-TIME PCR SYSTEM (THERMO FISHER SCIENTIFIC). THE EXPRESSION RATIO OF THE TARGET MRNA WAS NORMALIZED TO THE LEVEL OF 18S RNA AND COMPARED WITH THE CONTROL. STATISTICAL ANALYSIS WAS PERFORMED USING STATISTICA VERSION 13.1. THE STATISTICALLY SIGNIFICANT RESULTS WERE RECOGNIZED, WITH A VALUE OF P < 0.05. RESULTS: CLINICAL ANALYSIS OF THE INVESTIGATED GROUPS REVEALED A SIGNIFICANTLY HIGHER PERCENTAGE OF PERSONAL INSULIN PUMP USERS IN THE GROUP WITHOUT NEUROPATHY. THE GLUCOSE METABOLIC CONTROL, BASED ON THE HBA1C LEVEL ANALYSIS, WAS ALSO SIGNIFICANTLY BETTER IN T1DM PATIENTS WITHOUT CAN. THE BUMPHUNTER METHOD FOR DNA METHYLATION ANALYSIS SHOWED STATISTICALLY SIGNIFICANT REGIONS RELATED TO THE GENES INVOLVED IN NERVE REGENERATION NINJURIN 2 (NINJ2) AND FUNCTIONALITY (BR SERINE/THREONINE KINASE 2 BRSK2, CLAUDIN 4 CLDN4). WHEN COMPARED WITH T1DM PATIENTS WITHOUT NEUROPATHY, T1DM PATIENTS WITH NEUROPATHY SHOWED SIGNIFICANTLY INCREASED METHYLATION IN THE FIRST NINJ2 AXON, AND A LOWER LEVEL OF DNA METHYLATION IN THE REGION OF THE FIRST INTRON OF BRSK2, AS WELL AS THE CLDN4 5'UTR REGIONS. THE QRT-PCR RESULTS CONFIRMED THE DECREASED EXPRESSION OF NINJ2 AND CLDN4 GENES IN PATIENTS WITH T1DM WITH CAN. CONCLUSIONS: THE DIFFERENT DNA METHYLATION PROFILES, CORRELATING WITH THE EXPRESSION OF GENES RELATED TO NERVOUS TISSUE DEVELOPMENT AND REGENERATION IN PATIENTS WITH T1DM WITH AUTONOMIC NEUROPATHY PROVIDE EVIDENCE FOR THE ROLE OF EPIGENETIC MECHANISMS PROMOTING THE DEVELOPMENT OF CAN, A CHRONIC COMPLICATION OF T1DM. 2020 20 5854 32 SUBSTANCE P AND NEPRILYSIN IN CHRONIC PANCREATITIS. BACKGROUND/AIMS: WE AIMED TO ANALYZE SUBSTANCE P (SP) AND NEPRILYSIN (NEP), THE MEMBRANE METALLOPEPTIDASE THAT DEGRADES SP, IN CHRONIC PANCREATITIS (CP). METHODS: SP AND NEP MRNA LEVELS WERE ANALYZED BY QRT-PCR IN TISSUE SAMPLES FROM 30 PATIENTS WITH CP AND 8 ORGAN DONORS. IN ADDITION, SP SERUM LEVELS WERE DETERMINED BEFORE AND AFTER SURGERY IN THE SAME PATIENTS, BY MEANS OF A COMPETITIVE ELISA ASSAY. GENETIC AND EPIGENETIC ANALYSES OF THE NEP GENE WERE ALSO PERFORMED. RESULTS: SP MRNA EXPRESSION LEVELS WERE HIGHER IN CP TISSUES COMPARED TO CONTROLS (P = 0.0152), WHILE NEP MRNA SHOWED NO SIGNIFICANT DIFFERENCES BETWEEN CP AND HEALTHY SUBJECTS (P = 0.2102). IN CP PATIENTS, SP SERUM LEVELS CORRELATED WITH THOSE IN TISSUE, AND AFTER SURGICAL RESECTION SP SERUM LEVELS WERE REDUCED COMPARED TO THE PREOPERATIVE VALUES. FAILURE OF NEP TO OVEREXPRESS IN CP TISSUES WAS ASSOCIATED WITH SIGNIFICANT MIR-128A OVEREXPRESSION (P = 0.02), RATHER THAN WITH MUTATIONS IN THE NEP CODING REGION OR THE PRESENCE OF HYPERMETHYLATION SITES IN THE NEP PROMOTER REGION. CONCLUSION: TISSUE AND SERUM LEVELS OF SP WERE INCREASED IN CP, WHILE NEP LEVELS REMAINED UNALTERED. IN AN SP/NEP-MEDIATED PATHWAY, IT WOULD APPEAR THAT NEP FAILS TO PROVIDE ADEQUATE SURVEILLANCE OF SP LEVELS. FAILURE OF NEP TO OVEREXPRESS COULD BE ASSOCIATED WITH MIRNA REGULATION. 2012