1 5884 83 SYSTEMIC INFLAMMATION AND BIOLOGICAL AGING IN THE HEALTH AND RETIREMENT STUDY. CHRONIC, LOW-LEVEL SYSTEMIC INFLAMMATION ASSOCIATED WITH AGING, OR INFLAMMAGING, IS A RISK FACTOR FOR SEVERAL CHRONIC DISEASES AND MORTALITY. USING DATA FROM THE HEALTH AND RETIREMENT STUDY, WE GENERATED A CONTINUOUS LATENT VARIABLE FOR SYSTEMIC INFLAMMATION FROM SEVEN MEASURED INDICATORS OF INFLAMMATION AND EXAMINED ASSOCIATIONS WITH ANOTHER BIOMARKER OF BIOLOGICAL AGING, DNA METHYLATION AGE ACCELERATION MEASURED BY EPIGENETIC CLOCKS, AND 4-YEAR MORTALITY (N = 3,113). WE FOUND THAT GREATER SYSTEMIC INFLAMMATION WAS POSITIVELY ASSOCIATED WITH DNA METHYLATION AGE ACCELERATION FOR 10 OF THE 13 EPIGENETIC CLOCKS, AFTER ADJUSTMENT FOR SOCIODEMOGRAPHICS AND CHRONIC DISEASE RISK FACTORS. THE LATENT VARIABLE FOR SYSTEMIC INFLAMMATION WAS ASSOCIATED WITH 4-YEAR MORTALITY INDEPENDENT OF DNA METHYLATION AGE ACCELERATION AND WAS A BETTER PREDICTOR OF 4-YEAR MORTALITY THAN ANY OF THE EPIGENETIC CLOCKS EXAMINED, AS WELL AS MORTALITY RISK FACTORS, INCLUDING OBESITY AND MULTIMORBIDITY. INFLAMMAGING AND DNA METHYLATION AGE ACCELERATION MAY REPRESENT DIFFERENT BIOLOGICAL PROCESSES CONTRIBUTING TO MORTALITY RISK. LEVERAGING MULTIPLE MEASURED INFLAMMATION MARKERS TO CAPTURE INFLAMMAGING IS IMPORTANT FOR BIOLOGY OF AGING RESEARCH. 2023 2 1516 41 DNA METHYLATION AS A BIOMARKER OF AGING IN EPIDEMIOLOGIC STUDIES. CANCER IS LARGELY AN AGING DISEASE. ACCELERATED BIOLOGICAL AGING MAY BE THE STRONGEST PREDICTOR OF CANCER AND OTHER CHRONIC DISEASE RISKS. IN THE ABSENCE OF RELIABLE AND QUANTIFIABLE BIOMARKERS OF AGING TO DATE, IT HAS LONG BEEN OBSERVED THAT TUMORIGENESIS SHARES DISTINCT EPIGENETIC ALTERATIONS WITH THE AGING PROCESS. RECENTLY, EPIGENETIC AGE ESTIMATES HAVE BEEN DEVELOPED BASED ON THE AVAILABILITY OF GENOME-WIDE DNA METHYLATION PROFILES, BY APPLYING IN THE PREDICTION FORMULA THE METHYLATION LEVEL AT A SUBSET OF HIGHLY PREDICTIVE METHYLATION SITES, CALLED EPIGENETIC CLOCK. THESE DNA METHYLATION AGE ESTIMATES HAVE PRODUCED REMARKABLY STRONG CORRELATIONS WITH CHRONOLOGICAL AGE, WITH A SMALL DEVIATION AND HIGH REPRODUCIBILITY ACROSS DIFFERENT AGE GROUPS AND STUDY POPULATIONS. MOREOVER, AN INCREASING NUMBER OF EPIDEMIOLOGIC STUDIES HAVE DEMONSTRATED AN INDEPENDENT ASSOCIATION OF DNA METHYLATION AGE OR THE EXTENT OF ACCELERATION WITH MORTALITY AND VARIOUS AGING-RELATED CONDITIONS, EVEN AFTER ACCOUNTING FOR DIFFERENCES IN CHRONOLOGICAL AGE AND OTHER RISK FACTORS. ALTHOUGH EPIGENETIC PROFILES ARE KNOWN TO BE TISSUE-SPECIFIC, BOTH TARGET TISSUE- AND MULTIPLE TISSUE-DERIVED ESTIMATES APPEAR TO PERFORM WELL TO CAPTURE WHAT IS THOUGHT TO BE THE CUMULATIVE EPIGENETIC DRIFT THAT REPRESENTS A MULTIFACTORIAL DEGENERATIVE PROCESS ACROSS TISSUES AND ORGANISMS. FURTHER REFINEMENT OF THE EPIGENETIC AGE ESTIMATES IS ANTICIPATED OVER TIME TO ACCOMMODATE A BETTER TECHNOLOGICAL COVERAGE OF THE METHYLOME AND A BETTER UNDERSTANDING OF THE BIOLOGY UNDERLYING PREDICTIVE REGIONS. EPIDEMIOLOGIC PRINCIPLES WILL REMAIN CRITICAL FOR THE EVALUATION OF RESEARCH FINDINGS INVOLVING, FOR EXAMPLE, DIFFERENT STUDY POPULATIONS, DESIGN, FOLLOW-UP TIME, AND QUALITY OF COVARIATE DATA. OVERALL, THE EPIGENETIC AGE ESTIMATES ARE AN EXCITING DEVELOPMENT WITH USEFUL IMPLICATIONS FOR BIOMEDICAL RESEARCH OF HEALTHY AGING AND DISEASE PREVENTION AND CONTROL. 2018 3 5847 29 SUBCLINICAL ATHEROSCLEROSIS AND ACCELERATED EPIGENETIC AGE MEDIATED BY INFLAMMATION: A MULTI-OMICS STUDY. AIMS: EPIGENETIC AGE IS EMERGING AS A PERSONALIZED AND ACCURATE PREDICTOR OF BIOLOGICAL AGE. THE AIM OF THIS ARTICLE IS TO ASSESS THE ASSOCIATION OF SUBCLINICAL ATHEROSCLEROSIS WITH ACCELERATED EPIGENETIC AGE AND TO INVESTIGATE THE UNDERLYING MECHANISMS MEDIATING THIS ASSOCIATION. METHODS AND RESULTS: WHOLE BLOOD METHYLOMICS, TRANSCRIPTOMICS, AND PLASMA PROTEOMICS WERE OBTAINED FOR 391 PARTICIPANTS OF THE PROGRESSION OF EARLY SUBCLINICAL ATHEROSCLEROSIS STUDY. EPIGENETIC AGE WAS CALCULATED FROM METHYLOMICS DATA FOR EACH PARTICIPANT. ITS DIVERGENCE FROM CHRONOLOGICAL AGE IS TERMED EPIGENETIC AGE ACCELERATION. SUBCLINICAL ATHEROSCLEROSIS BURDEN WAS ESTIMATED BY MULTI-TERRITORY 2D/3D VASCULAR ULTRASOUND AND BY CORONARY ARTERY CALCIFICATION. IN HEALTHY INDIVIDUALS, THE PRESENCE, EXTENSION, AND PROGRESSION OF SUBCLINICAL ATHEROSCLEROSIS WERE ASSOCIATED WITH A SIGNIFICANT ACCELERATION OF THE GRIM EPIGENETIC AGE, A PREDICTOR OF HEALTH AND LIFESPAN, REGARDLESS OF TRADITIONAL CARDIOVASCULAR RISK FACTORS. INDIVIDUALS WITH AN ACCELERATED GRIM EPIGENETIC AGE WERE CHARACTERIZED BY AN INCREASED SYSTEMIC INFLAMMATION AND ASSOCIATED WITH A SCORE OF LOW-GRADE, CHRONIC INFLAMMATION. MEDIATION ANALYSIS USING TRANSCRIPTOMICS AND PROTEOMICS DATA REVEALED KEY PRO-INFLAMMATORY PATHWAYS (IL6, INFLAMMASOME, AND IL10) AND GENES (IL1B, OSM, TLR5, AND CD14) MEDIATING THE ASSOCIATION BETWEEN SUBCLINICAL ATHEROSCLEROSIS AND EPIGENETIC AGE ACCELERATION. CONCLUSION: THE PRESENCE, EXTENSION, AND PROGRESSION OF SUBCLINICAL ATHEROSCLEROSIS IN MIDDLE-AGED ASYMPTOMATIC INDIVIDUALS ARE ASSOCIATED WITH AN ACCELERATION IN THE GRIM EPIGENETIC AGE. MEDIATION ANALYSIS USING TRANSCRIPTOMICS AND PROTEOMICS DATA SUGGESTS A KEY ROLE OF SYSTEMIC INFLAMMATION IN THIS ASSOCIATION, REINFORCING THE RELEVANCE OF INTERVENTIONS ON INFLAMMATION TO PREVENT CARDIOVASCULAR DISEASE. 2023 4 2047 25 EPIGENETIC CLOCKS MAY COME OUT OF RHYTHM-IMPLICATIONS FOR THE ESTIMATION OF CHRONOLOGICAL AGE IN FORENSIC CASEWORK. THERE IS A GROWING PERCEPTION THAT DNA METHYLATION MAY BE INFLUENCED BY EXOGENOUS AND ENDOGENOUS PARAMETERS. KNOWLEDGE OF THESE FACTORS IS OF GREAT RELEVANCE FOR THE INTERPRETATION OF DNA-METHYLATION DATA FOR THE ESTIMATION OF CHRONOLOGICAL AGE IN FORENSIC CASEWORK. WE PERFORMED A LITERATURE REVIEW TO IDENTIFY PARAMETERS, WHICH MIGHT BE OF RELEVANCE FOR THE PREDICTION OF CHRONOLOGICAL AGE BASED ON DNA METHYLATION. THE QUALITY OF AGE PREDICTIONS MIGHT PARTICULARLY BE INFLUENCED BY LIFETIME ADVERSITIES (CHRONIC STRESS, TRAUMA/POST-TRAUMATIC STRESS DISORDER (PTSD), VIOLENCE, LOW SOCIOECONOMIC STATUS/EDUCATION), CANCER, OBESITY AND RELATED DISEASES, INFECTIOUS DISEASES (ESPECIALLY HIV AND CYTOMEGALOVIRUS (CMV) INFECTIONS), SEX, ETHNICITY AND EXPOSURE TO TOXINS (ALCOHOL, SMOKING, AIR POLLUTION, PESTICIDES). SUCH FACTORS MAY ALTER THE DNA METHYLATION PATTERN AND MAY EXPLAIN THE PARTLY HIGH DEVIATIONS BETWEEN EPIGENETIC AGE AND CHRONOLOGICAL AGE IN SINGLE CASES (DESPITE OF LOW MEAN ABSOLUTE DEVIATIONS) THAT CAN ALSO BE OBSERVED WITH "EPIGENETIC CLOCKS" COMPRISING A HIGH NUMBER OF CPG SITES. SO FAR, ONLY FEW PUBLICATIONS DEALING WITH FORENSIC AGE ESTIMATION ADDRESS THESE CONFOUNDING FACTORS. FUTURE RESEARCH SHOULD FOCUS ON THE IDENTIFICATION OF FURTHER RELEVANT CONFOUNDING FACTORS AND THE DEVELOPMENT OF MODELS THAT ARE "ROBUST" AGAINST THE INFLUENCE OF SUCH BIOLOGICAL FACTORS BY SYSTEMATIC INVESTIGATIONS UNDER TARGETED INCLUSION OF DIVERSE AND DEFINED COHORTS. 2020 5 3555 31 IMPACT OF AGE, ANTIRETROVIRAL THERAPY, AND CANCER ON EPIGENETIC AGING IN PEOPLE LIVING WITH HIV. BACKGROUND: PREMATURE AGING HAS BEEN IDENTIFIED AS A GLOBAL RISK FACTOR FOR CANCER. CAUSES OF PREMATURE AGING ARE MULTIFACTORIAL, INCLUDING INFLAMMATION, INFECTION, CHRONIC STRESS, AND LIFESTYLE FACTORS. METHOD: WE EVALUATED WHETHER PREMATURE AGING IN PEOPLE LIVING WITH HIV (PLWH) WAS ASSOCIATED WITH ANTIRETROVIRAL THERAPY (ART) OR THE DIAGNOSIS OF CANCER. WE USED WELL-ESTABLISHED DNA METHYLATION PATTERNS TO ASSESS PREMATURE AGING, USING HORVATH ET AL., IN INDIVIDUALS WITH HIV LOCATED IN CLEVELAND, OHIO AND COMPARED THESE TO STANDARDIZED DATASETS OF US HISTORICAL BLOOD SAMPLES. SOME OF THE PLWH DEVELOPED CANCER OVER TIME. RESULTS: WE FOUND THAT DNA METHYLATION ANALYSIS IDENTIFIED ACCELERATED AGING IN PLWH WHEREAS ART THERAPY MITIGATED THE ADVANCEMENT OF DNA METHYLATION AGE. A VARIETY OF CANCERS WERE OBSERVED IN THIS POPULATION, BUT A CANCER DIAGNOSIS WAS NOT SIGNIFICANTLY ASSOCIATED WITH MORE ADVANCED DNA METHYLATION AGE. CONCLUSION: WE FIND THAT THE AGE ACCELERATION DETECTED IN PLWH IS MITIGATED BY ART THERAPY AND IS NOT FURTHER ACCELERATED BY A DIAGNOSIS OF CANCER. 2023 6 6027 23 THE BLOOD DNA METHYLATION CLOCK GRIMAGE IS A ROBUST SURROGATE FOR AIRWAY EPITHELIA AGING. ONE KEY FEATURE OF CHRONIC OBSTRUCTIVE PULMONARY DISEASE (COPD) IS THAT ITS PREVALENCE INCREASES EXPONENTIALLY WITH AGE. DNA METHYLATION CLOCKS HAVE BECOME POWERFUL BIOMARKERS TO DETECT ACCELERATED AGING IN A VARIETY OF DISEASES AND CAN HELP PROGNOSE OUTCOMES IN SEVERE COPD. THIS STUDY INVESTIGATED WHICH DNA METHYLATION CLOCK COULD BEST REFLECT AIRWAY EPIGENETIC AGE WHEN USED IN MORE ACCESSIBLE BLOOD SAMPLES. OUR ANALYSES SHOWED THAT OUT OF SIX DNA METHYLATION CLOCKS INVESTIGATED, DNAMGRIMAGE DEMONSTRATED THE STRONGEST CORRELATION AND THE SMALLEST DIFFERENCE BETWEEN THE AIRWAY EPITHELIUM AND BLOOD. OUR FINDINGS SUGGESTS THAT BLOOD DNAMGRIMAGE ACCURATELY REFLECTS AIRWAY EPIGENETIC AGE OF INDIVIDUALS AND THAT ITS ELEVATION IS HIGHLY ASSOCIATED WITH COPD. 2022 7 5395 39 REDUCED EPIGENETIC AGE IN OLDER ADULTS WITH HIGH SENSE OF PURPOSE IN LIFE. PSYCHOSOCIAL RISK FACTORS HAVE BEEN LINKED WITH ACCELERATED EPIGENETIC AGING, BUT LITTLE IS KNOWN ABOUT WHETHER PSYCHOSOCIAL RESILIENCE FACTORS (EG, SENSE OF PURPOSE IN LIFE) MIGHT REDUCE EPIGENETIC AGE ACCELERATION. IN THIS STUDY, WE TESTED IF OLDER ADULTS WHO EXPERIENCE HIGH LEVELS OF PURPOSE MIGHT SHOW REDUCED EPIGENETIC AGE ACCELERATION. WE EVALUATED THE RELATIONSHIP BETWEEN PURPOSE AND EPIGENETIC AGE ACCELERATION AS MEASURED BY 13 DNA METHYLATION (DNAM) "EPIGENETIC CLOCKS" ASSESSED IN 1 572 OLDER ADULTS FROM THE HEALTH AND RETIREMENT STUDY (MEAN AGE 70 YEARS). WE QUANTIFIED THE TOTAL ASSOCIATION BETWEEN PURPOSE AND DNAM AGE ACCELERATION AS WELL AS THE EXTENT TO WHICH THAT TOTAL ASSOCIATION MIGHT BE ATTRIBUTABLE TO DEMOGRAPHIC FACTORS, CHRONIC DISEASE, OTHER PSYCHOSOCIAL VARIABLES (EG, POSITIVE AFFECT), AND HEALTH-RELATED BEHAVIORS (HEAVY DRINKING, SMOKING, PHYSICAL ACTIVITY, AND BODY MASS INDEX [BMI]). PURPOSE IN LIFE WAS ASSOCIATED WITH REDUCED EPIGENETIC AGE ACCELERATION ACROSS 4 "SECOND-GENERATION" DNAM CLOCKS OPTIMIZED FOR PREDICTING HEALTH AND LONGEVITY (FALSE DISCOVERY RATE [FDR] Q < 0.0001: PHENOAGE, GRIMAGE, ZHANG EPIGENETIC MORTALITY INDEX; FDR Q < 0.05: DUNEDINPOAM). THESE ASSOCIATIONS WERE INDEPENDENT OF DEMOGRAPHIC AND PSYCHOSOCIAL FACTORS, BUT SUBSTANTIALLY ATTENUATED AFTER ADJUSTING FOR HEALTH-RELATED BEHAVIORS (DRINKING, SMOKING, PHYSICAL ACTIVITY, AND BMI). PURPOSE SHOWED NO SIGNIFICANT ASSOCIATION WITH 9 "FIRST-GENERATION" DNAM EPIGENETIC CLOCKS TRAINED ON CHRONOLOGICAL AGE. OLDER ADULTS WITH GREATER PURPOSE IN LIFE SHOW "YOUNGER" DNAM EPIGENETIC AGE ACCELERATION. THESE RESULTS MAY BE DUE IN PART TO ASSOCIATED DIFFERENCES IN HEALTH-RELATED BEHAVIORS. RESULTS SUGGEST NEW OPPORTUNITIES TO REDUCE BIOLOGICAL AGE ACCELERATION BY ENHANCING PURPOSE AND ITS BEHAVIORAL SEQUELAE IN LATE ADULTHOOD. 2023 8 2411 33 EPIGENETIC SCORES FOR THE CIRCULATING PROTEOME AS TOOLS FOR DISEASE PREDICTION. PROTEIN BIOMARKERS HAVE BEEN IDENTIFIED ACROSS MANY AGE-RELATED MORBIDITIES. HOWEVER, CHARACTERISING EPIGENETIC INFLUENCES COULD FURTHER INFORM DISEASE PREDICTIONS. HERE, WE LEVERAGE EPIGENOME-WIDE DATA TO STUDY LINKS BETWEEN THE DNA METHYLATION (DNAM) SIGNATURES OF THE CIRCULATING PROTEOME AND INCIDENT DISEASES. USING DATA FROM FOUR COHORTS, WE TRAINED AND TESTED EPIGENETIC SCORES (EPISCORES) FOR 953 PLASMA PROTEINS, IDENTIFYING 109 SCORES THAT EXPLAINED BETWEEN 1% AND 58% OF THE VARIANCE IN PROTEIN LEVELS AFTER ADJUSTING FOR KNOWN PROTEIN QUANTITATIVE TRAIT LOCI (PQTL) GENETIC EFFECTS. BY PROJECTING THESE EPISCORES INTO AN INDEPENDENT SAMPLE (GENERATION SCOTLAND; N = 9537) AND RELATING THEM TO INCIDENT MORBIDITIES OVER A FOLLOW-UP OF 14 YEARS, WE UNCOVERED 137 EPISCORE-DISEASE ASSOCIATIONS. THESE ASSOCIATIONS WERE LARGELY INDEPENDENT OF IMMUNE CELL PROPORTIONS, COMMON LIFESTYLE AND HEALTH FACTORS, AND BIOLOGICAL AGING. NOTABLY, WE FOUND THAT OUR DIABETES-ASSOCIATED EPISCORES HIGHLIGHTED PREVIOUS TOP BIOMARKER ASSOCIATIONS FROM PROTEOME-WIDE ASSESSMENTS OF DIABETES. THESE EPISCORES FOR PROTEIN LEVELS CAN THEREFORE BE A VALUABLE RESOURCE FOR DISEASE PREDICTION AND RISK STRATIFICATION. 2022 9 2485 35 EPIGENETIC-BASED AGE ACCELERATION IN A REPRESENTATIVE SAMPLE OF OLDER AMERICANS: ASSOCIATIONS WITH AGING-RELATED MORBIDITY AND MORTALITY. BIOMARKERS DEVELOPED FROM DNA METHYLATION (DNAM) DATA ARE OF GROWING INTEREST AS PREDICTORS OF HEALTH OUTCOMES AND MORTALITY IN OLDER POPULATIONS. HOWEVER, IT IS UNKNOWN HOW EPIGENETIC AGING FITS WITHIN THE CONTEXT OF KNOWN SOCIOECONOMIC AND BEHAVIORAL ASSOCIATIONS WITH AGING-RELATED HEALTH OUTCOMES IN A LARGE, POPULATION-BASED, AND DIVERSE SAMPLE. THIS STUDY USES DATA FROM A REPRESENTATIVE, PANEL STUDY OF US OLDER ADULTS TO EXAMINE THE RELATIONSHIP BETWEEN DNAM-BASED AGE ACCELERATION MEASURES IN THE PREDICTION OF CROSS-SECTIONAL AND LONGITUDINAL HEALTH OUTCOMES AND MORTALITY. WE EXAMINE WHETHER RECENT IMPROVEMENTS TO THESE SCORES, USING PRINCIPAL COMPONENT (PC)-BASED MEASURES DESIGNED TO REMOVE SOME OF THE TECHNICAL NOISE AND UNRELIABILITY IN MEASUREMENT, IMPROVE THE PREDICTIVE CAPABILITY OF THESE MEASURES. WE ALSO EXAMINE HOW WELL DNAM-BASED MEASURES PERFORM AGAINST WELL-KNOWN PREDICTORS OF HEALTH OUTCOMES SUCH AS DEMOGRAPHICS, SES, AND HEALTH BEHAVIORS. IN OUR SAMPLE, AGE ACCELERATION CALCULATED USING "SECOND AND THIRD GENERATION CLOCKS," PHENOAGE, GRIMAGE, AND DUNEDINPACE, IS CONSISTENTLY A SIGNIFICANT PREDICTOR OF HEALTH OUTCOMES INCLUDING CROSS-SECTIONAL COGNITIVE DYSFUNCTION, FUNCTIONAL LIMITATIONS AND CHRONIC CONDITIONS ASSESSED 2 Y AFTER DNAM MEASUREMENT, AND 4-Y MORTALITY. PC-BASED EPIGENETIC AGE ACCELERATION MEASURES DO NOT SIGNIFICANTLY CHANGE THE RELATIONSHIP OF DNAM-BASED AGE ACCELERATION MEASURES TO HEALTH OUTCOMES OR MORTALITY COMPARED TO EARLIER VERSIONS OF THESE MEASURES. WHILE THE USEFULNESS OF DNAM-BASED AGE ACCELERATION AS A PREDICTOR OF LATER LIFE HEALTH OUTCOMES IS QUITE CLEAR, OTHER FACTORS SUCH AS DEMOGRAPHICS, SES, MENTAL HEALTH, AND HEALTH BEHAVIORS REMAIN EQUALLY, IF NOT MORE ROBUST, PREDICTORS OF LATER LIFE OUTCOMES. 2023 10 6112 36 THE EPIGENETIC CLOCK AS A PREDICTOR OF DISEASE AND MORTALITY RISK: A SYSTEMATIC REVIEW AND META-ANALYSIS. BACKGROUND: AGEING IS ONE OF THE PRINCIPAL RISK FACTORS FOR MANY CHRONIC DISEASES. HOWEVER, THERE IS CONSIDERABLE BETWEEN-PERSON VARIATION IN THE RATE OF AGEING AND INDIVIDUAL DIFFERENCES IN THEIR SUSCEPTIBILITY TO DISEASE AND DEATH. EPIGENETIC MECHANISMS MAY PLAY A ROLE IN HUMAN AGEING, AND DNA METHYLATION AGE BIOMARKERS MAY BE GOOD PREDICTORS OF AGE-RELATED DISEASES AND MORTALITY RISK. THE AIMS OF THIS SYSTEMATIC REVIEW WERE TO IDENTIFY AND SYNTHESISE THE EVIDENCE FOR AN ASSOCIATION BETWEEN PERIPHERALLY MEASURED DNA METHYLATION AGE AND LONGEVITY, AGE-RELATED DISEASE, AND MORTALITY RISK. METHODS: A SYSTEMATIC SEARCH WAS CONDUCTED IN LINE WITH THE PREFERRED REPORTING ITEMS FOR SYSTEMATIC REVIEWS AND META-ANALYSES (PRISMA) GUIDELINES. USING RELEVANT SEARCH TERMS, MEDLINE, EMBASE, COCHRANE CENTRAL REGISTER OF CONTROLLED TRIALS, AND PSYCHINFO DATABASES WERE SEARCHED TO IDENTIFY ARTICLES MEETING THE INCLUSION CRITERIA. STUDIES WERE ASSESSED FOR BIAS USING JOANNA BRIGGS INSTITUTE CRITICAL APPRAISAL CHECKLISTS. DATA WAS EXTRACTED FROM STUDIES MEASURING AGE ACCELERATION AS A PREDICTOR OF AGE-RELATED DISEASES, MORTALITY OR LONGEVITY, AND THE FINDINGS FOR SIMILAR OUTCOMES COMPARED. USING REVIEW MANAGER 5.3 SOFTWARE, TWO META-ANALYSES (ONE PER EPIGENETIC CLOCK) WERE CONDUCTED ON STUDIES MEASURING ALL-CAUSE MORTALITY. RESULTS: TWENTY-THREE RELEVANT ARTICLES WERE IDENTIFIED, INCLUDING A TOTAL OF 41,607 PARTICIPANTS. FOUR STUDIES FOCUSED ON AGEING AND LONGEVITY, 11 ON AGE-RELATED DISEASE (CANCER, CARDIOVASCULAR DISEASE, AND DEMENTIA), AND 11 ON MORTALITY. THERE WAS SOME, ALTHOUGH INCONSISTENT, EVIDENCE FOR AN ASSOCIATION BETWEEN INCREASED DNA METHYLATION AGE AND RISK OF DISEASE. META-ANALYSES INDICATED THAT EACH 5-YEAR INCREASE IN DNA METHYLATION AGE WAS ASSOCIATED AN 8 TO 15% INCREASED RISK OF MORTALITY. CONCLUSION: DUE TO THE SMALL NUMBER OF STUDIES AND HETEROGENEITY IN STUDY DESIGN AND OUTCOMES, THE ASSOCIATION BETWEEN DNA METHYLATION AGE AND AGE-RELATED DISEASE AND LONGEVITY IS INCONCLUSIVE. INCREASED EPIGENETIC AGE WAS ASSOCIATED WITH MORTALITY RISK, BUT POSITIVE PUBLICATION BIAS NEEDS TO BE CONSIDERED. FURTHER RESEARCH IS NEEDED TO DETERMINE THE EXTENT TO WHICH DNA METHYLATION AGE CAN BE USED AS A CLINICAL BIOMARKER. 2019 11 560 29 BACK TO THE FUTURE: EPIGENETIC CLOCK PLASTICITY TOWARDS HEALTHY AGING. AGING IS THE MOST IMPORTANT RISK FACTOR FOR MAJOR HUMAN LIFESTYLE DISEASES, INCLUDING CANCER, NEUROLOGICAL AND CARDIOMETABOLIC DISORDERS. DUE TO THE COMPLEX INTERPLAY BETWEEN GENETICS, LIFESTYLE AND ENVIRONMENTAL FACTORS, SOME INDIVIDUALS SEEM TO AGE FASTER THAN OTHERS, WHEREAS CENTENARIANS SEEM TO HAVE A SLOWER AGING PROCESS. THEREFORE, A BIOCHEMICAL BIOMARKER REFLECTING THE RELATIVE BIOLOGICAL AGE WOULD BE HELPFUL TO PREDICT AN INDIVIDUAL'S HEALTH STATUS AND AGING DISEASE RISK. ALTHOUGH IT IS ALREADY KNOWN FOR YEARS THAT CUMULATIVE EPIGENETIC CHANGES OCCUR UPON AGING, DNA METHYLATION PATTERNS WERE ONLY RECENTLY USED TO CONSTRUCT AN EPIGENETIC CLOCK PREDICTOR FOR BIOLOGICAL AGE, WHICH IS A MEASURE OF HOW WELL YOUR BODY FUNCTIONS COMPARED TO YOUR CHRONOLOGICAL AGE. MOREOVER, THE EPIGENETIC DNA METHYLATION CLOCK SIGNATURE IS INCREASINGLY APPLIED AS A BIOMARKER TO ESTIMATE AGING DISEASE SUSCEPTIBILITY AND MORTALITY RISK. FINALLY, THE EPIGENETIC CLOCK SIGNATURE COULD BE USED AS A LIFESTYLE MANAGEMENT TOOL TO MONITOR HEALTHY AGING, TO EVALUATE PREVENTIVE INTERVENTIONS AGAINST CHRONIC AGING DISORDERS AND TO EXTEND HEALTHY LIFESPAN. DISSECTING THE MECHANISM OF THE EPIGENETIC AGING CLOCK WILL YIELD VALUABLE INSIGHTS INTO THE AGING PROCESS AND HOW IT CAN BE MANIPULATED TO IMPROVE HEALTH SPAN. 2018 12 178 35 ACCELERATED EPIGENETIC AGING AS A RISK FACTOR FOR CHRONIC OBSTRUCTIVE PULMONARY DISEASE AND DECREASED LUNG FUNCTION IN TWO PROSPECTIVE COHORT STUDIES. CHRONIC OBSTRUCTIVE PULMONARY DISEASE (COPD) IS A FREQUENT DIAGNOSIS IN OLDER INDIVIDUALS AND CONTRIBUTOR TO GLOBAL MORBIDITY AND MORTALITY. GIVEN THE LINK BETWEEN LUNG DISEASE AND AGING, WE NEED TO UNDERSTAND HOW MOLECULAR INDICATORS OF AGING RELATE TO LUNG FUNCTION AND DISEASE. USING DATA FROM THE POPULATION-BASED KORA (COOPERATIVE HEALTH RESEARCH IN THE REGION OF AUGSBURG) SURVEYS, WE ASSOCIATED BASELINE EPIGENETIC (DNA METHYLATION) AGE ACCELERATION WITH INCIDENT COPD AND LUNG FUNCTION. MODELS WERE ADJUSTED FOR AGE, SEX, SMOKING, HEIGHT, WEIGHT, AND BASELINE LUNG DISEASE AS APPROPRIATE. ASSOCIATIONS WERE REPLICATED IN THE NORMATIVE AGING STUDY. OF 770 KORA PARTICIPANTS, 131 DEVELOPED INCIDENT COPD OVER 7 YEARS. BASELINE ACCELERATED EPIGENETIC AGING WAS SIGNIFICANTLY ASSOCIATED WITH INCIDENT COPD. THE CHANGE IN AGE ACCELERATION (FOLLOW-UP - BASELINE) WAS MORE STRONGLY ASSOCIATED WITH COPD THAN BASELINE AGING ALONE. THE ASSOCIATION BETWEEN THE CHANGE IN AGE ACCELERATION BETWEEN BASELINE AND FOLLOW-UP AND INCIDENT COPD REPLICATED IN THE NORMATIVE AGING STUDY. ASSOCIATIONS WITH SPIROMETRIC LUNG FUNCTION PARAMETERS WERE WEAKER THAN THOSE WITH COPD, BUT A META-ANALYSIS OF BOTH COHORTS PROVIDE SUGGESTIVE EVIDENCE OF ASSOCIATIONS. ACCELERATED EPIGENETIC AGING, BOTH BASELINE MEASURES AND CHANGES OVER TIME, MAY BE A RISK FACTOR FOR COPD AND REDUCED LUNG FUNCTION. 2020 13 5748 33 SOCIAL AND PHYSICAL ENVIRONMENTS EARLY IN DEVELOPMENT PREDICT DNA METHYLATION OF INFLAMMATORY GENES IN YOUNG ADULTHOOD. CHRONIC INFLAMMATION CONTRIBUTES TO A WIDE RANGE OF HUMAN DISEASES, AND ENVIRONMENTS IN INFANCY AND CHILDHOOD ARE IMPORTANT DETERMINANTS OF INFLAMMATORY PHENOTYPES. THE UNDERLYING BIOLOGICAL MECHANISMS CONNECTING EARLY ENVIRONMENTS WITH THE REGULATION OF INFLAMMATION IN ADULTHOOD ARE NOT KNOWN, BUT EPIGENETIC PROCESSES ARE PLAUSIBLE CANDIDATES. WE TESTED THE HYPOTHESIS THAT PATTERNS OF DNA METHYLATION (DNAM) IN INFLAMMATORY GENES IN YOUNG ADULTHOOD WOULD BE PREDICTED BY EARLY LIFE NUTRITIONAL, MICROBIAL, AND PSYCHOSOCIAL EXPOSURES PREVIOUSLY ASSOCIATED WITH LEVELS OF INFLAMMATION. DATA COME FROM A POPULATION-BASED LONGITUDINAL BIRTH COHORT STUDY IN METROPOLITAN CEBU, THE PHILIPPINES, AND DNAM WAS CHARACTERIZED IN WHOLE BLOOD SAMPLES FROM 494 PARTICIPANTS (AGE 20-22 Y). ANALYSES FOCUSED ON PROBES IN 114 TARGET GENES INVOLVED IN THE REGULATION OF INFLAMMATION, AND WE IDENTIFIED 10 SITES ACROSS NINE GENES WHERE THE LEVEL OF DNAM WAS SIGNIFICANTLY PREDICTED BY THE FOLLOWING VARIABLES: HOUSEHOLD SOCIOECONOMIC STATUS IN CHILDHOOD, EXTENDED ABSENCE OF A PARENT IN CHILDHOOD, EXPOSURE TO ANIMAL FECES IN INFANCY, BIRTH IN THE DRY SEASON, OR DURATION OF EXCLUSIVE BREASTFEEDING. TO EVALUATE THE BIOLOGICAL SIGNIFICANCE OF THESE SITES, WE TESTED FOR ASSOCIATIONS WITH A PANEL OF INFLAMMATORY BIOMARKERS MEASURED IN PLASMA OBTAINED AT THE SAME AGE AS DNAM ASSESSMENT. THREE SITES PREDICTED ELEVATED INFLAMMATION, AND ONE SITE PREDICTED LOWER INFLAMMATION, CONSISTENT WITH THE INTERPRETATION THAT LEVELS OF DNAM AT THESE SITES ARE FUNCTIONALLY RELEVANT. THIS PATTERN OF RESULTS POINTS TOWARD DNAM AS A POTENTIALLY IMPORTANT BIOLOGICAL MECHANISM THROUGH WHICH DEVELOPMENTAL ENVIRONMENTS SHAPE INFLAMMATORY PHENOTYPES ACROSS THE LIFE COURSE. 2017 14 3391 31 HORMETIC ASSOCIATION BETWEEN PERCEIVED STRESS AND HUMAN EPIGENETIC AGING BASED ON RESILIENCE CAPACITY. CHRONIC STRESS IS ASSOCIATED WITH DELETERIOUS HEALTH OUTCOMES AND MORTALITY RISK. A POTENTIAL MECHANISM BY WHICH STRESS AFFECTS HEALTHSPAN AND LIFESPAN IS ACCELERATION OF CELLULAR AGING. BIOLOGIC AGE PREDICTION MODELS, TERMED EPIGENETIC CLOCKS, HAVE BEEN DEVELOPED TO ESTIMATE BIOLOGIC AGE DIFFERENCES AMONG PEOPLE WITH THE SAME CHRONOLOGIC AGE. THIS STUDY EVALUATES THE SIMULTANEOUS IMPACT OF PERCEIVED CHRONIC STRESS AND RESILIENCE ON GRIM AGE ACCELERATION. THE PERCEIVED STRESS SCORE (PSS) AND CONNOR-DAVIDSON RESILIENCE SCALE (CD-RISC) WERE USED TO MEASURE CHRONIC STRESS AND RESILIENCE, RESPECTIVELY. DNA WAS EXTRACTED FROM WHOLE BLOOD AND ANALYZED USING THE METHYLATIONEPIC BEADCHIP. GRIMAGE ESTIMATES WERE CALCULATED USING THE METHYLATION AGE CALCULATOR. FORTY-SEVEN BUSINESS EXECUTIVES WERE CATEGORIZED BY LEVELS OF HIGH OR LOW STRESS AND RESILIENCE SCORES. COMPARED TO PARTICIPANTS WITH LOW STRESS AND HIGH RESILIENCE, THOSE WITH LOW STRESS AND LOW RESILIENCE DEMONSTRATED THE STRONGEST ASSOCIATION WITH GRIM AGE ACCELERATION (P = 0.044), AFTER CONTROLLING FOR AGE AND ESTIMATED CELLULAR PROPORTIONS. INTERESTINGLY, AMONG PARTICIPANTS WITH LOW RESILIENCE, THOSE WITH HIGH PERCEIVED STRESS HAD A WEAKER ASSOCIATION WITH GRIM AGE ACCELERATION THAN PARTICIPANTS WITH LOW PERCEIVED STRESS. HOWEVER, AMONG PARTICIPANTS WITH HIGH RESILIENCE, LOW PERCEIVED STRESS HAD A WEAKER ASSOCIATION WITH GRIM AGE ACCELERATION THAN HIGH PERCEIVED STRESS. OUR FINDINGS SUGGEST THAT THE IMPACT OF PERCEIVED STRESS ON EPIGENETIC AGE ACCELERATION MAY DIFFER BASED ON RESILIENCE CAPACITY, WITH A POTENTIAL PARADOXICAL BENEFICIAL EFFECT AMONG THOSE WITH LOW RESILIENCE. 2022 15 3936 28 LIVING IN ENDEMIC AREA FOR INFECTIOUS DISEASES ACCELERATES EPIGENETIC AGE. INFLAMMAGING IS A LOW-GRADE INFLAMMATORY STATE GENERATED BY THE AGING PROCESS THAT CAN CONTRIBUTE TO FRAILTY AND AGE-RELATED DISEASES IN THE ELDERLY. HOWEVER, IT CAN HAVE DISTINCT EFFECTS IN THE ELDERLY LIVING IN ENDEMIC AREAS FOR INFECTIOUS DISEASES. AN INCREASED INFLAMMATORY RESPONSE MAY CONFER PROTECTION AGAINST INFECTIOUS AGENTS IN THESE AREAS, ALTHOUGH THIS ADVANTAGE CAN CAUSE ACCELERATING EPIGENETIC AGING. IN THIS STUDY, WE EVALUATED THE INFLAMMATORY PROFILE AND THE EPIGENETIC AGE OF INFECTED AND NONINFECTED INDIVIDUALS FROM AN ENDEMIC AREA IN BRAZIL. THE PROFILE OF CYTOKINES, CHEMOKINES AND GROWTH FACTORS ANALYZED IN THE SERA OF THE TWO GROUPS OF INDIVIDUALS SHOWED SIMILARITIES, ALTHOUGH INFECTED INDIVIDUALS HAD A HIGHER CONCENTRATION OF THESE MEDIATORS. A SIGNIFICANT INCREASE IN IL-1RA, CXCL8, CCL2, CCL3 AND CCL4 PRODUCTION WAS ASSOCIATED WITH LEPROSY INFECTION. NOTABLY, ELDERLY INDIVIDUALS DISPLAYED DISTINCT IMMUNE RESPONSES ASSOCIATED WITH THEIR INFECTION STATUS WHEN COMPARED TO ADULTS SUGGESTING AN ADAPTIVE REMODELLING OF THEIR IMMUNE RESPONSES. EPIGENETIC ANALYSIS ALSO SHOWED THAT THERE WAS NO DIFFERENCE IN EPIGENETIC AGE BETWEEN THE TWO GROUPS OF INDIVIDUALS. HOWEVER, INDIVIDUALS FROM THE ENDEMIC AREA HAD A SIGNIFICANT ACCELERATED AGING WHEN COMPARED TO INDIVIDUALS FROM SAO PAULO, A NON-ENDEMIC AREA IN BRAZIL. MOREOVER, THE LATTER COHORT WAS ALSO EPIGENETICALLY AGED IN RELATION TO AN ITALIAN COHORT. OUR DATA SHOWS THAT LIVING IN ENDEMIC AREAS FOR CHRONIC INFECTIOUS DISEASES RESULTS IN REMODELLING OF INFLAMMAGING AND ACCELERATION OF EPIGENETIC AGING IN INDIVIDUALS REGARDLESS OF THEIR INFECTIOUS STATUS. IT ALSO HIGHLIGHTS THAT GEOGRAPHICAL, GENETIC AND ENVIRONMENTAL FACTORS INFLUENCE AGING AND IMMUNOSENESCENCE IN THEIR PACE AND PROFILE. 2022 16 1957 39 EPIGENETIC AGE PREDICTORS IN COMMUNITY-DWELLING ADULTS WITH HIGH IMPACT KNEE PAIN. GERONTOLOGICAL RESEARCH REVEALS CONSIDERABLE INTERINDIVIDUAL VARIABILITY IN AGING PHENOTYPES, AND EMERGING EVIDENCE SUGGESTS THAT HIGH IMPACT CHRONIC PAIN MAY BE ASSOCIATED WITH VARIOUS ACCELERATED BIOLOGICAL AGING PROCESSES. IN PARTICULAR, EPIGENETIC AGING IS A ROBUST PREDICTOR OF HEALTH-SPAN AND DISABILITY COMPARED TO CHRONOLOGICAL AGE ALONE. THE CURRENT STUDY AIMED TO DETERMINE WHETHER SEVERAL EPIGENETIC AGING BIOMARKERS WERE ASSOCIATED WITH HIGH IMPACT CHRONIC PAIN IN MIDDLE TO OLDER AGE ADULTS (44-78 YEARS OLD). PARTICIPANTS (N = 213) UNDERWENT A BLOOD DRAW, DEMOGRAPHIC, PSYCHOSOCIAL, PAIN AND FUNCTIONAL ASSESSMENTS. WE ESTIMATED FIVE EPIGENETIC CLOCKS AND CALCULATED THE DIFFERENCE BETWEEN EPIGENETIC AGE AND CHRONOLOGICAL AGE, WHICH HAS BEEN PREVIOUSLY REPORTED TO PREDICT OVERALL MORTALITY RISK, AS WELL AS INCLUDED ADDITIONAL DERIVED VARIABLES OF EPIGENETIC AGE PREVIOUSLY ASSOCIATED WITH PAIN. THERE WERE SIGNIFICANT DIFFERENCES ACROSS PAIN IMPACT GROUPS IN THREE OUT OF THE FIVE EPIGENETIC CLOCKS EXAMINED (DNAMAGE, DNAMPHENOAGE AND DNAMGRIMAGE), INDICATING THAT PAIN-RELATED DISABILITY DURING THE PAST 6 MONTHS WAS ASSOCIATED WITH MARKERS OF EPIGENETIC AGING. ONLY DNAMPHENOAGE AND DNAMGRIMAGE WERE ASSOCIATED WITH HIGHER KNEE PAIN INTENSITY DURING THE PAST 48 H. FINALLY, PAIN CATASTROPHIZING, DEPRESSIVE SYMPTOMATOLOGY AND MORE NEUROPATHIC PAIN SYMPTOMS WERE SIGNIFICANTLY ASSOCIATED WITH AN OLDER EPIGENOME IN ONLY ONE OF THE FIVE EPIGENETIC CLOCKS (I.E. DNAMGRIMAGE) AFTER CORRECTING FOR MULTIPLE COMPARISONS (CORRECTED P'S < 0.05). GIVEN THE SCANT LITERATURE IN RELATION TO EPIGENETIC AGING AND THE COMPLEX EXPERIENCE OF PAIN, ADDITIONAL RESEARCH IS NEEDED TO UNDERSTAND WHETHER EPIGENETIC AGING MAY HELP IDENTIFY PEOPLE WITH CHRONIC PAIN AT GREATER RISK OF FUNCTIONAL DECLINE AND POORER HEALTH OUTCOMES. 2022 17 2922 29 GENE-SPECIFIC DNA METHYLATION ASSOCIATION WITH SERUM LEVELS OF C-REACTIVE PROTEIN IN AFRICAN AMERICANS. A MORE THOROUGH UNDERSTANDING OF THE DIFFERENCES IN DNA METHYLATION (DNAM) PROFILES IN POPULATIONS MAY HOLD PROMISE FOR IDENTIFYING MOLECULAR MECHANISMS THROUGH WHICH GENETIC AND ENVIRONMENTAL FACTORS JOINTLY CONTRIBUTE TO HUMAN DISEASES. INFLAMMATION IS A KEY MOLECULAR MECHANISM UNDERLYING SEVERAL CHRONIC DISEASES INCLUDING CARDIOVASCULAR DISEASE, AND IT AFFECTS DNAM PROFILE ON BOTH GLOBAL AND LOCUS-SPECIFIC LEVELS. TO UNDERSTAND THE IMPACT OF INFLAMMATION ON THE DNAM OF THE HUMAN GENOME, WE INVESTIGATED DNAM PROFILES OF PERIPHERAL BLOOD LEUKOCYTES FROM 966 AFRICAN AMERICAN PARTICIPANTS IN THE GENETIC EPIDEMIOLOGY NETWORK OF ARTERIOPATHY (GENOA) STUDY. BY TESTING THE ASSOCIATION OF DNAM SITES ON CPG ISLANDS OF OVER 14,000 GENES WITH C-REACTIVE PROTEIN (CRP), AN INFLAMMATORY BIOMARKER OF CARDIOVASCULAR DISEASE, WE IDENTIFIED 257 DNAM SITES IN 240 GENES SIGNIFICANTLY ASSOCIATED WITH SERUM LEVELS OF CRP ADJUSTED FOR AGE, SEX, BODY MASS INDEX AND SMOKING STATUS, AND CORRECTED FOR MULTIPLE TESTING. OF THE SIGNIFICANTLY ASSOCIATED DNAM SITES, 80.5% WERE HYPOMETHYLATED WITH HIGHER CRP LEVELS. THE MOST SIGNIFICANT GENE ONTOLOGY TERMS ENRICHED IN THE GENES ASSOCIATED WITH THE CRP LEVELS WERE IMMUNE SYSTEM PROCESS, IMMUNE RESPONSE, DEFENSE RESPONSE, RESPONSE TO STIMULUS, AND RESPONSE TO STRESS, WHICH ARE ALL LINKED TO THE FUNCTIONS OF LEUKOCYTES. WHILE THE CRP-ASSOCIATED DNAM MAY BE CELL-TYPE SPECIFIC, UNDERSTANDING THE DNAM ASSOCIATION WITH CRP IN PERIPHERAL BLOOD LEUKOCYTES OF MULTI-ETHNIC POPULATIONS CAN ASSIST IN UNVEILING THE MOLECULAR MECHANISM OF HOW THE PROCESS OF INFLAMMATION AFFECTS THE RISKS OF DEVELOPING COMMON DISEASE THROUGH EPIGENETIC MODIFICATIONS. 2013 18 739 30 CANCER TREATMENT-INDUCED ACCELERATED AGING IN CANCER SURVIVORS: BIOLOGY AND ASSESSMENT. RAPID IMPROVEMENTS IN CANCER SURVIVAL LED TO THE REALIZATION THAT MANY MODALITIES USED TO TREAT OR CONTROL CANCER MAY CAUSE ACCELERATED AGING IN CANCER SURVIVORS. CLINICALLY, "ACCELERATED AGING" PHENOTYPES IN CANCER SURVIVORS INCLUDE SECONDARY CANCERS, FRAILTY, CHRONIC ORGAN DYSFUNCTION, AND COGNITIVE IMPAIRMENT, ALL OF WHICH CAN IMPACT LONG-TERM HEALTH AND QUALITY OF LIFE IN CANCER SURVIVORS. THE TREATMENT-INDUCED ACCELERATED AGING IN CANCER SURVIVORS COULD BE EXPLAINED BY TELOMERE ATTRITION, CELLULAR SENESCENCE, STEM CELL EXHAUSTION, DNA DAMAGE, AND EPIGENETIC ALTERATIONS. SEVERAL AGING CLOCKS AND BIOMARKERS OF AGING HAVE BEEN PROPOSED TO BE POTENTIALLY USEFUL IN ESTIMATING BIOLOGICAL AGE, WHICH CAN PROVIDE SPECIFIC INFORMATION ABOUT HOW OLD AN INDIVIDUAL IS BIOLOGICALLY INDEPENDENT OF CHRONOLOGICAL AGE. MEASURING BIOLOGICAL AGE IN CANCER SURVIVORS MAY BE IMPORTANT FOR TWO REASONS. FIRST, IT CAN BETTER PREDICT THE RISK OF CANCER TREATMENT-RELATED COMORBIDITIES THAN CHRONOLOGICAL AGE. SECOND, BIOLOGICAL AGE MAY PROVIDE ADDITIONAL VALUE IN EVALUATING THE EFFECTS OF TREATMENTS AND PERSONALIZING CANCER THERAPIES TO MAXIMIZE EFFICACY OF TREATMENT. A DEEPER UNDERSTANDING OF TREATMENT-INDUCED ACCELERATED AGING IN INDIVIDUALS WITH CANCER MAY LEAD TO NOVEL STRATEGIES THAT REDUCE THE ACCELERATED AGING AND IMPROVE THE QUALITY OF LIFE IN CANCER SURVIVORS. 2021 19 1206 23 COUNTERACTING AGED DNA METHYLATION STATES TO COMBAT AGEING AND AGE-RELATED DISEASES. DNA METHYLATION (DNAM) OVERWRITES INFORMATION ABOUT MULTIPLE EXTRINSIC FACTORS ON THE GENOME. AGE IS ONE OF THESE FACTORS. AGE CAUSES CHARACTERISTIC DNAM CHANGES THAT ARE THOUGHT TO BE NOT ONLY MAJOR DRIVERS OF NORMAL AGEING BUT ALSO PRECURSORS TO DISEASES, CANCER BEING ONE OF THESE. ALTHOUGH THERE IS STILL MUCH TO LEARN ABOUT THE RELATIONSHIP BETWEEN AGEING, AGE-RELATED DISEASES AND DNAM, WE NOW KNOW HOW TO INTERPRET SOME OF THE EFFECTS CAUSED BY AGE IN THE FORM OF CHANGES IN METHYLATION MARKS AT SPECIFIC LOCI. IN FACT, THESE CHANGES FORM THE BASIS OF THE SO CALLED "EPIGENETIC CLOCKS", WHICH TRANSLATE THE GENOMIC METHYLATION PROFILE INTO AN "EPIGENETIC AGE". EPIGENETIC AGE DOES NOT ONLY ESTIMATE CHRONOLOGICAL AGE BUT CAN ALSO PREDICT THE RISK OF CHRONIC DISEASES AND MORTALITY. EPIGENETIC AGE IS BELIEVED TO BE ONE OF THE MOST ACCURATE METRICS OF BIOLOGICAL AGE. INITIAL EVIDENCE HAS RECENTLY BEEN GATHERED POINTING TO THE POSSIBILITY THAT THE RATE OF EPIGENETIC AGEING CAN BE SLOWED DOWN OR EVEN REVERSED. IN THIS REVIEW, WE DISCUSS SOME OF THE MOST RELEVANT ADVANCES IN THIS FIELD. EXPECTED OUTCOME IS THAT THIS APPROACH CAN PROVIDE INSIGHTS INTO HOW TO PRESERVE HEALTH AND REDUCE THE IMPACT OF AGEING DISEASES IN HUMANS. 2022 20 287 25 AGING AND CHRONIC SUN EXPOSURE CAUSE DISTINCT EPIGENETIC CHANGES IN HUMAN SKIN. EPIGENETIC CHANGES ARE WIDELY CONSIDERED TO PLAY AN IMPORTANT ROLE IN AGING, BUT EXPERIMENTAL EVIDENCE TO SUPPORT THIS HYPOTHESIS HAS BEEN SCARCE. WE HAVE USED ARRAY-BASED ANALYSIS TO DETERMINE GENOME-SCALE DNA METHYLATION PATTERNS FROM HUMAN SKIN SAMPLES AND TO INVESTIGATE THE EFFECTS OF AGING, CHRONIC SUN EXPOSURE, AND TISSUE VARIATION. OUR RESULTS REVEAL A HIGH DEGREE OF TISSUE SPECIFICITY IN THE METHYLATION PATTERNS AND ALSO SHOWED VERY LITTLE INTERINDIVIDUAL VARIATION WITHIN TISSUES. DATA STRATIFICATION BY AGE REVEALED THAT DNA FROM OLDER INDIVIDUALS WAS CHARACTERIZED BY A SPECIFIC HYPERMETHYLATION PATTERN AFFECTING LESS THAN 1% OF THE MARKERS ANALYZED. INTERESTINGLY, STRATIFICATION BY SUN EXPOSURE PRODUCED A FUNDAMENTALLY DIFFERENT PATTERN WITH A SIGNIFICANT TREND TOWARDS HYPOMETHYLATION. OUR RESULTS THUS IDENTIFY DEFINED AGE-RELATED DNA METHYLATION CHANGES AND SUGGEST THAT THESE ALTERATIONS MIGHT CONTRIBUTE TO THE PHENOTYPIC CHANGES ASSOCIATED WITH SKIN AGING. 2010