1 1648 89 DOES THE UREMIC MILIEU AFFECT THE EPIGENOTYPE? EPIGENETICS IS A DISCIPLINE THAT FOR MANY YEARS HAS LANGUISHED IN THE SHADOW OF ITS GENOMIC BIG BROTHER. BECAUSE OUR UNDERSTANDING OF THE ROLE PLAYED BY EPIGENETICS IN CHRONIC KIDNEY DISEASE REMAINS IN ITS INFANCY, FURTHER STUDIES ARE NEEDED TO UNDERSTAND THE ASSOCIATIONS, FOR INSTANCE, OF ABERRANT DNA METHYLATION IN RELATION TO UREMIC DYSMETABOLISM, AND ITS PRESUMABLY VERY COMPLEX INTERACTIONS IN THE DEVELOPMENT OF PREMATURE UREMIC VASCULAR DISEASE. FURTHER RESEARCH IS ALSO NEEDED TO STUDY THE ASSOCIATION BETWEEN ABERRANT GLOBAL DNA-METHYLATION, GENE-LEVEL METHYLATION STATUS, AND THE SILENCING (OR ACTIVATION) OF CANDIDATE GENES ASSOCIATED WITH ATHEROSCLEROSIS. INSOFAR AS IT SEEMS POSSIBLE TO MANIPULATE THE EPIGENOME, THE EFFECTS OF VARIOUS EPIGENETIC-TARGETED AND PATHWAY-TARGETED THERAPEUTIC APPROACHES ON UNBALANCED DNA METHYLATION, GENE SILENCING, AND VASCULAR HEALTH AND OUTCOMES SHOULD BE EXPLORED FURTHER IN UREMIA. 2009 2 2524 49 EPIGENETICS AND THE UREMIC PHENOTYPE: A MATTER OF BALANCE. EPIGENETICS, WHICH IS THE STUDY OF CHANGES IN GENE EXPRESSION THAT OCCUR WITHOUT CHANGES IN DNA SEQUENCE, IS A NOVEL DISCIPLINE THAT HAS LANGUISHED IN THE SHADOW OF ITS GENOMIC BIG BROTHER. SO FAR, STUDIES OF THE EPIGENOME HAVE ATTRACTED LITTLE INTEREST IN NEPHROLOGY. CHRONIC KIDNEY DISEASE IS AN EXAMPLE OF COMPLEX DISEASE IN WHICH THE PHENOTYPE ARISES FROM A COMBINATION OF ENVIRONMENTAL AND HERITABLE FACTORS. EVIDENCE SUGGESTS THAT THE CONTRIBUTION MADE BY THE ENVIRONMENT MAY BE MEDIATED VIA MODIFICATIONS OF THE EPIGENOME. IN THE UREMIC MILIEU, SEVERAL FEATURES SUCH AS INFLAMMATION, DYSLIPIDEMIA, HYPERHOMOCYSTEINEMA, OXIDATIVE STRESS AS WELL AS VITAMIN AND NUTRITIONAL DEFICIENCIES MAY AFFECT ABERRANT GLOBAL DNA METHYLATION. HOWEVER, AS HYPERHOMOCYSTEINEMIA SEEMS TO PROMOTE GLOBAL DNA HYPOMETHYLATION AND PERSISTENT INFLAMMATION DNA HYPERMETHYLATION, THE EFFECTS OF THE UREMIC MILIEU ON ABERRANT GLOBAL DNA METHYLATION MAY BE COMPLEX AND CONTEXT-SENSITIVE. IT SHOULD BE EMPHASIZED THAT IN ANALOGY TO THE UNSPECIFIC NATURE OF FEVER, ABERRANT GLOBAL DNA METHYLATION IS ONLY A SIGN OF A GENERALIZED EPIGENETIC DYSREGULATION. THUS, TO PROVIDE BETTER UNDERSTANDING OF THE EFFECTS OF ABERRANT DNA METHYLATION ON THE UREMIC PHENOTYPE, FURTHER STUDIES EVALUATING SITE-SPECIFIC INFORMATION ON METHYLATION IN VARIOUS CANDIDATE GENES ARE NEEDED. THE SCIENCE OF EPIGENETICS MAY NOT ONLY UNCOVER ETIOLOGIC AND PATHOGENIC MECHANISMS IN UREMIA, BUT MAY ALSO BE OF HELP TO DEVELOP NOVEL TREATMENT STRATEGIES TARGETING THE UNACCEPTABLE HIGH DEATH RISK IN CARDIOVASCULAR COMPLICATIONS IN THIS PATIENT POPULATION. 2008 3 1060 27 CLINICAL RELEVANCE OF EPIGENETIC DYSREGULATION IN CHRONIC KIDNEY DISEASE-ASSOCIATED CARDIOVASCULAR DISEASE. ACROSS THE SPECTRUM OF CLINICAL MEDICINE, THE FIELD OF EPIGENETICS HAS GAINED SUBSTANTIAL SCIENTIFIC INTEREST IN RECENT YEARS. EPIGENETICS REFERS TO MODIFICATIONS IN GENE EXPRESSION WHICH ARE NOT EXPLAINED BY CHANGES IN DNA SEQUENCE. CLASSICAL COMPONENTS OF EPIGENETIC REGULATION COMPRISE DNA METHYLATION, HISTONE MODIFICATIONS AND RNA INTERFERENCE. IN CHRONIC KIDNEY DISEASE (CKD), SEVERAL FEATURES OF URAEMIA, SUCH AS HYPERHOMOCYSTEINEMIA AND INFLAMMATION, MAY CONTRIBUTE TO CHANGES IN EPIGENETIC GENE REGULATION. IT HAS BEEN SUGGESTED THAT THESE CHANGES MAY AFFECT GENES RELATED TO CARDIOVASCULAR DISEASE. THEREBY, A URAEMIA-ASSOCIATED DISTURBANCE IN EPIGENETIC REGULATION MAY CONTRIBUTE TO THE SUBSTANTIAL INCREASE IN CARDIOVASCULAR MORBIDITY IN CKD PATIENTS. THE PRESENT REVIEW AIMS TO SUMMARIZE CURRENT KNOWLEDGE OF EPIGENETIC DYSREGULATION IN CARDIOVASCULAR DISEASE FROM A NEPHROLOGICAL PERSPECTIVE, WITH A SPECIAL FOCUS ON DNA METHYLATION. WE FIRST DESCRIBE THE IMPACT OF ALTERED EPIGENETIC REGULATION IN NON-CKD-ASSOCIATED ARTERIOSCLEROSIS, AND NEXT CHARACTERIZE URAEMIC FEATURES WHICH MAY AFFECT EPIGENETIC GENE REGULATION IN THE CONTEXT OF CARDIOVASCULAR DISEASE. FINALLY, WE CONCLUDE THAT SUBSTANTIAL ADDITIONAL WORK IS NEEDED BEFORE EPIGENETIC REGULATORY MECHANISMS MAY BECOME THERAPEUTIC TARGETS IN CKD-ASSOCIATED CARDIOVASCULAR DISEASE. 2013 4 6113 41 THE EPIGENETIC CONDUCTOR: A GENOMIC ORCHESTRATOR IN CHRONIC KIDNEY DISEASE COMPLICATIONS? EPIGENETICS DEFINES THE CELLULARLY HERITABLE PROPERTIES OF GENOME FUNCTION, WHICH ARE NOT DIRECTLY ENCODED IN THE DNA PRIMARY SEQUENCE. THE UNDERLYING MECHANISMS ORCHESTRATE CELL IDENTITY AND MEMORY AND ARE TARGETS FOR EXTERNAL AND INTERNAL ENVIRONMENTAL INFLUENCES. IT BECOMES INCREASINGLY CLEAR THAT GENETIC AND EPIGENETIC FACTORS ARE COMPLETELY INTERDEPENDENT FOR HOMEOSTASIS. SUBSEQUENTLY, THE SAME IS CERTAINLY TRUE FOR DISEASE. OUR UNDERSTANDING OF EPIGENETIC MECHANISMS IN CHRONIC KIDNEY DISEASE (CKD) IS STILL LAGGING, AND FURTHER STUDIES ARE NEEDED TO UNDERSTAND THE IMPORTANCE OF, E.G., ABERRANT DNA METHYLATION IN RELATION TO THE UREMIC IMPACT ON THE FUNCTIONAL GENOME, ORGANISMAL METABOLISM AND ASSOCIATED PREMATURE VASCULAR DISEASE. MORE RESEARCH IN THIS FIELD WILL ALSO HELP US UNDERSTAND THE LINKS BETWEEN ALTERED GENE REGULATION OF SPECIFIC GENES BY THE UREMIC ENVIRONMENT VIA EPIGENETIC MECHANISMS, AND INITIATION AND PROGRESSION OF ATHEROSCLEROSIS. THE DYNAMIC NATURE OF EPIGENETIC MECHANISMS PROMPTS THERAPEUTIC INVESTIGATIONS IN CKD, TARGETING THE EPIGENOME WITH EPIGENETIC DRUGS. THE IMPORTANCE OF 1-CARBON METABOLISM FOR EPIGENETIC MODIFICATIONS SUGGESTS THAT SPECIFIC DIETS MAY ALSO PROVE TO PLAY AN IMPORTANT PART AS EFFICIENT REMEDIES IN CKD AND ASSOCIATED ATHEROSCLEROTIC PATHOLOGIES. 2009 5 2154 35 EPIGENETIC MECHANISMS AND KIDNEY DISEASES. IN RECENT YEARS, MOLECULAR RESEARCH HAS BROUGHT TO LIGHT A SERIES OF MECHANISMS INVOLVED IN THE REGULATION OF GENE FUNCTION WITHOUT ALTERING THE DNA SEQUENCE. THESE MECHANISMS ARE DESCRIBED WITH THE TERM "EPIGENETICS" AND INCLUDE MODIFICATIONS IN THE STRUCTURE OF THE HUMAN GENOME, LEADING TO HERITABLE AND POTENTIALLY REVERSIBLE CHANGES IN GENE EXPRESSION. THERE IS NOW INCREASING EVIDENCE SUGGESTING THAT SEVERAL CHARACTERISTIC FEATURES OF CHRONIC KIDNEY DISEASE SUCH AS HYPERHOMOCYSTEINEMIA, SUBCLINICAL INFLAMMATION, INCREASED OXIDATIVE STRESS AND OTHERS MAY AFFECT THE HUMAN EPIGENOME. IN ADDITION, ANIMAL STUDIES HAVE SUGGESTED A POSSIBLE LINK BETWEEN NUTRITION AND ENVIRONMENTAL EXPOSURE DURING THE PERICONCEPTIONAL PERIOD AND EPIGENETIC CHANGES IN THE EXPRESSION OF MAJOR GENES IMPLICATED IN KIDNEY ORGANOGENESIS; THESE CHANGES RESULT IN A DIMINISHED NUMBER OF NEPHRONS IN THE DEVELOPING KIDNEY, WHICH PREDISPOSES TO AN INCREASED RISK FOR HYPERTENSION AND CHRONIC KIDNEY DISEASE IN FUTURE LIFE. THE UNDERSTANDING OF THE ROLE OF EPIGENETIC PHENOMENA IN THE PATHOGENESIS OF CHRONIC KIDNEY DISEASE OPENS NEW AVENUES FOR FUTURE THERAPEUTIC STRATEGIES, THROUGH THE DEVELOPMENT OF PHARMACEUTICAL AGENTS THAT TARGET DIRECTLY WITH THE CHANGES IN THE HUMAN EPIGENOME. SUCH EPIGENETIC DRUGS ARE ALREADY IN CLINICAL USE FOR THE TREATMENT OF CANCER AS WELL AS UNDER INVESTIGATION FOR THE USE IN OTHER DISEASES. THIS REVIEW WILL SUMMARIZE THE EXISTING DATA ON THE LINK BETWEEN EPIGENETIC MECHANISMS AND CHRONIC UREMIC MILIEU, AS WELL AS THE PROMISING RESULTS OF ONGOING RESEARCH IN THE FIELD OF EPIGENETIC DRUGS THAT COULD REPRESENT ADDITIONAL OPTIONS IN OUR THERAPEUTIC ARMAMENTARIUM FOR PATIENTS WITH CHRONIC KIDNEY DISEASE. 2011 6 5376 35 RECENT DEVELOPMENTS IN EPIGENETICS OF ACUTE AND CHRONIC KIDNEY DISEASES. THE GROWING EPIDEMIC OF OBESITY AND DIABETES, THE AGING POPULATION AS WELL AS PREVALENCE OF DRUG ABUSE HAS LED TO SIGNIFICANT INCREASES IN THE RATES OF THE CLOSELY ASSOCIATED ACUTE AND CHRONIC KIDNEY DISEASES, INCLUDING DIABETIC NEPHROPATHY. FURTHERMORE, EVIDENCE SHOWS THAT PARENTAL BEHAVIOR AND DIET CAN AFFECT THE PHENOTYPE OF SUBSEQUENT GENERATIONS VIA EPIGENETIC TRANSMISSION MECHANISMS. THESE DATA SUGGEST A STRONG INFLUENCE OF THE ENVIRONMENT ON DISEASE SUSCEPTIBILITY AND THAT, APART FROM GENETIC SUSCEPTIBILITY, EPIGENETIC MECHANISMS NEED TO BE EVALUATED TO GAIN CRITICAL NEW INFORMATION ABOUT KIDNEY DISEASES. EPIGENETICS IS THE STUDY OF PROCESSES THAT CONTROL GENE EXPRESSION AND PHENOTYPE WITHOUT ALTERATIONS IN THE UNDERLYING DNA SEQUENCE. EPIGENETIC MODIFICATIONS, INCLUDING CYTOSINE DNA METHYLATION AND COVALENT POST-TRANSLATIONAL MODIFICATIONS OF HISTONES IN CHROMATIN, ARE PART OF THE EPIGENOME, THE INTERFACE BETWEEN THE STABLE GENOME AND THE VARIABLE ENVIRONMENT. THIS DYNAMIC EPIGENETIC LAYER RESPONDS TO EXTERNAL ENVIRONMENTAL CUES TO INFLUENCE THE EXPRESSION OF GENES ASSOCIATED WITH DISEASE STATES. THE FIELD OF EPIGENETICS HAS SEEN REMARKABLE GROWTH IN THE PAST FEW YEARS WITH SIGNIFICANT ADVANCES IN BASIC BIOLOGY, CONTRIBUTIONS TO HUMAN DISEASE, AS WELL AS EPIGENOMICS TECHNOLOGIES. FURTHER UNDERSTANDING OF HOW THE RENAL CELL EPIGENOME IS ALTERED BY METABOLIC AND OTHER STIMULI CAN YIELD NOVEL NEW INSIGHTS INTO THE PATHOGENESIS OF KIDNEY DISEASES. IN THIS REVIEW, WE HAVE DISCUSSED THE CURRENT KNOWLEDGE ON THE ROLE OF EPIGENETIC MECHANISMS (PRIMARILY DNAME AND HISTONE MODIFICATIONS) IN ACUTE AND CHRONIC KIDNEY DISEASES, AND THEIR TRANSLATIONAL POTENTIAL TO IDENTIFY MUCH NEEDED NEW THERAPIES. 2015 7 4217 28 METHYL DONOR NUTRIENTS IN CHRONIC KIDNEY DISEASE: IMPACT ON THE EPIGENETIC LANDSCAPE. EPIGENETIC ALTERATIONS, SUCH AS THOSE LINKED TO DNA METHYLATION, MAY POTENTIALLY PROVIDE MOLECULAR EXPLANATIONS FOR COMPLICATIONS ASSOCIATED WITH ALTERED GENE EXPRESSION IN ILLNESSES, SUCH AS CHRONIC KIDNEY DISEASE (CKD). ALTHOUGH BOTH DNA HYPO- AND HYPERMETHYLATION HAVE BEEN OBSERVED IN THE UREMIC MILIEU, THIS REMAINS ONLY A SINGLE ASPECT OF THE EPIGENETIC LANDSCAPE AND, THUS, OF ANY BIOCHEMICAL DYSREGULATION ASSOCIATED WITH CKD. NEVERTHELESS, THE ROLE OF UREMIA-PROMOTING ALTERATIONS ON THE EPIGENETIC LANDSCAPE REGULATING GENE EXPRESSION IS STILL A NOVEL AND SCARCELY STUDIED FIELD. ALTHOUGH FEW STUDIES HAVE ACTUALLY REPORTED ALTERATIONS OF DNA METHYLATION VIA METHYL DONOR NUTRIENT INTAKE, EMERGING EVIDENCE INDICATES THAT NUTRITIONAL MODIFICATION OF THE MICROBIOME CAN AFFECT ONE-CARBON METABOLISM AND THE CAPACITY TO METHYLATE THE GENOME IN CKD. IN THIS REVIEW, WE DISCUSS THE NUTRITIONAL MODIFICATIONS THAT MAY AFFECT ONE-CARBON METABOLISM AND THE POSSIBLE IMPACT OF METHYL DONOR NUTRIENTS ON THE MICROBIOME, CKD, AND ITS PHENOTYPE. 2019 8 1505 26 DNA METHYLATION AND HISTONE MODIFICATION IN HYPERTENSION. SYSTEMIC HYPERTENSION, WHICH EVENTUALLY RESULTS IN HEART FAILURE, RENAL FAILURE OR STROKE, IS A COMMON CHRONIC HUMAN DISORDER THAT PARTICULARLY AFFECTS ELDERS. ALTHOUGH MANY SIGNALING PATHWAYS INVOLVED IN THE DEVELOPMENT OF HYPERTENSION HAVE BEEN REPORTED OVER THE PAST DECADES, WHICH HAS LED TO THE IMPLEMENTATION OF A WIDE VARIETY OF ANTI-HYPERTENSIVE THERAPIES, ONE HALF OF ALL HYPERTENSIVE PATIENTS STILL DO NOT HAVE THEIR BLOOD PRESSURE CONTROLLED. THE FRONTIER IN UNDERSTANDING THE MOLECULAR MECHANISMS UNDERLYING HYPERTENSION HAS NOW ADVANCED TO THE LEVEL OF EPIGENOMICS. PARTICULARLY, INCREASING EVIDENCE IS EMERGING THAT DNA METHYLATION AND HISTONE MODIFICATIONS PLAY AN IMPORTANT ROLE IN GENE REGULATION AND ARE INVOLVED IN ALTERATION OF THE PHENOTYPE AND FUNCTION OF VASCULAR CELLS IN RESPONSE TO ENVIRONMENTAL STRESSES. THIS REVIEW SEEKS TO HIGHLIGHT THE RECENT ADVANCES IN OUR KNOWLEDGE OF THE EPIGENETIC REGULATIONS AND MECHANISMS OF HYPERTENSION, FOCUSING ON THE ROLE OF DNA METHYLATION AND HISTONE MODIFICATION IN THE VASCULAR WALL. A BETTER UNDERSTANDING OF THE EPIGENOMIC REGULATION IN THE HYPERTENSIVE VESSEL MAY LEAD TO THE IDENTIFICATION OF NOVEL TARGET MOLECULES THAT, IN TURN, MAY LEAD TO NOVEL DRUG DISCOVERIES FOR THE TREATMENT OF HYPERTENSION. 2018 9 3826 32 INVESTIGATION OF EPIGENETICS IN KIDNEY CELL BIOLOGY. EPIGENETICS IS THE STUDY OF HERITABLE CHANGES IN DNA OR ITS ASSOCIATED PROTEINS EXCEPT MUTATIONS IN GENE SEQUENCE. EPIGENETIC REGULATION PLAYS FUNDAMENTAL ROLES IN THE PROCESSES OF KIDNEY CELL BIOLOGY THROUGH THE ACTION OF DNA METHYLATION, CHROMATIN MODIFICATIONS VIA EPIGENETIC REGULATORS AND INTERACTION VIA TRANSCRIPTION FACTORS, AND NONCODING RNA SPECIES. KIDNEY DISEASES, INCLUDING ACUTE KIDNEY INJURY, CHRONIC KIDNEY DISEASE, NEPHRITIC AND NEPHROTIC SYNDROMES, PYELONEPHRITIS AND POLYCYSTIC KIDNEY DISEASES ARE DRIVEN BY ABERRANT ACTIVITY IN NUMEROUS SIGNALING PATHWAYS IN EVEN INDIVIDUAL KIDNEY CELL. EPIGENETIC ALTERATIONS, INCLUDING DNA METHYLATION, HISTONE ACETYLATION AND METHYLATION, NONCODING RNAS, AND PROTEIN POSTTRANSLATIONAL MODIFICATIONS, COULD DISRUPT ESSENTIAL PATHWAYS THAT PROTECT THE RENAL CELLS FROM UNCONTROLLED GROWTH, APOPTOSIS AND ESTABLISHMENT OF OTHER RENAL ASSOCIATED SYNDROMES, WHICH HAVE BEEN RECOGNIZED AS ONE OF THE CRITICAL MECHANISMS FOR REGULATING FUNCTIONAL CHANGES THAT DRIVE AND MAINTAIN THE KIDNEY DISEASE PHENOTYPE. IN THIS CHAPTER, WE BRIEFLY SUMMARIZE THE EPIGENETIC MECHANISMS IN KIDNEY CELL BIOLOGY AND EPIGENETIC BASIS OF KIDNEY DEVELOPMENT, AND INTRODUCE EPIGENETIC TECHNIQUES THAT CAN BE USED IN INVESTIGATING THE MOLECULAR MECHANISM OF KIDNEY CELL BIOLOGY AND KIDNEYS DISEASES, PRIMARILY FOCUSING ON THE INTEGRATION OF DNA METHYLATION AND CHROMATIN IMMUNOPRECIPITATION TECHNOLOGIES INTO KIDNEY DISEASE ASSOCIATED STUDIES. FUTURE STUDIES USING THESE EMERGING TECHNOLOGIES WILL ELUCIDATE HOW ALTERATIONS IN THE RENAL CELL EPIGENOME COOPERATE WITH GENETIC ABERRATIONS FOR KIDNEY DISEASE INITIATION AND PROGRESSION. INCORPORATING EPIGENOMIC TESTING INTO THE CLINICAL RESEARCH IS ESSENTIAL TO FUTURE STUDIES WITH EPIGENETICS BIOMARKERS AND PRECISION MEDICINE USING EMERGING EPIGENETIC THERAPIES. 2019 10 462 26 ARE ALTERATIONS IN DNA METHYLATION RELATED TO CKD DEVELOPMENT? THE MODIFICATIONS IN GENOMIC DNA METHYLATION ARE INVOLVED IN THE REGULATION OF NORMAL AND PATHOLOGICAL CELLULAR PROCESSES. THE EPIGENETIC REGULATION STIMULATES BIOLOGICAL PLASTICITY AS AN ADAPTIVE RESPONSE TO VARIATIONS IN ENVIRONMENTAL FACTORS. THE ROLE OF EPIGENETIC CHANGES IS VITAL FOR THE DEVELOPMENT OF SOME DISEASES, INCLUDING ATHEROGENESIS, CANCERS, AND CHRONIC KIDNEY DISEASE (CKD). THE RESULTS OF STUDIES PRESENTED IN THIS REVIEW HAVE SUGGESTED THAT ALTERED DNA METHYLATION CAN MODULATE THE EXPRESSION OF PRO-INFLAMMATORY AND PRO-FIBROTIC GENES, AS WELL THOSE ESSENTIAL FOR KIDNEY DEVELOPMENT AND FUNCTION, THUS STIMULATING RENAL DISEASE PROGRESSION. ABNORMALLY INCREASED HOMOCYSTEINE, HYPOXIA, AND INFLAMMATION HAVE BEEN SUGGESTED TO ALTER EPIGENETIC REGULATION OF GENE EXPRESSION IN CKD. STUDIES OF RENAL SAMPLES HAVE DEMONSTRATED THE RELATIONSHIP BETWEEN VARIATIONS IN DNA METHYLATION AND FIBROSIS AND VARIATIONS IN ESTIMATED GLOMERULAR FILTRATION RATE (EGFR) IN HUMAN CKD. THE UNRAVELLING OF THE GENETIC-EPIGENETIC PROFILE WOULD ENHANCE OUR UNDERSTANDING OF PROCESSES UNDERLYING THE DEVELOPMENT OF CKD. THE UNDERSTANDING OF MULTIFACETED RELATIONSHIP BETWEEN DNA METHYLATION, GENES EXPRESSION, AND DISEASE DEVELOPMENT AND PROGRESSION COULD IMPROVE THE ABILITY TO IDENTIFY INDIVIDUALS AT RISK OF CKD AND ENABLE THE CHOICE OF APPROPRIATE DISEASE MANAGEMENT. 2022 11 1515 29 DNA METHYLATION AND THE POTENTIAL ROLE OF DEMETHYLATING AGENTS IN PREVENTION OF PROGRESSIVE CHRONIC KIDNEY DISEASE. CHRONIC KIDNEY DISEASE (CKD) IS A GLOBAL EPIDEMIC, AND ITS MAJOR RISK FACTORS INCLUDE OBESITY AND TYPE 2 DIABETES. OBESITY NOT ONLY PROMOTES METABOLIC DYSREGULATION AND THE DEVELOPMENT OF DIABETIC KIDNEY DISEASE BUT ALSO MAY INDEPENDENTLY LEAD TO CKD BY A VARIETY OF MECHANISMS, INCLUDING ENDOCRINE AND METABOLIC DYSFUNCTION, INFLAMMATION, OXIDATIVE STRESS, ALTERED RENAL HEMODYNAMICS, AND LIPOTOXICITY. DELETERIOUS RENAL EFFECTS OF OBESITY CAN ALSO BE TRANSMITTED FROM ONE GENERATION TO THE NEXT, AND IT IS INCREASINGLY RECOGNIZED THAT OFFSPRING OF OBESE MOTHERS ARE PREDISPOSED TO CKD. EPIGENETIC MODIFICATIONS ARE CHANGES THAT REGULATE GENE EXPRESSION WITHOUT ALTERING THE DNA SEQUENCE. OF THESE, DNA METHYLATION IS THE MOST STUDIED. EPIGENETIC IMPRINTS, PARTICULARLY DNA METHYLATION, ARE LAID DOWN DURING CRITICAL PERIODS OF FETAL DEVELOPMENT, AND THEY MAY PROVIDE A MECHANISM BY WHICH MATERNAL-FETAL TRANSMISSION OF CHRONIC DISEASE OCCURS. OUR CURRENT REVIEW EXPLORES THE EVIDENCE FOR THE ROLE OF DNA METHYLATION IN THE DEVELOPMENT OF CKD, DIABETIC KIDNEY DISEASE, DIABETES, AND OBESITY. DNA METHYLATION HAS BEEN IMPLICATED IN RENAL FIBROSIS-THE FINAL PATHOPHYSIOLOGIC PATHWAY IN THE DEVELOPMENT OF END-STAGE KIDNEY DISEASE-WHICH SUPPORTS THE NOTION THAT DEMETHYLATING AGENTS MAY PLAY A POTENTIAL THERAPEUTIC ROLE IN PREVENTING DEVELOPMENT AND PROGRESSION OF CKD.-LARKIN, B. P., GLASTRAS, S. J., CHEN, H., POLLOCK, C. A., SAAD, S. DNA METHYLATION AND THE POTENTIAL ROLE OF DEMETHYLATING AGENTS IN PREVENTION OF PROGRESSIVE CHRONIC KIDNEY DISEASE. 2018 12 607 29 BEYOND GENETICS: EPIGENETIC CODE IN CHRONIC KIDNEY DISEASE. EPIGENETICS REFERS TO A HERITABLE CHANGE IN THE PATTERN OF GENE EXPRESSION THAT IS MEDIATED BY A MECHANISM SPECIFICALLY NOT DUE TO ALTERATIONS IN THE PRIMARY NUCLEOTIDE SEQUENCE. WELL-KNOWN EPIGENETIC MECHANISMS ENCOMPASS DNA METHYLATION, CHROMATIN REMODELING (HISTONE MODIFICATIONS), AND RNA INTERFERENCE. FUNCTIONALLY, EPIGENETICS PROVIDES AN EXTRA LAYER OF TRANSCRIPTIONAL CONTROL AND PLAYS A CRUCIAL ROLE IN NORMAL PHYSIOLOGICAL DEVELOPMENT, AS WELL AS IN PATHOLOGICAL CONDITIONS. ABERRANT DNA METHYLATION IS IMPLICATED IN IMMUNE DYSFUNCTION, INFLAMMATION, AND INSULIN RESISTANCE. EPIGENETIC CHANGES MAY BE RESPONSIBLE FOR 'METABOLIC MEMORY' AND DEVELOPMENT OF MICRO- AND MACROVASCULAR COMPLICATIONS OF DIABETES. MICRORNAS ARE CRITICAL IN THE MAINTENANCE OF GLOMERULAR HOMEOSTASIS AND HENCE RNA INTERFERENCE MAY BE IMPORTANT IN THE PROGRESSION OF RENAL DISEASE. RECENT STUDIES HAVE SHOWN THAT EPIGENETIC MODIFICATIONS ORCHESTRATE THE EPITHELIAL-MESENCHYMAL TRANSITION AND EVENTUALLY FIBROSIS OF THE RENAL TISSUE. OXIDATIVE STRESS, INFLAMMATION, HYPERHOMOCYSTEINEMIA, AND UREMIC TOXINS COULD INDUCE EPIMUTATIONS IN CHRONIC KIDNEY DISEASE. EPIGENETIC ALTERATIONS ARE ASSOCIATED WITH INFLAMMATION AND CARDIOVASCULAR DISEASE IN PATIENTS WITH CHRONIC KIDNEY DISEASE. REVERSIBLE NATURE OF THE EPIGENETIC CHANGES GIVES A UNIQUE OPPORTUNITY TO HALT OR EVEN REVERSE THE DISEASE PROCESS THROUGH TARGETED THERAPEUTIC STRATEGIES. 2011 13 4250 30 METHYLATION-DEMETHYLATION DYNAMICS: IMPLICATIONS OF CHANGES IN ACUTE KIDNEY INJURY. OVER THE YEARS, THE EPIGENETIC LANDSCAPE HAS GROWN INCREASINGLY COMPLEX. UNTIL RECENTLY, METHYLATION OF DNA AND HISTONES WAS CONSIDERED ONE OF THE MOST IMPORTANT EPIGENETIC MODIFICATIONS. HOWEVER, WITH THE DISCOVERY OF ENZYMES INVOLVED IN THE DEMETHYLATION PROCESS, SEVERAL EXCITING PROSPECTS HAVE EMERGED THAT FOCUS ON THE DYNAMIC REGULATION OF METHYLATION AND ITS CRUCIAL ROLE IN DEVELOPMENT AND DISEASE. AN INTERPLAY OF THE METHYLATION-DEMETHYLATION MACHINERY CONTROLS THE PROCESS OF GENE EXPRESSION. SINCE ACUTE KIDNEY INJURY (AKI), A MAJOR RISK FACTOR FOR CHRONIC KIDNEY DISEASE AND DEATH, IS CHARACTERISED BY ABERRANT EXPRESSION OF GENES, UNDERSTANDING THE DYNAMICS OF METHYLATION AND DEMETHYLATION WILL PROVIDE NEW INSIGHTS INTO THE INTRICACIES OF THE DISEASE. RESEARCH ON EPIGENETICS IN AKI HAS ONLY MADE ITS MARK IN THE RECENT YEARS BUT HAS PROVIDED COMPELLING EVIDENCE THAT IMPLICATES THE INVOLVEMENT OF METHYLATION AND DEMETHYLATION CHANGES IN ITS PATHOPHYSIOLOGY. IN THIS REVIEW, WE EXPLORE THE ROLE OF METHYLATION AND DEMETHYLATION MACHINERY IN CELLULAR EPIGENETIC CONTROL AND FURTHER DISCUSS THE CONTRIBUTION OF METHYLOMIC CHANGES AND HISTONE MODIFICATIONS TO THE PATHOPHYSIOLOGY OF AKI. 2018 14 2062 29 EPIGENETIC CONTROL OF HYPERTENSION BY DNA METHYLATION: A REAL POSSIBILITY. HYPERTENSION IS A COMMON CHRONIC DISEASE THAT PARTICULARLY AFFECTS THE ELDERLY AND CAN TRIGGER SEVERAL CARDIOVASCULAR CONDITIONS. ALTHOUGH THE TREATMENT OF HYPERTENSION HAS EVOLVED IN RECENT DECADES, MANY HYPERTENSIVE PATIENTS STILL DO NOT HAVE PROPERLY CONTROLLED BLOOD PRESSURE. ACCUMULATING EVIDENCE SUPPORTS THE HYPOTHESIS THAT DNA METHYLATION PLAYS AN IMPORTANT ROLE IN REGULATING GENE EXPRESSION, ALTERING THE PHENOTYPE AND FUNCTION OF THE CARDIOVASCULAR SYSTEM. THE PRESENT REVIEW HIGHLIGHTS RECENT ADVANCES IN RESEARCH ON DNA METHYLATION IN THE DEVELOPMENT OF HYPERTENSION. SEVERAL PRECLINICAL AND CLINICAL EVIDENCE SHOW THAT METHYLATION OF DIFFERENT TARGETS APPEARS TO BE INVOLVED IN HYPERTENSION. STUDIES OF THE INVOLVEMENT OF DNA METHYLATION HAVE GREATLY IMPROVED OUR UNDERSTANDING OF HYPERTENSION, BUT ITS USE AS A VALID THERAPEUTIC TARGET IS STILL UNKNOWN. FURTHER STUDIES COULD HELP TO BRING TO LIGHT THE TRUTH ABOUT GENE THERAPY IN HYPERTENSION. 2021 15 2163 28 EPIGENETIC MECHANISMS IN DIABETIC VASCULAR COMPLICATIONS. THERE HAS BEEN A RAPID INCREASE IN THE INCIDENCE OF DIABETES AS WELL THE ASSOCIATED VASCULAR COMPLICATIONS. BOTH GENETIC AND ENVIRONMENTAL FACTORS HAVE BEEN IMPLICATED IN THESE PATHOLOGIES. INCREASING EVIDENCE SUGGESTS THAT EPIGENETIC FACTORS PLAY A KEY ROLE IN THE COMPLEX INTERPLAY BETWEEN GENES AND THE ENVIRONMENT. ACTIONS OF MAJOR PATHOLOGICAL MEDIATORS OF DIABETES AND ITS COMPLICATIONS SUCH AS HYPERGLYCAEMIA, OXIDANT STRESS, AND INFLAMMATORY FACTORS CAN LEAD TO DYSREGULATED EPIGENETIC MECHANISMS THAT AFFECT CHROMATIN STRUCTURE AND GENE EXPRESSION. FURTHERMORE, PERSISTENCE OF THIS ALTERED STATE OF THE EPIGENOME MAY BE THE UNDERLYING MECHANISM CONTRIBUTING TO A 'METABOLIC MEMORY' THAT RESULTS IN CHRONIC INFLAMMATION AND VASCULAR DYSFUNCTION IN DIABETES EVEN AFTER ACHIEVING GLYCAEMIC CONTROL. FURTHER EXAMINATION OF EPIGENETIC MECHANISMS BY ALSO TAKING ADVANTAGE OF RECENTLY DEVELOPED NEXT-GENERATION SEQUENCING TECHNOLOGIES CAN PROVIDE NOVEL INSIGHTS INTO THE PATHOLOGY OF DIABETES AND ITS COMPLICATIONS AND LEAD TO THE DISCOVERY OF MUCH NEEDED NEW DRUG TARGETS FOR THESE DISEASES. IN THIS REVIEW, WE HIGHLIGHT THE ROLE OF EPIGENETICS IN DIABETES AND ITS VASCULAR COMPLICATIONS, AND RECENT TECHNOLOGICAL ADVANCES THAT HAVE SIGNIFICANTLY ACCELERATED THE FIELD. 2011 16 2609 24 EPIGENETICS: A POTENTIAL KEY MECHANISM INVOLVED IN THE PATHOGENESIS OF CARDIORENAL SYNDROMES. EPIGENETICS IS DEFINED AS THE HERITABLE CHANGES IN GENE EXPRESSION PATTERNS WHICH ARE NOT DIRECTLY ENCODED BY MODIFICATIONS IN THE NUCLEOTIDE DNA SEQUENCE OF THE GENOME, INCLUDING HIGHER ORDER CHROMATIN ORGANIZATION, DNA METHYLATION, CYTOSINE MODIFICATIONS, COVALENT HISTONE TAIL MODIFICATIONS, AND SHORT NON-CODING RNA MOLECULES. RECENTLY, MUCH ATTENTION HAS BEEN PAID TO THE ROLE AND THE FUNCTION OF EPIGENETICS AND EPIMUTATIONS IN THE CELLULAR AND SUBCELLULAR PATHWAYS AND IN THE REGULATION OF GENES IN THE SETTING OF BOTH KIDNEY AND CARDIOVASCULAR DISEASE. INDEED, DEREGULATION OF HISTONE ALTERATIONS HAS BEEN HIGHLIGHTED IN A LARGE SPECTRUM OF RENAL AND CARDIAC DISEASE, INCLUDING CHRONIC AND ACUTE RENAL INJURY, RENAL AND CARDIAC FIBROSIS, CARDIAC HYPERTROPHY AND FAILURE, KIDNEY CONGENITAL ANOMALIES, RENAL HYPOXIA, AND DIABETIC RENAL COMPLICATIONS. NEVERTHELESS, THE ROLE OF EPIGENETICS IN THE PATHOGENESIS AND PATHOPHYSIOLOGY OF CARDIORENAL SYNDROMES IS CURRENTLY UNDEREXPLORED. GIVEN THE SIGNIFICANT CLINICAL RELEVANCE OF HEART-KIDNEY CROSSTALK, EFFORTS IN THE RESEARCH FOR NEW ACTION MECHANISMS CONCURRENTLY OPERATING IN BOTH PATHOLOGIES ARE THUS OF MAXIMUM INTEREST. THIS REVIEW FOCUSES ON EPIGENETIC MECHANISMS INVOLVED IN HEART AND KIDNEY DISEASE, AND THEIR POSSIBLE ROLE IN THE SETTING OF CARDIORENAL SYNDROMES. 2018 17 2542 25 EPIGENETICS IN KIDNEY DISEASES. EPIGENETICS EXAMINES HERITABLE CHANGES IN DNA AND ITS ASSOCIATED PROTEINS EXCEPT MUTATIONS IN GENE SEQUENCE. EPIGENETIC REGULATION PLAYS FUNDAMENTAL ROLES IN KIDNEY CELL BIOLOGY THROUGH THE ACTION OF DNA METHYLATION, CHROMATIN MODIFICATION VIA EPIGENETIC REGULATORS AND NON-CODING RNA SPECIES. KIDNEY DISEASES, INCLUDING ACUTE KIDNEY INJURY, CHRONIC KIDNEY DISEASE, DIABETIC KIDNEY DISEASE AND RENAL FIBROSIS ARE MULTISTEP PROCESSES ASSOCIATED WITH NUMEROUS MOLECULAR ALTERATIONS EVEN IN INDIVIDUAL KIDNEY CELLS. EPIGENETIC ALTERATIONS, INCLUDING ANOMALOUS DNA METHYLATION, ABERRANT HISTONE ALTERATIONS AND CHANGES OF MICRORNA EXPRESSION ALL CONTRIBUTE TO KIDNEY PATHOGENESIS. THESE CHANGES ALTER THE GENOME-WIDE EPIGENETIC SIGNATURES AND DISRUPT ESSENTIAL PATHWAYS THAT PROTECT RENAL CELLS FROM UNCONTROLLED GROWTH, APOPTOSIS AND DEVELOPMENT OF OTHER RENAL ASSOCIATED SYNDROMES. MOLECULAR CHANGES IMPACT CELLULAR FUNCTION WITHIN KIDNEY CELLS AND ITS MICROENVIRONMENT TO DRIVE AND MAINTAIN DISEASE PHENOTYPE. IN THIS CHAPTER, WE BRIEFLY SUMMARIZE EPIGENETIC MECHANISMS IN FOUR KIDNEY DISEASES INCLUDING ACUTE KIDNEY INJURY, CHRONIC KIDNEY DISEASE, DIABETIC KIDNEY DISEASE AND RENAL FIBROSIS. WE PRIMARILY FOCUS ON CURRENT KNOWLEDGE ABOUT THE GENOME-WIDE PROFILING OF DNA METHYLATION AND HISTONE MODIFICATION, AND EPIGENETIC REGULATION ON SPECIFIC GENE(S) IN THE PATHOPHYSIOLOGY OF THESE DISEASES AND THE TRANSLATIONAL POTENTIAL OF IDENTIFYING NEW BIOMARKERS AND TREATMENT FOR PREVENTION AND THERAPY. INCORPORATING EPIGENOMIC TESTING INTO CLINICAL RESEARCH IS ESSENTIAL TO ELUCIDATE NOVEL EPIGENETIC BIOMARKERS AND DEVELOP PRECISION MEDICINE USING EMERGING THERAPIES. 2021 18 6809 25 [EPIGENETICS IN INFLAMMATORY SYSTEMIC DISEASES]. IN ADDITION TO ANALYSIS OF THE GENETIC CODE, IN RECENT YEARS MORE AND MORE STUDIES HAVE CONCENTRATED ON CHANGES IN THE EPIGENETIC CODE. EPIGENETIC MECHANISMS DETERMINE WHICH GENES IN A CELL ARE TRANSCRIBED AND THUS FORM THE PHENOTYPE OF A CELL. THE EPIGENETIC CODE CAN BE CHANGED BY ENVIRONMENTAL INFLUENCES, WHICH ALLOWS CELLS TO ADAPT TO LONGSTANDING CHANGES IN THE ENVIRONMENT. THEREFORE, IT IS FEASIBLE TO ASSUME THAT EPIGENETIC CHANGES ARE THE MOLECULAR BASIS FOR LONG-TERM EFFECTS OF THE ENVIRONMENT ON DISEASE DEVELOPMENT. IN PARTICULAR IN TUMORS AND CHRONIC INFLAMMATORY DISEASES EPIGENETIC CHANGES WERE FOUND TO CORRELATE WITH DISEASE SEVERITY AND PROGRESSION. KNOWLEDGE ABOUT THESE EPIGENETIC CHANGES MIGHT HELP THAT EPIGENETIC MODIFICATIONS CAN BE USED IN THE FUTURE AS BIOMARKERS, PROGNOSTIC FACTORS AND THERAPEUTIC TARGETS. 2014 19 931 25 CHRONIC KIDNEY DISEASE IN CHILDREN AND THE ROLE OF EPIGENETICS: FUTURE THERAPEUTIC TRAJECTORIES. GLOBAL DIFFERENCES IN THE OBSERVED CAUSES OF CHRONIC KIDNEY DISEASE (CKD) IN CHILDREN ARE WELL DOCUMENTED AND ARE ATTRIBUTED TO DISSIMILARITIES IN CLIME, RACE, HEREDITARY, AND ANCESTRY. THUS, FAMILIAL CLUSTERING AND DISPARITIES IN CKD PREVALENCE RATES ACROSS ETHNIC AND RACIAL GROUPS INDICATE THAT THE PROGRESSION OF RENAL DISEASE HAS A STRONG GENETIC COMPONENT. MAMMALIAN STUDIES HAVE DEMONSTRATED A FEASIBLE NEXUS BETWEEN NUTRITION AND NON-GENETIC EXPOSURE (AROUND THE TIME OF CONCEPTION AND IN EPIGENETIC CHANGES) IN THE EXPRESSION OF MAJOR GENES IDENTIFIED IN RENAL ORGANOGENESIS. THE MAJOR CONSEQUENCE IS A REDUCTION IN THE NUMBER OF NEPHRONS, WITH SUBSEQUENT PREDISPOSITION TO HYPERTENSION AND CKD. IDENTIFYING THESE EPIGENETIC CHANGES IS CRUCIAL (DUE TO THEIR POTENTIALLY REVERSIBLE NATURE), AS THEY MAY SERVE AS FUTURE THERAPEUTIC TARGETS TO PREVENT KIDNEY FIBROSIS AND CKD. DESPITE PROGRESS IN THE FIELD OF EPIGENETICS IN ONCOLOGY, RESEARCH IN OTHER SUBSPECIALTIES OF MEDICINE IS LARGELY EXPERIMENTAL WITH FEW EXISTING STUDIES REGARDING THE CLINICAL IMPLICATION OF EPIGENETICS IN RENAL DISEASE. THERAPEUTIC TRAJECTORIES FOR CKD IN CHILDREN BASED ON THE INFLUENCE OF EPIGENETICS MAY EVENTUALLY REVOLUTIONIZE THE MANAGEMENT OF THIS DISEASE. THE AIM OF THE CURRENT NARRATIVE REVIEW IS TO APPRAISE THE ROLE OF EPIGENETICS IN CKD, AND HIGHLIGHT THE POTENTIAL FUTURE THERAPEUTIC PATHWAYS. 2016 20 6199 32 THE IMPORTANCE OF EPIGENETICS IN THE DEVELOPMENT OF CHRONIC OBSTRUCTIVE PULMONARY DISEASE. IT IS GENERALLY ACCEPTED THAT GENETIC PREDISPOSITION PLAYS A ROLE IN COPD DEVELOPMENT IN SUSCEPTIBLE INDIVIDUALS. THEREFORE, MANY CANDIDATE GENES THAT COULD BE LINKED TO THE DEVELOPMENT OF DISEASE HAVE BEEN EXAMINED IN COPD. HOWEVER, INCONSISTENT RESULTS IN DIFFERENT STUDY POPULATIONS OFTEN LIMIT THIS APPROACH, SUGGESTING THAT NOT ONLY GENETICS, BUT ALSO OTHER FACTORS, MAY BE CONTRIBUTED TO THE SUSCEPTIBILITY TO COPD. EPIGENETIC MECHANISMS CAN AFFECT THE TRANSCRIPTIONAL ACTIVITY OF SPECIFIC GENES, AT DIFFERENT POINTS IN TIME, AND IN DIFFERENT ORGANS. MOREOVER, THESE MECHANISMS CAN HAVE AN EFFECT ON PEOPLE'S HEALTH. RECENTLY, THERE IS EMERGING EVIDENCE SUPPORTING A ROLE OF EPIGENETICS FOR THE REGULATION OF INFLAMMATORY GENES IN DISEASES SUCH AS ASTHMA AND COPD. MOREOVER, RECENT STUDIES SUGGEST THAT THE CURRENTLY USED TREATMENTS INCLUDING CORTICOSTEROIDS MAY WORK THROUGH EPIGENETIC MECHANISMS. EPIGENETIC REGULATION CAN BE REPROGRAMMED, POTENTIALLY AFFECTING THE RISK, AETIOLOGY AND TREATMENT OF VARIOUS DISEASE STATES. THE EPIGENETICALLY INFLUENCED PHENOTYPE COULD BE REVERSED WITH DEMETHYLATING OR DEACETYLATING AGENTS, CONSISTENT WITH EPIGENETIC PLASTICITY. THE POSTNATAL REVERSIBILITY OF THESE METHYLATION OR ACETYLATION EVENTS MAY THEREFORE PROVIDE GOOD OPPORTUNITIES FOR INTERVENTION. THE RECOGNITION OF THE ROLE OF GENETIC AND EPIGENETIC MECHANISMS IN THE DEVELOPMENT OF COPD MAY IDENTIFY NOVEL TARGETS THAT HATCH NEW THERAPIES FOR PATIENTS WITH COPD. 2011