1 3663 70 INDUCTION OF TET3-DEPENDENT EPIGENETIC REMODELING BY LOW-DOSE HYDRALAZINE ATTENUATES PROGRESSION OF CHRONIC KIDNEY DISEASE. PROGRESSION OF CHRONIC KIDNEY DISEASE REMAINS A PRINCIPAL PROBLEM IN CLINICAL NEPHROLOGY AND THERE IS A PRESSING NEED FOR NOVEL THERAPEUTICS AND BIOMARKERS. ABERRANT PROMOTER CPG ISLAND METHYLATION AND SUBSEQUENT TRANSCRIPTIONAL SILENCING OF SPECIFIC GENES HAVE EMERGED AS CONTRIBUTORS TO PROGRESSION OF CHRONIC KIDNEY DISEASE. HERE, WE REPORT THAT TRANSCRIPTIONAL SILENCING OF THE RAS-GTP SUPPRESSOR RASAL1 CONTRIBUTES CAUSALLY TO PROGRESSION OF KIDNEY FIBROSIS AND WE IDENTIFIED THAT CIRCULATING METHYLATED RASAL1 PROMOTER DNA FRAGMENTS IN PERIPHERAL BLOOD CORRESPOND WITH LEVELS OF INTRARENAL LEVELS OF RASAL1 PROMOTER METHYLATION AND DEGREE OF FIBROSIS IN KIDNEY BIOPSIES, ENABLING NON-INVASIVE LONGITUDINAL ANALYSIS OF INTRARENAL CPG ISLAND METHYLATION. 2015 2 4016 32 LOW-DOSE HYDRALAZINE PREVENTS FIBROSIS IN A MURINE MODEL OF ACUTE KIDNEY INJURY-TO-CHRONIC KIDNEY DISEASE PROGRESSION. ACUTE KIDNEY INJURY (AKI) AND PROGRESSIVE CHRONIC KIDNEY DISEASE (CKD) ARE INTRINSICALLY TIED SYNDROMES. IN THIS REGARD, THE ACUTELY INJURED KIDNEY OFTEN DOES NOT ACHIEVE ITS FULL REGENERATIVE CAPACITY AND AKI DIRECTLY TRANSITIONS INTO PROGRESSIVE CKD ASSOCIATED WITH TUBULOINTERSTITIAL FIBROSIS. UNDERLYING MECHANISMS OF SUCH AKI-TO-CKD PROGRESSION ARE STILL INCOMPLETELY UNDERSTOOD AND SPECIFIC THERAPEUTIC INTERVENTIONS ARE STILL ELUSIVE. BECAUSE EPIGENETIC MODIFICATIONS PLAY A ROLE IN MAINTAINING TISSUE FIBROSIS, WE USED A MURINE MODEL OF ISCHEMIA-REPERFUSION INJURY TO DETERMINE WHETHER ABERRANT PROMOTER METHYLATION OF RASAL1 CONTRIBUTES CAUSALLY TO THE SWITCH BETWEEN PHYSIOLOGICAL REGENERATION AND TUBULOINTERSTITIAL FIBROGENESIS, A HALLMARK OF AKI-TO-CKD PROGRESSION. IT IS KNOWN THAT THE ANTIHYPERTENSIVE DRUG HYDRALAZINE HAS DEMETHYLATING ACTIVITY, AND THAT ITS OPTIMUM DEMETHYLATING ACTIVITY OCCURS AT CONCENTRATIONS BELOW BLOOD PRESSURE-LOWERING DOSES. ADMINISTRATION OF LOW-DOSE HYDRALAZINE EFFECTIVELY INDUCED EXPRESSION OF HYDROXYLASE TET3, WHICH CATALYZED RASAL1 HYDROXYMETHYLATION AND SUBSEQUENT RASAL1 PROMOTER DEMETHYLATION. HYDRALAZINE-INDUCED CPG PROMOTER DEMETHYLATION SUBSEQUENTLY ATTENUATED RENAL FIBROSIS AND PRESERVED EXCRETORY RENAL FUNCTION INDEPENDENT OF ITS BLOOD PRESSURE-LOWERING EFFECTS. IN COMPARISON, RASAL1 DEMETHYLATION AND INHIBITION OF TUBULOINTERSTITIAL FIBROSIS WAS NOT DETECTED UPON ADMINISTRATION OF THE ANGIOTENSIN-CONVERTING ENZYME INHIBITOR RAMIPRIL IN THIS MODEL. THUS, RASAL1 PROMOTER METHYLATION AND SUBSEQUENT TRANSCRIPTIONAL RASAL1 SUPPRESSION PLAYS A CAUSAL ROLE IN AKI-TO-CKD PROGRESSION. 2017 3 6431 23 THE USE OF TARGETED NEXT GENERATION SEQUENCING TO EXPLORE CANDIDATE REGULATORS OF TGF-BETA1'S IMPACT ON KIDNEY CELLS. AIMS/HYPOTHESIS: TRANSFORMING GROWTH FACTOR-BETA (TGF-BETA1) PLAYS AN IMPORTANT REGULATORY ROLE IN THE PROGRESSION OF CHRONIC KIDNEY FAILURE. FURTHER, DAMAGE TO KIDNEY GLOMERULAR MESANGIAL CELLS IS CENTRAL TO THE PROGRESSION OF DIABETIC NEPHROPATHY. THE AIM OF THIS STUDY WAS TO EXPLORE THE GENETIC ASSOCIATIONS BETWEEN MRNA, MICRORNA, AND EPIGENETICS IN MESANGIAL CELLS IN RESPONSE TO TGF-BETA1. METHODS: THE REGULATORY EFFECTS OF TGF-BETA1 ON MESANGIAL CELLS WERE INVESTIGATED AT DIFFERENT MOLECULAR LEVELS BY TREATING MESANGIAL CELLS WITH TGF-BETA1 FOR 3 DAYS FOLLOWED BY GENOME-WIDE MIRNA, RNA, DNA METHYLATION, AND H3K27ME3 EXPRESSION PROFILING USING NEXT GENERATION SEQUENCING (NGS). RESULTS: OUR RESULTS PROVIDE THE FIRST COMPREHENSIVE, COMPUTATIONALLY INTEGRATED REPORT OF RNA-SEQ, MIRNA-SEQ, AND EPIGENOMIC ANALYSES ACROSS ALL GENETIC VARIATIONS, CONFIRMING THE OCCURRENCE OF DNA METHYLATION AND H3K27ME3 IN RESPONSE TO TGF-BETA1. OUR FINDINGS SHOW THAT THE EXPRESSION OF KLF7 AND GJA4 ARE INVOLVED IN TGF-BETA1 REGULATED DNA METHYLATION. OUR DATA ALSO PROVIDE EVIDENCE OF THE ASSOCIATION BETWEEN EPIGENETIC CHANGES AND THE EXPRESSION OF GENES CLOSELY RELATED TO TGF-BETA1 REGULATION. CONCLUSION: THIS STUDY HAS ADVANCED OUR CURRENT KNOWLEDGE OF MECHANISMS THAT CONTRIBUTE TO THE EXPRESSION OF TGF-BETA1-REGULATED GENES INVOLVED IN THE PATHOGENESIS OF KIDNEY DISEASE. THE MOLECULAR UNDERPINNINGS OF TGF-BETA1 STIMULATION OF KIDNEY CELLS WAS DETERMINED, THEREBY PROVIDING A ROBUST PLATFORM FOR FURTHER TARGET EXPLORATION. 2018 4 2589 23 EPIGENETICS OF PROGRESSION OF CHRONIC KIDNEY DISEASE: FACT OR FANTASY? EPIGENETIC MODIFICATIONS ARE IMPORTANT IN THE NORMAL FUNCTIONING OF THE CELL, FROM REGULATING DYNAMIC EXPRESSION OF ESSENTIAL GENES AND ASSOCIATED PROTEINS TO REPRESSING THOSE THAT ARE UNNEEDED. EPIGENETIC CHANGES ARE ESSENTIAL FOR DEVELOPMENT AND FUNCTIONING OF THE KIDNEY, AND ABERRANT METHYLATION, HISTONE MODIFICATIONS, AND EXPRESSION OF MICRORNA COULD LEAD TO CHRONIC KIDNEY DISEASE (CKD). HERE, EPIGENETIC MODIFICATIONS MODULATE TRANSFORMING GROWTH FACTOR BETA SIGNALING, INFLAMMATION, PROFIBROTIC GENES, AND THE EPITHELIAL-TO-MESENCHYMAL TRANSITION, PROMOTING RENAL FIBROSIS AND PROGRESSION OF CKD. IDENTIFICATION OF THESE EPIGENETIC CHANGES IS IMPORTANT BECAUSE THEY ARE POTENTIALLY REVERSIBLE AND MAY SERVE AS THERAPEUTIC TARGETS IN THE FUTURE TO PREVENT SUBSEQUENT RENAL FIBROSIS AND CKD. IN THIS REVIEW WE DISCUSS THE DIFFERENT TYPES OF EPIGENETIC CONTROL, METHODS TO STUDY EPIGENETIC MODIFICATIONS, AND HOW EPIGENETICS PROMOTES PROGRESSION OF CKD. 2013 5 2025 26 EPIGENETIC CHANGES DURING DISEASE PROGRESSION IN A MURINE MODEL OF HUMAN CHRONIC LYMPHOCYTIC LEUKEMIA. EPIGENETIC ALTERATIONS, INCLUDING GAIN OR LOSS OF DNA METHYLATION, ARE A HALLMARK OF NEARLY EVERY MALIGNANCY. CHANGES IN DNA METHYLATION CAN IMPACT EXPRESSION OF CANCER-RELATED GENES INCLUDING APOPTOSIS REGULATORS AND TUMOR SUPPRESSORS. BECAUSE SUCH EPIGENETIC CHANGES ARE REVERSIBLE, THEY ARE BEING AGGRESSIVELY INVESTIGATED AS POTENTIAL THERAPEUTIC TARGETS. HERE WE USE THE EMU-TCL1 TRANSGENIC MOUSE MODEL OF CHRONIC LYMPHOCYTIC LEUKEMIA (CLL) TO DETERMINE THE TIMING AND PATTERNS OF ABERRANT DNA METHYLATION, AND TO INVESTIGATE THE MECHANISMS THAT LEAD TO ABERRANT DNA METHYLATION. WE SHOW THAT CLL CELLS FROM EMU-TCL1 MICE AT VARIOUS STAGES RECAPITULATE EPIGENETIC ALTERATIONS SEEN IN HUMAN CLL. ABERRANT METHYLATION OF PROMOTER SEQUENCES IS OBSERVED AS EARLY AS 3 MONTHS OF AGE IN THESE ANIMALS, WELL BEFORE DISEASE ONSET. ABNORMALLY METHYLATED PROMOTER REGIONS INCLUDE BINDING SITES FOR THE TRANSCRIPTION FACTOR FOXD3. WE SHOW THAT LOSS OF FOXD3 EXPRESSION DUE TO AN NF-KAPPAB P50/P50:HDAC1 REPRESSOR COMPLEX OCCURS IN TCL1-POSITIVE B CELLS BEFORE METHYLATION. THEREFORE, SPECIFIC TRANSCRIPTIONAL REPRESSION IS AN EARLY EVENT LEADING TO EPIGENETIC SILENCING OF TARGET GENES IN MURINE AND HUMAN CLL. THESE RESULTS PROVIDE STRONG RATIONALE FOR THE DEVELOPMENT OF STRATEGIES TO TARGET NF-KAPPAB COMPONENTS IN CLL AND POTENTIALLY OTHER B-CELL MALIGNANCIES. 2009 6 2873 19 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 7 6510 24 TRANSCRIPTION FACTORS AND EPIGENETIC MODULATION: ITS THERAPEUTIC IMPLICATION IN CHRONIC KIDNEY DISEASE. RECENTLY EMERGING EVIDENCE HAS SHOWN THAT EPIGENETIC MECHANISMS ARE INVOLVED IN INITIATION AND PROGRESSION OF VARIOUS DISEASES, INCLUDING KIDNEY DISEASES. IN THE PRESENT ARTICLE, WE REVIEW THE CURRENT DATA REGARDING THE ROLE OF EPIGENETIC MODULATION IN CHRONIC KIDNEY DISEASE (CKD) AND KIDNEY FIBROSIS, INCLUDING DNA METHYLATION AND HISTONE MODIFICATION. ESPECIALLY WE FOCUSED ON THE ROLE OF TRANSCRIPTION FACTORS IN EPIGENETIC MODULATION AND THE POSSIBILITY OF THERAPEUTIC TARGET OF CKD. WE HAVE RECENTLY REPORTED THAT TRANSCRIPTION FACTOR KRUPPEL-LIKE FACTOR 4 (ALSO KNOWN AS GUT-ENRICHED KRUPPEL-LIKE FACTOR) IS EXPRESSED IN KIDNEY PODOCYTES (VISCERAL EPITHELIAL CELLS) AND MODULATES PODOCYTE PHENOTYPE BY GENE-SELECTIVE EPIGENETIC CONTROL. TARGETING TRANSCRIPTION FACTORS FOR EPIGENETIC MODIFICATION MAY BE A GOOD CANDIDATE FOR REMISSION AND REGRESSION OF CKD. IT IS NECESSARY FOR THE THERAPY OF CKD WITH AN EPIGENETIC-BASED APPROACH TO INVESTIGATE ORGAN-, TISSUE-, OR GENE-SPECIFIC TREATMENT METHODS FOR REDUCTION OF SIDE EFFECTS. 2015 8 1587 27 DNA METHYLATION PROFILING IDENTIFIES NOVEL MARKERS OF PROGRESSION IN HEPATITIS B-RELATED CHRONIC LIVER DISEASE. BACKGROUND: CHRONIC HEPATITIS B INFECTION IS CHARACTERIZED BY HEPATIC IMMUNE AND INFLAMMATORY RESPONSE WITH CONSIDERABLE VARIATION IN THE RATES OF PROGRESSION TO CIRRHOSIS. GENETIC VARIANTS AND ENVIRONMENTAL CUES INFLUENCE PREDISPOSITION TO THE DEVELOPMENT OF CHRONIC LIVER DISEASE; HOWEVER, IT REMAINS UNKNOWN IF ABERRANT DNA METHYLATION IS ASSOCIATED WITH FIBROSIS PROGRESSION IN CHRONIC HEPATITIS B. RESULTS: TO IDENTIFY EPIGENETIC MARKS ASSOCIATED WITH INFLAMMATORY AND FIBROTIC PROCESSES OF THE HEPATITIS B-INDUCED CHRONIC LIVER DISEASE, WE CARRIED OUT HEPATIC GENOME-WIDE METHYLATION PROFILING USING ILLUMINA INFINIUM BEADARRAYS COMPARING MILD AND SEVERE FIBROTIC DISEASE IN A DISCOVERY COHORT OF 29 PATIENTS. WE OBTAINED 310 DIFFERENTIALLY METHYLATED REGIONS AND SELECTED FOUR LOCI COMPRISING THREE GENES FROM THE TOP DIFFERENTIALLY METHYLATED REGIONS: HYPERMETHYLATION OF HOXA2 AND HDAC4 ALONG WITH HYPOMETHYLATION OF PPP1R18 WERE SIGNIFICANTLY LINKED TO SEVERE FIBROSIS. WE REPLICATED THE PROMINENT METHYLATION MARKS IN AN INDEPENDENT COHORT OF 102 PATIENTS BY BISULFITE MODIFICATION AND PYROSEQUENCING. THE TIMING AND CAUSAL RELATIONSHIP OF EPIGENETIC MODIFICATIONS WITH DISEASE SEVERITY WAS FURTHER INVESTIGATED USING A COHORT OF PATIENTS WITH SERIAL BIOPSIES. CONCLUSIONS: OUR FINDINGS SUGGEST A LINKAGE OF WIDESPREAD EPIGENETIC DYSREGULATION WITH DISEASE PROGRESSION IN CHRONIC HEPATITIS B INFECTION. CPG METHYLATION AT NOVEL GENES SHEDS LIGHT ON NEW MOLECULAR PATHWAYS, WHICH CAN BE POTENTIALLY EXPLOITED AS A BIOMARKER OR TARGETED TO ATTENUATE INFLAMMATION AND FIBROSIS. 2016 9 2926 19 GENERATION OF AN EPIGENETIC SIGNATURE BY CHRONIC HYPOXIA IN PROSTATE CELLS. INCREASING LEVELS OF TISSUE HYPOXIA HAVE BEEN REPORTED AS A NATURAL FEATURE OF THE AGING PROSTATE GLAND AND MAY BE A RISK FACTOR FOR THE DEVELOPMENT OF PROSTATE CANCER. IN THIS STUDY, WE HAVE USED PWR-1E BENIGN PROSTATE EPITHELIAL CELLS AND AN EQUIVALENTLY AGED HYPOXIA-ADAPTED PWR-1E SUB-LINE TO IDENTIFY PHENOTYPIC AND EPIGENETIC CONSEQUENCES OF CHRONIC HYPOXIA IN PROSTATE CELLS. WE HAVE IDENTIFIED A SIGNIFICANTLY ALTERED CELLULAR PHENOTYPE IN RESPONSE TO CHRONIC HYPOXIA AS CHARACTERIZED BY INCREASED RECEPTOR-MEDIATED APOPTOTIC RESISTANCE, THE INDUCTION OF CELLULAR SENESCENCE, INCREASED INVASION AND THE INCREASED SECRETION OF IL-1 BETA, IL6, IL8 AND TNFALPHA CYTOKINES. IN ASSOCIATION WITH THESE PHENOTYPIC CHANGES AND THE ABSENCE OF HIF-1 ALPHA PROTEIN EXPRESSION, WE HAVE DEMONSTRATED SIGNIFICANT INCREASES IN GLOBAL LEVELS OF DNA METHYLATION AND H3K9 HISTONE ACETYLATION IN THESE CELLS, CONCOMITANT WITH THE INCREASED EXPRESSION OF DNA METHYLTRANSFERASE DMNT3B AND GENE-SPECIFIC CHANGES IN DNA METHYLATION AT KEY IMPRINTING LOCI. IN CONCLUSION, WE HAVE DEMONSTRATED A GENOME-WIDE ADJUSTMENT OF DNA METHYLATION AND HISTONE ACETYLATION UNDER CHRONIC HYPOXIC CONDITIONS IN THE PROSTATE. THESE EPIGENETIC SIGNATURES MAY REPRESENT AN ADDITIONAL MECHANISM TO PROMOTE AND MAINTAIN A HYPOXIC-ADAPTED CELLULAR PHENOTYPE WITH A POTENTIAL ROLE IN TUMOUR DEVELOPMENT. 2009 10 5972 20 TET REPRESSION AND INCREASED DNMT ACTIVITY SYNERGISTICALLY INDUCE ABERRANT DNA METHYLATION. CHRONIC INFLAMMATION IS DEEPLY INVOLVED IN VARIOUS HUMAN DISORDERS, SUCH AS CANCER, NEURODEGENERATIVE DISORDERS, AND METABOLIC DISORDERS. INDUCTION OF EPIGENETIC ALTERATIONS, ESPECIALLY ABERRANT DNA METHYLATION, IS ONE OF THE MAJOR MECHANISMS, BUT HOW IT IS INDUCED IS STILL UNCLEAR. HERE, WE FOUND THAT EXPRESSION OF TET GENES, METHYLATION ERASERS, WAS DOWNREGULATED IN INFLAMED MOUSE AND HUMAN TISSUES, AND THAT THIS WAS CAUSED BY UPREGULATION OF TET-TARGETING MIRNAS SUCH AS MIR20A, MIR26B, AND MIR29C, LIKELY DUE TO ACTIVATION OF NF-KAPPAB SIGNALING DOWNSTREAM OF IL-1BETA AND TNF-ALPHA. HOWEVER, TET KNOCKDOWN INDUCED ONLY MILD ABERRANT METHYLATION. NITRIC OXIDE (NO), PRODUCED BY NOS2, ENHANCED ENZYMATIC ACTIVITY OF DNA METHYLTRANSFERASES (DNMTS), METHYLATION WRITERS, AND NO EXPOSURE INDUCED MINIMAL ABERRANT METHYLATION. IN CONTRAST, A COMBINATION OF TET KNOCKDOWN AND NO EXPOSURE SYNERGISTICALLY INDUCED ABERRANT METHYLATION, INVOLVING GENOMIC REGIONS NOT METHYLATED BY EITHER ALONE. THE RESULTS SHOWED THAT A VICIOUS COMBINATION OF TET REPRESSION, DUE TO NF-KAPPAB ACTIVATION, AND DNMT ACTIVATION, DUE TO NO PRODUCTION, IS RESPONSIBLE FOR ABERRANT METHYLATION INDUCTION IN HUMAN TISSUES. 2020 11 4238 24 METHYLATION PATTERN OF URINARY DNA AS A MARKER OF KIDNEY FUNCTION DECLINE IN DIABETES. INTRODUCTION: RENAL TUBULAR INJURY CONTRIBUTES TO THE DECLINE IN KIDNEY FUNCTION IN PATIENTS WITH DIABETES. CELL TYPE-SPECIFIC DNA METHYLATION PATTERNS HAVE BEEN USED TO CALCULATE PROPORTIONS OF PARTICULAR CELL TYPES. IN THIS STUDY, WE DEVELOPED A METHOD TO DETECT RENAL TUBULAR INJURY IN PATIENTS WITH DIABETES BY DETECTING EXFOLIATED TUBULAR CELLS SHED INTO THE URINE BASED ON TUBULAR CELL-SPECIFIC DNA METHYLATION PATTERNS. RESEARCH DESIGN AND METHODS: WE IDENTIFIED DNA METHYLATION PATTERNS SPECIFIC FOR HUMAN RENAL PROXIMAL TUBULAR CELLS THROUGH COMPARTMENT-SPECIFIC METHYLOME ANALYSIS. WE NEXT DETERMINED THE METHYLATION LEVELS OF PROXIMAL TUBULE-SPECIFIC LOCI IN URINE SEDIMENT OF PATIENTS WITH DIABETES AND ANALYZED CORRELATION WITH CLINICAL VARIABLES. RESULTS: WE IDENTIFIED GENOMIC LOCI IN SMTNL2 AND G6PC TO BE SELECTIVELY UNMETHYLATED IN HUMAN PROXIMAL TUBULAR CELLS. THE METHYLATION LEVELS OF SMTNL2 AND G6PC IN URINE SEDIMENT, DEEMED TO REFLECT THE PROPORTION OF EXFOLIATED PROXIMAL TUBULAR CELLS DUE TO INJURY, CORRELATED WELL WITH EACH OTHER. METHYLATION LEVELS OF SMTNL2 IN URINE SEDIMENT SIGNIFICANTLY CORRELATED WITH THE ANNUAL DECLINE IN ESTIMATED GLOMERULAR FILTRATION RATE. MOREOVER, ADDITION OF URINARY SMTNL2 METHYLATION TO A MODEL CONTAINING KNOWN RISK FACTORS SIGNIFICANTLY IMPROVED DISCRIMINATION OF PATIENTS WITH DIABETES WITH FASTER ESTIMATED GLOMERULAR FILTRATION RATE DECLINE. CONCLUSIONS: THIS STUDY DEMONSTRATES THAT PATIENTS WITH DIABETES WITH CONTINUAL LOSS IN KIDNEY FUNCTION MAY BE STRATIFIED BY A SPECIFIC DNA METHYLATION SIGNATURE THROUGH EPIGENETIC URINALYSIS AND PROVIDES FURTHER EVIDENCE AT THE LEVEL OF EXFOLIATED CELLS IN THE URINE THAT INJURY OF PROXIMAL TUBULAR CELLS MAY CONTRIBUTE TO PATHOGENESIS OF DIABETIC KIDNEY DISEASE. 2020 12 1269 29 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 13 1594 24 DNA METHYLATION PROFILING REVEALS DIFFERENCES IN THE 3 HUMAN MONOCYTE SUBSETS AND IDENTIFIES UREMIA TO INDUCE DNA METHYLATION CHANGES DURING DIFFERENTIATION. HUMAN MONOCYTES ARE A HETEROGENEOUS CELL POPULATION CONSISTING OF 3 SUBSETS: CLASSICAL CD14++CD16-, INTERMEDIATE CD14++CD16+ AND NONCLASSICAL CD14+CD16++ MONOCYTES. VIA POORLY CHARACTERIZED MECHANISMS, INTERMEDIATE MONOCYTE COUNTS RISE IN CHRONIC INFLAMMATORY DISEASES, AMONG WHICH CHRONIC KIDNEY DISEASE IS OF PARTICULAR EPIDEMIOLOGIC IMPORTANCE. DNA METHYLATION IS A CENTRAL EPIGENETIC FEATURE THAT CONTROLS HEMATOPOIESIS. BY APPLYING NEXT-GENERATION METHYL-SEQUENCING WE NOW TESTED HOW FAR THE 3 MONOCYTE SUBSETS DIFFER IN THEIR DNA METHYLOME AND WHETHER UREMIA INDUCES DNA METHYLATION CHANGES IN DIFFERENTIATING MONOCYTES. WE FOUND THAT EACH MONOCYTE SUBSET DISPLAYS A UNIQUE PHENOTYPE WITH REGARDS TO DNA METHYLATION. GENES WITH DIFFERENTIALLY METHYLATED PROMOTER REGIONS IN INTERMEDIATE MONOCYTES WERE LINKED TO DISTINCT IMMUNOLOGICAL PROCESSES, WHICH IS IN LINE WITH RESULTS FROM RECENT GENE EXPRESSION ANALYSES. IN VITRO, UREMIA INDUCED DYSREGULATION OF DNA METHYLATION IN DIFFERENTIATING MONOCYTES, WHICH AFFECTED SEVERAL TRANSCRIPTION REGULATORS IMPORTANT FOR MONOCYTE DIFFERENTIATION (E.G., FLT3, HDAC1, MNT) AND LED TO ENHANCED GENERATION OF INTERMEDIATE MONOCYTES. AS POTENTIAL MEDIATOR, THE UREMIC TOXIN AND METHYLATION INHIBITOR S-ADENOSYLHOMOCYSTEINE INDUCED SHIFTS IN MONOCYTE SUBSETS IN VITRO, AND ASSOCIATED WITH MONOCYTE SUBSET COUNTS IN VIVO. OUR DATA SUPPORT THE CONCEPT OF MONOCYTE TRICHOTOMY AND THE DISTINCT ROLE OF INTERMEDIATE MONOCYTES IN HUMAN IMMUNITY. THE SHIFT IN MONOCYTE SUBSETS THAT OCCURS IN CHRONIC KIDNEY DISEASE, A PROINFLAMMATORY CONDITION OF SUBSTANTIAL EPIDEMIOLOGICAL IMPACT, MAY BE INDUCED BY ACCUMULATION OF UREMIC TOXINS THAT MEDIATE EPIGENETIC DYSREGULATION. 2016 14 141 27 ABERRANT DNA METHYLATION OF MTOR PATHWAY GENES PROMOTES INFLAMMATORY ACTIVATION OF IMMUNE CELLS IN DIABETIC KIDNEY DISEASE. DNA METHYLATION HAS BEEN IMPLICATED IN THE PATHOGENESIS OF DIABETIC KIDNEY DISEASE (DKD), BUT THE UNDERLYING MECHANISMS REMAIN UNCLEAR. IN THIS STUDY, WE TESTED THE HYPOTHESIS THAT ABERRANT DNA METHYLATION IN PERIPHERAL IMMUNE CELLS CONTRIBUTES TO DKD PROGRESSION. WE SHOWED THAT LEVELS OF DNA METHYLTRANSFERASE 1 (DNMT1), A KEY ENZYME FOR DNA METHYLATION, WERE INCREASED ALONG WITH INFLAMMATORY ACTIVITY OF PERIPHERAL BLOOD MONONUCLEAR CELLS IN DKD PATIENTS. INHIBITION OF DNMT1 WITH 5-AZA-2'-DEOXYCYTIDINE (5-AZA) MARKEDLY INCREASED THE PROPORTION OF CD4(+)CD25(+) REGULATORY T CELLS IN PERIPHERAL BLOOD MONONUCLEAR CELLS IN CULTURE AND IN DIABETIC ANIMALS. ADOPTIVE TRANSFER OF IMMUNE CELLS FROM 5-AZA-TREATED ANIMALS SHOWED BENEFICIAL EFFECTS ON THE HOST IMMUNE SYSTEM, RESULTING IN A SIGNIFICANT IMPROVEMENT OF DKD. USING GENOME-WIDE DNA METHYLATION ASSAYS, WE IDENTIFIED THE DIFFERENTIALLY METHYLATED CYTOSINES IN THE PROMOTER REGIONS OF MAMMALIAN TARGET OF RAPAMYCIN (MTOR) REGULATORS IN PERIPHERAL BLOOD MONONUCLEAR CELLS OF DIABETIC PATIENTS. FURTHER, MRNA ARRAYS CONFIRMED THE CONSISTENT INDUCTION OF GENES EXPRESSED IN THE MTOR PATHWAY. IMPORTANTLY, DOWN-REGULATION OF DNMT1 EXPRESSION VIA RNA INTERFERENCE RESULTED IN PROMINENT CYTOSINE DEMETHYLATION OF MTOR NEGATIVE REGULATORS AND SUBSEQUENT DECREASE OF MTOR ACTIVITY. LASTLY, MODULATION OF MTOR RESULTED IN CHANGES IN THE EFFECT OF 5-AZA ON DIABETIC IMMUNE CELLS. THUS, UP-REGULATION OF DNMT1 IN DIABETIC IMMUNE CELLS INDUCES ABERRANT CYTOSINE METHYLATION OF THE UPSTREAM REGULATORS OF MTOR, LEADING TO PATHOGENIC ACTIVATION OF THE MTOR PATHWAY AND CONSEQUENT INFLAMMATION IN DIABETIC KIDNEYS. HENCE, THIS STUDY HIGHLIGHTS THERAPEUTIC POTENTIAL OF TARGETING EPIGENETIC EVENTS IN IMMUNE SYSTEM FOR TREATING DKD. 2019 15 1567 24 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 16 2055 18 EPIGENETIC CONTROL DURING LYMPHOID DEVELOPMENT AND IMMUNE RESPONSES: ABERRANT REGULATION, VIRUSES, AND CANCER. METHYLATION OF CYTOSINES CONTROLS A NUMBER OF BIOLOGIC PROCESSES SUCH AS IMPRINTING AND X CHROMOSOMAL INACTIVATION. DNA HYPERMETHYLATION IS CLOSELY ASSOCIATED WITH TRANSCRIPTIONAL SILENCING, WHILE DNA HYPOMETHYLATION IS ASSOCIATED WITH TRANSCRIPTIONAL ACTIVATION. HYPOACETYLATION OF HISTONES LEADS TO COMPACT CHROMATIN WITH REDUCED ACCESSIBILITY TO THE TRANSCRIPTIONAL MACHINERY. METHYL-CPG BINDING PROTEINS CAN RECRUIT COREPRESSORS AND HISTONE DEACETYLASES; THUS, THE INTERPLAY BETWEEN THESE EPIGENETIC MECHANISMS REGULATES GENE ACTIVATION. METHYLATION HAS BEEN IMPLICATED AS AN IMPORTANT MECHANISM DURING IMMUNE DEVELOPMENT, CONTROLLING VDJ RECOMBINATION, LINEAGE-SPECIFIC EXPRESSION OF CELL SURFACE ANTIGENS, AND TRANSCRIPTIONAL REGULATION OF CYTOKINE GENES DURING IMMUNE RESPONSES. ABERRATIONS IN EPIGENETIC MACHINERY, EITHER BY GENETIC MUTATIONS OR BY SOMATIC CHANGES SUCH AS VIRAL INFECTIONS, ARE ASSOCIATED WITH EARLY ALTERATIONS IN CHRONIC DISEASES SUCH AS IMMUNODEFICIENCY AND CANCER. 2003 17 2230 24 EPIGENETIC MODIFICATIONS OF KLOTHO EXPRESSION IN KIDNEY DISEASES. DEVELOPMENTS OF MANY RENAL DISEASES ARE SUBSTANTIALLY INFLUENCED BY EPIGENETIC MODIFICATIONS OF NUMEROUS GENES, MAINLY MEDIATED BY DNA METHYLATIONS, HISTONE MODIFICATIONS, AND MICRORNA INTERFERENCE; HOWEVER, NOT ALL GENE MODIFICATIONS CAUSALLY AFFECT THE DISEASE ONSET OR PROGRESSION. KLOTHO IS A CRITICAL GENE WHOSE REPRESSIONS IN VARIOUS PATHOLOGICAL CONDITIONS REPORTEDLY INVOLVE EPIGENETIC REGULATORY MECHANISMS. KLOTHO IS ALMOST UNEXCEPTIONALLY REPRESSED EARLY AFTER ACUTE OR CHRONIC RENAL INJURIES AND ITS LEVELS INVERSELY CORRELATED WITH THE DISEASE PROGRESSION AND SEVERITY. MOREOVER, THE STRATEGIES OF KLOTHO DEREPRESSION VIA EPIGENETIC MODULATIONS BENEFICIALLY CHANGE THE PATHOLOGICAL COURSES BOTH IN VITRO AND IN VIVO. HENCE, KLOTHO IS NOT ONLY CONSIDERED A BIOMARKER OF THE RENAL DISEASE BUT ALSO A POTENTIAL OR EVEN AN IDEAL TARGET OF THERAPEUTIC EPIGENETIC INTERVENTION. HERE, WE SUMMARIZE AND DISCUSS STUDIES THAT INVESTIGATE THE KLOTHO REPRESSION AND INTERVENTION IN RENAL DISEASES FROM AN EPIGENETIC POINT OF VIEW. THESE INFORMATION MIGHT SHED NEW SIGHTS INTO THE EFFECTIVE THERAPEUTIC STRATEGIES TO PREVENT AND TREAT VARIOUS RENAL DISORDERS. 2021 18 1568 21 DNA METHYLATION OF TUMOR-SUPPRESSOR MIRNA GENES IN CHRONIC LYMPHOCYTIC LEUKEMIA. DNA METHYLATION IS ONE OF THE MOST IMPORTANT EPIGENETIC MODIFICATIONS OF THE GENOME INVOLVED IN THE REGULATION OF NUMEROUS CELLULAR PROCESSES THROUGH GENE SILENCING WITHOUT ALTERING DNA SEQUENCES. MIRNAS, A CLASS OF SINGLE-STRANDED NONCODING RNAS OF 19-25 NUCLEOTIDES IN LENGTH, FUNCTION AS POST-TRANSCRIPTIONAL REGULATORS OF GENE EXPRESSION LEADING TO MRNA CLEAVAGE OR TRANSLATIONAL REPRESSION OF THEIR CORRESPONDING TARGET PROTEIN-CODING GENES. RECENTLY, DYSREGULATION OF TUMOR SUPPRESSOR MIRNAS MEDIATED BY PROMOTER DNA HYPERMETHYLATION IS IMPLICATED IN HUMAN CANCERS, INCLUDING B-CELL CHRONIC LYMPHOCYTIC LEUKEMIA (CLL). MOREOVER, IT APPEARS THAT METHYLATED MIRNA GENES COULD BE POTENTIAL BIOMARKERS FOR CLL DIAGNOSIS OR THERAPY. THIS REVIEW WILL HIGHLIGHT THE ROLE OF ABERRANT METHYLATION OF MIRNA GENES IN THE PATHOGENESIS OF CLL. 2015 19 3824 24 INVESTIGATING THE EPIGENETIC EFFECTS OF A PROTOTYPE SMOKE-DERIVED CARCINOGEN IN HUMAN CELLS. GLOBAL LOSS OF DNA METHYLATION AND LOCUS/GENE-SPECIFIC GAIN OF DNA METHYLATION ARE TWO DISTINCT HALLMARKS OF CARCINOGENESIS. ABERRANT DNA METHYLATION IS IMPLICATED IN SMOKING-RELATED LUNG CANCER. IN THIS STUDY, WE HAVE COMPREHENSIVELY INVESTIGATED THE MODULATION OF DNA METHYLATION CONSEQUENT TO CHRONIC EXPOSURE TO A PROTOTYPE SMOKE-DERIVED CARCINOGEN, BENZO[A]PYRENE DIOL EPOXIDE (B[A]PDE), IN GENOMIC REGIONS OF SIGNIFICANCE IN LUNG CANCER, IN NORMAL HUMAN CELLS. WE HAVE USED A PULLDOWN ASSAY FOR ENRICHMENT OF THE CPG METHYLATED FRACTION OF CELLULAR DNA COMBINED WITH MICROARRAY PLATFORMS, FOLLOWED BY EXTENSIVE VALIDATION THROUGH CONVENTIONAL BISULFITE-BASED ANALYSIS. HERE, WE DEMONSTRATE STRIKINGLY SIMILAR PATTERNS OF DNA METHYLATION IN NON-TRANSFORMED B[A]PDE-TREATED CELLS VS CONTROL USING HIGH-THROUGHPUT MICROARRAY-BASED DNA METHYLATION PROFILING CONFIRMED BY CONVENTIONAL BISULFITE-BASED DNA METHYLATION ANALYSIS. THE ABSENCE OF ABERRANT DNA METHYLATION IN OUR MODEL SYSTEM WITHIN A TIMEFRAME THAT PRECEDES CELLULAR TRANSFORMATION SUGGESTS THAT FOLLOWING CARCINOGEN EXPOSURE, OTHER AS YET UNKNOWN FACTORS (SECONDARY TO CARCINOGEN TREATMENT) MAY HELP INITIATE GLOBAL LOSS OF DNA METHYLATION AND REGION-SPECIFIC GAIN OF DNA METHYLATION, WHICH CAN, IN TURN, CONTRIBUTE TO LUNG CANCER DEVELOPMENT. UNVEILING THE INITIATING EVENTS THAT CAUSE ABERRANT DNA METHYLATION IN LUNG CANCER HAS TREMENDOUS PUBLIC HEALTH RELEVANCE, AS IT CAN HELP DEFINE FUTURE STRATEGIES FOR EARLY DETECTION AND PREVENTION OF THIS HIGHLY LETHAL DISEASE. 2010 20 1474 25 DISTINCT PATTERNS OF TRANSCRIPTIONAL AND EPIGENETIC ALTERATIONS CHARACTERIZE ACUTE AND CHRONIC KIDNEY INJURY. ACUTE KIDNEY INJURY (AKI) AND CHRONIC KIDNEY DISEASE (CKD) ARE CONSIDERED EARLY AND LATE PHASES OF A PATHOLOGIC CONTINUUM OF INTERCONNECTED DISEASE STATES. ALTHOUGH CHANGES IN GENE EXPRESSION PATTERNS HAVE RECENTLY BEEN ELUCIDATED FOR THE TRANSITION OF AKI TO CKD, THE EPIGENETIC REGULATION OF KEY KIDNEY INJURY RELATED GENES REMAINS POORLY UNDERSTOOD. WE USED MULTIPLEX RT-QPCR, CHIP-QPCR AND INTEGRATIVE ANALYSIS TO COMPARE TRANSCRIPTIONAL AND EPIGENETIC CHANGES AT RENAL DISEASE-ASSOCIATED GENES ACROSS MOUSE AKI AND CKD MODELS. THESE STUDIES SHOWED THAT: (I) THERE ARE SUBSETS OF GENES WITH DISTINCT TRANSCRIPTIONAL AND EPIGENETICALLY PROFILES SHARED BY AKI AND CKD BUT ALSO SUBSETS THAT ARE SPECIFIC TO EITHER THE EARLY OR LATE STAGES OF RENAL INJURY; (II) DIFFERENCES IN EXPRESSION OF A SMALL NUMBER OF GENES IS SUFFICIENT TO DISTINGUISH AKI FROM CKD; (III) TRANSCRIPTION PLAYS A KEY ROLE IN THE UPREGULATION OF BOTH AKI AND CKD GENES WHILE POST-TRANSCRIPTIONAL REGULATION APPEARS TO PLAY A MORE SIGNIFICANT ROLE IN DECREASED EXPRESSION OF BOTH AKI AND CKD GENES; AND (IV) SUBSETS OF TRANSCRIPTIONALLY UPREGULATED GENES SHARE EPIGENETIC SIMILARITIES WHILE DOWNREGULATED GENES DO NOT. COLLECTIVELY, OUR STUDY SUGGESTS THAT IDENTIFIED COMMON TRANSCRIPTIONAL AND EPIGENETIC PROFILES OF KIDNEY INJURY LOCI COULD BE EXPLOITED FOR THERAPEUTIC TARGETING IN AKI AND CKD. 2018