1 6432 107 THE VICIOUS CIRCLE BETWEEN HOMOCYSTEINE, METHYL GROUP-DONATING VITAMINS AND CHRONIC LEVODOPA INTAKE IN PARKINSON'S DISEASE. A BIOMARKER FOR DECLINED METHYLATION CAPACITY IS ELEVATION OF HOMOCYSTEINE LEVELS. THEY INCREASE THE RISK FOR ONSET OF VASCULAR DISEASE AND CONTRIBUTE TO PROGRESSION OF CHRONIC NEURODEGENERATION AND AGING. THIS NARRATIVE REVIEW DISCUSSES ASSOCIATIONS BETWEEN HOMOCYSTEINE, CONSUMPTION OF METHYL GROUP-DONATING VITAMINS AND IMPACT ON DISEASE-GENERATING MECHANISMS IN LEVODOPA-TREATED PATIENTS WITH PARKINSON'S DISEASE. WE CONCLUDE TO RECOMMEND LEVODOPA-TREATED PATIENTS TO SUBSTITUTE THEMSELVES WITH METHYL GROUP-DONATING VITAMINS. THIS IS HARMLESS IN TERMS OF APPLICATION OF FOLIC ACID, METHYLCOBALAMIN OR HYDROXOCOBALAMIN. MOREOVER, WE SUGGEST A CRUCIAL DISCUSSION ON THE VALUE OF THE VARIOUS POPULAR HYPOTHESES ON PARKINSON'S DISEASE-GENERATING MECHANISMS. FINDINGS FROM STUDIES WITH ACUTE LEVODOPA EXPOSURE DESCRIBE OXIDATIVE STRESS GENERATION AND IMPAIRED METHYLATION CAPACITY, WHICH CAUSES GENE DYSFUNCTION. THEIR REPEATED OCCURRENCES CONTRIBUTE TO ONSET OF MITOCHONDRIAL DYSFUNCTION, IRON ENRICHMENT AND PATHOLOGIC PROTEIN ACCUMULATION IN THE LONG TERM. CURRENT RESEARCH UNDERESTIMATES THESE EPIGENETIC, METABOLIC CONSEQUENCES OF CHRONIC LEVODOPA APPLICATION. SUPPLEMENTARY TREATMENT STRATEGIES ARE RECOMMENDED TO AVOID LEVODOPA-RELATED SIDE EFFECTS. 2023 2 966 33 CHRONIC NEUROLOGICAL DISORDERS: GENETIC AND EPIGENETIC MARKERS FOR MONITORING OF PHARMACOTHERAPY. INTRODUCTION: CHRONIC NEUROLOGICAL DISEASES ARE A MAJOR CAUSE OF MORTALITY AND MORBIDITY IN THE WORLD. WITH INCREASING LIFE EXPECTANCY IN THE DEVELOPING WORLD, THE INCIDENCE AND PREVALENCE OF THESE DISEASES ARE PREDICTED TO RISE EVEN FURTHER. THIS HAS ALSO CONTRIBUTED TO AN INCREASE IN DISABILITY-ADJUSTED LIFE YEARS (DALYS) FOR NONCOMMUNICABLE DISEASES. TREATMENT FOR SUCH DISEASES ALSO POSES A CHALLENGE WITH MULTIPLE GENETIC AND EPIGENETIC FACTORS LEADING TO A VARIED OUTCOME. PERSONALIZATION OF TREATMENT IS ONE WAY THAT TREATMENT OUTCOME/PROGNOSIS OF DISEASE CAN BE IMPROVED, AND PHARMACOGENOMICS PLAYS A SIGNIFICANT ROLE IN THIS CONTEXT. METHODOLOGY: THIS ARTICLE REVIEWED THE EVIDENCE PERTAINING TO THE ASSOCIATION OF GENETIC AND EPIGENETIC MARKERS WITH MAJOR NEUROLOGICAL DISORDERS LIKE MULTIPLE SCLEROSIS (MS), ALZHEIMER'S DISEASE (AD), AND PARKINSON'S DISEASE (PD), WHICH ARE A MAJOR SOURCE OF BURDEN AMONG NEUROLOGICAL DISORDERS. TYPES OF STUDIES INCLUDED ARE PEER-REVIEWED ORIGINAL RESEARCH ARTICLES FROM THE PUBMED DATABASE (1999-2018). RESULTS: THIS STUDY COMPILED DATA REGARDING SPECIFIC GENETIC AND EPIGENETIC MARKERS WITH A SIGNIFICANT CORRELATION BETWEEN THE CLINICAL DIAGNOSIS OF THE DISEASE AND PROGNOSIS OF THERAPY FROM 65 STUDIES. IN A SINGLE PLATFORM, THIS REVIEW HIGHLIGHTS THE CLUES TO SOME VITAL QUESTIONS, SUCH AS WHY INTERFERON BETA (IFN-BETA) THERAPY FAILS TO IMPROVE SYMPTOMS IN ALL MS PATIENTS? WHY CHOLINESTERASE INHIBITORS FAIL TO IMPROVE COGNITIVE IMPAIRMENT IN A SUBSET OF PEOPLE SUFFERING FROM AD? OR WHY SOME INDIVIDUALS ON LEVODOPA (L-DOPA) FOR PD SUFFER FROM SIDE-EFFECTS RANGING FROM DYSKINESIA TO HALLUCINATION WHILE OTHERS DO NOT? CONCLUSION: THIS ARTICLE SUMMARIZES THE GENETIC AND EPIGENETIC FACTORS THAT MAY EITHER REQUIRE MONITORING OR HELP IN DECIDING FUTURE PHARMACOTHERAPY IN A PATIENT SUFFERING FROM MS, AD, AND PD. AS THE HEALTH CARE SYSTEM DEVELOPS AND REACHES NEWER HEIGHTS, WE EXPECT MORE AND MORE OF THESE BIOMARKERS TO BE USED AS PHARMACOTHERAPEUTIC OUTCOME INDICATORS. 2021 3 4783 30 NUTRIGENOMICS IN PARKINSON'S DISEASE: DIVERSITY OF MODULATORY ACTIONS OF POLYPHENOLS ON EPIGENETIC EFFECTS INDUCED BY TOXINS. ALTHOUGH THE PATHOGENESIS OF PARKINSON'S DISEASE (PD) IS NOT COMPLETELY UNDERSTOOD, THERE IS A CONSENSUS THAT IT CAN BE CAUSED BY MULTIFACTORIAL MECHANISMS INVOLVING GENETIC SUSCEPTIBILITY, EPIGENETIC MODIFICATIONS INDUCED BY TOXINS AND MITOCHONDRIAL DYSFUNCTION. IN THE PAST 20 YEARS, GREAT EFFORTS HAVE BEEN MADE IN ORDER TO CLARIFY MOLECULAR MECHANISMS THAT ARE RISK FACTORS FOR THIS DISEASE, AS WELL AS TO IDENTIFY BIOACTIVE AGENTS FOR PREVENTION AND SLOWING DOWN OF ITS PROGRESSION. NUTRACEUTICAL PRODUCTS HAVE RECEIVED SUBSTANTIAL INTEREST DUE TO THEIR NUTRITIONAL, SAFE AND THERAPEUTIC EFFECTS ON SEVERAL CHRONIC DISEASES. THE AIM OF THIS REVIEW WAS TO GATHER THE MAIN EVIDENCE OF THE EPIGENETIC MECHANISMS INVOLVED IN THE NEUROPROTECTIVE EFFECTS OF PHENOLIC COMPOUNDS CURRENTLY UNDER INVESTIGATION FOR THE TREATMENT OF TOXIN-INDUCED PD. THESE STUDIES CONFIRM THAT THE NEUROPROTECTIVE ACTIONS OF POLYPHENOLS INVOLVE COMPLEX EPIGENETIC MODULATIONS, DEMONSTRATING THAT THE INTAKE OF THESE NATURAL COMPOUNDS CAN BE A PROMISING, LOW-COST, PHARMACOGENOMIC STRATEGY AGAINST THE DEVELOPMENT OF PD. 2023 4 676 32 BRAIN AGING: A IANUS-FACED PLAYER BETWEEN HEALTH AND NEURODEGENERATION. NEURODEGENERATIVE DISEASES ARE INCURABLE DEBILITATING DISORDERS CHARACTERIZED BY STRUCTURAL AND FUNCTIONAL NEURONAL LOSS. APPROXIMATELY 30 MILLION PEOPLE ARE AFFECTED WORLDWIDE, AND THIS NUMBER IS PREDICTED TO REACH MORE THAN 150 MILLION BY 2050. NEURODEGENERATIVE DISORDERS INCLUDE ALZHEIMER'S, PARKINSON'S, AND PRION DISEASES AMONG OTHERS. THESE DISORDERS ARE CHARACTERIZED BY THE ACCUMULATION OF AGGREGATING PROTEINS FORMING AMYLOID, RESPONSIBLE FOR THE DISEASE-ASSOCIATED PATHOLOGICAL LESIONS. THE AGGREGATION OF AMYLOIDOGENIC PROTEINS CAN RESULT EITHER IN GAINING OF TOXIC FUNCTIONS, DERIVED FROM THE DAMAGE PROVOKED BY THESE DEPOSITS IN AFFECTED TISSUE, OR IN A LOSS OF FUNCTIONS, DUE TO THE SEQUESTRATION AND THE CONSEQUENT INABILITY OF THE AGGREGATING PROTEIN TO ENSURE ITS PHYSIOLOGICAL ROLE. WHILE IT IS WIDELY ACCEPTED THAT AGING REPRESENTS THE MAIN RISK FACTOR FOR NEURODEGENERATION, THERE IS STILL NO CLEAR CUT-OFF LINE BETWEEN THE TWO CONDITIONS. INDEED, MANY OF THE PATHWAYS THAT ARE COMMONLY ALTERED IN NEURODEGENERATION-MISFOLDED PROTEIN ACCUMULATION, CHRONIC INFLAMMATION, MITOCHONDRIAL DYSFUNCTION, IMPAIRED IRON HOMEOSTASIS, EPIGENETIC MODIFICATIONS-HAVE BEEN OFTEN CORRELATED ALSO WITH HEALTHY AGING. THIS OVERLAP COULD BE EXPLAINED BY THE FACT THAT THE CONTINUOUS ACCUMULATION OF CELLULAR DAMAGES, TOGETHER WITH A PROGRESSIVE DECLINE IN METABOLIC EFFICIENCY DURING AGING, MAKES THE NEURONS MORE VULNERABLE TO TOXIC INJURIES. WHEN A GIVEN THRESHOLD IS EXCEEDED, ALL THESE ALTERATIONS MIGHT GIVE RISE TO PATHOLOGICAL PHENOTYPES THAT ULTIMATELY LEAD TO NEURODEGENERATION. 2020 5 6034 32 THE CHALLENGE BY MULTIPLE ENVIRONMENTAL AND BIOLOGICAL FACTORS INDUCE INFLAMMATION IN AGING: THEIR ROLE IN THE PROMOTION OF CHRONIC DISEASE. THE AGING PROCESS IS DRIVEN BY MULTIPLE MECHANISMS THAT LEAD TO CHANGES IN ENERGY PRODUCTION, OXIDATIVE STRESS, HOMEOSTATIC DYSREGULATION AND EVENTUALLY TO LOSS OF FUNCTIONALITY AND INCREASED DISEASE SUSCEPTIBILITY. MOST AGED INDIVIDUALS DEVELOP CHRONIC LOW-GRADE INFLAMMATION, WHICH IS AN IMPORTANT RISK FACTOR FOR MORBIDITY, PHYSICAL AND COGNITIVE IMPAIRMENT, FRAILTY, AND DEATH. AT ANY AGE, CHRONIC INFLAMMATORY DISEASES ARE MAJOR CAUSES OF MORBIMORTALITY, AFFECTING UP TO 5-8% OF THE POPULATION OF INDUSTRIALIZED COUNTRIES. SEVERAL ENVIRONMENTAL FACTORS CAN PLAY AN IMPORTANT ROLE FOR MODIFYING THE INFLAMMATORY STATE. GENETICS ACCOUNTS FOR ONLY A SMALL FRACTION OF CHRONIC-INFLAMMATORY DISEASES, WHEREAS ENVIRONMENTAL FACTORS APPEAR TO PARTICIPATE, EITHER WITH A CAUSATIVE OR A PROMOTIONAL ROLE IN 50% TO 75% OF PATIENTS. SEVERAL OF THOSE CHANGES DEPEND ON EPIGENETIC CHANGES THAT WILL FURTHER MODIFY THE INDIVIDUAL RESPONSE TO ADDITIONAL STIMULI. THE INTERACTION BETWEEN INFLAMMATION AND THE ENVIRONMENT OFFERS IMPORTANT INSIGHTS ON AGING AND HEALTH. THESE CONDITIONS, OFTEN DEPENDING ON THE INDIVIDUAL'S SEX, APPEAR TO LEAD TO DECREASED LONGEVITY AND PHYSICAL AND COGNITIVE DECLINE. IN ADDITION TO BIOLOGICAL FACTORS, THE ENVIRONMENT IS ALSO INVOLVED IN THE GENERATION OF PSYCHOLOGICAL AND SOCIAL CONTEXT LEADING TO STRESS. POOR PSYCHOLOGICAL ENVIRONMENTS AND OTHER SOURCES OF STRESS ALSO RESULT IN INCREASED INFLAMMATION. HOWEVER, THE MECHANISMS UNDERLYING THE ROLE OF ENVIRONMENTAL AND PSYCHOSOCIAL FACTORS AND NUTRITION ON THE REGULATION OF INFLAMMATION, AND HOW THE RESPONSE ELICITED FOR THOSE FACTORS INTERACT AMONG THEM, ARE POORLY UNDERSTOOD. WHEREAS CERTAIN DELETERIOUS ENVIRONMENTAL FACTORS RESULT IN THE GENERATION OF OXIDATIVE STRESS DRIVEN BY AN INCREASED PRODUCTION OF REACTIVE OXYGEN AND NITROGEN SPECIES, ENDOPLASMIC RETICULUM STRESS, AND INFLAMMATION, OTHER FACTORS, INCLUDING NUTRITION (POLYUNSATURATED FATTY ACIDS) AND BEHAVIORAL FACTORS (EXERCISE) CONFER PROTECTION AGAINST INFLAMMATION, OXIDATIVE AND ENDOPLASMIC RETICULUM STRESS, AND THUS AMELIORATE THEIR DELETERIOUS EFFECT. HERE, WE DISCUSS PROCESSES AND MECHANISMS OF INFLAMMATION ASSOCIATED WITH ENVIRONMENTAL FACTORS AND BEHAVIOR, THEIR LINKS TO SEX AND GENDER, AND THEIR OVERALL IMPACT ON AGING. 2020 6 1254 31 CURRENT PROGRESS ON THE MECHANISMS OF HYPERHOMOCYSTEINEMIA-INDUCED VASCULAR INJURY AND USE OF NATURAL POLYPHENOL COMPOUNDS. CARDIOVASCULAR DISEASE IS ONE OF THE MOST COMMON DISEASES IN THE ELDERLY POPULATION, AND ITS INCIDENCE HAS RAPIDLY INCREASED WITH THE PROLONGATION OF LIFE EXPECTANCY. HYPERHOMOCYSTEINEMIA IS AN INDEPENDENT RISK FACTOR FOR VARIOUS CARDIOVASCULAR DISEASES, INCLUDING ATHEROSCLEROSIS, AND DAMAGE TO VASCULAR FUNCTION PLAYS AN INITIAL ROLE IN ITS PATHOGENESIS. THIS REVIEW PRESENTS THE LATEST KNOWLEDGE ON THE MECHANISMS OF VASCULAR INJURY CAUSED BY HYPERHOMOCYSTEINEMIA, INCLUDING OXIDATIVE STRESS, ENDOPLASMIC RETICULUM STRESS, PROTEIN N-HOMOCYSTEINIZATION, AND EPIGENETIC MODIFICATION, AND DISCUSSES THE THERAPEUTIC TARGETS OF NATURAL POLYPHENOLS. STUDIES HAVE SHOWN THAT NATURAL POLYPHENOLS IN PLANTS CAN REDUCE HOMOCYSTEINE LEVELS AND REGULATE DNA METHYLATION BY ACTING ON OXIDATIVE STRESS AND ENDOPLASMIC RETICULUM STRESS-RELATED SIGNALING PATHWAYS, THUS IMPROVING HYPERHOMOCYSTEINEMIA-INDUCED VASCULAR INJURY. NATURAL POLYPHENOLS OBTAINED VIA DAILY DIET ARE SAFER AND HAVE MORE PRACTICAL SIGNIFICANCE IN THE PREVENTION AND TREATMENT OF CHRONIC DISEASES THAN TRADITIONAL DRUGS. 2021 7 5377 31 RECENT FINDINGS IN ALZHEIMER DISEASE AND NUTRITION FOCUSING ON EPIGENETICS. ALZHEIMER DISEASE (AD) IS A CHRONIC NEURODEGENERATIVE DISEASE WITH NO EFFECTIVE CURE SO FAR. THE CURRENT REVIEW FOCUSES ON THE EPIGENETIC MECHANISMS OF AD AND HOW NUTRITION CAN INFLUENCE THE COURSE OF THIS DISEASE THROUGH REGULATION OF GENE EXPRESSION, ACCORDING TO THE LATEST SCIENTIFIC FINDINGS. THE SEARCH STRATEGY WAS THE USE OF SCIENTIFIC DATABASES SUCH AS PUBMED AND SCOPUS IN ORDER TO FIND RELATIVE RESEARCH OR REVIEW ARTICLES PUBLISHED IN THE YEARS 2012-2015. BY SHOWING THE LATEST DATA OF VARIOUS NUTRITIONAL COMPOUNDS, THIS STUDY AIMS TO STIMULATE THE SCIENTIFIC COMMUNITY TO RECOGNIZE THE VALUE OF NUTRITION IN THIS SUBJECT. EPIGENETICS IS BECOMING A VERY ATTRACTIVE SUBJECT FOR RESEARCHERS BECAUSE IT CAN SHED LIGHT ON UNKNOWN ASPECTS OF COMPLEX DISEASES LIKE AD. DNA METHYLATION, HISTONE MODIFICATIONS, AND MICRORNAS ARE THE PRINCIPAL EPIGENETIC MECHANISMS INVOLVED IN AD PATHOPHYSIOLOGY. NUTRITION IS AN ENVIRONMENTAL FACTOR THAT IS RELATED TO AD THROUGH EPIGENETIC PATHWAYS. VITAMIN B-12, FOR INSTANCE, CAN ALTER THE ONE-CARBON METABOLISM AND THUS INTERFERE IN THE DNA METHYLATION PROCESS. THE RESEARCH RESULTS MIGHT SEEM AMBIGUOUS ABOUT THE CLINICAL ROLE OF NUTRITION, BUT THERE IS STRENGTHENING EVIDENCE THAT PROPER NUTRITION CAN NOT ONLY CHANGE EPIGENETIC BIOMARKER LEVELS BUT ALSO PREVENT THE DEVELOPMENT OF LATE-ONSET AD AND ATTENUATE COGNITION DEFICIT. NUTRITION MIGHT GROW TO BECOME A PREVENTIVE AND EVEN THERAPEUTIC ALTERNATIVE AGAINST AD, ESPECIALLY IF COMBINED WITH OTHER ANTIDEMENTIA INTERVENTIONS, BRAIN EXERCISE, PHYSICAL TRAINING, ETC. EPIGENETIC BIOMARKERS CAN BE A VERY HELPFUL TOOL TO HELP RESEARCHERS FIND THE EXACT NUTRIENTS NEEDED TO CREATE SPECIFIC REMEDIES, AND PERHAPS THE SAME BIOMARKERS CAN BE USED EVEN IN PATIENT SCREENING IN THE FUTURE. 2016 8 679 20 BRAIN FOODS - THE ROLE OF DIET IN BRAIN PERFORMANCE AND HEALTH. THE PERFORMANCE OF THE HUMAN BRAIN IS BASED ON AN INTERPLAY BETWEEN THE INHERITED GENOTYPE AND EXTERNAL ENVIRONMENTAL FACTORS, INCLUDING DIET. FOOD AND NUTRITION, ESSENTIAL IN MAINTENANCE OF BRAIN PERFORMANCE, ALSO AID IN PREVENTION AND TREATMENT OF MENTAL DISORDERS. BOTH THE OVERALL COMPOSITION OF THE HUMAN DIET AND SPECIFIC DIETARY COMPONENTS HAVE BEEN SHOWN TO HAVE AN IMPACT ON BRAIN FUNCTION IN VARIOUS EXPERIMENTAL MODELS AND EPIDEMIOLOGICAL STUDIES. THIS NARRATIVE REVIEW PROVIDES AN OVERVIEW OF THE ROLE OF DIET IN 5 KEY AREAS OF BRAIN FUNCTION RELATED TO MENTAL HEALTH AND PERFORMANCE, INCLUDING: (1) BRAIN DEVELOPMENT, (2) SIGNALING NETWORKS AND NEUROTRANSMITTERS IN THE BRAIN, (3) COGNITION AND MEMORY, (4) THE BALANCE BETWEEN PROTEIN FORMATION AND DEGRADATION, AND (5) DETERIORATIVE EFFECTS DUE TO CHRONIC INFLAMMATORY PROCESSES. FINALLY, THE ROLE OF DIET IN EPIGENETIC REGULATION OF BRAIN PHYSIOLOGY IS DISCUSSED. 2021 9 6133 28 THE EPIGENETIC ROLE OF VITAMIN C IN NEURODEVELOPMENT. THE MATERNAL DIET DURING PREGNANCY IS A KEY DETERMINANT OF OFFSPRING HEALTH. EARLY STUDIES HAVE LINKED POOR MATERNAL NUTRITION DURING GESTATION WITH A PROPENSITY FOR THE DEVELOPMENT OF CHRONIC CONDITIONS IN OFFSPRING. THESE CONDITIONS INCLUDE CARDIOVASCULAR DISEASE, TYPE 2 DIABETES AND EVEN COMPROMISED MENTAL HEALTH. WHILE MULTIPLE FACTORS MAY CONTRIBUTE TO THESE OUTCOMES, DISTURBED EPIGENETIC PROGRAMMING DURING EARLY DEVELOPMENT IS ONE POTENTIAL BIOLOGICAL MECHANISM. THE EPIGENOME IS PROGRAMMED PRIMARILY IN UTERO, AND DURING THIS TIME, THE DEVELOPING FETUS IS HIGHLY SUSCEPTIBLE TO ENVIRONMENTAL FACTORS SUCH AS NUTRITIONAL INSULTS. DURING NEURODEVELOPMENT, EPIGENETIC PROGRAMMING COORDINATES THE FORMATION OF PRIMITIVE CENTRAL NERVOUS SYSTEM STRUCTURES, NEUROGENESIS, AND NEUROPLASTICITY. DYSREGULATED EPIGENETIC PROGRAMMING HAS BEEN IMPLICATED IN THE AETIOLOGY OF SEVERAL NEURODEVELOPMENTAL DISORDERS SUCH AS TATTON-BROWN-RAHMAN SYNDROME. ACCORDINGLY, THERE IS GREAT INTEREST IN DETERMINING HOW MATERNAL NUTRIENT AVAILABILITY IN PREGNANCY MIGHT AFFECT THE EPIGENETIC STATUS OF OFFSPRING, AND HOW SUCH INFLUENCES MAY PRESENT PHENOTYPICALLY. IN RECENT YEARS, A NUMBER OF EPIGENETIC ENZYMES THAT ARE ACTIVE DURING EMBRYONIC DEVELOPMENT HAVE BEEN FOUND TO REQUIRE VITAMIN C AS A COFACTOR. THESE ENZYMES INCLUDE THE TEN-ELEVEN TRANSLOCATION METHYLCYTOSINE DIOXYGENASES (TETS) AND THE JUMONJI C DOMAIN-CONTAINING HISTONE LYSINE DEMETHYLASES THAT CATALYSE THE OXIDATIVE REMOVAL OF METHYL GROUPS ON CYTOSINES AND HISTONE LYSINE RESIDUES, RESPECTIVELY. THESE ENZYMES ARE INTEGRAL TO EPIGENETIC REGULATION AND HAVE FUNDAMENTAL ROLES IN CELLULAR DIFFERENTIATION, THE MAINTENANCE OF PLURIPOTENCY AND DEVELOPMENT. THE DEPENDENCE OF THESE ENZYMES ON VITAMIN C FOR OPTIMAL CATALYTIC ACTIVITY ILLUSTRATES A POTENTIALLY CRITICAL CONTRIBUTION OF THE NUTRIENT DURING MAMMALIAN DEVELOPMENT. THESE INSIGHTS ALSO HIGHLIGHT A POTENTIAL RISK ASSOCIATED WITH VITAMIN C INSUFFICIENCY DURING PREGNANCY. THE LINK BETWEEN VITAMIN C INSUFFICIENCY AND DEVELOPMENT IS PARTICULARLY APPARENT IN THE CONTEXT OF NEURODEVELOPMENT AND HIGH VITAMIN C CONCENTRATIONS IN THE BRAIN ARE INDICATIVE OF IMPORTANT FUNCTIONAL REQUIREMENTS IN THIS ORGAN. ACCORDINGLY, THIS REVIEW CONSIDERS THE EVIDENCE FOR THE POTENTIAL IMPACT OF MATERNAL VITAMIN C STATUS ON NEURODEVELOPMENTAL EPIGENETICS. 2022 10 5821 29 STRESS IN OBESITY AND ASSOCIATED METABOLIC AND CARDIOVASCULAR DISORDERS. OBESITY HAS SIGNIFICANT IMPLICATIONS FOR HEALTHCARE, SINCE IT IS A MAJOR RISK FACTOR FOR BOTH TYPE 2 DIABETES AND THE METABOLIC SYNDROME. THIS SYNDROME IS A COMMON AND COMPLEX DISORDER COMBINING OBESITY, DYSLIPIDEMIA, HYPERTENSION, AND INSULIN RESISTANCE. IT IS ASSOCIATED WITH HIGH ATHEROSCLEROTIC CARDIOVASCULAR RISK, WHICH CAN ONLY PARTIALLY BE EXPLAINED BY ITS COMPONENTS. THEREFORE, TO EXPLAIN HOW OBESITY CONTRIBUTES TO THE DEVELOPMENT OF METABOLIC AND CARDIOVASCULAR DISORDERS, MORE AND BETTER INSIGHT IS REQUIRED INTO THE EFFECTS OF PERSONAL AND ENVIRONMENTAL STRESS ON DISEASE PROCESSES. IN THIS PAPER, WE SHOW THAT OBESITY IS A CHRONIC INFLAMMATORY DISEASE, WHICH HAS MANY MOLECULAR MECHANISMS IN COMMON WITH ATHEROSCLEROSIS. FURTHERMORE, WE FOCUS ON THE ROLE OF OXIDATIVE STRESS ASSOCIATED WITH OBESITY IN THE DEVELOPMENT OF THE METABOLIC SYNDROME. WE DISCUSS HOW SEVERAL STRESS CONDITIONS ARE RELATED TO INFLAMMATION AND OXIDATIVE STRESS IN ASSOCIATION WITH OBESITY AND ITS COMPLICATIONS. WE ALSO EMPHASIZE THE RELATION BETWEEN STRESS CONDITIONS AND THE DEREGULATION OF EPIGENETIC CONTROL MECHANISMS BY MEANS OF MICRORNAS AND SHOW HOW THIS IMPAIRMENT FURTHER CONTRIBUTES TO THE DEVELOPMENT OF OBESITY, CLOSING THE VICIOUS CIRCLE. FINALLY, WE DISCUSS THE LIMITATIONS OF CURRENT ANTI-INFLAMMATION AND ANTIOXIDANT THERAPY TO TREAT OBESITY. 2012 11 3404 29 HOW EPIGENETICS IMPACTS ON HUMAN DISEASES. EPIGENETICS IS A RAPIDLY GROWING FIELD OF BIOLOGY THAT STUDIES THE CHANGES IN GENE EXPRESSION THAT ARE NOT DUE TO ALTERATIONS IN THE DNA SEQUENCE BUT RATHER THE CHEMICAL MODIFICATIONS OF DNA AND ITS ASSOCIATED PROTEINS. EPIGENETIC MECHANISMS CAN PROFOUNDLY INFLUENCE GENE EXPRESSION, CELL DIFFERENTIATION, TISSUE DEVELOPMENT, AND DISEASE SUSCEPTIBILITY. UNDERSTANDING EPIGENETIC CHANGES IS ESSENTIAL TO ELUCIDATE THE MECHANISMS UNDERLYING THE INCREASINGLY RECOGNIZED ROLE OF ENVIRONMENTAL AND LIFESTYLE FACTORS IN HEALTH AND DISEASE AND THE INTERGENERATIONAL TRANSMISSION OF PHENOTYPES. RECENT STUDIES SUGGEST EPIGENETICS MAY BE CRITICAL IN VARIOUS DISEASES, FROM CARDIOVASCULAR DISEASE AND CANCER TO NEURODEVELOPMENTAL AND NEURODEGENERATIVE DISORDERS. EPIGENETIC MODIFICATIONS ARE POTENTIALLY REVERSIBLE AND COULD PROVIDE NEW THERAPEUTIC AVENUES FOR TREATING THESE DISEASES USING EPIGENETIC MODULATORS. MOREOVER, EPIGENETICS PROVIDE INSIGHT INTO DISEASE PATHOGENESIS AND BIOMARKERS FOR DISEASE DIAGNOSIS AND RISK STRATIFICATION. NEVERTHELESS, EPIGENETIC INTERVENTIONS HAVE THE POTENTIAL FOR UNINTENDED CONSEQUENCES AND MAY POTENTIALLY LEAD TO INCREASED RISKS OF UNEXPECTED OUTCOMES, SUCH AS ADVERSE DRUG REACTIONS, DEVELOPMENTAL ABNORMALITIES, AND CANCER. THEREFORE, RIGOROUS STUDIES ARE ESSENTIAL TO MINIMIZE THE RISKS ASSOCIATED WITH EPIGENETIC THERAPIES AND TO DEVELOP SAFE AND EFFECTIVE INTERVENTIONS FOR IMPROVING HUMAN HEALTH. THIS ARTICLE PROVIDES A SYNTHETIC AND HISTORICAL VIEW OF THE ORIGIN OF EPIGENETICS AND SOME OF THE MOST RELEVANT ACHIEVEMENTS. 2023 12 5033 32 PESTICIDES AND HUMAN CHRONIC DISEASES: EVIDENCES, MECHANISMS, AND PERSPECTIVES. ALONG WITH THE WIDE USE OF PESTICIDES IN THE WORLD, THE CONCERNS OVER THEIR HEALTH IMPACTS ARE RAPIDLY GROWING. THERE IS A HUGE BODY OF EVIDENCE ON THE RELATION BETWEEN EXPOSURE TO PESTICIDES AND ELEVATED RATE OF CHRONIC DISEASES SUCH AS DIFFERENT TYPES OF CANCERS, DIABETES, NEURODEGENERATIVE DISORDERS LIKE PARKINSON, ALZHEIMER, AND AMYOTROPHIC LATERAL SCLEROSIS (ALS), BIRTH DEFECTS, AND REPRODUCTIVE DISORDERS. THERE IS ALSO CIRCUMSTANTIAL EVIDENCE ON THE ASSOCIATION OF EXPOSURE TO PESTICIDES WITH SOME OTHER CHRONIC DISEASES LIKE RESPIRATORY PROBLEMS, PARTICULARLY ASTHMA AND CHRONIC OBSTRUCTIVE PULMONARY DISEASE (COPD), CARDIOVASCULAR DISEASE SUCH AS ATHEROSCLEROSIS AND CORONARY ARTERY DISEASE, CHRONIC NEPHROPATHIES, AUTOIMMUNE DISEASES LIKE SYSTEMIC LUPUS ERYTHEMATOUS AND RHEUMATOID ARTHRITIS, CHRONIC FATIGUE SYNDROME, AND AGING. THE COMMON FEATURE OF CHRONIC DISORDERS IS A DISTURBANCE IN CELLULAR HOMEOSTASIS, WHICH CAN BE INDUCED VIA PESTICIDES' PRIMARY ACTION LIKE PERTURBATION OF ION CHANNELS, ENZYMES, RECEPTORS, ETC., OR CAN AS WELL BE MEDIATED VIA PATHWAYS OTHER THAN THE MAIN MECHANISM. IN THIS REVIEW, WE PRESENT THE HIGHLIGHTED EVIDENCE ON THE ASSOCIATION OF PESTICIDE'S EXPOSURE WITH THE INCIDENCE OF CHRONIC DISEASES AND INTRODUCE GENETIC DAMAGES, EPIGENETIC MODIFICATIONS, ENDOCRINE DISRUPTION, MITOCHONDRIAL DYSFUNCTION, OXIDATIVE STRESS, ENDOPLASMIC RETICULUM STRESS AND UNFOLDED PROTEIN RESPONSE (UPR), IMPAIRMENT OF UBIQUITIN PROTEASOME SYSTEM, AND DEFECTIVE AUTOPHAGY AS THE EFFECTIVE MECHANISMS OF ACTION. 2013 13 1360 27 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 14 165 27 ABNORMAL HOMOCYSTEINE METABOLISM: AN INSIGHT OF ALZHEIMER'S DISEASE FROM DNA METHYLATION. ALZHEIMER'S DISEASE (AD) IS A CHRONIC NEURODEGENERATIVE DISEASE IN THE CENTRAL NERVOUS SYSTEM THAT HAS COMPLEX PATHOGENESIS IN THE ELDERLY. THE CURRENT REVIEW FOCUSES ON THE EPIGENETIC MECHANISMS OF AD, ACCORDING TO THE LATEST FINDINGS. ONE OF THE BEST-CHARACTERIZED CHROMATIN MODIFICATIONS IN EPIGENETIC MECHANISMS IS DNA METHYLATION. HIGHLY REPLICABLE DATA SHOWS THAT AD OCCURRENCE IS OFTEN ACCOMPANIED BY METHYLATION LEVEL CHANGES OF THE AD-RELATED GENE. HOMOCYSTEINE (HCY) IS NOT ONLY AN INTERMEDIATE PRODUCT OF ONE-CARBON METABOLISM BUT ALSO AN IMPORTANT INDEPENDENT RISK FACTOR OF AD; IT CAN AFFECT THE COGNITIVE FUNCTION OF THE BRAIN BY CHANGING THE ONE-CARBON METABOLISM AND INTERFERING WITH THE DNA METHYLATION PROCESS, RESULTING IN CEREBROVASCULAR DISEASE. IN GENERAL, HCY MAY BE AN ENVIRONMENTAL FACTOR THAT AFFECTS AD VIA THE DNA METHYLATION PATHWAY WITH A SERIES OF CHANGES IN AD-RELATED SUBSTANCE. THIS REVIEW WILL CONCENTRATE ON THE RELATION BETWEEN DNA METHYLATION AND HCY AND TRY TO FIGURE OUT THEIR RULE IN THE PATHOPHYSIOLOGY OF AD. 2020 15 5117 35 POSSIBLE ADVERSE EFFECTS OF HIGH-DOSE NICOTINAMIDE: MECHANISMS AND SAFETY ASSESSMENT. NICOTINAMIDE (NAM) AT DOSES FAR ABOVE THOSE RECOMMENDED FOR VITAMINS IS SUGGESTED TO BE EFFECTIVE AGAINST A WIDE SPECTRUM OF DISEASES AND CONDITIONS, INCLUDING NEUROLOGICAL DYSFUNCTIONS, DEPRESSION AND OTHER PSYCHOLOGICAL DISORDERS, AND INFLAMMATORY DISEASES. RECENT INCREASES IN PUBLIC AWARENESS ON POSSIBLE PRO-LONGEVITY EFFECTS OF NICOTINAMIDE ADENINE DINUCLEOTIDE (NAD(+)) PRECURSORS HAVE CAUSED FURTHER GROWTH OF NAM CONSUMPTION NOT ONLY FOR CLINICAL TREATMENTS, BUT ALSO AS A DIETARY SUPPLEMENT, RAISING CONCERNS ON THE SAFETY OF ITS LONG-TERM USE. HOWEVER, POSSIBLE ADVERSE EFFECTS AND THEIR MECHANISMS ARE POORLY UNDERSTOOD. HIGH-LEVEL NAM ADMINISTRATION CAN EXERT NEGATIVE EFFECTS THROUGH MULTIPLE ROUTES. FOR EXAMPLE, NAM BY ITSELF INHIBITS POLY(ADP-RIBOSE) POLYMERASES (PARPS), WHICH PROTECT GENOME INTEGRITY. ELEVATION OF THE NAD(+) POOL ALTERS CELLULAR ENERGY METABOLISM. MEANWHILE, HIGH-LEVEL NAM ALTERS CELLULAR METHYL METABOLISM AND AFFECTS METHYLATION OF DNA AND PROTEINS, LEADING TO CHANGES IN CELLULAR TRANSCRIPTOME AND PROTEOME. ALSO, METHYL METABOLITES OF NAM, NAMELY METHYLNICOTINAMIDE, ARE PREDICTED TO PLAY ROLES IN CERTAIN DISEASES AND CONDITIONS. IN THIS REVIEW, A COLLECTIVE LITERATURE SEARCH WAS PERFORMED TO PROVIDE A COMPREHENSIVE LIST OF POSSIBLE ADVERSE EFFECTS OF NAM AND TO PROVIDE UNDERSTANDING OF THEIR UNDERLYING MECHANISMS AND ASSESSMENT OF THE RAISED SAFETY CONCERNS. OUR REVIEW ASSURES SAFETY IN CURRENT USAGE LEVEL OF NAM, BUT ALSO FINDS POTENTIAL RISKS FOR EPIGENETIC ALTERATIONS ASSOCIATED WITH CHRONIC USE OF NAM AT HIGH DOSES. IT ALSO SUGGESTS DIRECTIONS OF THE FUTURE STUDIES TO ENSURE SAFER APPLICATION OF NAM. 2020 16 6656 33 UPDATED UNDERSTANDING OF CANCER AS A METABOLIC AND TELOMERE-DRIVEN DISEASE, AND PROPOSAL FOR COMPLEX PERSONALIZED TREATMENT, A HYPOTHESIS. IN THIS REVIEW, WE PROPOSE A HOLISTIC APPROACH TO UNDERSTANDING CANCER AS A METABOLIC DISEASE. OUR SEARCH FOR RELEVANT STUDIES IN MEDICAL DATABASES CONCLUDES THAT CANCER CELLS DO NOT EVOLVE DIRECTLY FROM NORMAL HEALTHY CELLS. WE HYPOTHESIZE THAT ABERRANT DNA DAMAGE ACCUMULATES OVER TIME-AVOIDING THE NATURAL DNA CONTROLS THAT OTHERWISE REPAIR OR REPLACE THE RAPIDLY REPLICATING CELLS. DNA DAMAGE STARTS TO ACCUMULATE IN NON-REPLICATING CELLS, LEADING TO SENESCENCE AND AGING. DNA DAMAGE IS LINKED WITH GENETIC AND EPIGENETIC FACTORS, BUT THE DEVELOPMENT OF CANCER IS FAVORED BY TELOMERASE ACTIVITY. EVIDENCE INDICATES THAT TELOMERE LENGTH IS AFFECTED BY CHRONIC INFLAMMATIONS, ALTERATIONS OF MITOCHONDRIAL DNA, AND VARIOUS ENVIRONMENTAL FACTORS. EMOTIONAL STRESS ALSO INFLUENCES TELOMERE LENGTH. CHRONIC INFLAMMATION CAN CAUSE OXIDATIVE DNA DAMAGE. OXIDATIVE STRESS, IN TURN, CAN TRIGGER MITOCHONDRIAL CHANGES, WHICH ULTIMATELY ALTER NUCLEAR GENE EXPRESSION. THIS VICIOUS CYCLE HAS LED SEVERAL SCIENTISTS TO VIEW CANCER AS A METABOLIC DISEASE. WE HAVE PROPOSED COMPLEX PERSONALIZED TREATMENTS THAT SEEK TO CORRECT MULTIPLE CHANGES SIMULTANEOUSLY USING A PSYCHOLOGICAL APPROACH TO REDUCE CHRONIC STRESS, IMMUNE CHECKPOINT THERAPY WITH REDUCED DOSES OF CHEMO AND RADIOTHERAPY, MINIMAL SURGICAL INTERVENTION, IF ANY, AND MITOCHONDRIAL METABOLIC REPROGRAMMING PROTOCOLS SUPPLEMENTED BY INTERMITTENT FASTING AND PERSONALIZED DIETARY PLANS WITHOUT INTERFERING WITH THE OTHER THERAPIES. 2020 17 1414 34 DIETARY PHYTOCHEMICALS IN NEUROIMMUNOAGING: A NEW THERAPEUTIC POSSIBILITY FOR HUMANS? ALTHOUGH SEVERAL EFFORTS HAVE BEEN MADE IN THE SEARCH FOR GENETIC AND EPIGENETIC PATTERNS LINKED TO DISEASES, A COMPREHENSIVE EXPLANATION OF THE MECHANISMS UNDERLYING PATHOLOGICAL PHENOTYPIC PLASTICITY IS STILL FAR FROM BEING CLARIFIED. OXIDATIVE STRESS AND INFLAMMATION ARE TWO OF THE MAJOR TRIGGERS OF THE EPIGENETIC ALTERATIONS OCCURRING IN CHRONIC PATHOLOGIES, SUCH AS NEURODEGENERATIVE DISEASES. IN FACT, OVER THE LAST DECADE, REMARKABLE PROGRESS HAS BEEN MADE TO REALIZE THAT CHRONIC, LOW-GRADE INFLAMMATION IS ONE OF THE MAJOR RISK FACTOR UNDERLYING BRAIN AGING. ACCUMULATED DATA STRONGLY SUGGEST THAT PHYTOCHEMICALS FROM FRUITS, VEGETABLES, HERBS, AND SPICES MAY EXERT RELEVANT IMMUNOMODULATORY AND/OR ANTI-INFLAMMATORY ACTIVITIES IN THE CONTEXT OF BRAIN AGING. STARTING BY THE EVIDENCE THAT A COMMON DENOMINATOR OF AGING AND CHRONIC DEGENERATIVE DISEASES IS REPRESENTED BY INFLAMMATION, AND THAT SEVERAL DIETARY PHYTOCHEMICALS ARE ABLE TO POTENTIALLY INTERFERE WITH AND REGULATE THE NORMAL FUNCTION OF CELLS, IN PARTICULAR NEURONAL COMPONENTS, AIM OF THIS REVIEW IS TO SUMMARIZE RECENT STUDIES ON NEUROINFLAMMAGING PROCESSES AND PROOFS INDICATING THAT SPECIFIC PHYTOCHEMICALS MAY ACT AS POSITIVE MODULATORS OF NEUROINFLAMMATORY EVENTS. IN ADDITION, CRITICAL PATHWAYS INVOLVED IN MEDIATING PHYTOCHEMICALS EFFECTS ON NEUROINFLAMMAGING WERE DISCUSSED, EXPLORING THE REAL IMPACT OF THESE COMPOUNDS IN PRESERVING BRAIN HEALTH BEFORE THE ONSET OF SYMPTOMS LEADING TO INFLAMMATORY NEURODEGENERATION AND COGNITIVE DECLINE. 2016 18 339 36 ALTERATIONS IN HOMOCYSTEINE METABOLISM AMONG ALCOHOL DEPENDENT PATIENTS--CLINICAL, PATHOBIOCHEMICAL AND GENETIC ASPECTS. ADDICTION RESEARCH FOCUSING ON HOMOCYSTEINE METABOLISM AND ITS ASSOCIATION WITH ASPECTS OF ALCOHOL DEPENDENCE HAS REVEALED IMPORTANT FINDINGS. RECENT LITERATURE ON THIS TOPIC HAS BEEN TAKEN INTO ACCOUNT FOR THE REVIEW PROVIDED. METHYLENETETRAHYDROFOLATE REDUCTASE (MTHFR) IS A KEY ENZYME IN THE HOMOCYSTEINE METABOLISM. PLASMA HOMOCYSTEINE LEVELS ARE INFLUENCED BY THE SINGLE-NUCLEOTIDE POLYMORPHISM (SNP) MTHFR C677T. BESIDES GENETIC FACTORS, ENVIRONMENTAL FACTORS HAVE AN IMPACT ON HOMOCYSTEINE PLASMA LEVELS TOO. THUS, CHRONIC ALCOHOL INTAKE IS ASSOCIATED WITH ELEVATED HOMOCYSTEINE PLASMA CONCENTRATIONS. ELEVATION OF PLASMA HOMOCYSTEINE CONCENTRATION IS CONSIDERED AS A PREDICTOR FOR THE OCCURRENCE OF ALCOHOL WITHDRAWAL SEIZURES AND--AS HOMOCYSTEINE IS A CARDIOVASCULAR RISK FACTOR--MIGHT CONTRIBUTE TO THE HIGHER RISK FOR MYOCARDIAL INFARCTION AMONG ALCOHOL DEPENDENT PATIENTS. HOMOCYSTEINE ACTS AS AN N-METHYL-D-ASPARTATE (NMDA) RECEPTOR AGONIST AND HAS EXCITOTOXIC EFFECTS. FURTHERMORE, IT HAS BEEN DEMONSTRATED THAT HOMOCYSTEINE HAS NEUROTOXIC EFFECTS ESPECIALLY ON DOPAMINERGIC NEURONS. AS THE REWARDING EFFECTS OF ALCOHOL ARE MEDIATED BY THE DOPAMINERGIC SYSTEM, A HOMOCYSTEINE-DEPENDENT IMPAIRMENT OF THE REWARD SYSTEM POSSIBLY LEADS TO AN ALTERED DRINKING BEHAVIOUR ACCORDING TO THE DEFICIT HYPOTHESIS OF ADDICTION. HOMOCYSTEINE IS INVOLVED IN THE METABOLISM OF METHYL GROUPS AND DNA-METHYLATION PLAYS A ROLE IN REGULATION OF GENE EXPRESSION. THEREFORE IT HAS BEEN SUGGESTED THAT HOMOCYSTEINE IS AN IMPORTANT EPIGENETIC FACTOR. IT REMAINS TO BE DETERMINED WHETHER ALCOHOL DEPENDENT PATIENTS BENEFIT FROM HOMOCYSTEINE LOWERING STRATEGIES, E.G., VIA SUPPLEMENTATION OF FOLATE, VITAMIN B6 AND B12. IN THIS RESPECT IT IS NOT CLEAR YET, IF A SUPPLEMENTATION THERAPY CAN REDUCE THE RISK FOR THE OCCURRENCE OF ALCOHOL WITHDRAWAL SEIZURES. 2008 19 2562 25 EPIGENETICS IN THE PRIMARY AND SECONDARY PREVENTION OF CARDIOVASCULAR DISEASE: INFLUENCE OF EXERCISE AND NUTRITION. INCREASING EVIDENCE LINKS CHANGES IN EPIGENETIC SYSTEMS, SUCH AS DNA METHYLATION, HISTONE MODIFICATION, AND NON-CODING RNA EXPRESSION, TO THE OCCURRENCE OF CARDIOVASCULAR DISEASE (CVD). THESE EPIGENETIC MODIFICATIONS CAN CHANGE GENETIC FUNCTION UNDER INFLUENCE OF EXOGENOUS STIMULI AND CAN BE TRANSFERRED TO NEXT GENERATIONS, PROVIDING A POTENTIAL MECHANISM FOR INHERITANCE OF BEHAVIOURAL INTERVENTION EFFECTS. THE BENEFITS OF EXERCISE AND NUTRITIONAL INTERVENTIONS IN THE PRIMARY AND SECONDARY PREVENTION OF CVD ARE WELL ESTABLISHED, BUT THE MECHANISMS ARE NOT COMPLETELY UNDERSTOOD. IN THIS REVIEW, WE DESCRIBE THE ACUTE AND CHRONIC EPIGENETIC EFFECTS OF PHYSICAL ACTIVITY AND DIETARY CHANGES. WE PROPOSE EXERCISE AND NUTRITION AS POTENTIAL TRIGGERS OF EPIGENETIC SIGNALS, PROMOTING THE RESHAPING OF TRANSCRIPTIONAL PROGRAMMES WITH EFFECTS ON CVD PHENOTYPES. FINALLY, WE HIGHLIGHT RECENT DEVELOPMENTS IN EPIGENETIC THERAPEUTICS WITH IMPLICATIONS FOR PRIMARY AND SECONDARY CVD PREVENTION. 2022 20 6287 35 THE POTENTIAL ROLE OF ENVIRONMENTAL FACTORS IN MODULATING MITOCHONDRIAL DNA EPIGENETIC MARKS. MANY STUDIES IMPLICATE MITOCHONDRIAL DYSFUNCTION IN THE DEVELOPMENT AND PROGRESSION OF NUMEROUS CHRONIC DISEASES. MITOCHONDRIA ARE RESPONSIBLE FOR MOST CELLULAR ENERGY PRODUCTION, AND UNLIKE OTHER CYTOPLASMIC ORGANELLES, MITOCHONDRIA CONTAIN THEIR OWN GENOME. MOST RESEARCH TO DATE, THROUGH INVESTIGATING MITOCHONDRIAL DNA COPY NUMBER, HAS FOCUSED ON LARGER STRUCTURAL CHANGES OR ALTERATIONS TO THE ENTIRE MITOCHONDRIAL GENOME AND THEIR ROLE IN HUMAN DISEASE. USING THESE METHODS, MITOCHONDRIAL DYSFUNCTION HAS BEEN LINKED TO CANCERS, CARDIOVASCULAR DISEASE, AND METABOLIC HEALTH. HOWEVER, LIKE THE NUCLEAR GENOME, THE MITOCHONDRIAL GENOME MAY EXPERIENCE EPIGENETIC ALTERATIONS, INCLUDING DNA METHYLATION THAT MAY PARTIALLY EXPLAIN SOME OF THE HEALTH EFFECTS OF VARIOUS EXPOSURES. RECENTLY, THERE HAS BEEN A MOVEMENT TO UNDERSTAND HUMAN HEALTH AND DISEASE WITHIN THE CONTEXT OF THE EXPOSOME, WHICH AIMS TO DESCRIBE AND QUANTIFY THE ENTIRETY OF ALL EXPOSURES PEOPLE ENCOUNTER THROUGHOUT THEIR LIVES. THESE INCLUDE, AMONG OTHERS, ENVIRONMENTAL POLLUTANTS, OCCUPATIONAL EXPOSURES, HEAVY METALS, AND LIFESTYLE AND BEHAVIORAL FACTORS. IN THIS CHAPTER, WE SUMMARIZE THE CURRENT RESEARCH ON MITOCHONDRIA AND HUMAN HEALTH, PROVIDE AN OVERVIEW OF THE CURRENT KNOWLEDGE ON MITOCHONDRIAL EPIGENETICS, AND DESCRIBE THE EXPERIMENTAL AND EPIDEMIOLOGIC STUDIES THAT HAVE INVESTIGATED PARTICULAR EXPOSURES AND THEIR RELATIONSHIPS WITH MITOCHONDRIAL EPIGENETIC MODIFICATIONS. WE CONCLUDE THE CHAPTER WITH SUGGESTIONS FOR FUTURE DIRECTIONS IN EPIDEMIOLOGIC AND EXPERIMENTAL RESEARCH THAT IS NEEDED TO ADVANCE THE GROWING FIELD OF MITOCHONDRIAL EPIGENETICS. 2023