1 6221 138 THE LANDSCAPE OF HISTONE MODIFICATIONS IN A HIGH-FAT DIET-INDUCED OBESE (DIO) MOUSE MODEL. TYPE 2 DIABETES (T2D) IS A MAJOR CHRONIC HEALTHCARE CONCERN WORLDWIDE. EMERGING EVIDENCE SUGGESTS THAT A HISTONE-MODIFICATION-MEDIATED EPIGENETIC MECHANISM UNDERLIES T2D. NEVERTHELESS, THE DYNAMICS OF HISTONE MARKS IN T2D HAVE NOT YET BEEN CAREFULLY ANALYZED. USING A MASS SPECTROMETRY-BASED LABEL-FREE AND CHEMICAL STABLE ISOTOPE LABELING QUANTITATIVE PROTEOMIC APPROACH, WE SYSTEMATICALLY PROFILED LIVER HISTONE POST-TRANSLATIONAL MODIFICATIONS (PTMS) IN A PREDIABETIC HIGH-FAT DIET-INDUCED OBESE (DIO) MOUSE MODEL. WE IDENTIFIED 170 HISTONE MARKS, 30 OF WHICH WERE PREVIOUSLY UNKNOWN. INTERESTINGLY, ABOUT 30% OF THE HISTONE MARKS IDENTIFIED IN DIO MOUSE LIVER BELONGED TO A SET OF RECENTLY REPORTED LYSINE ACYLATION MODIFICATIONS, INCLUDING PROPIONYLATION, BUTYRYLATION, MALONYLATION, AND SUCCINYLATION, SUGGESTING POSSIBLE ROLES OF THESE NEWLY IDENTIFIED HISTONE ACYLATIONS IN DIABETES AND OBESITY. THESE HISTONE MARKS WERE DETECTED WITHOUT PRIOR AFFINITY ENRICHMENT WITH AN ANTIBODY, DEMONSTRATING THAT THE HISTONE ACYLATION MARKS ARE PRESENT AT REASONABLY HIGH STOICHIOMETRY. FIFTEEN HISTONE MARKS DIFFERED IN ABUNDANCE IN DIO MOUSE LIVER COMPARED WITH LIVER FROM CHOW-FED MICE IN LABEL-FREE QUANTIFICATION, AND SIX HISTONE MARKS IN STABLE ISOTOPE LABELING QUANTIFICATION. ANALYSIS OF HEPATIC HISTONE MODIFICATIONS FROM METFORMIN-TREATED DIO MICE REVEALED THAT METFORMIN, A DRUG WIDELY USED FOR T2D, COULD REVERSE DIO-STIMULATED HISTONE H3K36ME2 IN PREDIABETES, SUGGESTING THAT THIS MARK IS LIKELY ASSOCIATED WITH T2D DEVELOPMENT. OUR STUDY THUS OFFERS A COMPREHENSIVE LANDSCAPE OF HISTONE MARKS IN A PREDIABETIC MOUSE MODEL, PROVIDES A RESOURCE FOR STUDYING EPIGENETIC FUNCTIONS OF HISTONE MODIFICATIONS IN OBESITY AND T2D, AND SUGGEST A NEW EPIGENETIC MECHANISM FOR THE PHYSIOLOGICAL FUNCTION OF METFORMIN. 2017 2 3292 40 HIGH FAT DIET AND EXERCISE LEAD TO A DISRUPTED AND PATHOGENIC DNA METHYLOME IN MOUSE LIVER. HIGH-FAT DIET CONSUMPTION AND SEDENTARY LIFESTYLE ELEVATES RISK FOR OBESITY, NON-ALCOHOLIC FATTY LIVER DISEASE, AND CANCER. EXERCISE TRAINING CONVEYS HEALTH BENEFITS IN POPULATIONS WITH OR WITHOUT THESE CHRONIC CONDITIONS. DIET AND EXERCISE REGULATE GENE EXPRESSION BY MEDIATING EPIGENETIC MECHANISMS IN MANY TISSUES; HOWEVER, SUCH EFFECTS ARE POORLY DOCUMENTED IN THE LIVER, A CENTRAL METABOLIC ORGAN. TO DISSECT THE CONSEQUENCES OF DIET AND EXERCISE ON THE LIVER EPIGENOME, WE MEASURED DNA METHYLATION, USING REDUCED REPRESENTATION BISULFITE SEQUENCING, AND TRANSCRIPTION, USING RNA-SEQ, IN MICE MAINTAINED ON A FAST FOOD DIET WITH SEDENTARY LIFESTYLE OR EXERCISE, COMPARED WITH CONTROL DIET WITH AND WITHOUT EXERCISE. OUR ANALYSES REVEAL THAT GENOME-WIDE DIFFERENTIAL DNA METHYLATION AND EXPRESSION OF GENE CLUSTERS ARE INDUCED BY DIET AND/OR EXERCISE. A COMBINATION OF FAST FOOD AND EXERCISE TRIGGERS EXTENSIVE GENE ALTERATIONS, WITH ENRICHMENT OF CARBOHYDRATE/LIPID METABOLIC PATHWAYS AND MUSCLE DEVELOPMENTAL PROCESSES. THROUGH EVALUATION OF PUTATIVE PROTECTIVE EFFECTS OF EXERCISE ON DIET-INDUCED DNA METHYLATION, WE SHOW THAT HYPERMETHYLATION IS EFFECTIVELY PREVENTED, ESPECIALLY AT PROMOTERS AND ENHANCERS, WHEREAS HYPOMETHYLATION IS ONLY PARTIALLY ATTENUATED. WE ASSESSED DIET-INDUCED DNA METHYLATION CHANGES ASSOCIATED WITH LIVER CANCER-RELATED EPIGENETIC MODIFICATIONS AND IDENTIFIED SIGNIFICANT INCREASES AT LIVER-SPECIFIC ENHANCERS IN FAST FOOD GROUPS, SUGGESTING PARTIAL LOSS OF LIVER CELL IDENTITY. HYPERMETHYLATION AT A SUBSET OF GENE PROMOTERS WAS ASSOCIATED WITH INHIBITION OF TISSUE DEVELOPMENT AND PROMOTION OF CARCINOGENIC PROCESSES. OUR STUDY DEMONSTRATES EXTENSIVE REPROGRAMMING OF THE EPIGENOME BY DIET AND EXERCISE, EMPHASIZING THE FUNCTIONAL RELEVANCE OF EPIGENETIC MECHANISMS AS AN INTERFACE BETWEEN LIFESTYLE MODIFICATIONS AND PHENOTYPIC ALTERATIONS. 2017 3 5438 27 REMOVAL OF EPIGENETIC REPRESSIVE MARK ON INFLAMMATORY GENES IN FAT LIVER. NONALCOHOLIC FATTY LIVER DISEASE (NAFLD) IS THE MOST COMMON CHRONIC LIVER DISEASE WORLDWIDE. THE DETAILED EPIGENOMIC CHANGES DURING FAT ACCUMULATION IN LIVER ARE NOT CLEAR YET. HERE, WE PERFORMED CHIP-SEQ ANALYSIS IN THE LIVER TISSUES OF HIGH-FAT DIET AND REGULAR CHOW DIET MICE AND INVESTIGATED THE DYNAMIC LANDSCAPES OF H3K27AC AND H3K9ME3 MARKS ON CHROMATIN. WE FIND THAT THE ACTIVATED TYPICAL ENHANCERS MARKED WITH H3K27AC ARE ENRICHED ON LIPID METABOLIC PATHWAYS IN FAT LIVER; HOWEVER, SUPER ENHANCERS DO NOT CHANGE MUCH. THE REGIONS COVERED WITH H3K9ME3 REPRESSIVE MARK SEEM TO UNDERGO GREAT CHANGES, AND ITS PEAK NUMBER AND INTENSITY BOTH DECREASE IN FAT LIVER. THE ENHANCERS LOCATED IN LOST H3K9ME3 REGIONS ARE ENRICHED IN LIPID METABOLISM AND INFLAMMATORY PATHWAYS; AND MOTIF ANALYSIS SHOWS THAT THEY ARE POTENTIAL TARGETS FOR TRANSCRIPTION FACTORS INVOLVED IN METABOLIC AND INFLAMMATORY PROCESSES. OUR STUDY HAS REVEALED THAT H3K9ME3 MAY PLAY AN IMPORTANT ROLE DURING THE PATHOGENESIS OF NAFLD THROUGH REGULATING THE ACCESSIBILITY OF ENHANCERS. 2023 4 5305 42 PROTEOMICS ANALYSIS OF HUMAN OBESITY REVEALS THE EPIGENETIC FACTOR HDAC4 AS A POTENTIAL TARGET FOR OBESITY. SEDENTARY LIFESTYLE AND EXCESSIVE ENERGY INTAKE ARE PROMINENT CONTRIBUTORS TO OBESITY; A MAJOR RISK FACTORS FOR THE DEVELOPMENT OF INSULIN RESISTANCE, TYPE 2 DIABETES AND CARDIOVASCULAR DISEASES. ELUCIDATING THE MOLECULAR MECHANISMS UNDERLYING THESE CHRONIC CONDITIONS IS OF RELEVANT IMPORTANCE AS IT MIGHT LEAD TO THE IDENTIFICATION OF NOVEL ANTI-OBESITY TARGETS. THE PURPOSE OF THE CURRENT STUDY IS TO INVESTIGATE DIFFERENTIALLY EXPRESSED PROTEINS BETWEEN LEAN AND OBESE SUBJECTS THROUGH A SHOT-GUN QUANTITATIVE PROTEOMICS APPROACH USING PERIPHERAL BLOOD MONONUCLEAR CELLS (PBMCS) EXTRACTS AS WELL AS POTENTIAL MODULATION OF THOSE PROTEINS BY PHYSICAL EXERCISE. USING THIS APPROACH, A TOTAL OF 47 PROTEINS SHOWED AT LEAST 1.5 FOLD CHANGE BETWEEN LEAN AND OBESE SUBJECTS. IN OBESE, THE PROTEOMIC PROFILING BEFORE AND AFTER 3 MONTHS OF PHYSICAL EXERCISE SHOWED DIFFERENTIAL EXPRESSION OF 38 PROTEINS. THROMBOSPONDIN 1 (TSP1) WAS AMONG THE PROTEINS THAT WERE UPREGULATED IN OBESE SUBJECTS AND THEN DECREASED BY PHYSICAL EXERCISE. CONVERSELY, THE HISTONE DEACETYLASE 4 (HDAC4) WAS DOWNREGULATED IN OBESE SUBJECTS AND THEN INDUCED BY PHYSICAL EXERCISE. THE PROTEOMIC DATA WAS FURTHER VALIDATED BY QRT-PCR, WESTERN BLOT AND IMMUNOHISTOCHEMISTRY IN BOTH PBMCS AND ADIPOSE TISSUE. WE ALSO SHOWED THAT HDAC4 LEVELS CORRELATED POSITIVELY WITH MAXIMUM OXYGEN CONSUMPTION (VO2 MAX) BUT NEGATIVELY WITH BODY MASS INDEX, PERCENT BODY FAT, AND THE INFLAMMATORY CHEMOKINE RANTES. IN FUNCTIONAL ASSAYS, OUR DATA INDICATED THAT ECTOPIC EXPRESSION OF HDAC4 SIGNIFICANTLY IMPAIRED TNF-ALPHA-DEPENDENT ACTIVATION OF NF-KAPPAB, ESTABLISHING THUS A LINK BETWEEN HDAC4 AND REGULATION OF THE IMMUNE SYSTEM. TOGETHER, THE EXPRESSION PATTERN OF HDAC4 IN OBESE SUBJECTS BEFORE AND AFTER PHYSICAL EXERCISE, ITS CORRELATION WITH VARIOUS PHYSICAL, CLINICAL AND METABOLIC PARAMETERS ALONG WITH ITS INHIBITORY EFFECT ON NF-KAPPAB ARE SUGGESTIVE OF A PROTECTIVE ROLE OF HDAC4 AGAINST OBESITY. HDAC4 COULD THEREFORE REPRESENT A POTENTIAL THERAPEUTIC TARGET FOR THE CONTROL AND MANAGEMENT OF OBESITY AND PRESUMABLY INSULIN RESISTANCE. 2013 5 5067 25 PHYSICAL ACTIVITY AND DNA METHYLATION IN HUMANS. PHYSICAL ACTIVITY IS A STRONG STIMULUS INFLUENCING THE OVERALL PHYSIOLOGY OF THE HUMAN BODY. EXERCISES LEAD TO BIOCHEMICAL CHANGES IN VARIOUS TISSUES AND EXERT AN IMPACT ON GENE EXPRESSION. EXERCISE-INDUCED CHANGES IN GENE EXPRESSION MAY BE MEDIATED BY EPIGENETIC MODIFICATIONS, WHICH REARRANGE THE CHROMATIN STRUCTURE AND THEREFORE MODULATE ITS ACCESSIBILITY FOR TRANSCRIPTION FACTORS. ONE OF SUCH EPIGENETIC MARK IS DNA METHYLATION THAT INVOLVES AN ATTACHMENT OF A METHYL GROUP TO THE FIFTH CARBON OF CYTOSINE RESIDUE PRESENT IN CG DINUCLEOTIDES (CPG). DNA METHYLATION IS CATALYZED BY A FAMILY OF DNA METHYLTRANSFERASES. THIS REVERSIBLE DNA MODIFICATION RESULTS IN THE RECRUITMENT OF PROTEINS CONTAINING METHYL BINDING DOMAIN AND FURTHER TRANSCRIPTIONAL CO-REPRESSORS LEADING TO THE SILENCING OF GENE EXPRESSION. THE ACCUMULATION OF CPG DINUCLEOTIDES, REFERRED AS CPG ISLANDS, OCCURS AT THE PROMOTER REGIONS IN A GREAT MAJORITY OF HUMAN GENES. THEREFORE, CHANGES IN DNA METHYLATION PROFILE AFFECT THE TRANSCRIPTION OF MULTIPLE GENES. A GROWING BODY OF EVIDENCE INDICATES THAT EXERCISE TRAINING MODULATES DNA METHYLATION IN MUSCLES AND ADIPOSE TISSUE. SOME OF THESE EPIGENETIC MARKERS WERE ASSOCIATED WITH A REDUCED RISK OF CHRONIC DISEASES. THIS REVIEW SUMMARIZES THE CURRENT KNOWLEDGE ABOUT THE INFLUENCE OF PHYSICAL ACTIVITY ON THE DNA METHYLATION STATUS IN HUMANS. 2021 6 3836 30 IONIZING RADIATION POTENTIATES HIGH-FAT DIET-INDUCED INSULIN RESISTANCE AND REPROGRAMS SKELETAL MUSCLE AND ADIPOSE PROGENITOR CELLS. EXPOSURE TO IONIZING RADIATION INCREASES THE RISK OF CHRONIC METABOLIC DISORDERS SUCH AS INSULIN RESISTANCE AND TYPE 2 DIABETES LATER IN LIFE. WE HYPOTHESIZED THAT IRRADIATION REPROGRAMS THE EPIGENOME OF METABOLIC PROGENITOR CELLS, WHICH COULD ACCOUNT FOR IMPAIRED METABOLISM AFTER CANCER TREATMENT. C57BL/6 MICE WERE TREATED WITH A SINGLE DOSE OF IRRADIATION AND SUBJECTED TO HIGH-FAT DIET (HFD). RNA SEQUENCING AND REDUCED REPRESENTATION BISULFITE SEQUENCING WERE USED TO CREATE TRANSCRIPTOMIC AND EPIGENOMIC PROFILES OF PREADIPOCYTES AND SKELETAL MUSCLE SATELLITE CELLS COLLECTED FROM IRRADIATED MICE. MICE SUBJECTED TO TOTAL BODY IRRADIATION SHOWED ALTERATIONS IN GLUCOSE METABOLISM AND, WHEN CHALLENGED WITH HFD, MARKED HYPERINSULINEMIA. INSULIN SIGNALING WAS CHRONICALLY DISRUPTED IN SKELETAL MUSCLE AND ADIPOSE PROGENITOR CELLS COLLECTED FROM IRRADIATED MICE AND DIFFERENTIATED IN CULTURE. EPIGENOMIC PROFILING OF SKELETAL MUSCLE AND ADIPOSE PROGENITOR CELLS FROM IRRADIATED ANIMALS REVEALED SUBSTANTIAL DNA METHYLATION CHANGES, NOTABLY FOR GENES REGULATING THE CELL CYCLE, GLUCOSE/LIPID METABOLISM, AND EXPRESSION OF EPIGENETIC MODIFIERS. OUR RESULTS SHOW THAT TOTAL BODY IRRADIATION ALTERS INTRACELLULAR SIGNALING AND EPIGENETIC PATHWAYS REGULATING CELL PROLIFERATION AND DIFFERENTIATION OF SKELETAL MUSCLE AND ADIPOSE PROGENITOR CELLS AND PROVIDE A POSSIBLE MECHANISM BY WHICH IRRADIATION USED IN CANCER TREATMENT INCREASES THE RISK FOR METABOLIC DISEASE LATER IN LIFE. 2016 7 420 42 ANDROGEN-MEDIATED PERTURBATION OF THE HEPATIC CIRCADIAN SYSTEM THROUGH EPIGENETIC MODULATION PROMOTES NAFLD IN PCOS MICE. IN WOMEN, EXCESS ANDROGEN CAUSES POLYCYSTIC OVARY SYNDROME (PCOS), A COMMON FERTILITY DISORDER WITH COMORBID METABOLIC DYSFUNCTIONS INCLUDING DIABETES, OBESITY, AND NONALCOHOLIC FATTY LIVER DISEASE. USING A PCOS MOUSE MODEL, THIS STUDY SHOWS THAT CHRONIC HIGH ANDROGEN LEVELS CAUSE HEPATIC STEATOSIS WHILE HEPATOCYTE-SPECIFIC ANDROGEN RECEPTOR (AR)-KNOCKOUT RESCUES THIS PHENOTYPE. MOREOVER, THROUGH RNA-SEQUENCING AND METABOLOMIC STUDIES, WE HAVE IDENTIFIED KEY METABOLIC GENES AND PATHWAYS AFFECTED BY HYPERANDROGENISM. OUR STUDIES REVEAL THAT A LARGE NUMBER OF METABOLIC GENES ARE DIRECTLY REGULATED BY ANDROGENS THROUGH AR BINDING TO ANDROGEN RESPONSE ELEMENT SEQUENCES ON THE PROMOTER REGION OF THESE GENES. INTERESTINGLY, A NUMBER OF CIRCADIAN GENES ARE ALSO DIFFERENTIALLY REGULATED BY ANDROGENS. IN VIVO AND IN VITRO STUDIES USING A CIRCADIAN REPORTER [PERIOD2::LUCIFERASE (PER2::LUC)] MOUSE MODEL DEMONSTRATE THAT ANDROGENS CAN DIRECTLY DISRUPT THE HEPATIC TIMING SYSTEM, WHICH IS A KEY REGULATOR OF LIVER METABOLISM. CONSEQUENTLY, STUDIES SHOW THAT ANDROGENS DECREASE H3K27ME3, A GENE SILENCING MARK ON THE PROMOTER OF CORE CLOCK GENES, BY INHIBITING THE EXPRESSION OF HISTONE METHYLTRANSFERASE, EZH2, WHILE INDUCING THE EXPRESSION OF THE HISTONE DEMETHYLASE, JMJD3, WHICH IS RESPONSIBLE FOR ADDING AND REMOVING THE H3K27ME3 MARK, RESPECTIVELY. FINALLY, WE REPORT THAT UNDER HYPERANDROGENIC CONDITIONS, SOME OF THE SAME CIRCADIAN/METABOLIC GENES THAT ARE UPREGULATED IN THE MOUSE LIVER ARE ALSO ELEVATED IN NONHUMAN PRIMATE LIVERS. IN SUMMARY, THESE STUDIES NOT ONLY PROVIDE AN OVERALL UNDERSTANDING OF HOW HYPERANDROGENISM ASSOCIATED WITH PCOS AFFECTS LIVER GENE EXPRESSION AND METABOLISM BUT ALSO OFFER INSIGHT INTO THE UNDERLYING MECHANISMS LEADING TO HEPATIC STEATOSIS IN PCOS. 2022 8 2549 36 EPIGENETICS IN OBESITY AND DIABETES MELLITUS: NEW INSIGHTS. A LONG-TERM COMPLICATION OF OBESITY IS THE DEVELOPMENT OF TYPE 2 DIABETES (T2D). PATIENTS WITH T2D HAVE BEEN DESCRIBED AS HAVING EPIGENETIC MODIFICATIONS. EPIGENETICS IS THE POST-TRANSCRIPTIONAL MODIFICATION OF DNA OR ASSOCIATED FACTORS CONTAINING GENETIC INFORMATION. THESE ENVIRONMENTALLY-INFLUENCED MODIFICATIONS, MAINTAINED DURING CELL DIVISION, CAUSE STABLE CHANGES IN GENE EXPRESSION. EPIGENETIC MODIFICATIONS OF T2D ARE DNA METHYLATION, ACETYLATION, UBIQUITYLATION, SUMOYLATION, AND PHOSPHORYLATION AT THE LYSINE RESIDUE AT THE AMINO TERMINUS OF HISTONES, AFFECTING DNA, HISTONES, AND NON-CODING RNA. DNA METHYLATION HAS BEEN SHOWN IN PANCREATIC ISLETS, ADIPOSE TISSUE, SKELETAL MUSCLE, AND THE LIVER. FURTHERMORE, EPIGENETIC CHANGES HAVE BEEN OBSERVED IN CHRONIC COMPLICATIONS OF T2D, SUCH AS DIABETIC NEPHROPATHY, DIABETIC RETINOPATHY, AND DIABETIC NEUROPATHY. RECENTLY, A NEW DRUG HAS BEEN DEVELOPED WHICH ACTS ON BROMODOMAINS AND EXTRATERMINAL (BET) DOMAIN PROTEINS, WHICH OPERATE LIKE EPIGENETIC READERS AND COMMUNICATE WITH CHROMATIN TO MAKE DNA ACCESSIBLE FOR TRANSCRIPTION BY INHIBITING THEM. THIS DRUG (APABETALONE) IS BEING STUDIED TO PREVENT MAJOR ADVERSE CARDIOVASCULAR EVENTS IN PEOPLE WITH T2D, LOW HDL CHOLESTEROL, CHRONIC KIDNEY FAILURE, AND RECENT CORONARY EVENTS. THIS REVIEW AIMS TO DESCRIBE THE RELATIONSHIP BETWEEN OBESITY, LONG-TERM COMPLICATIONS SUCH AS T2D, AND EPIGENETIC MODIFICATIONS AND THEIR POSSIBLE TREATMENTS. 2023 9 2408 22 EPIGENETIC REWIRING OF SKELETAL MUSCLE ENHANCERS AFTER EXERCISE TRAINING SUPPORTS A ROLE IN WHOLE-BODY FUNCTION AND HUMAN HEALTH. OBJECTIVES: REGULAR PHYSICAL EXERCISE IMPROVES HEALTH BY REDUCING THE RISK OF A PLETHORA OF CHRONIC DISORDERS. WE HYPOTHESIZED THAT ENDURANCE EXERCISE TRAINING REMODELS THE ACTIVITY OF GENE ENHANCERS IN SKELETAL MUSCLE AND THAT THIS REMODELING CONTRIBUTES TO THE BENEFICIAL EFFECTS OF EXERCISE ON HUMAN HEALTH. METHODS AND RESULTS: BY STUDYING CHANGES IN HISTONE MODIFICATIONS, WE MAPPED THE GENOME-WIDE POSITIONS AND ACTIVITIES OF ENHANCERS IN SKELETAL MUSCLE BIOPSIES COLLECTED FROM YOUNG SEDENTARY MEN BEFORE AND AFTER 6 WEEKS OF ENDURANCE EXERCISE. WE IDENTIFIED EXTENSIVE REMODELING OF ENHANCER ACTIVITIES AFTER EXERCISE TRAINING, WITH A LARGE SUBSET OF THE REMODELED ENHANCERS LOCATED IN THE PROXIMITY OF GENES TRANSCRIPTIONALLY REGULATED AFTER EXERCISE. BY OVERLAPPING THE POSITION OF ENHANCERS WITH GENETIC VARIANTS, WE IDENTIFIED AN ENRICHMENT OF DISEASE-ASSOCIATED GENETIC VARIANTS WITHIN THE EXERCISE-REMODELED ENHANCERS. CONCLUSION: OUR DATA PROVIDE EVIDENCE OF A FUNCTIONAL LINK BETWEEN EPIGENETIC REWIRING OF ENHANCERS TO CONTROL THEIR ACTIVITY AFTER EXERCISE TRAINING AND THE MODULATION OF DISEASE RISK IN HUMANS. 2021 10 1269 26 CYTOSINE METHYLATION CHANGES IN ENHANCER REGIONS OF CORE PRO-FIBROTIC GENES CHARACTERIZE KIDNEY FIBROSIS DEVELOPMENT. BACKGROUND: ONE IN ELEVEN PEOPLE IS AFFECTED BY CHRONIC KIDNEY DISEASE, A CONDITION CHARACTERIZED BY KIDNEY FIBROSIS AND PROGRESSIVE LOSS OF KIDNEY FUNCTION. EPIDEMIOLOGICAL STUDIES INDICATE THAT ADVERSE INTRAUTERINE AND POSTNATAL ENVIRONMENTS HAVE A LONG-LASTING ROLE IN CHRONIC KIDNEY DISEASE DEVELOPMENT. EPIGENETIC INFORMATION REPRESENTS A PLAUSIBLE CARRIER FOR MEDIATING THIS PROGRAMMING EFFECT. HERE WE DEMONSTRATE THAT GENOME-WIDE CYTOSINE METHYLATION PATTERNS OF HEALTHY AND CHRONIC KIDNEY DISEASE TUBULE SAMPLES OBTAINED FROM PATIENTS SHOW SIGNIFICANT DIFFERENCES. RESULTS: WE IDENTIFY DIFFERENTIALLY METHYLATED REGIONS AND VALIDATE THESE IN A LARGE REPLICATION DATASET. THE DIFFERENTIALLY METHYLATED REGIONS ARE RARELY OBSERVED ON PROMOTERS, BUT MOSTLY OVERLAP WITH PUTATIVE ENHANCER REGIONS, AND THEY ARE ENRICHED IN CONSENSUS BINDING SEQUENCES FOR IMPORTANT RENAL TRANSCRIPTION FACTORS. THIS INDICATES THEIR IMPORTANCE IN GENE EXPRESSION REGULATION. A CORE SET OF GENES THAT ARE KNOWN TO BE RELATED TO KIDNEY FIBROSIS, INCLUDING GENES ENCODING COLLAGENS, SHOW CYTOSINE METHYLATION CHANGES CORRELATING WITH DOWNSTREAM TRANSCRIPT LEVELS. CONCLUSIONS: OUR REPORT RAISES THE POSSIBILITY THAT EPIGENETIC DYSREGULATION PLAYS A ROLE IN CHRONIC KIDNEY DISEASE DEVELOPMENT VIA INFLUENCING CORE PRO-FIBROTIC PATHWAYS AND CAN AID THE DEVELOPMENT OF NOVEL BIOMARKERS AND FUTURE THERAPEUTICS. 2013 11 5645 30 SEX DEPENDENT ALTERATION OF EPIGENETIC MARKS AFTER CHRONIC MORPHINE TREATMENT IN MICE ORGANS. EPIGENETIC MARKS MAY BE ALSO AFFECTED BY SEVERAL FACTORS, SUCH AS AGE, LIFESTYLE, EARLY LIFE EXPERIENCES AND EXPOSURE TO CHEMICALS OR DRUGS, SUCH AS OPIOIDS. PREVIOUS STUDIES HAVE FOCUSED ON HOW MORPHINE EPIGENETICALLY REGULATES DIFFERENT REGIONS OF THE BRAIN THAT ARE IMPLICATED IN TOLERANCE, DEPENDENCE AND OTHER PSYCHIATRIC DISORDERS MORE RELATED TO THE PHYSIO-PATHOLOGICAL EFFECTS OF OPIOIDS. NEVERTHELESS, A SIGNIFICANT KNOWLEDGE GAP REMAINS REGARDING THE EFFECT OF CHRONIC TREATMENT ON OTHER ORGANS AND BIOLOGICAL SYSTEMS. THEREFORE, THE AIM OF THIS WORK IS TO INCREASE OUR KNOWLEDGE ABOUT THE IMPACT OF CHRONIC MORPHINE EXPOSURE ON DNA METHYLATION AND HISTONE MODIFICATION LEVELS IN EACH OF THE ORGANS OF MALE AND FEMALE MODEL MICE IN VIVO. OUR RESULTS REVEAL, FOR THE FIRST TIME, THAT CHRONIC MORPHINE TREATMENT INDUCED CHANGES IN DNA METHYLATION/HYDROXYMETHYLATION AND HISTONE MODIFICATION IN-VIVO AT THE SYSTEMIC LEVEL, REVEALING A POTENTIAL PHYSIOLOGICAL EFFECT ON THE REGULATION OF GENE EXPRESSION. NOTABLY, MORPHINE-INDUCED EPIGENETIC MODIFICATION OCCURS IN A SEX-DEPENDENT MANNER, REVEALING THE EXISTENCE OF DIFFERENT UNDERLYING MECHANISMS OF EPIGENETIC MODIFICATION IN MALE AND FEMALE MICE. 2021 12 1583 31 DNA METHYLATION PROFILES OF BLOOD CELLS ARE DISTINCT BETWEEN EARLY-ONSET OBESE AND CONTROL INDIVIDUALS. OBESITY IS A HIGHLY PREVALENT, CHRONIC DISORDER THAT HAS BEEN INCREASING IN INCIDENCE IN YOUNG PATIENTS. BOTH EPIGENETIC AND GENETIC ABERRATIONS MAY PLAY A ROLE IN THE PATHOGENESIS OF OBESITY. THEREFORE, IN-DEPTH EPIGENOMIC AND GENOMIC ANALYSES WILL ADVANCE OUR UNDERSTANDING OF THE DETAILED MOLECULAR MECHANISMS UNDERLYING OBESITY AND AID IN THE SELECTION OF POTENTIAL BIOMARKERS FOR OBESITY IN YOUTH. HERE, WE PERFORMED MICROARRAY-BASED DNA METHYLATION AND GENE EXPRESSION PROFILING OF PERIPHERAL WHITE BLOOD CELLS OBTAINED FROM SIX YOUNG, OBESE INDIVIDUALS AND SIX HEALTHY CONTROLS. WE OBSERVED THAT THE HIERARCHICAL CLUSTERING OF DNA METHYLATION, BUT NOT GENE EXPRESSION, CLEARLY SEGREGATES THE OBESE INDIVIDUALS FROM THE CONTROLS, SUGGESTING THAT THE METABOLIC DISTURBANCE THAT OCCURS AS A RESULT OF OBESITY AT A YOUNG AGE MAY AFFECT THE DNA METHYLATION OF PERIPHERAL BLOOD CELLS WITHOUT ACCOMPANYING TRANSCRIPTIONAL CHANGES. TO EXAMINE THE GENOME-WIDE DIFFERENCES IN THE DNA METHYLATION PROFILES OF YOUNG OBESE AND CONTROL INDIVIDUALS, WE IDENTIFIED DIFFERENTIALLY METHYLATED CPG SITES AND INVESTIGATED THEIR GENOMIC AND EPIGENOMIC CONTEXTS. THE ABERRANT DNA METHYLATION PATTERNS IN OBESE INDIVIDUALS CAN BE SUMMARIZED AS RELATIVE GAINS AND LOSSES OF DNA METHYLATION IN GENE PROMOTERS AND GENE BODIES, RESPECTIVELY. WE ALSO OBSERVED THAT THE CPG ISLANDS OF OBESE INDIVIDUALS ARE MORE SUSCEPTIBLE TO DNA METHYLATION COMPARED TO CONTROLS. OUR PILOT STUDY SUGGESTS THAT THE GENOME-WIDE ABERRANT DNA METHYLATION PATTERNS OF OBESE INDIVIDUALS MAY ADVANCE NOT ONLY OUR UNDERSTANDING OF THE EPIGENOMIC PATHOGENESIS BUT ALSO EARLY SCREENING OF OBESITY IN YOUTH. 2017 13 1794 28 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 14 457 31 APPLYING A MULTISCALE SYSTEMS BIOLOGY APPROACH TO STUDY THE EFFECT OF CHRONIC LOW-DOSE EXPOSURE TO URANIUM IN RAT KIDNEYS. PURPOSE: TO EXAMINE THE EFFECTS OF LOW-DOSE EXPOSURE TO URANIUM WITH A SYSTEMS BIOLOGY APPROACH, A MULTISCALE HIGH-THROUGHPUT MULTI-OMICS ANALYSIS WAS APPLIED WITH A PROTOCOL FOR CHRONIC EXPOSURE TO THE RAT KIDNEY. METHODS: MALE AND FEMALE RATS WERE CONTAMINATED FOR NINE MONTHS THROUGH THEIR DRINKING WATER WITH A NONTOXIC SOLUTION OF URANYL NITRATE. A MULTISCALE APPROACH ENABLED CLINICAL MONITORING ASSOCIATED WITH METABOLOMIC AND TRANSCRIPTOMIC (MRNA AND MICRORNA) ANALYSES. RESULTS: A SEX-INTERACTION EFFECT WAS OBSERVED IN THE KIDNEY, URINE, AND PLASMA METABOLOMES OF CONTAMINATED RATS. MOREOVER, URINE AND KIDNEY METABOLIC PROFILES CORRELATED AND CONFIRMED THAT THE PRIMARY DYSREGULATED METABOLISMS ARE THOSE OF NICOTINATE-NICOTINAMIDE AND OF UNSATURATED FATTY ACID BIOSYNTHESIS. UPSTREAM OF THE METABOLIC PATHWAYS, TRANSCRIPTOMIC PROFILES OF THE KIDNEY REVEAL GENE ACTIVITY FOCUSED ON GENE REGULATION MECHANISMS, CELL SIGNALING, CELL STRUCTURE, DEVELOPMENTAL PROCESSES, AND CELL PROLIFERATION. EXAMINATION OF EPIGENETIC POST-TRANSCRIPTIONAL GENE REGULATION PROCESSES SHOWED SIGNIFICANT DYSREGULATION OF 70 MICRO-RNAS. THE MULTI-OMICS APPROACH HIGHLIGHTED THE ACTIVITIES OF THE CELLS' BIOLOGICAL PROCESSES ON MULTIPLE SCALES THROUGH ANALYSIS OF GENE EXPRESSION, CONFIRMED BY CHANGES OBSERVED IN THE METABOLOME. CONCLUSION: OUR RESULTS SHOWED CHANGES IN MULTI-OMIC PROFILES OF RATS EXPOSED TO LOW DOSES OF URANIUM CONTAMINATION, COMPARED WITH CONTROLS. THESE CHANGES INVOLVED GENE EXPRESSION AS WELL AS MODIFICATIONS IN THE TRANSCRIPTOME AND THE METABOLOME. THE METABOLOMIC PROFILE CONFIRMED THAT THE MAIN MOLECULAR TARGETS OF URANIUM IN KIDNEY CELLS ARE THE METABOLISM OF NICOTINATE-NICOTINAMIDE AND THE BIOSYNTHESIS OF UNSATURATED FATTY ACIDS. ADDITIONALLY, GENE EXPRESSION ANALYSIS SHOWED THAT THE METABOLISM OF FATTY ACIDS IS TARGETED BY PROCESSES ASSOCIATED WITH CELL FUNCTION. THESE RESULTS DEMONSTRATE THAT MULTISCALE SYSTEMS BIOLOGY IS USEFUL IN ELUCIDATING THE MOST DISCRIMINATIVE PATHWAYS FROM GENOMIC TO METABOLOMIC LEVELS FOR ASSESSING THE BIOLOGICAL IMPACT OF THIS LOW-LEVEL ENVIRONMENTAL EXPOSURE, I.E. THE EXPOSOME. 2019 15 2873 24 FUNCTIONAL METHYLOME ANALYSIS OF HUMAN DIABETIC KIDNEY DISEASE. IN PATIENTS WITH DIABETES MELLITUS, POOR METABOLIC CONTROL HAS A LONG-LASTING IMPACT ON KIDNEY DISEASE DEVELOPMENT. EPIGENETIC CHANGES, INCLUDING CYTOSINE METHYLATION, HAVE BEEN PROPOSED AS POTENTIAL MEDIATORS OF THE LONG-LASTING EFFECT OF ADVERSE METABOLIC EVENTS. OUR UNDERSTANDING OF THE PRESENCE AND CONTRIBUTION OF METHYLATION CHANGES TO DISEASE DEVELOPMENT IS LIMITED BECAUSE OF THE LACK OF COMPREHENSIVE BASE-RESOLUTION METHYLOME INFORMATION OF HUMAN KIDNEY TISSUE SAMPLES AND SITE-SPECIFIC METHYLATION EDITING. BASE RESOLUTION, WHOLE-GENOME BISULFITE SEQUENCING METHYLOME MAPS OF HUMAN DIABETIC KIDNEY DISEASE (DKD) TUBULE SAMPLES, AND ASSOCIATED GENE EXPRESSION MEASURED BY RNA SEQUENCING HIGHLIGHTED WIDESPREAD METHYLATION CHANGES IN DKD. PATHWAY ANALYSIS HIGHLIGHTED COORDINATED (METHYLATION AND GENE EXPRESSION) CHANGES IN IMMUNE SIGNALING, INCLUDING TUMOR NECROSIS FACTOR ALPHA (TNF). CHANGES IN TNF METHYLATION CORRELATED WITH KIDNEY FUNCTION DECLINE. DCAS9-TET1-BASED LOWERING OF THE CYTOSINE METHYLATION LEVEL OF THE TNF DIFFERENTIALLY METHYLATED REGION RESULTED IN AN INCREASE IN THE TNF TRANSCRIPT LEVEL, INDICATING THAT METHYLATION OF THIS LOCUS PLAYS AN IMPORTANT ROLE IN CONTROLLING TNF EXPRESSION. INCREASING THE TNF LEVEL IN DIABETIC MICE INCREASED DISEASE SEVERITY, SUCH AS ALBUMINURIA. IN SUMMARY, OUR RESULTS INDICATE WIDESPREAD METHYLATION DIFFERENCES IN DKD KIDNEYS AND HIGHLIGHTS EPIGENETIC CHANGES IN THE TNF LOCUS AND ITS CONTRIBUTION TO THE DEVELOPMENT OF NEPHROPATHY IN PATIENTS WITH DIABETES MELLITUS. 2019 16 6533 31 TRANSCRIPTIONAL REGULATION OF INFLAMMATORY GENES ASSOCIATED WITH SEVERE ASTHMA. THE 10% OF PATIENTS WITH THE MOST SEVERE ASTHMA ARE RESPONSIBLE FOR A LARGE PART OF HEALTHCARE EXPENDITURE AND MORBIDITY. UNDERSTANDING THE PROCESSES INVOLVED IS KEY IF NEW THERAPEUTIC APPROACHES ARE TO BE DEVELOPED. EVIDENCE IS ACCUMULATING THAT CHRONIC DISEASES SUCH AS ASTHMA ARE ASSOCIATED WITH TEMPORAL AND SPATIAL ALTERATIONS IN THE PATTERN OF INFLAMMATORY GENE EXPRESSION WITHIN THE AIRWAYS. EXPRESSION OF THESE GENES CAN BE REGULATED BY TRANSCRIPTIONAL, POSTTRANSCRIPTIONAL, TRANSLATIONAL AND EPIGENETIC MECHANISMS. IT IS WELL ESTABLISHED THAT BINDING OF ACTIVATED TRANSCRIPTION FACTORS TO SPECIFIC INDUCIBLE GENE PROMOTER SITES IS TIGHTLY CONTROLLED BY CHROMATIN STATE AS A RESULT OF HISTONE MODIFICATIONS, PARTICULARLY THE BALANCE BETWEEN HISTONE ACETYLATION AND DEACETYLATION [1]. THE INTERACTION BETWEEN TRANSCRIPTION FACTORS AND THE PROMOTER IS KEY TO THE DIVERSIFICATION OF GENE EXPRESSION IN A TIME DEPENDENT MANNER LEADING TO ALTERED GENE EXPRESSION PROFILES. ALTERATIONS OF THE ACCESSIBILITY OF TRANSCRIPTION FACTORS TO THE DNA CAN HAVE RESIDING EFFECTS UPON GENE TRANSCRIPTION. THIS REVIEW WILL FOCUS ON THE REGULATION OF SEVERAL GROUPS OF KEY GENES WHICH ARE INVOLVED IN CHRONIC AIRWAY INFLAMMATION AND REMODELLING IN ASTHMA DRAWING MAINLY FROM OUR EXPERIENCE OF STUDYING THESE PROCESSES IN AIRWAY SMOOTH MUSCLE CELLS. AN OVERVIEW IS SHOWN IN FIGURE 1. 2011 17 834 23 CHEMICAL BIOLOGY OF LYSINE DEMETHYLASES. ABNORMAL LEVELS OF DNA METHYLATION AND/OR HISTONE MODIFICATIONS ARE OBSERVED IN PATIENTS WITH A WIDE VARIETY OF CHRONIC DISEASES. METHYLATION OF LYSINES WITHIN HISTONE TAILS IS A KEY MODIFICATION THAT CONTRIBUTES TO INCREASED GENE EXPRESSION OR REPRESSION DEPENDING ON THE SPECIFIC RESIDUE AND DEGREE OF METHYLATION, WHICH IS IN TURN CONTROLLED BY THE INTERPLAY OF LYSINE METHYL TRANSFERASES AND DEMETHYLASES. DRUGS THAT TARGET THESE AND OTHER ENZYMES CONTROLLING CHROMATIN MODIFICATIONS CAN MODULATE THE EXPRESSION OF CLUSTERS OF GENES, POTENTIALLY OFFERING HIGHER THERAPEUTIC EFFICACY THAN CLASSICAL AGENTS ACTING ON DOWNSTREAM BIOCHEMICAL PATHWAYS THAT ARE SUSCEPTIBLE TO DEGENERACY. LYSINE DEMETHYLASES, FIRST DISCOVERED IN 2004, ARE THE SUBJECT OF INCREASING INTEREST AS THERAPEUTIC TARGETS. THIS REVIEW PROVIDES AN OVERVIEW OF RECENT FINDINGS IMPLICATING LYSINE DEMETHYLASES IN A RANGE OF THERAPEUTIC AREAS INCLUDING ONCOLOGY, IMMUNOINFLAMMATION, METABOLIC DISORDERS, NEUROSCIENCE, VIROLOGY AND REGENERATIVE MEDICINE, TOGETHER WITH A SUMMARY OF RECENT ADVANCES IN STRUCTURAL BIOLOGY AND SMALL MOLECULE INHIBITOR DISCOVERY, SUPPORTING THE TRACTABILITY OF THE PROTEIN FAMILY FOR THE DEVELOPMENT OF SELECTIVE DRUGLIKE INHIBITORS. 2011 18 4093 27 MATERNAL SEPARATION FOLLOWED BY CHRONIC MILD STRESS IN ADULTHOOD IS ASSOCIATED WITH CONCERTED EPIGENETIC REGULATION OF AP-1 COMPLEX GENES. DEPRESSION IS ONE OF THE MOST PREVALENT MENTAL DISEASES WORLDWIDE. PATIENTS WITH PSYCHIATRIC DISEASES OFTEN HAVE A HISTORY OF CHILDHOOD NEGLECT, INDICATING THAT EARLY-LIFE EXPERIENCES PREDISPOSE TO PSYCHIATRIC DISEASES IN ADULTHOOD. TWO STRONG MODELS WERE USED IN THE PRESENT STUDY: THE MATERNAL SEPARATION/EARLY DEPRIVATION MODEL (MS) AND THE CHRONIC MILD STRESS MODEL (CMS). IN BOTH MODELS, WE FOUND CHANGES IN THE EXPRESSION OF A NUMBER OF GENES SUCH AS CREB AND NPY. STRIKINGLY, THERE WAS A CLEAR REGULATION OF EXPRESSION OF FOUR GENES INVOLVED IN THE AP-1 COMPLEX: C-FOS, C-JUN, FOSB, AND JUN-B. INTERESTINGLY, DIFFERENT EXPRESSION LEVELS WERE OBSERVED DEPENDING ON THE MODEL, WHEREAS THE COMBINATION OF THE MODELS RESULTED IN A NORMAL LEVEL OF GENE EXPRESSION. THE EFFECTS OF MS AND CMS ON GENE EXPRESSION WERE ASSOCIATED WITH DISTINCT HISTONE METHYLATION/ACETYLATION PATTERNS OF ALL FOUR GENES. THE EPIGENETIC CHANGES, LIKE GENE EXPRESSION, WERE ALSO DEPENDENT ON THE SPECIFIC STRESSOR OR THEIR COMBINATION. THE OBTAINED RESULTS SUGGEST THAT SINGLE LIFE EVENTS LEAVE A MARK ON GENE EXPRESSION AND THE EPIGENETIC SIGNATURE OF GENE PROMOTERS, BUT A COMBINATION OF DIFFERENT STRESSORS AT DIFFERENT LIFE STAGES CAN FURTHER CHANGE GENE EXPRESSION THROUGH EPIGENETIC FACTORS, POSSIBLY CAUSING THE LONG-LASTING ADVERSE EFFECTS OF STRESS. 2021 19 948 22 CHRONIC METABOLIC DERANGEMENT-INDUCED COGNITIVE DEFICITS AND NEUROTOXICITY ARE ASSOCIATED WITH REST INACTIVATION. CHRONIC METABOLIC ALTERATIONS MAY REPRESENT A RISK FACTOR FOR THE DEVELOPMENT OF COGNITIVE IMPAIRMENT, DEMENTIA, OR NEURODEGENERATIVE DISEASES. HYPERGLYCEMIA AND OBESITY ARE KNOWN TO IMPRINT EPIGENETIC MARKERS THAT COMPROMISE THE PROPER EXPRESSION OF CELL SURVIVAL GENES. HERE, WE SHOWED THAT CHRONIC HYPERGLYCEMIA (60 DAYS) INDUCED BY A SINGLE INTRAPERITONEAL INJECTION OF STREPTOZOTOCIN COMPROMISED COGNITION BY REDUCING HIPPOCAMPAL ERK SIGNALING AND BY INDUCING NEUROTOXICITY IN RATS. THE MECHANISMS APPEAR TO BE LINKED TO REDUCED ACTIVE DNA DEMETHYLATION AND DIMINISHED EXPRESSION OF THE NEUROPROTECTIVE TRANSCRIPTION FACTOR REST. THE IMPACT OF THE RELATIONSHIP BETWEEN ADIPOSITY AND DNA HYPERMETHYLATION ON REST EXPRESSION WAS ALSO DEMONSTRATED IN PERIPHERAL BLOOD MONONUCLEAR CELLS IN OBESE CHILDREN WITH REDUCED LEVELS OF BLOOD ASCORBATE. THE REVERSIBLE NATURE OF EPIGENETIC MODIFICATIONS AND THE COGNITIVE IMPAIRMENT REPORTED IN OBESE CHILDREN, ADOLESCENTS, AND ADULTS SUGGEST THAT THE CORRECTION OF THE ANTHROPOMETRY AND THE PERIPHERAL METABOLIC ALTERATIONS WOULD PROTECT BRAIN HOMEOSTASIS AND REDUCE THE RISK OF DEVELOPING NEURODEGENERATIVE DISEASES. 2019 20 1301 24 DEEP SEQUENCING REVEALS INCREASED DNA METHYLATION IN CHRONIC RAT EPILEPSY. EPILEPSY IS A FREQUENT NEUROLOGICAL DISORDER, ALTHOUGH ONSET AND PROGRESSION OF SEIZURES REMAIN DIFFICULT TO PREDICT IN AFFECTED PATIENTS, IRRESPECTIVE OF THEIR EPILEPTOGENIC CONDITION. PREVIOUS STUDIES IN ANIMAL MODELS AS WELL AS HUMAN EPILEPTIC BRAIN TISSUE REVEALED A REMARKABLY DIVERSE PATTERN OF GENE EXPRESSION IMPLICATING EPIGENETIC CHANGES TO CONTRIBUTE TO DISEASE PROGRESSION. HERE WE MAPPED FOR THE FIRST TIME GLOBAL DNA METHYLATION PATTERNS IN CHRONIC EPILEPTIC RATS AND CONTROLS. USING METHYL-CPG CAPTURE ASSOCIATED WITH MASSIVE PARALLEL SEQUENCING (METHYL-SEQ) WE REPORT THE GENOMIC METHYLATION SIGNATURE OF THE CHRONIC EPILEPTIC STATE. WE OBSERVED A PREDOMINANT INCREASE, RATHER THAN LOSS OF DNA METHYLATION IN CHRONIC RAT EPILEPSY. ABERRANT METHYLATION PATTERNS WERE INVERSELY CORRELATED WITH GENE EXPRESSION CHANGES USING MRNA SEQUENCING FROM SAME ANIMALS AND TISSUE SPECIMENS. ADMINISTRATION OF A KETOGENIC, HIGH-FAT, LOW-CARBOHYDRATE DIET ATTENUATED SEIZURE PROGRESSION AND AMELIORATED DNA METHYLATION MEDIATED CHANGES IN GENE EXPRESSION. THIS IS THE FIRST REPORT OF UNSUPERVISED CLUSTERING OF AN EPIGENETIC MARK BEING USED IN EPILEPSY RESEARCH TO SEPARATE EPILEPTIC FROM NON-EPILEPTIC ANIMALS AS WELL AS FROM ANIMALS RECEIVING ANTI-CONVULSIVE DIETARY TREATMENT. WE FURTHER DISCUSS THE POTENTIAL IMPACT OF EPIGENETIC CHANGES AS A PATHOGENIC MECHANISM OF EPILEPTOGENESIS. 2013