1 372 87 AN EMERGING EPIDEMIC OF NONCOMMUNICABLE DISEASES IN DEVELOPING POPULATIONS DUE TO A TRIPLE EVOLUTIONARY MISMATCH. WITH THEIR TRANSITION FROM ADVERSE TO AFFLUENT ENVIRONMENTS, DEVELOPING POPULATIONS EXPERIENCE A RAPID INCREASE IN THE NUMBER OF INDIVIDUALS WITH NONCOMMUNICABLE DISEASES. HERE, WE EMPHASIZE THAT DEVELOPING POPULATIONS ARE MORE SUSCEPTIBLE THAN WESTERN POPULATIONS TO ACQUIRE THESE CHRONIC DISEASES, BECAUSE THEIR GENETIC, CULTURAL, AND EPIGENETIC CHARACTERISTICS DO NOT MATCH WITH THE EAGERLY AWAITED AFFLUENT ENVIRONMENTS. IN REGARD TO THIS, THERE IS AN URGENT NEED FOR PUBLIC HEALTH ORGANIZATIONS TO REORGANIZE CURRENT ENVIRONMENTS IN DEVELOPING POPULATIONS SO AS TO FIT THEIR INHERITED CHARACTERISTICS. UNFORTUNATELY, THIS NEED IS NEGLECTED AS AN ESSENTIAL PART OF THE SUSTAINABLE DEVELOPMENT GOALS THAT FORM THE CORE OF THE UNITED NATIONS' POST-2015 DEVELOPMENT AGENDA. ONLY THROUGH GLOBAL COLLABORATIVE EFFORTS CAN THE ENVIRONMENTS IN DEVELOPING POPULATIONS BE REORGANIZED AND, THEREBY, THE EMERGING EPIDEMIC OF NONCOMMUNICABLE DISEASES BE STALLED. 2016 2 2137 25 EPIGENETIC INHERITANCE AND EVOLUTION: A PATERNAL PERSPECTIVE ON DIETARY INFLUENCES. THE EARLIEST INDICATIONS FOR PATERNALLY INDUCED TRANSGENERATIONAL EFFECTS FROM THE ENVIRONMENT TO FUTURE GENERATIONS WERE BASED ON A SMALL NUMBER OF LONG-TERM EPIDEMIOLOGICAL STUDIES AND SOME EMPIRICAL OBSERVATIONS. ONLY RECENTLY HAVE EXPERIMENTAL ANIMAL MODELS AND A FEW ANALYSES ON HUMAN DATA EXPLORED THE TRANSGENERATIONAL NATURE OF PHENOTYPIC CHANGES OBSERVED IN OFFSPRING. CHANGES INCLUDE MULTIPLE METABOLIC DISORDERS, CANCER AND OTHER CHRONIC DISEASES. THESE PHENOTYPES CANNOT ALWAYS BE EXPLAINED BY MENDELIAN INHERITANCE, DNA MUTATIONS OR GENETIC DAMAGE. HENCE, A NEW COMPELLING THEORY ON EPIGENETIC INHERITANCE IS GAINING INTEREST, PROVIDING NEW CONCEPTS THAT EXTEND DARWIN'S EVOLUTIONARY THEORY. EPIGENETIC ALTERATIONS OR "EPIMUTATIONS" ARE BEING CONSIDERED TO EXPLAIN TRANSGENERATIONAL INHERITANCE OF PARENTALLY ACQUIRED TRAITS. THE RESPONSIBLE MECHANISMS FOR THESE EPIMUTATIONS INCLUDE DNA METHYLATION, HISTONE MODIFICATION, AND RNA-MEDIATED EFFECTS. THIS REVIEW EXPLORES THE LITERATURE ON A NUMBER OF TIME-DEPENDENT ENVIRONMENTALLY INDUCED EPIGENETIC ALTERATIONS, SPECIFICALLY THOSE FROM DIETARY EXPOSURES. WE SUGGEST A ROLE FOR THE MALE GERM LINE AS ONE OF NATURE'S TOOLS TO CAPTURE MESSAGES FROM OUR CONTINUOUSLY CHANGING ENVIRONMENT AND TO TRANSFER THIS INFORMATION TO SUBSEQUENT GENERATIONS. FURTHER, WE OPEN THE DISCUSSION THAT THE PATERNALLY INHERITED EPIGENETIC INFORMATION MAY CONTRIBUTE TO EVOLUTIONARY ADAPTATION. 2015 3 4996 27 PERINATAL EPIGENETIC DETERMINANTS OF COGNITIVE AND METABOLIC DISORDERS. MULTIPLE CUES FROM THE ENVIRONMENT OF OUR INDIRECT AND IMMEDIATE ANCESTORS, WHICH OFTEN PERSIST THROUGHOUT THE PRENATAL PERIOD AND ADULTHOOD, ARE SHAPING OUR PHENOTYPES THROUGH EITHER DIRECT, PARENT-TO-CHILD INFLUENCES, OR TRANSGENERATIONAL INHERITANCE. THESE EFFECTS ARE DUE TO GENE-ENVIRONMENT INTERACTIONS, WHICH ARE INTENDED TO BE A PREDICTIVE TOOL AND A MECHANISM OF QUICK ADAPTATION TO THE ENVIRONMENT, AS COMPARED WITH GENETIC VARIATIONS THAT ARE INHERITED OVER MANY GENERATIONS. IN CERTAIN CIRCUMSTANCES THE INFLUENCES INDUCED BY THE GENE-ENVIRONMENT INTERACTIONS CAN HAVE DELETERIOUS EFFECTS UPON THE HEALTH STATUS, IN THE CONTEXT OF A RADICAL CHANGE IN THE ENVIRONMENT THAT DOES NOT FIT WITH THE PREDICTED CONDITIONS, VIA EPIGENETIC ALTERATIONS. CONVERSELY THE BEST FIT TO THE EXPECTED ENVIRONMENT MIGHT HAVE A DELAYED AGING PROCESS AND A LONGER LIFE SPAN. THIS REVIEW WILL TOUCH UPON THE DEVELOPMENTAL ORIGINS OF HEALTH AND DISEASE (DOHAD) CONCEPT, WHILE DISCUSSING RECENT ADVANCES IN THE UNDERSTANDING OF METABOLIC AND COGNITIVE DISRUPTIONS, WITH A FOCUS ON EPIGENETIC FACTORS, THEIR TRANSGENERATIONAL EFFECTS, AND THE CONSEQUENCES THEY MIGHT HAVE UPON THE ONSET OF CHRONIC DISEASE AND PREMATURE EXITUS. 2012 4 4717 22 NON-GENOMIC TRANSGENERATIONAL INHERITANCE OF DISEASE RISK. THAT THERE IS A HERITABLE OR FAMILIAL COMPONENT OF SUSCEPTIBILITY TO CHRONIC NON-COMMUNICABLE DISEASES SUCH AS TYPE 2 DIABETES, OBESITY AND CARDIOVASCULAR DISEASE IS WELL ESTABLISHED, BUT THERE IS INCREASING EVIDENCE THAT SOME ELEMENTS OF SUCH HERITABILITY ARE TRANSMITTED NON-GENOMICALLY AND THAT THE PROCESSES WHEREBY ENVIRONMENTAL INFLUENCES ACT DURING EARLY DEVELOPMENT TO SHAPE DISEASE RISK IN LATER LIFE CAN HAVE EFFECTS BEYOND A SINGLE GENERATION. SUCH HERITABILITY MAY OPERATE THROUGH EPIGENETIC MECHANISMS INVOLVING REGULATION OF EITHER IMPRINTED OR NON-IMPRINTED GENES BUT ALSO THROUGH BROADER MECHANISMS RELATED TO PARENTAL PHYSIOLOGY OR BEHAVIOUR. WE REVIEW EVIDENCE AND POTENTIAL MECHANISMS FOR NON-GENOMIC TRANSGENERATIONAL INHERITANCE OF 'LIFESTYLE' DISEASE AND PROPOSE THAT THE 'DEVELOPMENTAL ORIGINS OF DISEASE' PHENOMENON IS A MALADAPTIVE CONSEQUENCE OF AN ANCESTRAL MECHANISM OF DEVELOPMENTAL PLASTICITY THAT MAY HAVE HAD ADAPTIVE VALUE IN THE EVOLUTION OF GENERALIST SPECIES SUCH AS HOMO SAPIENS. 2007 5 1865 27 EMERGING CONCEPTS ON THE ROLE OF EPIGENETICS IN THE RELATIONSHIPS BETWEEN NUTRITION AND HEALTH. UNDERSTANDING THE PHYSIOLOGICAL AND METABOLIC UNDERPINNINGS THAT CONFER INDIVIDUAL DIFFERENCES IN RESPONSES TO DIET AND DIET-RELATED CHRONIC DISEASE IS ESSENTIAL TO ADVANCE THE FIELD OF NUTRITION. THIS INCLUDES ELUCIDATING THE DIFFERENCES IN GENE EXPRESSION THAT ARE MEDIATED THROUGH PROGRAMMING OF THE GENOME THROUGH EPIGENETIC CHROMATIN MODIFICATIONS. EPIGENETIC LANDSCAPES ARE INFLUENCED BY AGE, GENETICS, TOXINS AND OTHER ENVIRONMENTAL FACTORS, INCLUDING DIETARY EXPOSURES AND NUTRITIONAL STATUS. EPIGENETIC MODIFICATIONS INFLUENCE TRANSCRIPTION AND GENOME STABILITY ARE ESTABLISHED DURING DEVELOPMENT WITH LIFE-LONG CONSEQUENCES. THEY CAN BE INHERITED FROM ONE GENERATION TO THE NEXT. THE COVALENT MODIFICATIONS OF CHROMATIN, WHICH INCLUDE METHYLATION AND ACETYLATION, ON DNA NUCLEOTIDE BASES, HISTONE PROTEINS AND RNA ARE DERIVED FROM INTERMEDIATES OF ONE-CARBON METABOLISM AND CENTRAL METABOLISM. THEY INFLUENCE KEY PHYSIOLOGICAL PROCESSES THROUGHOUT LIFE, AND TOGETHER WITH INHERITED DNA PRIMARY SEQUENCE, CONTRIBUTE TO RESPONSIVENESS TO ENVIRONMENTAL STRESSES, DIET AND RISK FOR AGE-RELATED CHRONIC DISEASE. REVEALING DIET-EPIGENETIC RELATIONSHIPS HAS THE POTENTIAL TO TRANSFORM NUTRITION SCIENCE BY INCREASING OUR FUNDAMENTAL UNDERSTANDING OF: (I) THE ROLE OF NUTRIENTS IN BIOLOGICAL SYSTEMS, (II) THE RESILIENCE OF LIVING ORGANISMS IN RESPONDING TO ENVIRONMENTAL PERTURBATIONS, AND (III) THE DEVELOPMENT OF DIETARY PATTERNS THAT PROGRAMME PHYSIOLOGY FOR LIFE-LONG HEALTH. EPIGENETICS MAY ALSO ENABLE THE CLASSIFICATION OF INDIVIDUALS WITH CHRONIC DISEASE FOR SPECIFIC DIETARY MANAGEMENT AND/OR FOR EFFICACIOUS DIET-PHARMACEUTICAL COMBINATION THERAPIES. THESE NEW EMERGING CONCEPTS AT THE INTERFACE OF NUTRITION AND EPIGENETICS WERE DISCUSSED, AND FUTURE RESEARCH NEEDS IDENTIFIED BY LEADING EXPERTS AT THE 26TH MARABOU SYMPOSIUM ENTITLED 'NUTRITION, EPIGENETICS, GENETICS: IMPACT ON HEALTH AND DISEASE'. FOR A COMPILATION OF THE GENERAL DISCUSSION AT THE MARABOU SYMPOSIUM, CLICK HERE HTTP://WWW.MARABOUSYMPOSIUM.ORG/. 2018 6 1913 31 ENVIRONMENTAL AND GENETIC CONTRIBUTIONS TO DIABETES. DIABETES MELLITUS (DM) IS A HETEROGENEOUS GROUP OF DISORDERS CHARACTERIZED BY PERSISTENT HYPERGLYCEMIA. ITS TWO MOST COMMON FORMS ARE TYPE 1 DIABETES (T1D) AND TYPE 2 DIABETES (T2D), FOR WHICH GENETIC AND ENVIRONMENTAL RISK FACTORS ACT IN SYNERGY. BECAUSE IT OCCURS IN CHILDREN AND INVOLVES INFECTIOUS, AUTOIMMUNE OR TOXIC DESTRUCTION OF THE INSULIN-SECRETING PANCREATIC BETA-CELLS, TYPE 1 DIABETES HAS BEEN CALLED JUVENILE OR INSULIN-DEFICIENT DIABETES. IN TYPE 2, PATIENTS CAN STILL SECRETE SOME INSULIN BUT ITS EFFECTIVENESS MAY BE ATTENUATED BY 'INSULIN RESISTANCE.' THERE IS ALSO A GROUP OF RARE FORMS OF DIABETES IN THE YOUNG WHICH ARE INHERITED AS MONOGENETIC DISEASES. WHETHER ONE CALLS THE UNDERLYING PROCESS 'GENES VS. ENVIRONMENT' OR 'NATURE VS NURTURE', DIABETES OCCURS AT THE INTERFACE OF THE TWO DOMAINS. TOGETHER WITH OUR GENETIC BACKGROUND WE ARE BORN TABULA RASA-A BLANK SLATE UPON WHICH THE STORY OF LIFE, WITH ALL ITS ENVIRONMENTAL INPUTS WILL BE WRITTEN. THERE IS ONE PROVISO: THE INFLUENCE OF EPIGENETIC INHERITANCE MUST ALSO BE CONSIDERED. THUS, IN THE CREATION OF DATABASES THAT INCLUDE "BIG DATA" ORIGINATING FROM GENOMIC AS WELL AS EXPOSOME (DEFINED AS: THE TOTALITY OF ENVIRONMENTAL EXPOSURE FROM CONCEPTION TO DEATH), A BROAD PERSPECTIVE IS CRUCIAL AS THESE FACTORS ACT IN CONCERT IN SUCH CHRONIC ILLNESSES AS DIABETES THAT, FOR EXAMPLE, ARE LIKELY TO REQUIRE ADOPTION OF AN APPROPRIATE LIFESTYLE CHANGE. ALSO, IT IS BECOMING INCREASINGLY EVIDENT THAT EPIGENETIC FACTORS CAN MODULATE THE INTERPLAY BETWEEN GENES AND ENVIRONMENT. CONSEQUENTLY, THROUGHOUT THE LIFE OF AN INDIVIDUAL NATURE AND NURTURE INTERACT IN A COMPLEX MANNER IN THE DEVELOPMENT OF DIABETES. THIS REVIEW ADDRESSES THE QUESTION OF THE CONTRIBUTION OF GENE AND ENVIRONMENT AND THEIR INTERACTIONS IN THE DEVELOPMENT OF DIABETES. 2019 7 6557 23 TRANSGENERATIONAL EPIGENETIC INHERITANCE OF DIABETES RISK AS A CONSEQUENCE OF EARLY NUTRITIONAL IMBALANCES. IN TODAY'S WORLD, THERE IS AN UNPRECEDENTED RISE IN THE PREVALENCE OF CHRONIC METABOLIC DISEASES, INCLUDING OBESITY, INSULIN RESISTANCE AND TYPE 2 DIABETES (T2D). THE PATHOGENESIS OF T2D INCLUDES BOTH GENETIC AND ENVIRONMENTAL FACTORS, SUCH AS EXCESSIVE ENERGY INTAKE AND PHYSICAL INACTIVITY. IT HAS RECENTLY BEEN SUGGESTED THAT ENVIRONMENTAL FACTORS EXPERIENCED DURING EARLY STAGES OF DEVELOPMENT, INCLUDING THE INTRAUTERINE AND NEONATAL PERIODS, MIGHT PLAY A MAJOR ROLE IN PREDISPOSING INDIVIDUALS TO T2D. FURTHERMORE, SEVERAL STUDIES HAVE SHOWN THAT SUCH EARLY ENVIRONMENTAL CONDITIONS MIGHT EVEN CONTRIBUTE TO DISEASE RISK IN FURTHER GENERATIONS. IN THIS REVIEW, WE SUMMARISE RECENT DATA DESCRIBING HOW PARENTAL NUTRITION DURING DEVELOPMENT INCREASES THE RISK OF DIABETES IN THE OFFSPRING. WE ALSO DISCUSS THE POTENTIAL MECHANISMS UNDERLYING TRANSGENERATIONAL INHERITANCE OF METABOLIC DISEASE, WITH PARTICULAR EMPHASIS ON EPIGENETIC MECHANISMS. 2016 8 46 31 A CONCEPTUAL FRAMEWORK FOR THE DEVELOPMENTAL ORIGINS OF HEALTH AND DISEASE. IN THE LAST DECADES, THE DEVELOPMENTAL ORIGINS OF HEALTH AND DISEASE (DOHAD) HAVE EMERGED AS A VIGOROUS FIELD COMBINING EXPERIMENTAL, CLINICAL, EPIDEMIOLOGICAL AND PUBLIC HEALTH RESEARCH. ITS GOAL IS TO UNDERSTAND HOW EVENTS IN EARLY LIFE SHAPE LATER MORBIDITY RISK, ESPECIALLY OF NON-COMMUNICABLE CHRONIC DISEASES. AS THESE DISEASES BECOME THE MAJOR CAUSE OF MORBIDITY AND MORTALITY WORLDWIDE, RESEARCH ARISING FROM DOHAD IS LIKELY TO GAIN SIGNIFICANCE TO PUBLIC HEALTH AND ECONOMIC DEVELOPMENT. BUT ACTION MAY BE HINDERED BY THE LACK OF A FIRM MECHANISTIC EXPLANATION AND OF A CONCEPTUAL BASIS, ESPECIALLY REGARDING THE EVOLUTIONARY SIGNIFICANCE OF THE DOHAD PHENOMENON. IN THIS ARTICLE, WE PROVIDE A SUCCINCT HISTORICAL REVIEW OF THE RESEARCH INTO THE RELATIONSHIP BETWEEN DEVELOPMENT AND LATER DISEASE, CONSIDER THE EVOLUTIONARY AND DEVELOPMENTAL SIGNIFICANCE AND DISCUSS THE UNDERLYING MECHANISMS OF THE DOHAD PHENOMENON. DOHAD SHOULD BE VIEWED AS A PART OF A BROADER BIOLOGICAL MECHANISM OF PLASTICITY BY WHICH ORGANISMS, IN RESPONSE TO CUES SUCH AS NUTRITION OR HORMONES, ADAPT THEIR PHENOTYPE TO ENVIRONMENT. THESE RESPONSES MAY BE DIVIDED INTO THOSE FOR IMMEDIATE BENEFIT AND THOSE AIMED AT PREDICTION OF A FUTURE ENVIRONMENT: DISEASE OCCURS IN THE MISMATCH BETWEEN PREDICTED AND REALIZED FUTURE. THE LIKELY MECHANISMS THAT ENABLE PLASTICITY INVOLVE EPIGENETIC PROCESSES, AFFECTING THE EXPRESSION OF GENES ASSOCIATED WITH REGULATORY PATHWAYS. THERE IS NOW EVIDENCE THAT EPIGENETIC MARKS MAY BE INHERITED AND SO CONTRIBUTE TO NON-GENOMIC HERITABLE DISEASE RISK. WE END BY DISCUSSING THE GLOBAL SIGNIFICANCE OF THE DOHAD PHENOMENON AND ITS POTENTIAL APPLICATIONS FOR PUBLIC HEALTH PURPOSES. 2010 9 1922 20 ENVIRONMENTAL EPIGENETIC INTERACTION OF GAMETES AND EARLY EMBRYOSDAGGER. IN RECENT YEARS, THE DEVELOPMENTAL ORIGINS OF DISEASES HAVE BEEN INCREASINGLY RECOGNIZED AND ACCEPTED. AS SUCH, IT HAS BEEN SUGGESTED THAT MOST ADULTHOOD CHRONIC DISEASES SUCH AS DIABETES, OBESITY, CARDIOVASCULAR DISEASE, AND EVEN TUMORS MAY DEVELOP AT A VERY EARLY STAGE. IN ADDITION TO INTRAUTERINE ENVIRONMENTAL EXPOSURE, GERM CELLS CARRY AN IMPORTANT INHERITANCE ROLE AS THE PRIMARY LINK BETWEEN THE TWO GENERATIONS. ADVERSE EXTERNAL INFLUENCES DURING DIFFERENTIATION AND DEVELOPMENT CAN CAUSE DAMAGE TO GERM CELLS, WHICH MAY THEN INCREASE THE RISK OF CHRONIC DISEASE DEVELOPMENT LATER IN LIFE. HERE, WE FURTHER ELUCIDATE AND CLARIFY THE CONCEPT OF GAMETE AND EMBRYO ORIGINS OF ADULT DISEASES BY FOCUSING ON THE ENVIRONMENTAL INSULTS ON GERM CELLS, FROM DIFFERENTIATION TO MATURATION AND FERTILIZATION. 2022 10 1921 28 ENVIRONMENTAL EPIGENETIC INHERITANCE THROUGH GAMETES AND IMPLICATIONS FOR HUMAN REPRODUCTION. BACKGROUND: TRADITIONAL STUDIES FOCUSED ON DNA AS THE HERITABLE INFORMATION CARRIER THAT PASSES THE PHENOTYPE FROM PARENTS TO OFFSPRING. HOWEVER, INCREASING EVIDENCE SUGGESTS THAT INFORMATION, THAT IS INDEPENDENT OF THE DNA SEQUENCE, TERMED EPIGENETIC INFORMATION, CAN BE INHERITED BETWEEN GENERATIONS. RECENTLY, IN OUR LAB, WE FOUND THAT PREDIABETES IN FATHERS INCREASES THE SUSCEPTIBILITY TO DIABETES IN OFFSPRING THROUGH GAMETIC CYTOSINE METHYLATION CHANGES. PATERNAL PREDIABETES CHANGED OVERALL METHYLATION PATTERNS IN SPERM, AND A LARGE PORTION OF DIFFERENTIALLY METHYLATED LOCI CAN BE TRANSMITTED TO PANCREATIC ISLETS OF OFFSPRING UP TO THE SECOND GENERATION. IN THIS REVIEW, WE SURVEY THE EXTENSIVE EXAMPLES OF ENVIRONMENTALLY INDUCED EPIGENETIC INHERITANCE IN VARIOUS SPECIES, RANGING FROM CAENORHABDITIS ELEGANS TO HUMANS. WE FOCUS MAINLY ON ELUCIDATING THE MOLECULAR BASIS OF ENVIRONMENTAL EPIGENETIC INHERITANCE THROUGH GAMETES, WHICH IS AN EMERGING THEME AND HAS IMPORTANT IMPLICATIONS FOR EXPLAINING THE PREVALENCE OF OBESITY, TYPE 2 DIABETES AND OTHER CHRONIC NON-GENETIC DISEASES, WHICH IS ALSO IMPORTANT FOR UNDERSTANDING THE INFLUENCE OF ENVIRONMENTAL EXPOSURES ON REPRODUCTIVE AND OVERALL HEALTH IN OFFSPRING. METHODS: FOR THIS REVIEW, WE INCLUDED RELEVANT DATA AND INFORMATION OBTAINED THROUGH A PUBMED DATABASE SEARCH FOR ALL ENGLISH LANGUAGE ARTICLES PUBLISHED UP TO AUGUST 2014 WHICH INCLUDED THE TERM 'ENVIRONMENTAL EPIGENETIC INHERITANCE' AND 'TRANSGENERATIONAL EPIGENETIC INHERITANCE'. WE FOCUSED ON RESEARCH PAPERS USING ANIMAL MODELS INCLUDING DROSOPHILA, C. ELEGANS, MOUSE AND RAT. HUMAN DATA WERE ALSO INCLUDED. RESULTS: EVIDENCE FROM ANIMAL MODELS SUGGESTS THAT ENVIRONMENTAL EPIGENETIC INHERITANCE THROUGH GAMETES EXISTS IN VARIOUS SPECIES. EXTENSIVE MOLECULAR EVIDENCE SUGGESTS THAT EPIGENETIC INFORMATION CARRIERS INCLUDING DNA METHYLATION, NON-CODING RNAS AND CHROMATIN PROTEINS IN GAMETES PLAY IMPORTANT ROLES IN THE TRANSMISSION OF PHENOTYPES FROM PARENTS TO OFFSPRING. CONCLUSIONS: GIVEN THE LARGE NUMBER OF EXPERIMENTAL EVIDENCE FROM VARIOUS ORGANISMS, IT IS CLEAR THAT PARENTAL ENVIRONMENTAL ALTERATIONS CAN AFFECT THE PHENOTYPES OF OFFSPRING THROUGH GAMETIC EPIGENETIC ALTERATIONS. THIS MORE RECENT THINKING BASED ON NEW DATA MAY HAVE IMPLICATIONS IN EXPLAINING THE PREVALENCE OF OBESITY, TYPE 2 DIABETES AND OTHER CHRONIC NON-GENETIC DISEASES. THIS ALSO IMPLIES THAT, IN THE NEAR FUTURE, EPIGENETIC FACTORS WHICH ARE HERITABLE SHOULD BE REGARDED IMPORTANT IN DETERMINING THE RISK OF CERTAIN DISEASES. MOREOVER, IDENTIFICATION OF EPIGENETIC MARKERS IN GAMETES (POLAR BODY OR SPERM) MAY HOLD GREAT PROMISE FOR PREDICTING SUSCEPTIBILITY TO AND PREVENTING CERTAIN NON-GENETIC DISEASES IN OFFSPRING, AS WELL AS PROVIDING INDICATIONS ON PARENTAL ENVIRONMENTAL EXPOSURES. 2015 11 3511 27 IDIOPATHIC ENVIRONMENTAL INTOLERANCES (IEI): FROM MOLECULAR EPIDEMIOLOGY TO MOLECULAR MEDICINE. INHERITED OR ACQUIRED IMPAIRMENT OF XENOBIOTICS METABOLISM IS A POSTULATED MECHANISM UNDERLYING ENVIRONMENT-ASSOCIATED PATHOLOGIES SUCH AS MULTIPLE CHEMICAL SENSITIVITY, FIBROMYALGIA, CHRONIC FATIGUE SYNDROME, DENTAL AMALGAM DISEASE, AND OTHERS, ALSO COLLECTIVELY NAMED IDIOPATHIC ENVIRONMENTAL INTOLERANCES (IEI). IN VIEW OF THE POOR CURRENT KNOWLEDGE OF THEIR ETIOLOGY AND PATHOGENESIS, AND THE ABSENCE OF RECOGNISED GENETIC AND METABOLIC MARKERS OF THE DISEASES. THEY ARE OFTEN CONSIDERED "MEDICALLY UNEXPLAINED SYNDROMES",. THESE DISABLING CONDITIONS SHARE THE FEATURES OF POLYSYMPTOMATIC MULTI-ORGAN SYNDROMES, CONSIDERED BY PART OF THE MEDICAL COMMUNITY TO BE ABERRANT RESPONSES TRIGGERED BY EXPOSURE TO LOW-DOSE ORGANIC AND INORGANIC CHEMICALS AND METALS, IN CONCENTRATIONS FAR BELOW AVERAGE REFERENCE LEVELS ADMITTED FOR ENVIRONMENTAL TOXICANTS. A GENETIC PREDISPOSITION TO ALTERED BIOTRANSFORMATION OF ENVIRONMENTAL CHEMICALS, DRUGS, AND METALS, AND OF ENDOGENOUS LOW-MOLECULAR WEIGHT METABOLITES, CAUSED BY POLYMORPHISMS OF GENES CODING FOR XENOBIOTIC METABOLIZING ENZYMES, THEIR RECEPTORS AND TRANSCRIPTION FACTORS APPEARS TO BE INVOLVED IN THE SUSCEPTIBILITY TO THESE ENVIRONMENT-ASSOCIATED PATHOLOGIES, ALONG WITH EPIGENETIC FACTORS. FREE RADICAL/ANTIOXIDANT HOMEOSTASIS MAY ALSO BE HEAVILY IMPLICATED, INDIRECTLY BY AFFECTING THE REGULATION OF XENOBIOTIC METABOLIZING ENZYMES, AND DIRECTLY BY CAUSING INCREASED LEVELS OF OXIDATIVE PRODUCTS, IMPLICATED IN THE CHRONIC DAMAGE OF CELLS AND TISSUES, WHICH IS IN PART CORRELATED WITH CLINICAL SYMPTOMS. MORE SYSTEMATIC STUDIES OF MOLECULAR EPIDEMIOLOGY, TOXICO- AND PHARMACO-GENOMICS, ELUCIDATING THE MECHANISMS OF REGULATION, EXPRESSION, INDUCTION, AND ACTIVITY OF ANTIOXIDANT/DETOXIFYING ENZYMES, AND THE POSSIBLE ROLE OF INFLAMMATORY MEDIATORS, PROMISE A BETTER UNDERSTANDING OF THIS PATHOLOGICALLY INCREASED SENSITIVITY TO LOW-LEVEL CHEMICAL STIMULI, AND A SOLID BASIS FOR EFFECTIVE INDIVIDUALIZED ANTIOXIDANT- AND/OR CHELATOR-BASED TREATMENTS. 2010 12 6225 25 THE LINK AMONG MICROBIOTA, EPIGENETICS, AND DISEASE DEVELOPMENT. THE MICROBIOME IS A COMMUNITY OF VARIOUS MICROORGANISMS THAT INHABIT OR LIVE ON THE SKIN OF HUMANS/ANIMALS, SHARING THE BODY SPACE WITH THEIR HOSTS. IT IS A SORT OF COMPLEX ECOSYSTEM OF TRILLIONS OF COMMENSALS, SYMBIOTIC, AND PATHOGENIC MICROORGANISMS, INCLUDING TRILLIONS OF BACTERIA, ARCHAEA, PROTOZOA, FUNGI, AND VIRUSES. THE MICROBIOTA PLAYS A ROLE IN THE HEALTH AND DISEASE STATUS OF THE HOST. THEIR NUMBER, SPECIES DOMINANCE, AND VIABILITY ARE DYNAMIC. THEIR LONG-TERM DISTURBANCE IS USUALLY ACCOMPANIED BY SERIOUS DISEASES SUCH AS METABOLIC DISORDERS, CARDIOVASCULAR DISEASES, OR EVEN CANCER. WHILE EPIGENETICS IS A TERM THAT REFERS TO DIFFERENT STIMULI THAT INDUCE MODIFICATIONS IN GENE EXPRESSION PATTERNS WITHOUT STRUCTURAL CHANGES IN THE INHERITED DNA SEQUENCE, THESE CHANGES CAN BE REVERSIBLE OR EVEN PERSIST FOR SEVERAL GENERATIONS. EPIGENETICS CAN BE DESCRIBED AS CELL MEMORY THAT STORES EXPERIENCE AGAINST INTERNAL AND EXTERNAL FACTORS. RESULTS FROM MULTIPLE INSTITUTIONS HAVE CONTRIBUTED TO THE ROLE AND CLOSE INTERACTION OF BOTH MICROBIOTA AND EPIGENETICS IN DISEASE INDUCTION. UNDERSTANDING THE MECHANISMS OF BOTH PLAYERS ENABLES A BETTER UNDERSTANDING OF DISEASE INDUCTION AND DEVELOPMENT AND ALSO OPENS THE HORIZON TO REVOLUTIONARY THERAPEUTIC APPROACHES. THE PRESENT REVIEW ILLUSTRATES THE ROLES OF DIET, MICROBIOME, AND EPIGENETICS IN THE INDUCTION OF SEVERAL CHRONIC DISEASES. IN ADDITION, IT DISCUSSES THE APPLICATION OF EPIGENETIC DATA TO DEVELOP DIAGNOSTIC BIOMARKERS AND THERAPEUTICS AND EVALUATE THEIR SAFETY FOR PATIENTS. UNDERSTANDING THE INTERACTION AMONG ALL THESE ELEMENTS ENABLES THE DEVELOPMENT OF INNOVATIVE PREVENTIVE/THERAPEUTIC APPROACHES FOR DISEASE CONTROL. 2021 13 2560 28 EPIGENETICS IN THE DEVELOPMENT, MODIFICATION, AND PREVENTION OF CARDIOVASCULAR DISEASE. EPIGENETICS HAS MAJOR RELEVANCE TO ALL DISEASE PROCESSES; CARDIOVASCULAR (CV) DISEASE AND ITS RELATED CONDITIONS ARE NO EXCEPTION. EPIGENETICS IS DEFINED AS THE STUDY OF HERITABLE ALTERATIONS IN GENE EXPRESSION, OR CELLULAR PHENOTYPE, AND GOES FAR BEYOND A PURE GENETIC APPROACH. A MORE PRECISE DEFINITION IS THAT EPIGENETICS REPRESENTS ALL THE MEIOTICALLY AND MITOTICALLY INHERITED CHANGES IN GENE EXPRESSION THAT ARE NOT ENCODED ON THE DEOXYRIBONUCLEIC ACID (DNA) SEQUENCE ITSELF. MAJOR EPIGENETIC MECHANISMS ARE MODIFICATIONS OF HISTONE PROTEINS IN CHROMATIN AND DNA METHYLATION (WHICH DOES NOT ALTER THE DNA SEQUENCE). THERE IS INCREASING EVIDENCE FOR THE INVOLVEMENT OF EPIGENETICS IN HUMAN DISEASE SUCH AS CANCER, INFLAMMATORY DISEASE AND CV DISEASE. OTHER CHRONIC DISEASES ARE ALSO SUSCEPTIBLE TO EPIGENETIC MODIFICATION SUCH AS METABOLIC DISEASES INCLUDING OBESITY, METABOLIC SYNDROME, AND DIABETES MELLITUS. THERE IS MUCH EVIDENCE FOR THE MODIFICATION OF EPIGENETICS BY NUTRITION AND EXERCISE. THROUGH THESE MODIFICATIONS, THERE IS INFINITE POTENTIAL FOR BENEFIT FOR THE FETUS, THE NEWBORN, AND THE INDIVIDUAL AS WELL AS POPULATION EFFECTS. ASSOCIATION WITH CV DISEASE, INCLUDING CORONARY HEART DISEASE AND PERIPHERAL VASCULAR DISEASE, IS EVIDENT THROUGH EPIGENETIC RELATIONSHIPS AND MODIFICATION BY MAJOR CV RISK FACTORS SUCH AS TOBACCO ABUSE. AGING ITSELF MAY BE ALTERED BY EPIGENETIC MODIFICATION. KNOWLEDGE OF EPIGENETICS AND ITS RELEVANCE TO THE DEVELOPMENT, MODIFICATION, AND PREVENTION OF CV DISEASE IS IN A VERY PRELIMINARY STAGE BUT HAS AN INFINITE FUTURE. 2015 14 1748 31 EARLY LIFE EVENTS AND THEIR CONSEQUENCES FOR LATER DISEASE: A LIFE HISTORY AND EVOLUTIONARY PERSPECTIVE. BIOMEDICAL SCIENCE HAS LITTLE CONSIDERED THE RELEVANCE OF LIFE HISTORY THEORY AND EVOLUTIONARY AND ECOLOGICAL DEVELOPMENTAL BIOLOGY TO CLINICAL MEDICINE. HOWEVER, THE OBSERVATIONS THAT EARLY LIFE INFLUENCES CAN ALTER LATER DISEASE RISK--THE "DEVELOPMENTAL ORIGINS OF HEALTH AND DISEASE" (DOHAD) PARADIGM--HAVE LED TO A RECOGNITION THAT THESE PERSPECTIVES CAN INFORM OUR UNDERSTANDING OF HUMAN BIOLOGY. WE PROPOSE THAT THE DOHAD PHENOMENON CAN BE CONSIDERED AS A SUBSET OF THE BROADER PROCESSES OF DEVELOPMENTAL PLASTICITY BY WHICH ORGANISMS ADAPT TO THEIR ENVIRONMENT DURING THEIR LIFE COURSE. SUCH ADAPTIVE PROCESSES ALLOW GENOTYPIC VARIATION TO BE PRESERVED THROUGH TRANSIENT ENVIRONMENTAL CHANGES. CUES FOR PLASTICITY OPERATE PARTICULARLY DURING EARLY DEVELOPMENT; THEY MAY AFFECT A SINGLE ORGAN OR SYSTEM, BUT GENERALLY THEY INDUCE INTEGRATED ADJUSTMENTS IN THE MATURE PHENOTYPE, A PROCESS UNDERPINNED BY EPIGENETIC MECHANISMS AND INFLUENCED BY PREDICTION OF THE MATURE ENVIRONMENT. IN MAMMALS, AN ADVERSE INTRAUTERINE ENVIRONMENT RESULTS IN AN INTEGRATED SUITE OF RESPONSES, SUGGESTING THE INVOLVEMENT OF A FEW KEY REGULATORY GENES, THAT RESETS THE DEVELOPMENTAL TRAJECTORY IN EXPECTATION OF POOR POSTNATAL CONDITIONS. MISMATCH BETWEEN THE ANTICIPATED AND THE ACTUAL MATURE ENVIRONMENT EXPOSES THE ORGANISM TO RISK OF ADVERSE CONSEQUENCES-THE GREATER THE MISMATCH, THE GREATER THE RISK. FOR HUMANS, PREDICTION IS INACCURATE FOR MANY INDIVIDUALS BECAUSE OF CHANGES IN THE POSTNATAL ENVIRONMENT TOWARD ENERGY-DENSE NUTRITION AND LOW ENERGY EXPENDITURE, CONTRIBUTING TO THE EPIDEMIC OF CHRONIC NONCOMMUNICABLE DISEASE. THIS VIEW OF HUMAN DISEASE FROM THE PERSPECTIVES OF LIFE HISTORY BIOLOGY AND EVOLUTIONARY THEORY OFFERS NEW APPROACHES TO PREVENTION, DIAGNOSIS AND INTERVENTION. 2007 15 1738 29 EARLY DEVELOPMENTAL CONDITIONING OF LATER HEALTH AND DISEASE: PHYSIOLOGY OR PATHOPHYSIOLOGY? EXTENSIVE EXPERIMENTAL ANIMAL STUDIES AND EPIDEMIOLOGICAL OBSERVATIONS HAVE SHOWN THAT ENVIRONMENTAL INFLUENCES DURING EARLY DEVELOPMENT AFFECT THE RISK OF LATER PATHOPHYSIOLOGICAL PROCESSES ASSOCIATED WITH CHRONIC, ESPECIALLY NONCOMMUNICABLE, DISEASE (NCD). THIS FIELD IS RECOGNIZED AS THE DEVELOPMENTAL ORIGINS OF HEALTH AND DISEASE (DOHAD). WE DISCUSS THE EXTENT TO WHICH DOHAD REPRESENTS THE RESULT OF THE PHYSIOLOGICAL PROCESSES OF DEVELOPMENTAL PLASTICITY, WHICH MAY HAVE POTENTIAL ADVERSE CONSEQUENCES IN TERMS OF NCD RISK LATER, OR WHETHER IT IS THE MANIFESTATION OF PATHOPHYSIOLOGICAL PROCESSES ACTING IN EARLY LIFE BUT ONLY BECOMING APPARENT AS DISEASE LATER. WE ARGUE THAT THE EVIDENCE SUGGESTS THE FORMER, THROUGH THE OPERATION OF CONDITIONING PROCESSES INDUCED ACROSS THE NORMAL RANGE OF DEVELOPMENTAL ENVIRONMENTS, AND WE SUMMARIZE CURRENT KNOWLEDGE OF THE PHYSIOLOGICAL PROCESSES INVOLVED. THE ADAPTIVE PATHWAY TO LATER RISK ACCORDS WITH CURRENT CONCEPTS IN EVOLUTIONARY DEVELOPMENTAL BIOLOGY, ESPECIALLY THOSE CONCERNING PARENTAL EFFECTS. OUTSIDE THE NORMAL RANGE, EFFECTS ON DEVELOPMENT CAN RESULT IN NONADAPTIVE PROCESSES, AND WE REVIEW THEIR UNDERLYING MECHANISMS AND CONSEQUENCES. NEW CONCEPTS CONCERNING THE UNDERLYING EPIGENETIC AND OTHER MECHANISMS INVOLVED IN BOTH DISRUPTIVE AND NONDISRUPTIVE PATHWAYS TO DISEASE ARE REVIEWED, INCLUDING THE EVIDENCE FOR TRANSGENERATIONAL PASSAGE OF RISK FROM BOTH MATERNAL AND PATERNAL LINES. THESE CONCEPTS HAVE WIDER IMPLICATIONS FOR UNDERSTANDING THE CAUSES AND POSSIBLE PREVENTION OF NCDS SUCH AS TYPE 2 DIABETES AND CARDIOVASCULAR DISEASE, FOR BROADER SOCIAL POLICY AND FOR THE INCREASING ATTENTION PAID IN PUBLIC HEALTH TO THE LIFECOURSE APPROACH TO NCD PREVENTION. 2014 16 6197 28 THE IMPACT OF TRADITIONAL FOOD AND LIFESTYLE BEHAVIOR ON EPIGENETIC BURDEN OF CHRONIC DISEASE. NONCOMMUNICABLE CHRONIC DISEASES (NCCDS) ARE THE LEADING CAUSES OF MORBIDITY AND MORTALITY GLOBALLY. THE MISMATCH BETWEEN PRESENT DAY DIETS AND ANCESTRAL GENOME IS SUGGESTED TO CONTRIBUTE TO THE NCCDS BURDEN, WHICH IS PROMOTED BY TRADITIONAL RISK FACTORS LIKE UNHEALTHY DIETS, PHYSICAL INACTIVITY, ALCOHOL AND TOBACCO. HOWEVER, EPIGENETIC EVIDENCE NOW SUGGESTS THAT CUMULATIVELY INHERITED EPIGENETIC MODIFICATIONS MAY HAVE MADE HUMANS MORE PRONE TO THE EFFECTS OF PRESENT DAY LIFESTYLE FACTORS. PERINATAL STARVATION WAS WIDESPREAD IN THE 19TH CENTURY. THIS TOGETHER WITH MORE RECENT EVENTS LIKE INCREASING CONSUMPTION OF WESTERN AND LOW FIBER DIETS, SMOKING, HARMFUL USE OF ALCOHOL, PHYSICAL INACTIVITY, AND ENVIRONMENTAL POLLUTANTS MAY HAVE PROGRAMED THE HUMAN EPIGENOME FOR HIGHER NCCDS RISK. IN THIS REVIEW, ON THE BASIS OF AVAILABLE EPIGENETIC DATA IT IS HYPOTHESIZED THAT TRANSGENERATIONAL EFFECTS OF LIFESTYLE FACTORS MAY BE CONTRIBUTING TO THE CURRENT GLOBAL BURDEN OF NCCDS. THUS, THERE IS A NEED TO RECONSIDER PREVENTION STRATEGIES SO THAT THE SUBSEQUENT GENERATIONS WILL NOT HAVE TO PAY FOR OUR SINS AND THOSE OF OUR ANCESTORS. 2017 17 4793 24 NUTRITIONAL FACTORS, DNA METHYLATION, AND RISK OF TYPE 2 DIABETES AND OBESITY: PERSPECTIVES AND CHALLENGES. A HEALTHY DIET IMPROVES LIFE EXPECTANCY AND HELPS TO PREVENT COMMON CHRONIC DISEASES SUCH AS TYPE 2 DIABETES (T2D) AND OBESITY. THE MECHANISMS DRIVING THESE EFFECTS ARE NOT FULLY UNDERSTOOD, BUT ARE LIKELY TO INVOLVE EPIGENETICS. EPIGENETIC MECHANISMS CONTROL GENE EXPRESSION, MAINTAINING THE DNA SEQUENCE, AND THEREFORE THE FULL GENOMIC INFORMATION INHERITED FROM OUR PARENTS, UNCHANGED. AN INTERESTING FEATURE OF EPIGENETIC CHANGES LIES IN THEIR DYNAMIC NATURE AND REVERSIBILITY. ACCORDINGLY, THEY ARE SUSCEPTIBLE TO CORRECTION THROUGH TARGETED INTERVENTIONS. HERE WE WILL REVIEW THE EVIDENCE SUPPORTING A ROLE FOR NUTRITIONAL FACTORS IN MEDIATING METABOLIC DISEASE RISK THROUGH DNA METHYLATION CHANGES. SPECIAL EMPHASIS WILL BE PLACED ON THE POTENTIAL OF USING DNA METHYLATION TRAITS AS BIOMARKERS TO PREDICT RISK OF OBESITY AND T2D AS WELL AS ON THEIR RESPONSE TO DIETARY AND PHARMACOLOGICAL (EPI-DRUG) INTERVENTIONS. 2019 18 6350 21 THE ROLE OF EPIGENOMICS IN AQUATIC TOXICOLOGY. OVER THE PAST DECADE, THE FIELD OF MOLECULAR BIOLOGY HAS RAPIDLY INCORPORATED EPIGENETIC STUDIES TO EVALUATE ORGANISM-ENVIRONMENT INTERACTIONS THAT CAN RESULT IN CHRONIC EFFECTS. SUCH RESPONSES ARISE FROM EARLY LIFE STAGE STRESS, THE UTILIZATION OF GENETIC INFORMATION OVER AN INDIVIDUAL'S LIFE TIME, AND TRANSGENERATIONAL INHERITANCE. KNOWLEDGE OF EPIGENETIC MECHANISMS PROVIDES THE POTENTIAL FOR A COMPREHENSIVE EVALUATION OF MULTIGENERATIONAL AND HERITABLE EFFECTS FROM ENVIRONMENTAL STRESSORS, SUCH AS CONTAMINANTS. FOCUSED STUDIES HAVE PROVIDED A GREATER UNDERSTANDING OF HOW MANY RESPONSES TO ENVIRONMENTAL STRESSORS ARE DRIVEN BY EPIGENETIC MODIFIERS. WE DISCUSS THE PROMISE OF EPIGENETICS AND SUGGEST FUTURE RESEARCH DIRECTIONS WITHIN THE FIELD OF AQUATIC TOXICOLOGY, WITH A PARTICULAR FOCUS ON THE POTENTIAL FOR IDENTIFYING KEY HERITABLE MARKS WITH CONSEQUENTIAL IMPACTS AT THE ORGANISM AND POPULATION LEVELS. ENVIRON TOXICOL CHEM 2017;36:2565-2573. (C) 2017 SETAC. 2017 19 1375 22 DEVELOPMENTAL PROGRAMMING OF ADULT HAEMATOPOIESIS SYSTEM. THE BARKER HYPOTHESIS OF 'FOETAL ORIGIN OF ADULT DISEASES' HAS LED TO EMPHASIZE THE CONCEPT OF 'DEVELOPMENTAL PROGRAMMING', BASED ON THE CRUCIAL ROLE OF EPIGENETIC FACTORS. ACCORDINGLY, IT HAS BEEN DEMONSTRATED THAT PARENTAL ADVERSITY (BEFORE CONCEPTION AND DURING PREGNANCY) AND FOETAL FACTORS (I.E., HYPOXIA, MALNUTRITION AND PLACENTAL INSUFFICIENCY) PERMANENTLY MODIFY THE PHYSIOLOGICAL SYSTEMS OF THE PROGENY, PREDISPOSING THEM TO PREMATURE AGEING AND CHRONIC DISEASE DURING ADULTHOOD. THUS, AN ALTERED FUNCTIONALITY OF THE ENDOCRINE, IMMUNE, NERVOUS AND CARDIOVASCULAR SYSTEMS IS OBSERVED IN THE PROGENY. HOWEVER, IT REMAINS TO BE UNDERSTOOD WHETHER THE HAEMATOPOIETIC SYSTEM ITSELF ALSO REPRESENTS A PORTRAIT OF FOETAL PROGRAMMING. HERE, WE PROVIDE EVIDENCE, REPORTING AND DISCUSSING RELATED THEORIES, AND RESULTS OF STUDIES DESCRIBED IN THE LITERATURE. IN ADDITION, WE HAVE OUTLINED OUR OPINIONS AND SUGGEST HOW IT IS POSSIBLE TO INTERVENE TO CORRECT FOETAL MAL-PROGRAMMING. SOME PRO-HEALTH INTERVENTIONS AND RECOMMENDATIONS ARE PROPOSED, WITH THE HOPE OF GUARANTEE THE HEALTH OF FUTURE GENERATIONS AND TRYING TO COMBAT THE CONTINUOUS INCREASE IN AGE-RELATED DISEASES IN HUMAN POPULATIONS. 2019 20 2184 27 EPIGENETIC MECHANISMS THAT UNDERPIN METABOLIC AND CARDIOVASCULAR DISEASES. CELLULAR COMMITMENT TO A SPECIFIC LINEAGE IS CONTROLLED BY DIFFERENTIAL SILENCING OF GENES, WHICH IN TURN DEPENDS ON EPIGENETIC PROCESSES SUCH AS DNA METHYLATION AND HISTONE MODIFICATION. DURING EARLY EMBRYOGENESIS, THE MAMMALIAN GENOME IS 'WIPED CLEAN' OF MOST EPIGENETIC MODIFICATIONS, WHICH ARE PROGRESSIVELY RE-ESTABLISHED DURING EMBRYONIC DEVELOPMENT. THUS, THE EPIGENOME OF EACH MATURE CELLULAR LINEAGE CARRIES THE RECORD OF ITS DEVELOPMENTAL HISTORY. THE SUBSEQUENT TRAJECTORY AND PATTERN OF DEVELOPMENT ARE ALSO RESPONSIVE TO ENVIRONMENTAL INFLUENCES, AND SUCH PLASTICITY IS LIKELY TO HAVE AN EPIGENETIC BASIS. EPIGENETIC MARKS MAY BE TRANSMITTED ACROSS GENERATIONS, EITHER DIRECTLY BY PERSISTING THROUGH MEIOSIS OR INDIRECTLY THROUGH REPLICATION IN THE NEXT GENERATION OF THE CONDITIONS IN WHICH THE EPIGENETIC CHANGE OCCURRED. DEVELOPMENTAL PLASTICITY EVOLVED TO MATCH AN ORGANISM TO ITS ENVIRONMENT, AND A MISMATCH BETWEEN THE PHENOTYPIC OUTCOME OF ADAPTIVE PLASTICITY AND THE CURRENT ENVIRONMENT INCREASES THE RISK OF METABOLIC AND CARDIOVASCULAR DISEASE. THESE CONSIDERATIONS POINT TO EPIGENETIC PROCESSES AS A KEY MECHANISM THAT UNDERPINS THE DEVELOPMENTAL ORIGINS OF CHRONIC NONCOMMUNICABLE DISEASE. HERE, WE REVIEW THE EVIDENCE THAT ENVIRONMENTAL INFLUENCES DURING MAMMALIAN DEVELOPMENT LEAD TO STABLE CHANGES IN THE EPIGENOME THAT ALTER THE INDIVIDUAL'S SUSCEPTIBILITY TO CHRONIC METABOLIC AND CARDIOVASCULAR DISEASE, AND DISCUSS THE CLINICAL IMPLICATIONS. 2009