1 1352 160 DEVELOPMENT AND APPLICATION OF THE ADVERSE OUTCOME PATHWAY FRAMEWORK FOR UNDERSTANDING AND PREDICTING CHRONIC TOXICITY: I. CHALLENGES AND RESEARCH NEEDS IN ECOTOXICOLOGY. TO ELUCIDATE THE EFFECTS OF CHEMICALS ON POPULATIONS OF DIFFERENT SPECIES IN THE ENVIRONMENT, EFFICIENT TESTING AND MODELING APPROACHES ARE NEEDED THAT CONSIDER MULTIPLE STRESSORS AND ALLOW RELIABLE EXTRAPOLATION OF RESPONSES ACROSS SPECIES. AN ADVERSE OUTCOME PATHWAY (AOP) IS A CONCEPT THAT PROVIDES A FRAMEWORK FOR ORGANIZING KNOWLEDGE ABOUT THE PROGRESSION OF TOXICITY EVENTS ACROSS SCALES OF BIOLOGICAL ORGANIZATION THAT LEAD TO ADVERSE OUTCOMES RELEVANT FOR RISK ASSESSMENT. IN THIS PAPER, WE FOCUS ON EXPLORING HOW THE AOP CONCEPT CAN BE USED TO GUIDE RESEARCH AIMED AT IMPROVING BOTH OUR UNDERSTANDING OF CHRONIC TOXICITY, INCLUDING DELAYED TOXICITY AS WELL AS EPIGENETIC AND TRANSGENERATIONAL EFFECTS OF CHEMICALS, AND OUR ABILITY TO PREDICT ADVERSE OUTCOMES. A BETTER UNDERSTANDING OF THE INFLUENCE OF SUBTLE TOXICITY ON INDIVIDUAL AND POPULATION FITNESS WOULD SUPPORT A BROADER INTEGRATION OF SUBLETHAL ENDPOINTS INTO RISK ASSESSMENT FRAMEWORKS. DETAILED MECHANISTIC KNOWLEDGE WOULD FACILITATE THE DEVELOPMENT OF ALTERNATIVE TESTING METHODS AS WELL AS HELP PRIORITIZE HIGHER TIER TOXICITY TESTING. WE ARGUE THAT TARGETED DEVELOPMENT OF AOPS SUPPORTS BOTH OF THESE ASPECTS BY PROMOTING THE ELUCIDATION OF MOLECULAR MECHANISMS AND THEIR CONTRIBUTION TO RELEVANT TOXICITY OUTCOMES ACROSS BIOLOGICAL SCALES. WE FURTHER DISCUSS INFORMATION REQUIREMENTS AND CHALLENGES IN APPLICATION OF AOPS FOR CHEMICAL- AND SITE-SPECIFIC RISK ASSESSMENT AND FOR EXTRAPOLATION ACROSS SPECIES. WE PROVIDE RECOMMENDATIONS FOR POTENTIAL EXTENSION OF THE AOP FRAMEWORK TO INCORPORATE INFORMATION ON EXPOSURE, TOXICOKINETICS AND SITUATION-SPECIFIC ECOLOGICAL CONTEXTS, AND DISCUSS COMMON INTERFACES THAT CAN BE EMPLOYED TO COUPLE AOPS WITH COMPUTATIONAL MODELING APPROACHES AND WITH EVOLUTIONARY LIFE HISTORY THEORY. THE EXTENDED AOP FRAMEWORK CAN SERVE AS A VENUE FOR INTEGRATION OF KNOWLEDGE DERIVED FROM VARIOUS SOURCES, INCLUDING EMPIRICAL DATA AS WELL AS MOLECULAR, QUANTITATIVE AND EVOLUTIONARY-BASED MODELS DESCRIBING SPECIES RESPONSES TO TOXICANTS. THIS WILL ALLOW A MORE EFFICIENT APPLICATION OF AOP KNOWLEDGE FOR QUANTITATIVE CHEMICAL- AND SITE-SPECIFIC RISK ASSESSMENT AS WELL AS FOR EXTRAPOLATION ACROSS SPECIES IN THE FUTURE. 2015 2 6295 49 THE PROMISES AND CHALLENGES OF TOXICO-EPIGENOMICS: ENVIRONMENTAL CHEMICALS AND THEIR IMPACTS ON THE EPIGENOME. BACKGROUND: IT HAS BEEN ESTIMATED THAT A SUBSTANTIAL PORTION OF CHRONIC AND NONCOMMUNICABLE DISEASES CAN BE CAUSED OR EXACERBATED BY EXPOSURE TO ENVIRONMENTAL CHEMICALS. MULTIPLE LINES OF EVIDENCE INDICATE THAT EARLY LIFE EXPOSURE TO ENVIRONMENTAL CHEMICALS AT RELATIVELY LOW CONCENTRATIONS COULD HAVE LASTING EFFECTS ON INDIVIDUAL AND POPULATION HEALTH. ALTHOUGH THE POTENTIAL ADVERSE EFFECTS OF ENVIRONMENTAL CHEMICALS ARE KNOWN TO THE SCIENTIFIC COMMUNITY, REGULATORY AGENCIES, AND THE PUBLIC, LITTLE IS KNOWN ABOUT THE MECHANISTIC BASIS BY WHICH THESE CHEMICALS CAN INDUCE LONG-TERM OR TRANSGENERATIONAL EFFECTS. TO ADDRESS THIS QUESTION, EPIGENETIC MECHANISMS HAVE EMERGED AS THE POTENTIAL LINK BETWEEN GENETIC AND ENVIRONMENTAL FACTORS OF HEALTH AND DISEASE. OBJECTIVES: WE PRESENT AN OVERVIEW OF EPIGENETIC REGULATION AND A SUMMARY OF REPORTED EVIDENCE OF ENVIRONMENTAL TOXICANTS AS EPIGENETIC DISRUPTORS. WE ALSO DISCUSS THE ADVANTAGES AND CHALLENGES OF USING EPIGENETIC BIOMARKERS AS AN INDICATOR OF TOXICANT EXPOSURE, USING MEASURES THAT CAN BE TAKEN TO IMPROVE RISK ASSESSMENT, AND OUR PERSPECTIVES ON THE FUTURE ROLE OF EPIGENETICS IN TOXICOLOGY. DISCUSSION: UNTIL RECENTLY, EFFORTS TO APPLY EPIGENOMIC DATA IN TOXICOLOGY AND RISK ASSESSMENT WERE RESTRICTED BY AN INCOMPLETE UNDERSTANDING OF EPIGENOMIC VARIABILITY ACROSS TISSUE TYPES AND POPULATIONS. THIS IS POISED TO CHANGE WITH THE DEVELOPMENT OF NEW TOOLS AND CONCERTED EFFORTS BY RESEARCHERS ACROSS DISCIPLINES THAT HAVE LED TO A BETTER UNDERSTANDING OF EPIGENETIC MECHANISMS AND COMPREHENSIVE MAPS OF EPIGENOMIC VARIATION. WITH THE FOUNDATIONS NOW IN PLACE, WE FORESEE THAT UNPRECEDENTED ADVANCEMENTS WILL TAKE PLACE IN THE FIELD IN THE COMING YEARS. HTTPS://DOI.ORG/10.1289/EHP6104. 2020 3 754 47 CARDIOVASCULAR ADAPTATIONS TO PARTICLE INHALATION EXPOSURE: MOLECULAR MECHANISMS OF THE TOXICOLOGY. AMBIENT AIR, OCCUPATIONAL SETTINGS, AND THE USE AND DISTRIBUTION OF CONSUMER PRODUCTS ALL SERVE AS CONDUITS FOR TOXICANT EXPOSURE THROUGH INHALATION. WHILE THE PULMONARY SYSTEM REMAINS A PRIMARY TARGET FOLLOWING INHALATION EXPOSURE, CARDIOVASCULAR IMPLICATIONS ARE EXCEPTIONALLY CULPABLE FOR INCREASED MORBIDITY AND MORTALITY. THE EPIDEMIOLOGICAL EVIDENCE FOR CARDIOVASCULAR DYSFUNCTION RESULTING FROM ACUTE OR CHRONIC INHALATION EXPOSURE TO PARTICULATE MATTER HAS BEEN WELL DOCUMENTED, BUT THE MECHANISMS DRIVING THE RESULTING DISTURBANCES REMAIN ELUSIVE. IN THE CURRENT REVIEW, WE AIM TO SUMMARIZE THE CELLULAR AND MOLECULAR MECHANISMS THAT ARE DIRECTLY LINKED TO CARDIOVASCULAR HEALTH FOLLOWING EXPOSURE TO A VARIETY OF INHALED TOXICANTS. THE PURPOSE OF THIS REVIEW IS TO PROVIDE A COMPREHENSIVE OVERVIEW OF THE BIOCHEMICAL CHANGES IN THE CARDIOVASCULAR SYSTEM FOLLOWING PARTICLE INHALATION EXPOSURE AND TO HIGHLIGHT POTENTIAL BIOMARKERS THAT EXIST ACROSS MULTIPLE EXPOSURE PARADIGMS. WE ATTEMPT TO INTEGRATE THESE MOLECULAR SIGNATURES IN AN EFFORT TO PROVIDE DIRECTION FOR FUTURE INVESTIGATIONS. THIS REVIEW ALSO CHARACTERIZES HOW MOLECULAR RESPONSES ARE MODIFIED IN AT-RISK POPULATIONS, SPECIFICALLY THE IMPACT OF ENVIRONMENTAL EXPOSURE DURING CRITICAL WINDOWS OF DEVELOPMENT. MATERNAL EXPOSURE TO PARTICULATE MATTER DURING GESTATION CAN LEAD TO FETAL EPIGENETIC REPROGRAMMING, RESULTING IN LONG-TERM DEFICITS TO THE CARDIOVASCULAR SYSTEM. IN BOTH DIRECT AND INDIRECT (GESTATIONAL) EXPOSURES, CONNECTING THE BIOCHEMICAL MECHANISMS WITH FUNCTIONAL DEFICITS OUTLINES PATHWAYS THAT CAN BE TARGETED FOR FUTURE THERAPEUTIC INTERVENTION. ULTIMATELY, FUTURE INVESTIGATIONS INTEGRATING "OMICS"-BASED APPROACHES WILL BETTER ELUCIDATE THE MECHANISMS THAT ARE ALTERED BY XENOBIOTIC INHALATION EXPOSURE, IDENTIFY BIOMARKERS, AND GUIDE IN CLINICAL DECISION MAKING. 2020 4 3632 37 INCORPORATING TRANSGENERATIONAL EPIGENETIC INHERITANCE INTO ECOLOGICAL RISK ASSESSMENT FRAMEWORKS. CHRONIC EXPOSURE TO ENVIRONMENTAL CONTAMINANTS CAN INDUCE HERITABLE "TRANSGENERATIONAL" MODIFICATIONS TO ORGANISMS, POTENTIALLY AFFECTING FUTURE ECOSYSTEM HEALTH AND FUNCTIONALITY. INCORPORATING TRANSGENERATIONAL EPIGENETIC HERITABILITY INTO RISK ASSESSMENT PROCEDURES HAS BEEN PREVIOUSLY SUGGESTED. HOWEVER, A CRITICAL REVIEW OF EXISTING LITERATURE YIELDED NUMEROUS STUDIES CLAIMING TRANSGENERATIONAL IMPACTS, WITH LITTLE COMPELLING EVIDENCE. THEREFORE, CONTAMINANT-INDUCED EPIGENETIC INHERITANCE MAY BE LESS COMMON THAN IS REPORTED IN THE LITERATURE. WE IDENTIFIED A NEED FOR MULTIGENERATION EPIGENETIC STUDIES THAT EXTEND BEYOND WHAT COULD BE DEEMED "DIRECT EXPOSURE" TO F1 AND F2 GAMETES AND ALSO INCLUDE SUBSEQUENT MULTIPLE NONEXPOSED GENERATIONS TO ADEQUATELY EVALUATE TRANSGENERATIONAL RECOVERY TIMES. ALSO, INCREASED EXPERIMENTAL REPLICATION IS REQUIRED TO ACCOUNT FOR THE HIGHLY VARIABLE NATURE OF EPIGENETIC RESPONSES AND APPARENT IRREPRODUCIBILITY OF CURRENT STUDIES. FURTHER, EPIGENETIC END POINTS NEED TO BE CORRELATED WITH OBSERVABLE DETRIMENTAL ORGANISM CHANGES BEFORE A NEED FOR RISK MANAGEMENT CAN BE PROPERLY DETERMINED. WE SUGGEST THAT EPIGENETIC-BASED CONTAMINANT STUDIES INCLUDE CONCENTRATIONS LOWER THAN CURRENT "EC(10-20)" OR "LOWEST OBSERVABLE EFFECT CONCENTRATIONS" FOR THE ORGANISM'S MOST SENSITIVE PHENOTYPIC END POINT, AS HIGHER CONCENTRATIONS ARE LIKELY ALREADY REGULATED. FINALLY, WE PROPOSE A REGULATORY FRAMEWORK AND OPTIMAL EXPERIMENTAL DESIGN THAT ENABLES TRANSGENERATIONAL EPIGENETIC EFFECTS TO BE ASSESSED AND INCORPORATED INTO CONVENTIONAL ECOTOXICOLOGICAL TESTING. 2017 5 1928 47 ENVIRONMENTAL EXPOSURE MEASUREMENT IN CANCER EPIDEMIOLOGY. ENVIRONMENTAL EXPOSURES, USED IN THE BROADEST SENSE OF LIFESTYLE, INFECTIONS, RADIATION, NATURAL AND MAN-MADE CHEMICALS AND OCCUPATION, ARE A MAJOR CAUSE OF HUMAN CANCER. HOWEVER, THE PRECISE CONTRIBUTION OF SPECIFIC RISK FACTORS AND THEIR INTERACTION, BOTH WITH EACH OTHER AND WITH GENOTYPE, CONTINUES TO BE DIFFICULT TO ELUCIDATE. THIS IS PARTIALLY DUE TO LIMITATIONS IN ACCURATELY MEASURING EXPOSURE WITH THE SUBSEQUENT RISK OF MISCLASSIFICATION. ONE OF THE PRIMARY CHALLENGES OF MOLECULAR CANCER EPIDEMIOLOGY THEREFORE IS TO IMPROVE EXPOSURE ASSESSMENT. PROGRESS HAS BEEN MADE WITH BIOMARKERS SUCH AS CARCINOGENS AND THEIR METABOLITES, DNA AND PROTEIN ADDUCTS AND MUTATIONS MEASURED IN VARIOUS TISSUES AND BODY FLUIDS. NEVERTHELESS, MUCH REMAINS TO BE ACCOMPLISHED IN ORDER TO ESTABLISH AETIOLOGY AND PROVIDE THE EVIDENCE BASE FOR PUBLIC HEALTH DECISIONS. THIS REVIEW CONSIDERS SOME OF THE PRINCIPLES BEHIND THE APPLICATION OF EXPOSURE BIOMARKERS IN CANCER EPIDEMIOLOGY. IT ALSO DEMONSTRATES HOW THE SAME BIOMARKERS CAN CONTRIBUTE BOTH TO ESTABLISHING THE BIOLOGICAL PLAUSIBILITY OF ASSOCIATIONS BETWEEN EXPOSURE AND DISEASE AND BE VALUABLE ENDPOINTS IN INTERVENTION STUDIES. THE POTENTIAL OF NEW TECHNOLOGIES SUCH AS TRANSCRIPTOMICS, PROTEOMICS AND METABONOMICS TO PROVIDE A STEP CHANGE IN ENVIRONMENTAL EXPOSURE ASSESSMENT IS DISCUSSED. AN INCREASING RECOGNITION OF THE ROLE OF EPIGENETIC CHANGES IN CARCINOGENESIS PRESENTS A FRESH CHALLENGE AS ALTERATIONS IN DNA METHYLATION, HISTONE MODIFICATION AND MICRORNA IN RESPONSE TO ENVIRONMENTAL EXPOSURES DEMAND A NEW GENERATION OF EXPOSURE BIOMARKER. THE OVERALL IMPORTANCE OF THIS AREA OF RESEARCH IS BROUGHT INTO SHARP RELIEF BY THE LARGE PROSPECTIVE COHORT STUDIES (E.G. UK BIOBANK) WHICH NEED ACCURATE EXPOSURE MEASUREMENT IN ORDER TO SHED LIGHT ON THE COMPLEX GENE:ENVIRONMENT INTERACTIONS UNDERLYING COMMON CHRONIC DISORDERS INCLUDING CANCER. IT IS SUGGESTED THAT A CONCERTED EFFORT IS NOW REQUIRED, WITH APPROPRIATE FUNDING, TO DEVELOP AND VALIDATE THE REQUIRED EXPOSURE ASSESSMENT METHODOLOGY BEFORE THESE COHORTS COME TO MATURITY. 2009 6 456 53 APPLYING A LIFE COURSE BIOLOGICAL AGE FRAMEWORK TO IMPROVING THE CARE OF INDIVIDUALS WITH ADULT CANCERS: REVIEW AND RESEARCH RECOMMENDATIONS. IMPORTANCE: THE PRACTICE OF ONCOLOGY WILL INCREASINGLY INVOLVE THE CARE OF A GROWING POPULATION OF INDIVIDUALS WITH MIDLIFE AND LATE-LIFE CANCERS. MANAGING CANCER IN THESE INDIVIDUALS IS COMPLEX, BASED ON DIFFERENCES IN BIOLOGICAL AGE AT DIAGNOSIS. BIOLOGICAL AGE IS A MEASURE OF ACCUMULATED LIFE COURSE DAMAGE TO BIOLOGICAL SYSTEMS, LOSS OF RESERVE, AND VULNERABILITY TO FUNCTIONAL DETERIORATION AND DEATH. BIOLOGICAL AGE IS IMPORTANT BECAUSE IT AFFECTS THE ABILITY TO MANAGE THE RIGORS OF CANCER THERAPY, SURVIVORS' FUNCTION, AND CANCER PROGRESSION. HOWEVER, BIOLOGICAL AGE IS NOT ALWAYS CLINICALLY APPARENT. THIS REVIEW PRESENTS A CONCEPTUAL FRAMEWORK OF LIFE COURSE BIOLOGICAL AGING, SUMMARIZES CANDIDATE MEASURES, AND DESCRIBES A RESEARCH AGENDA TO FACILITATE CLINICAL TRANSLATION TO ONCOLOGY PRACTICE. OBSERVATIONS: MIDLIFE AND LATE-LIFE CANCERS ARE CHRONIC DISEASES THAT MAY ARISE FROM CUMULATIVE PATTERNS OF BIOLOGICAL AGING OCCURRING OVER THE LIFE COURSE. BEFORE DIAGNOSIS, EACH NEW PATIENT WAS ON A DISTINCT COURSE OF BIOLOGICAL AGING RELATED TO PAST EXPOSURES, LIFE EXPERIENCES, GENETICS, AND NONCANCER CHRONIC DISEASE. CANCER AND ITS TREATMENTS MAY ALSO BE ASSOCIATED WITH BIOLOGICAL AGING. SEVERAL MEASURES OF BIOLOGICAL AGE, INCLUDING P16INK4A, EPIGENETIC AGE, TELOMERE LENGTH, AND INFLAMMATORY AND BODY COMPOSITION MARKERS, HAVE BEEN USED IN ONCOLOGY RESEARCH. ONE OR MORE OF THESE MEASURES MAY BE USEFUL IN CANCER CARE, EITHER ALONE OR IN COMBINATION WITH CLINICAL HISTORY AND GERIATRIC ASSESSMENTS. HOWEVER, FURTHER RESEARCH WILL BE NEEDED BEFORE BIOLOGICAL AGE ASSESSMENT CAN BE RECOMMENDED IN ROUTINE PRACTICE, INCLUDING DETERMINATION OF SITUATIONS IN WHICH KNOWLEDGE ABOUT BIOLOGICAL AGE WOULD CHANGE TREATMENT, ASCERTAINING WHETHER TREATMENT EFFECTS ON BIOLOGICAL AGING ARE SHORT-LIVED OR PERSISTENT, AND TESTING INTERVENTIONS TO MODIFY BIOLOGICAL AGE, DECREASE TREATMENT TOXIC EFFECTS, AND MAINTAIN FUNCTIONAL ABILITIES. CONCLUSIONS AND RELEVANCE: UNDERSTANDING DIFFERENCES IN BIOLOGICAL AGING COULD ULTIMATELY ALLOW CLINICIANS TO BETTER PERSONALIZE TREATMENT AND SUPPORTIVE CARE, DEVELOP TAILORED SURVIVORSHIP CARE PLANS, AND PRESCRIBE PREVENTIVE OR AMELIORATIVE THERAPIES AND BEHAVIORS INFORMED BY AGING MECHANISMS. 2021 7 2506 37 EPIGENETICS AND NUTRITION-RELATED EPIDEMICS OF METABOLIC DISEASES: CURRENT PERSPECTIVES AND CHALLENGES. WE LIVE IN A WORLD FASCINATED BY THE RELATIONSHIP BETWEEN DISEASE AND NUTRITIONAL DISEQUILIBRIUM. THE SUBTLE AND SLOW EFFECTS OF CHRONIC NUTRIENT TOXICITY ARE A MAJOR PUBLIC HEALTH CONCERN. SINCE FOOD IS POTENTIALLY IMPORTANT FOR THE DEVELOPMENT OF "METABOLIC MEMORY", THERE IS A NEED FOR MORE INFORMATION ON THE TYPE OF NUTRIENTS CAUSING ADVERSE OR TOXIC EFFECTS. WE NOW KNOW THAT METABOLIC ALTERATIONS PRODUCED BY EXCESSIVE INTAKE OF SOME NUTRIENTS, DRUGS AND CHEMICALS DIRECTLY IMPACT EPIGENETIC REGULATION. WE ENVISION THAT UNDERSTANDING HOW METABOLIC PATHWAYS ARE COORDINATED BY ENVIRONMENTAL AND GENETIC FACTORS WILL PROVIDE NOVEL INSIGHTS FOR THE TREATMENT OF METABOLIC DISEASES. NEW METHODS WILL ENABLE THE ASSEMBLY AND ANALYSIS OF LARGE SETS OF COMPLEX MOLECULAR AND CLINICAL DATA FOR UNDERSTANDING HOW INFLAMMATION AND MITOCHONDRIA AFFECT BIOENERGETICS, EPIGENETICS AND HEALTH. COLLECTIVELY, THE OBSERVATIONS WE HIGHLIGHT INDICATE THAT ENERGY UTILIZATION AND DISEASE ARE INTIMATELY CONNECTED BY EPIGENETICS. THE CHALLENGE IS TO INCORPORATE METABOLO-EPIGENETIC DATA IN BETTER INTERPRETATIONS OF DISEASE, TO EXPEDITE THERAPEUTIC TARGETING OF KEY PATHWAYS LINKING NUTRITIONAL TOXICITY AND METABOLISM. AN ADDITIONAL CONCERN IS THAT CHANGES IN THE PARENTAL PHENOTYPE ARE DETECTABLE IN THE METHYLOME OF SUBSEQUENT OFFSPRING. THE EFFECT MIGHT CREATE A MENACE TO FUTURE GENERATIONS AND PRECONCEPTIONAL CONSIDERATIONS. 2016 8 1248 35 CURRENT EVIDENCE FOR BIOLOGICAL BIOMARKERS AND MECHANISMS UNDERLYING ACUTE TO CHRONIC PAIN TRANSITION ACROSS THE PEDIATRIC AGE SPECTRUM. CHRONIC PAIN IS HIGHLY PREVALENT IN THE PEDIATRIC POPULATION. MANY FACTORS ARE INVOLVED IN THE TRANSITION FROM ACUTE TO CHRONIC PAIN. CURRENTLY, THERE ARE CONCEPTUAL MODELS PROPOSED, BUT THEY LACK A MECHANISTICALLY SOUND INTEGRATED THEORY CONSIDERING THE STAGES OF CHILD DEVELOPMENT. OBJECTIVE BIOMARKERS ARE CRITICALLY NEEDED FOR THE DIAGNOSIS, RISK STRATIFICATION, AND PROGNOSIS OF THE PATHOLOGICAL STAGES OF PAIN CHRONIFICATION. IN THIS ARTICLE, WE SUMMARIZE THE CURRENT EVIDENCE ON MECHANISMS AND BIOMARKERS OF ACUTE TO CHRONIC PAIN TRANSITIONS IN INFANTS AND CHILDREN THROUGH THE DEVELOPMENTAL LENS. THE GOAL IS TO IDENTIFY GAPS AND OUTLINE FUTURE DIRECTIONS FOR BASIC AND CLINICAL RESEARCH TOWARD A DEVELOPMENTALLY INFORMED THEORY OF PAIN CHRONIFICATION IN THE PEDIATRIC POPULATION. AT THE OUTSET, THE IMPORTANCE OF OBJECTIVE BIOMARKERS FOR CHRONIFICATION OF PAIN IN CHILDREN IS OUTLINED, FOLLOWED BY A SUMMARY OF THE CURRENT EVIDENCE ON THE MECHANISMS OF ACUTE TO CHRONIC PAIN TRANSITION IN ADULTS, IN ORDER TO CONTRAST WITH THE DEVELOPMENTAL MECHANISMS OF PAIN CHRONIFICATION IN THE PEDIATRIC POPULATION. EVIDENCE IS PRESENTED TO SHOW THAT CHRONIC PAIN MAY HAVE ITS ORIGIN FROM INSULTS EARLY IN LIFE, WHICH PRIME THE CHILD FOR THE DEVELOPMENT OF CHRONIC PAIN IN LATER LIFE. FURTHERMORE, AVAILABLE GENETIC, EPIGENETIC, PSYCHOPHYSICAL, ELECTROPHYSIOLOGICAL, NEUROIMAGING, NEUROIMMUNE, AND SEX MECHANISMS ARE DESCRIBED IN INFANTS AND OLDER CHILDREN. IN CONCLUSION, FUTURE DIRECTIONS ARE DISCUSSED WITH A FOCUS ON RESEARCH GAPS, TRANSLATIONAL AND CLINICAL IMPLICATIONS. UTILIZATION OF DEVELOPMENTAL MECHANISMS FRAMEWORK TO INFORM CLINICAL DECISION-MAKING AND STRATEGIES FOR PREVENTION AND MANAGEMENT OF ACUTE TO CHRONIC PAIN TRANSITIONS IN CHILDREN, IS HIGHLIGHTED. 2023 9 4591 40 NARRATIVE REVIEW OF THE COMPLEX INTERACTION BETWEEN PAIN AND TRAUMA IN CHILDREN: A FOCUS ON BIOLOGICAL MEMORY, PRECLINICAL DATA, AND EPIGENETIC PROCESSES. THE INCIDENCE AND COLLECTIVE IMPACT OF EARLY ADVERSE EXPERIENCES, TRAUMA, AND PAIN CONTINUE TO INCREASE. THIS UNDERSCORES THE URGENT NEED FOR TRANSLATIONAL EFFORTS BETWEEN CLINICAL AND PRECLINICAL RESEARCH TO BETTER UNDERSTAND THE UNDERLYING MECHANISMS AND DEVELOP EFFECTIVE THERAPEUTIC APPROACHES. AS OUR UNDERSTANDING OF THESE ISSUES IMPROVES FROM STUDIES IN CHILDREN AND ADOLESCENTS, WE CAN CREATE MORE PRECISE PRECLINICAL MODELS AND ULTIMATELY TRANSLATE OUR FINDINGS BACK TO CLINICAL PRACTICE. A MULTIDISCIPLINARY APPROACH IS ESSENTIAL FOR ADDRESSING THE COMPLEX AND WIDE-RANGING EFFECTS OF THESE EXPERIENCES ON INDIVIDUALS AND SOCIETY. THIS NARRATIVE REVIEW AIMS TO (1) DEFINE PAIN AND TRAUMA EXPERIENCES IN CHILDHOOD AND ADOLESCENTS, (2) DISCUSS THE RELATIONSHIP BETWEEN PAIN AND TRAUMA, (3) CONSIDER THE ROLE OF BIOLOGICAL MEMORY, (4) DECIPHER THE RELATIONSHIP BETWEEN PAIN AND TRAUMA USING PRECLINICAL DATA, AND (5) EXAMINE THE ROLE OF THE ENVIRONMENT BY INTRODUCING THE IMPORTANCE OF EPIGENETIC PROCESSES. THE ULTIMATE SCOPE IS TO BETTER UNDERSTAND THE WIDE-RANGING EFFECTS OF TRAUMA, ABUSE, AND CHRONIC PAIN ON CHILDREN AND ADOLESCENTS, HOW THEY OCCUR, AND HOW TO PREVENT OR MITIGATE THEIR EFFECTS AND DEVELOP EFFECTIVE TREATMENT STRATEGIES THAT ADDRESS BOTH THE UNDERLYING CAUSES AND THE ASSOCIATED PHYSIOLOGICAL AND PSYCHOLOGICAL EFFECTS. 2023 10 357 39 ALTERNATIVE MODELS FOR TRANSGENERATIONAL EPIGENETIC INHERITANCE: MOLECULAR PSYCHIATRY BEYOND MICE AND MAN. MENTAL ILLNESS REMAINS THE GREATEST CHRONIC HEALTH BURDEN GLOBALLY WITH FEW IN-ROADS HAVING BEEN MADE DESPITE SIGNIFICANT ADVANCES IN GENOMIC KNOWLEDGE IN RECENT DECADES. THE FIELD OF PSYCHIATRY IS CONSTANTLY CHALLENGED TO BRING NEW APPROACHES AND TOOLS TO ADDRESS AND TREAT THE NEEDS OF VULNERABLE INDIVIDUALS AND SUBPOPULATIONS, AND THAT HAS TO BE SUPPORTED BY A CONTINUOUS GROWTH IN KNOWLEDGE. THE MAJORITY OF NEUROPSYCHIATRIC SYMPTOMS REFLECT COMPLEX GENE-ENVIRONMENT INTERACTIONS, WITH EPIGENETICS BRIDGING THE GAP BETWEEN GENETIC SUSCEPTIBILITY AND ENVIRONMENTAL STRESSORS THAT TRIGGER DISEASE ONSET AND DRIVE THE ADVANCEMENT OF SYMPTOMS. IT HAS MORE RECENTLY BEEN DEMONSTRATED IN PRECLINICAL MODELS THAT EPIGENETICS UNDERPINS THE TRANSGENERATIONAL INHERITANCE OF STRESS-RELATED BEHAVIOURAL PHENOTYPES IN BOTH PATERNAL AND MATERNAL LINEAGES, PROVIDING FURTHER SUPPORTING EVIDENCE FOR HERITABILITY IN HUMANS. HOWEVER, UNBIASED PROSPECTIVE STUDIES OF THIS NATURE ARE PRACTICALLY IMPOSSIBLE TO CONDUCT IN HUMANS SO PRECLINICAL MODELS REMAIN OUR BEST OPTION FOR RESEARCHING THE MOLECULAR PATHOPHYSIOLOGIES UNDERLYING MANY NEUROPSYCHIATRIC CONDITIONS. WHILE RODENTS WILL REMAIN THE DOMINANT MODEL SYSTEM FOR PRECLINICAL STUDIES (ESPECIALLY FOR ADDRESSING COMPLEX BEHAVIOURAL PHENOTYPES), THERE IS SCOPE TO EXPAND CURRENT RESEARCH OF THE MOLECULAR AND EPIGENETIC PATHOLOGIES BY USING INVERTEBRATE MODELS. HERE, WE WILL DISCUSS THE UTILITY AND ADVANTAGES OF TWO ALTERNATIVE MODEL ORGANISMS-CAENORHABDITIS ELEGANS AND DROSOPHILA MELANOGASTER-AND SUMMARISE THE COMPELLING INSIGHTS OF THE EPIGENETIC REGULATION OF TRANSGENERATIONAL INHERITANCE THAT ARE POTENTIALLY RELEVANT TO HUMAN PSYCHIATRY. 2021 11 1932 37 ENVIRONMENTAL EXPOSURES: AN UNDERRECOGNIZED CONTRIBUTION TO NONCOMMUNICABLE DISEASES. PREVIOUS ATTEMPTS TO DETERMINE THE DEGREE TO WHICH EXPOSURE TO ENVIRONMENTAL FACTORS CONTRIBUTE TO NONCOMMUNICABLE DISEASES (NCDS) HAVE BEEN VERY CONSERVATIVE AND HAVE SIGNIFICANTLY UNDERESTIMATED THE ACTUAL CONTRIBUTION OF THE ENVIRONMENT FOR AT LEAST TWO REASONS. FIRSTLY, MOST PREVIOUS REPORTS HAVE EXCLUDED THE CONTRIBUTION OF LIFESTYLE BEHAVIORAL RISK FACTORS, BUT THESE USUALLY INVOLVE SIGNIFICANT EXPOSURE TO ENVIRONMENTAL CHEMICALS THAT INCREASE RISK OF DISEASE. SECONDLY, EARLY LIFE EXPOSURE TO CHEMICAL CONTAMINANTS IS NOW CLEARLY ASSOCIATED WITH AN ELEVATED RISK OF SEVERAL DISEASES LATER IN LIFE, BUT THESE CONNECTIONS ARE OFTEN DIFFICULT TO DISCERN. THIS IS ESPECIALLY TRUE FOR ASTHMA AND NEURODEVELOPMENTAL CONDITIONS, BUT THERE IS ALSO A MAJOR CONTRIBUTION TO THE DEVELOPMENT OF OBESITY AND CHRONIC DISEASES. MOST CANCERS ARE CAUSED BY ENVIRONMENTAL EXPOSURES IN GENETICALLY SUSCEPTIBLE INDIVIDUALS. IN ADDITION, NEW INFORMATION SHOWS SIGNIFICANT ASSOCIATIONS BETWEEN CARDIOVASCULAR DISEASES AND DIABETES AND EXPOSURE TO ENVIRONMENTAL CHEMICALS PRESENT IN AIR, FOOD, AND WATER. THESE RELATIONSHIPS LIKELY REFLECT THE COMBINATION OF EPIGENETIC EFFECTS AND GENE INDUCTION. ENVIRONMENTAL FACTORS CONTRIBUTE SIGNIFICANTLY MORE TO NCDS THAN PREVIOUS REPORTS HAVE SUGGESTED. PREVENTION NEEDS TO SHIFT FOCUS FROM INDIVIDUAL RESPONSIBILITY TO SOCIETAL RESPONSIBILITY AND AN UNDERSTANDING THAT EFFECTIVE PREVENTION OF NCDS ULTIMATELY RELIES ON IMPROVED ENVIRONMENTAL MANAGEMENT TO REDUCE EXPOSURE TO MODIFIABLE RISKS. 2013 12 2651 41 EPIGENOMICS AND TRANSCRIPTOMICS IN THE PREDICTION AND DIAGNOSIS OF CHILDHOOD ASTHMA: ARE WE THERE YET? ASTHMA IS THE MOST COMMON NON-COMMUNICABLE CHRONIC DISEASE OF CHILDHOOD. DESPITE ITS HIGH PREVALENCE, TO DATE WE LACK METHODS THAT ARE BOTH EFFICIENT AND ACCURATE IN DIAGNOSING ASTHMA. MOST TRADITIONAL APPROACHES HAVE BEEN BASED ON GARNERING CLINICAL EVIDENCE, SUCH AS RISK FACTORS AND EXPOSURES. GIVEN THE HIGH HERITABILITY OF ASTHMA, MORE RECENT APPROACHES HAVE LOOKED AT GENETIC POLYMORPHISMS AS POTENTIAL "RISK FACTORS." HOWEVER, GENETIC VARIANTS EXPLAIN ONLY A SMALL PROPORTION OF ASTHMA RISK, AND HAVE BEEN LESS THAN OPTIMAL AT PREDICTING RISK FOR INDIVIDUAL SUBJECTS. EPIGENOMIC STUDIES OFFER SIGNIFICANT ADVANTAGES OVER PREVIOUS APPROACHES. EPIGENETIC REGULATION IS HIGHLY TISSUE-SPECIFIC, AND CAN INDUCE BOTH SHORT- AND LONG-TERM CHANGES IN GENE EXPRESSION. SUCH CHANGES CAN START IN UTERO, CAN VARY THROUGHOUT THE LIFE SPAN, AND IN SOME INSTANCES CAN BE PASSED ON FROM ONE GENERATION TO ANOTHER. MOST IMPORTANTLY, THE EPIGENOME CAN BE MODIFIED BY ENVIRONMENTAL FACTORS AND EXPOSURES, AND THUS EPIGENETIC AND TRANSCRIPTOMIC PROFILING MAY YIELD THE MOST ACCURATE RISK ESTIMATES FOR A GIVEN PATIENT BY INCORPORATING ENVIRONMENTAL (AND TREATMENT) EFFECTS THROUGHOUT THE LIFESPAN. HERE WE WILL REVIEW THE MOST RECENT ADVANCES IN THE USE OF EPIGENETIC AND TRANSCRIPTOMIC ANALYSIS FOR THE EARLY DIAGNOSIS OF ASTHMA AND ATOPY, AS WELL AS CHALLENGES AND FUTURE DIRECTIONS IN THE FIELD AS IT MOVES FORWARD. WE WILL PARTICULARLY FOCUS ON DNA METHYLATION, THE MOST STUDIED MECHANISM OF EPIGENETIC REGULATION. 2019 13 1360 36 DEVELOPMENTAL ASPECTS OF A LIFE COURSE APPROACH TO HEALTHY AGEING. WE EXAMINE THE MECHANISTIC BASIS AND WIDER IMPLICATIONS OF ADOPTING A DEVELOPMENTAL PERSPECTIVE ON HUMAN AGEING. PREVIOUS MODELS OF AGEING HAVE CONCENTRATED ON ITS GENETIC BASIS, OR THE DETRIMENTAL EFFECTS OF ACCUMULATED DAMAGE, BUT ALSO HAVE RAISED ISSUES ABOUT WHETHER AGEING CAN BE VIEWED AS ADAPTIVE ITSELF, OR IS A CONSEQUENCE OF OTHER ADAPTIVE PROCESSES, FOR EXAMPLE IF MAINTENANCE AND REPAIR PROCESSES IN THE PERIOD UP TO REPRODUCTION ARE TRADED OFF AGAINST LATER DECLINE IN FUNCTION. A LIFE COURSE MODEL PLACES AGEING IN THE CONTEXT OF THE ATTAINMENT OF PEAK CAPACITY FOR A BODY SYSTEM, STARTING IN EARLY DEVELOPMENT WHEN PLASTICITY PERMITS CHANGES IN STRUCTURE AND FUNCTION INDUCED BY A RANGE OF ENVIRONMENTAL STIMULI, FOLLOWED BY A PERIOD OF DECLINE, THE RATE OF WHICH DEPENDS ON THE PEAK ATTAINED AS WELL AS THE LATER LIFE CONDITIONS. SUCH PATH DEPENDENCY IN THE RATE OF AGEING MAY OFFER NEW INSIGHTS INTO ITS MODIFICATION. FOCUSING ON MUSCULOSKELETAL AND CARDIOVASCULAR FUNCTION, WE DISCUSS THIS MODEL AND THE POSSIBLE UNDERLYING MECHANISMS, INCLUDING ENDOTHELIAL FUNCTION, OXIDATIVE STRESS, STEM CELLS AND NUTRITIONAL FACTORS SUCH AS VITAMIN D STATUS. EPIGENETIC CHANGES INDUCED DURING DEVELOPMENTAL PLASTICITY, AND IMMUNE FUNCTION MAY PROVIDE A COMMON MECHANISTIC PROCESS UNDERLYING A LIFE COURSE MODEL OF AGEING. THE LIFE COURSE TRAJECTORY DIFFERS IN HIGH AND LOW RESOURCE SETTINGS. NEW INSIGHTS INTO THE DEVELOPMENTAL COMPONENTS OF THE LIFE COURSE MODEL OF AGEING MAY LEAD TO THE DESIGN OF BIOMARKERS OF LATER CHRONIC DISEASE RISK AND TO NEW INTERVENTIONS TO PROMOTE HEALTHY AGEING, WITH IMPORTANT IMPLICATIONS FOR PUBLIC HEALTH. 2016 14 2638 26 EPIGENOME: BIOSENSOR OF CUMULATIVE EXPOSURE TO CHEMICAL AND NONCHEMICAL STRESSORS RELATED TO ENVIRONMENTAL JUSTICE. UNDERSTANDING DIFFERENTIAL DISEASE SUSCEPTIBILITY REQUIRES NEW TOOLS TO QUANTIFY THE CUMULATIVE EFFECTS OF ENVIRONMENTAL STRESS. EVIDENCE SUGGESTS THAT SOCIAL, PHYSICAL, AND CHEMICAL STRESSORS CAN INFLUENCE DISEASE THROUGH THE ACCUMULATION OF EPIGENETIC MODIFICATIONS. GEOGRAPHICALLY STABLE EPIGENETIC ALTERATIONS COULD IDENTIFY PLAUSIBLE MECHANISMS FOR HEALTH DISPARITIES AMONG THE DISADVANTAGED AND POOR. RELATIONS BETWEEN NEIGHBORHOOD-SPECIFIC EPIGENETIC MARKERS AND DISEASE WOULD IDENTIFY THE MOST APPROPRIATE TARGETS FOR MEDICAL AND ENVIRONMENTAL INTERVENTION. COMPLEX INTERACTIONS AMONG GENES, THE ENVIRONMENT, AND DISEASE REQUIRE THE EXAMINATION OF HOW EPIGENETIC CHANGES REGULATE SUSCEPTIBILITY TO ENVIRONMENTAL STRESSORS. PROGRESS IN UNDERSTANDING DISPARITIES IN DISEASE SUSCEPTIBILITY MAY DEPEND ON ASSESSING THE CUMULATIVE EFFECT OF ENVIRONMENTAL STRESSORS ON GENETIC SUBSTRATES. WE HIGHLIGHT KEY CONCEPTS REGARDING THE INTERFACE BETWEEN ENVIRONMENTAL STRESS, EPIGENETICS, AND CHRONIC DISEASE. 2014 15 46 45 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 16 2526 43 EPIGENETICS APPLIED TO PSYCHIATRY: CLINICAL OPPORTUNITIES AND FUTURE CHALLENGES. PSYCHIATRIC DISORDERS ARE CLINICALLY HETEROGENEOUS AND DEBILITATING CHRONIC DISEASES RESULTING FROM A COMPLEX INTERPLAY BETWEEN GENE VARIANTS AND ENVIRONMENTAL FACTORS. EPIGENETIC PROCESSES, SUCH AS DNA METHYLATION AND HISTONE POSTTRANSLATIONAL MODIFICATIONS, INSTRUCT THE CELL/TISSUE TO CORRECTLY INTERPRET EXTERNAL SIGNALS AND ADJUST ITS FUNCTIONS ACCORDINGLY. GIVEN THAT EPIGENETIC MODIFICATIONS ARE SENSITIVE TO ENVIRONMENT, STABLE, AND REVERSIBLE, EPIGENETIC STUDIES IN PSYCHIATRY COULD REPRESENT A PROMISING APPROACH TO BETTER UNDERSTANDING AND TREATING DISEASE. IN THE PRESENT REVIEW, WE AIM TO DISCUSS THE CLINICAL OPPORTUNITIES AND CHALLENGES ARISING FROM THE EPIGENETIC RESEARCH IN PSYCHIATRY. USING SELECTED EXAMPLES, WE FIRST RECAPITULATE KEY FINDINGS SUPPORTING THE ROLE OF ADVERSE LIFE EVENTS, ALONE OR IN COMBINATION WITH GENETIC RISK, IN EPIGENETIC PROGRAMMING OF NEUROPSYCHIATRIC SYSTEMS. EPIGENETIC STUDIES FURTHER REPORT ENCOURAGING FINDINGS ABOUT THE USE OF METHYLATION CHANGES AS DIAGNOSTIC MARKERS OF DISEASE PHENOTYPE AND PREDICTIVE TOOLS OF PROGRESSION AND RESPONSE TO TREATMENT. THEN WE DISCUSS THE POTENTIAL OF USING TARGETED EPIGENETIC PHARMACOTHERAPY, COMBINED WITH PSYCHOSOCIAL INTERVENTIONS, FOR FUTURE PERSONALIZED MEDICINE FOR PATIENTS. FINALLY, WE REVIEW THE METHODOLOGICAL LIMITATIONS THAT COULD HINDER INTERPRETATION OF EPIGENETIC DATA IN PSYCHIATRY. THEY MAINLY ARISE FROM HETEROGENEITY AT THE INDIVIDUAL AND TISSUE LEVEL AND REQUIRE FUTURE STRATEGIES IN ORDER TO REINFORCE THE BIOLOGICAL RELEVANCE OF EPIGENETIC DATA AND ITS TRANSLATIONAL USE IN PSYCHIATRY. OVERALL, WE SUGGEST THAT EPIGENETICS COULD PROVIDE NEW INSIGHTS INTO A MORE COMPREHENSIVE INTERPRETATION OF MENTAL ILLNESS AND MIGHT EVENTUALLY IMPROVE THE NOSOLOGY, TREATMENT, AND PREVENTION OF PSYCHIATRIC DISORDERS. 2018 17 421 45 ANIMAL MODELS IN EPIGENETIC RESEARCH: INSTITUTIONAL ANIMAL CARE AND USE COMMITTEE CONSIDERATIONS ACROSS THE LIFESPAN. THE RAPID EXPANSION AND EVOLUTION OF EPIGENETICS AS A CORE SCIENTIFIC DISCIPLINE HAVE RAISED NEW QUESTIONS ABOUT HOW ENDOGENOUS AND ENVIRONMENTAL FACTORS CAN INFORM THE MECHANISMS THROUGH WHICH BIOLOGICAL FORM AND FUNCTION ARE REGULATED. EXISTING AND PROPOSED ANIMAL MODELS USED FOR EPIGENETIC RESEARCH HAVE TARGETED A MYRIAD OF HEALTH AND DISEASE ENDPOINTS THAT MAY BE ACUTE, CHRONIC, AND TRANSGENERATIONAL IN NATURE. INITIATING EVENTS AND OUTCOMES MAY EXTEND ACROSS THE ENTIRE LIFESPAN TO ELICIT UNANTICIPATED PHENOTYPES THAT ARE OF PARTICULAR CONCERN TO INSTITUTIONAL ANIMAL CARE AND USE COMMITTEES (IACUCS). THE DYNAMICS AND PLASTICITY OF EPIGENETIC MECHANISMS PRODUCE EFFECTS AND CONSEQUENCES THAT ARE MANIFEST DIFFERENTIALLY WITHIN DISCREET SPATIAL AND TEMPORAL CONTEXTS, INCLUDING PRENATAL DEVELOPMENT, STEM CELLS, ASSISTED REPRODUCTIVE TECHNOLOGIES, PRODUCTION OF SEXUAL DIMORPHISMS, SENESCENCE, AND OTHERS. MANY DIETARY AND NUTRITIONAL INTERVENTIONS HAVE ALSO BEEN SHOWN TO HAVE A SIGNIFICANT IMPACT ON BIOLOGICAL FUNCTIONS AND DISEASE SUSCEPTIBILITIES THROUGH ALTERED EPIGENETIC PROGRAMMING. THE ENVIRONMENTAL, CHEMICAL, TOXIC, THERAPEUTIC, AND PSYCHOSOCIAL STRESSORS USED IN ANIMAL STUDIES TO ELICIT EPIGENETIC CHANGES CAN BECOME EXTREME AND SHOULD RAISE IACUC CONCERNS FOR THE WELL-BEING AND PROPER CARE OF ALL RESEARCH ANIMALS INVOLVED. EPIGENETICS RESEARCH IS RAPIDLY BECOMING AN INTEGRAL PART OF THE SEARCH FOR MECHANISMS IN EVERY MAJOR AREA OF BIOMEDICAL AND BEHAVIORAL RESEARCH AND WILL FOSTER THE CONTINUED DEVELOPMENT OF NEW ANIMAL MODELS. FROM THE IACUC PERSPECTIVE, CARE MUST BE TAKEN TO ACKNOWLEDGE THE PARTICULAR NEEDS AND CONCERNS CREATED BY SUPERIMPOSITION OF EPIGENETIC MECHANISMS OVER DIVERSE FIELDS OF INVESTIGATION TO ENSURE THE PROPER CARE AND USE OF ANIMALS WITHOUT IMPEDING SCIENTIFIC PROGRESS. 2012 18 548 40 AUTISM SPECTRUM DISORDER AT THE CROSSROAD BETWEEN GENES AND ENVIRONMENT: CONTRIBUTIONS, CONVERGENCES, AND INTERACTIONS IN ASD DEVELOPMENTAL PATHOPHYSIOLOGY. THE COMPLEX PATHOPHYSIOLOGY OF AUTISM SPECTRUM DISORDER ENCOMPASSES INTERACTIONS BETWEEN GENETIC AND ENVIRONMENTAL FACTORS. ON THE ONE HAND, HUNDREDS OF GENES, CONVERGING AT THE FUNCTIONAL LEVEL ON SELECTIVE BIOLOGICAL DOMAINS SUCH AS EPIGENETIC REGULATION AND SYNAPTIC FUNCTION, HAVE BEEN IDENTIFIED TO BE EITHER CAUSATIVE OR RISK FACTORS OF AUTISM. ON THE OTHER HAND, EXPOSURE TO CHEMICALS THAT ARE WIDESPREAD IN THE ENVIRONMENT, SUCH AS ENDOCRINE DISRUPTORS, HAS BEEN ASSOCIATED WITH ADVERSE EFFECTS ON HUMAN HEALTH, INCLUDING NEURODEVELOPMENTAL DISORDERS. INTERESTINGLY, EXPERIMENTAL RESULTS SUGGEST AN OVERLAP IN THE REGULATORY PATHWAYS PERTURBED BY GENETIC MUTATIONS AND ENVIRONMENTAL FACTORS, DEPICTING CONVERGENCES AND COMPLEX INTERPLAYS BETWEEN GENETIC SUSCEPTIBILITY AND TOXIC INSULTS. THE PERVASIVE NATURE OF CHEMICAL EXPOSURE POSES PIVOTAL CHALLENGES FOR NEUROTOXICOLOGICAL STUDIES, REGULATORY AGENCIES, AND POLICY MAKERS. THIS HIGHLIGHTS AN EMERGING NEED OF DEVELOPING NEW INTEGRATIVE MODELS, INCLUDING BIOMONITORING, EPIDEMIOLOGY, EXPERIMENTAL, AND COMPUTATIONAL TOOLS, ABLE TO CAPTURE REAL-LIFE SCENARIOS ENCOMPASSING THE INTERACTION BETWEEN CHRONIC EXPOSURE TO MIXTURE OF SUBSTANCES AND INDIVIDUALS' GENETIC BACKGROUNDS. IN THIS REVIEW, WE ADDRESS THE INTERTWINED ROLES OF GENETIC LESIONS AND ENVIRONMENTAL INSULTS. SPECIFICALLY, WE OUTLINE THE TRANSFORMATIVE POTENTIAL OF STEM CELL MODELS, COUPLED WITH OMICS ANALYTICAL APPROACHES AT INCREASINGLY SINGLE CELL RESOLUTION, AS CONVERGING TOOLS TO EXPERIMENTALLY DISSECT THE PATHOGENIC MECHANISMS UNDERLYING NEURODEVELOPMENTAL DISORDERS, AS WELL AS TO IMPROVE DEVELOPMENTAL NEUROTOXICOLOGY RISK ASSESSMENT. 2020 19 5361 33 RECENT ADVANCES IN ARSENIC RESEARCH: SIGNIFICANCE OF DIFFERENTIAL SUSCEPTIBILITY AND SUSTAINABLE STRATEGIES FOR MITIGATION. ARSENIC CONTAMINATION IN DRINKING WATER AND ASSOCIATED ADVERSE OUTCOMES ARE ONE OF THE MAJOR HEALTH ISSUES IN MORE THAN 50 COUNTRIES WORLDWIDE. THE SCENARIO IS GETTING EVEN MORE DETRIMENTAL WITH INCREASING NUMBER OF AFFECTED PEOPLE AND NEWER SITES REPORTED FROM ALL OVER THE WORLD. APART FROM DRINKING WATER, THE PRESENCE OF ARSENIC HAS BEEN FOUND IN VARIOUS OTHER DIETARY SOURCES. CHRONIC ARSENIC TOXICITY AFFECTS MULTIPLE PHYSIOLOGICAL SYSTEMS AND MAY CAUSE MALIGNANCIES LEADING TO DEATH. EXPOSED INDIVIDUALS, RESIDING IN THE SAME AREA, DEVELOPED DIFFERENTIAL DERMATOLOGICAL LESION PHENOTYPES AND VARIED SUSCEPTIBILITY TOWARD VARIOUS OTHER ARSENIC-INDUCED DISEASE RISK, EVEN AFTER CONSUMING EQUIVALENT AMOUNT OF ARSENIC FROM THE SIMILAR SOURCE, OVER THE SAME DURATION OF TIME. RESEARCHES SO FAR INDICATE THAT DIFFERENTIAL SUSCEPTIBILITY PLAYS AN IMPORTANT ROLE IN ARSENIC-INDUCED DISEASE MANIFESTATION. IN THIS COMPREHENSIVE REVIEW, WE HAVE IDENTIFIED MAJOR POPULATION-BASED STUDIES OF THE LAST 20 YEARS, INDICATING POSSIBLE CAUSES OF DIFFERENTIAL SUSCEPTIBILITY EMPHASIZING ARSENIC METHYLATION CAPACITY, VARIATION IN HOST GENOME (SINGLE NUCLEOTIDE POLYMORPHISM), AND INDIVIDUAL EPIGENETIC PATTERN (DNA METHYLATION, HISTONE MODIFICATION, AND MIRNA EXPRESSION). HOLISTIC MULTIDISCIPLINARY STRATEGIES NEED TO BE IMPLEMENTED WITH FEW SUSTAINABLE YET COST-EFFECTIVE SOLUTIONS LIKE ALTERNATIVE WATER SOURCE, TREATMENT OF ARSENIC-CONTAMINATED WATER, NEW ADAPTATIONS IN IRRIGATION SYSTEM, SIMPLE MODIFICATIONS IN COOKING STRATEGY, AND DIETARY SUPPLEMENTATIONS TO COMBAT THIS MENACE. OUR REVIEW FOCUSES ON THE PRESENT PERSPECTIVES OF ARSENIC RESEARCH WITH SPECIAL EMPHASIS ON THE PROBABLE CAUSES OF DIFFERENTIAL SUSCEPTIBILITY TOWARD CHRONIC ARSENIC TOXICITY AND SUSTAINABLE REMEDIATION STRATEGIES. 2020 20 2869 41 FUNCTIONAL FOODS AND HEALTH EFFECTS: A NUTRITIONAL BIOCHEMISTRY PERSPECTIVE. BACKGROUND: INCREASED CONSUMER S INTEREST IN HEALTH HAS DRIVEN THE DEVELOPMENT OF FOODS THAT OFFER SPECIFIC BENEFICIAL EFFECTS. THE LIST OF FOODS AND INGREDIENTS INCLUDES ESSENTIAL AND NON-ESSENTIAL NUTRIENTS, PLANT AND MARINE COMPONENTS, WHOLE FOODS, MICROORGANISMS, MICROALGAE AND TECHNOLOGICAL APPROACHES. TRADITIONALLY, HEALTH OUTCOMES FOCUSSED ON THE PREVENTION OF CHRONIC DISEASES BUT HEALTH TARGETS HAVE EXPANDED TO COVER AREAS SUCH AS BRAIN HEALTH, INFLAMMATION, EYE HEALTH, WOMEN S HEALTH, HEALTHY AGEING AND BEAUTY. OBJECTIVE: THIS REVIEW HIGHLIGHTS, FROM A NUTRITIONAL BIOCHEMISTRY PERSPECTIVE, DIFFERENTIAL ASPECTS ON DESIGNING AND INTERPRETING HUMAN STUDIES TO SUPPORT THE HEALTH EFFECTS OF FUNCTIONAL FOODS. RESULTS: DESPITE THE AVAILABLE EVIDENCE FROM IN VITRO, ANIMAL AND OBSERVATIONAL STUDIES, WELLDESIGNED HUMAN STUDIES ARE NECESSARY TO SUPPORT THE HEALTH EFFECTS OF FUNCTIONAL FOODS. INTERVENTION TRIALS WITH FOODS ARE COMPLEX AS THEY IMPLY LIMITATIONS DUE TO METHODOLOGICAL, FOOD-RELATED AND HOST-RELATED FACTORS. THE USE OF RESPONSIVE, VALIDATED AND CLINICALLY RELEVANT MARKERS BECOMES ESSENTIAL EVEN THOUGH THERE IS A LACK OF RELIABLE BIOMARKERS OF EXPOSURE FOR MANY BIOACTIVES. FURTHERMORE, THE EFFECT OF MODULATING FACTORS SUCH AS SUBCLINICAL INFLAMMATION, GUT MICROBIOTA AND GENETIC VARIABILITY SHOULD BE TAKEN INTO ACCOUNT. MULTIPLE INDICATORS MAY PROVIDE A MORE RELIABLE ALTERNATIVE TO ASSESS PHYSIOLOGICAL PROCESSES WHILE EMERGING BIOMARKERS (MICRORNAS, EPIGENETIC CHANGES) CONSTITUTE A PROMISING APPROACH. ADDITIONALLY, THE MAGNITUDE OF THE CHANGE IS CRITICAL TO SUPPORT ANY HEALTH EFFECT ALTHOUGH INTERVENTIONS MAY HAVE A LIMITED CLINICAL IMPACT BUT BE EPIDEMIOLOGICALLY RELEVANT. ALSO, BASED ON THE AVAILABLE DATA, THE PREMISE THAT BIOACTIVESCONTAINING FOODS ARE SAFE MAY BE QUESTIONABLE. CONCLUSION: AN INTEGRATED APPROACH INCLUDING MULTIPLE BIOMARKERS, GENETIC VARIABILITY, EFFECT OF GUT MICROBIOTA AND RISK/BENEFIT ASSESSMENT SHOULD BE USED TO SUPPORT THE POTENTIAL HEALTH EFFECTS OF FUNCTIONAL FOODS. 2016