1 5110 160 POLYPHENOLS AND THE MODULATION OF GENE EXPRESSION PATHWAYS: CAN WE EAT OUR WAY OUT OF THE DANGER OF CHRONIC DISEASE? PLANT-DERIVED DIETARY POLYPHENOLS MAY IMPROVE SOME DISEASE STATES AND PROMOTE HEALTH. EXPERIMENTAL EVIDENCE SUGGESTS THAT THIS IS PARTIALLY ATTRIBUTABLE TO CHANGES IN GENE EXPRESSION. THE RATIONAL USE OF BIOACTIVE FOOD COMPONENTS MAY THEREFORE PRESENT AN OPPORTUNITY TO ACTIVATE OR REPRESS SELECTED GENE EXPRESSION PATHWAYS AND, CONSEQUENTLY, TO MANAGE OR PREVENT DISEASE. IT REMAINS TO BE DETERMINED WHETHER THIS USE OF BIOACTIVE FOOD COMPONENTS CAN BE DONE SAFELY. THIS ARTICLE REVIEWS THE ASSOCIATED CONTROVERSIES AND LIMITATIONS OF POLYPHENOL THERAPY. THERE IS A PAUCITY OF CLINICAL DATA ON THE RATIONAL USE OF POLYPHENOLS, INCLUDING A LACK OF KNOWLEDGE ON EFFECTIVE DOSAGE, ACTUAL CHEMICAL FORMULATIONS, BIOAVAILABILITY, DISTRIBUTION IN TISSUES, THE EFFECT OF GENETIC VARIATIONS, DIFFERENCES IN GUT MICROFLORA, THE SYNERGISTIC (OR ANTAGONISTIC) EFFECTS OBSERVED IN EXTRACTS, AND THE POSSIBLE INTERACTION BETWEEN POLYPHENOLS AND LIPID DOMAINS OF CELL MEMBRANES THAT MAY ALTER THE FUNCTION OF RELEVANT RECEPTORS. THE SEMINAL QUESTION OF WHY PLANTS MAKE SUBSTANCES THAT BENEFIT HUMANS REMAINS UNANSWERED, AND THERE IS STILL MUCH TO LEARN IN TERMS OF CORRELATIVE VERSUS CAUSAL EFFECTS OF HUMAN EXPOSURE TO VARIOUS NUTRIENTS. THE AVAILABLE DATA STRONGLY SUGGEST SIGNIFICANT EFFECTS AT THE MOLECULAR LEVEL THAT REPRESENT INTERACTIONS WITH THE EPIGENOME. THE ADVENT OF RELATIVELY SIMPLE TECHNOLOGIES IS HELPING THE FIELD OF EPIGENETICS PROGRESS AND FACILITATING THE ACQUISITION OF MULTIPLE TYPES OF DATA THAT WERE PREVIOUSLY DIFFICULT TO OBTAIN. IN THIS REVIEW, WE SUMMARIZE THE MOLECULAR BASIS OF THE EPIGENETIC REGULATION OF GENE EXPRESSION AND THE EPIGENETIC CHANGES ASSOCIATED WITH THE CONSUMPTION OF POLYPHENOLS THAT ILLUSTRATE HOW MODIFICATIONS IN HUMAN NUTRITION MAY BECOME RELEVANT TO HEALTH AND DISEASE. 2014 2 3404 36 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 3 6715 38 VITAMIN A AND THE EPIGENOME. THE EPIGENETIC PHENOMENA REFER TO HERITABLE CHANGES IN GENE EXPRESSION OTHER THAN THOSE IN THE DNA SEQUENCE, SUCH AS DNA METHYLATION AND HISTONE MODIFICATIONS. MAJOR RESEARCH PROGRESS IN THE LAST FEW YEARS HAS PROVIDED FURTHER PROOF THAT ENVIRONMENTAL FACTORS, INCLUDING DIET AND NUTRITION, CAN INFLUENCE PHYSIOLOGIC AND PATHOLOGIC PROCESSES THROUGH EPIGENETIC ALTERATIONS, WHICH IN TURN INFLUENCE GENE EXPRESSION. THIS INFLUENCE IS TERMED NUTRITIONAL EPIGENETICS, AND ONE PROMINENT EXAMPLE IS THE REGULATION OF GENE TRANSCRIPTION BY VITAMIN A THROUGH INTERACTION TO ITS NUCLEAR RECEPTOR. VITAMIN A IS CRITICAL THROUGHOUT LIFE. TOGETHER WITH ITS DERIVATIVES, IT REGULATES DIVERSE PROCESSES INCLUDING REPRODUCTION, EMBRYOGENESIS, VISION, GROWTH, CELLULAR DIFFERENTIATION AND PROLIFERATION, MAINTENANCE OF EPITHELIAL CELLULAR INTEGRITY AND IMMUNE FUNCTION. HERE WE REVIEW THE EPIGENETIC ROLE OF VITAMIN A IN CANCER, STEM CELLS DIFFERENTIATION, PROLIFERATION, AND IMMUNITY. THE DATA PRESENTED HERE SHOW THAT RETINOIC ACID IS A POTENT AGENT CAPABLE OF INDUCING ALTERATIONS IN EPIGENETIC MODIFICATIONS THAT PRODUCE VARIOUS EFFECTS ON THE PHENOTYPE. MEDICAL BENEFITS OF VITAMIN A AS AN EPIGENETIC MODULATOR, ESPECIALLY WITH RESPECT TO ITS CHRONIC USE AS NUTRITIONAL SUPPLEMENT, SHOULD RELY ON OUR FURTHER UNDERSTANDING OF ITS EPIGENETIC EFFECTS DURING HEALTH AND DISEASE, AS WELL AS THROUGH DIFFERENT GENERATIONS. 2017 4 4273 36 MICROBIOTA AND EPIGENETICS: HEALTH IMPACT. EPIGENETIC CHANGES ASSOCIATED WITH DISEASE DEVELOPMENT AND PROGRESSIONS ARE OF INCREASING IMPORTANCE BECAUSE OF THEIR POTENTIAL DIAGNOSTIC AND THERAPEUTIC APPLICATIONS. SEVERAL EPIGENETIC CHANGES ASSOCIATED WITH CHRONIC METABOLIC DISORDERS HAVE BEEN STUDIED IN VARIOUS DISEASES. EPIGENETIC CHANGES ARE MOSTLY MODULATED BY ENVIRONMENTAL FACTORS, INCLUDING THE HUMAN MICROBIOTA LIVING IN DIFFERENT PARTS OF OUR BODIES. THE MICROBIAL STRUCTURAL COMPONENTS AND THE MICROBIALLY DERIVED METABOLITES DIRECTLY INTERACT WITH HOST CELLS, THEREBY MAINTAINING HOMEOSTASIS. MICROBIOME DYSBIOSIS, ON THE OTHER HAND, IS KNOWN TO PRODUCE ELEVATED LEVELS OF DISEASE-LINKED METABOLITES, WHICH MAY DIRECTLY AFFECT A HOST METABOLIC PATHWAY OR INDUCE EPIGENETIC CHANGES THAT CAN LEAD TO DISEASE DEVELOPMENT. DESPITE THEIR IMPORTANT ROLE IN HOST PHYSIOLOGY AND SIGNAL TRANSDUCTION, THERE HAS BEEN LITTLE RESEARCH INTO THE MECHANICS AND PATHWAYS ASSOCIATED WITH EPIGENETIC MODIFICATIONS. THIS CHAPTER FOCUSES ON THE RELATIONSHIP BETWEEN MICROBES AND THEIR EPIGENETIC EFFECTS IN DISEASED PATHOLOGY, AS WELL AS ON THE REGULATION AND METABOLISM OF THE DIETARY OPTIONS AVAILABLE TO THE MICROBES. FURTHERMORE, THIS CHAPTER ALSO PROVIDES A PROSPECTIVE LINK BETWEEN THESE TWO IMPORTANT PHENOMENA, TERMED "MICROBIOME AND EPIGENETICS." 2023 5 5069 29 PHYSICAL ACTIVITY IN THE PREVENTION OF HUMAN DISEASES: ROLE OF EPIGENETIC MODIFICATIONS. EPIGENETIC MODIFICATION REFERS TO HERITABLE CHANGES IN GENE FUNCTION THAT CANNOT BE EXPLAINED BY ALTERATIONS IN THE DNA SEQUENCE. THE CURRENT LITERATURE CLEARLY DEMONSTRATES THAT THE EPIGENETIC RESPONSE IS HIGHLY DYNAMIC AND INFLUENCED BY DIFFERENT BIOLOGICAL AND ENVIRONMENTAL FACTORS SUCH AS AGING, NUTRIENT AVAILABILITY AND PHYSICAL EXERCISE. AS SUCH, IT IS WELL ACCEPTED THAT PHYSICAL ACTIVITY AND EXERCISE CAN MODULATE GENE EXPRESSION THROUGH EPIGENETIC ALTERNATIONS ALTHOUGH THE TYPE AND DURATION OF EXERCISE ELICITING SPECIFIC EPIGENETIC EFFECTS THAT CAN RESULT IN HEALTH BENEFITS AND PREVENT CHRONIC DISEASES REMAINS TO BE DETERMINED. THIS REVIEW HIGHLIGHTS THE MOST SIGNIFICANT FINDINGS FROM EPIGENETIC STUDIES INVOLVING PHYSICAL ACTIVITY/EXERCISE INTERVENTIONS KNOWN TO BENEFIT CHRONIC DISEASES SUCH AS METABOLIC SYNDROME, DIABETES, CANCER, CARDIOVASCULAR AND NEURODEGENERATIVE DISEASES. 2017 6 5373 32 RECENT ADVANCES IN UNDERSTANDING THE ROLE OF DIET AND OBESITY IN THE DEVELOPMENT OF COLORECTAL CANCER. COLORECTAL CANCER (CRC) IS A MAJOR CAUSE OF PREMATURE DEATH IN THE UK AND MANY DEVELOPED COUNTRIES. HOWEVER, THE RISK OF DEVELOPING CRC IS WELL RECOGNISED TO BE ASSOCIATED NOT ONLY WITH DIET BUT ALSO WITH OBESITY AND LACK OF EXERCISE. WHILE EPIDEMIOLOGICAL EVIDENCE SHOWS AN ASSOCIATION WITH FACTORS SUCH AS HIGH RED MEAT INTAKE AND LOW INTAKE OF VEGETABLES, FIBRE AND FISH, THE MECHANISMS UNDERLYING THESE EFFECTS ARE ONLY NOW BEING ELUCIDATED. CRC DEVELOPS OVER MANY YEARS AND IS TYPICALLY CHARACTERISED BY AN ACCUMULATION OF MUTATIONS, WHICH MAY ARISE AS A CONSEQUENCE OF INHERITED POLYMORPHISMS IN KEY GENES, BUT MORE COMMONLY AS A RESULT OF SPONTANEOUSLY ARISING MUTATIONS AFFECTING GENES CONTROLLING CELL PROLIFERATION, DIFFERENTIATION, APOPTOSIS AND DNA REPAIR. EPIGENETIC CHANGES ARE OBSERVED THROUGHOUT THE PROGRESS FROM NORMAL MORPHOLOGY THROUGH FORMATION OF ADENOMA, AND THE SUBSEQUENT DEVELOPMENT OF CARCINOMA. THE REASONS WHY THIS ACCUMULATION OF LOSS OF HOMOEOSTATIC CONTROLS ARISES ARE UNCLEAR BUT CHRONIC INFLAMMATION HAS BEEN PROPOSED TO PLAY A CENTRAL ROLE. OBESITY IS ASSOCIATED WITH INCREASED PLASMA LEVELS OF CHEMOKINES AND ADIPOKINES CHARACTERISTIC OF CHRONIC SYSTEMIC INFLAMMATION, AND DIETARY FACTORS SUCH AS FISH OILS AND PHYTOCHEMICALS HAVE BEEN SHOWN TO HAVE ANTI-INFLAMMATORY PROPERTIES AS WELL AS MODULATING ESTABLISHED RISK FACTORS SUCH AS APOPTOSIS AND CELL PROLIFERATION. THERE IS ALSO SOME EVIDENCE THAT DIET CAN MODIFY EPIGENETIC CHANGES. THIS PAPER BRIEFLY REVIEWS THE CURRENT STATE OF KNOWLEDGE IN RELATION TO CRC DEVELOPMENT AND CONSIDERS EVIDENCE FOR POTENTIAL MECHANISMS BY WHICH DIET MAY MODIFY RISK. 2011 7 4794 32 NUTRITIONAL GENOMIC APPROACHES TO CANCER PREVENTION RESEARCH. A WEALTH OF EVIDENCE POINTS TO THE DIET AS ONE OF THE MOST IMPORTANT MODIFIABLE DETERMINANTS OF THE RISK OF DEVELOPING CANCER, BUT A GREATER UNDERSTANDING OF THE INTERACTION BETWEEN DIET AND GENES MAY HELP DISTINGUISH WHO WILL AND WILL NOT RESPOND TO DIETARY INTERVENTIONS. THE TERM NUTRIGENOMICS OR NUTRITIONAL GENOMICS REFERS TO THE BIDIRECTIONAL INTERACTIONS BETWEEN GENES AND DIET. NUTRITIONAL GENOMICS ENCOMPASSES AN UNDERSTANDING ABOUT HOW THE RESPONSE TO BIOACTIVE FOOD COMPONENTS DEPENDS ON AN INDIVIDUAL'S GENETIC BACKGROUND (NUTRIGENETICS), NUTRIENT INDUCED CHANGES IN DNA METHYLATION, HISTONE POSTTRANSLATIONAL MODIFICATIONS, AND OTHER CHROMATIN ALTERATIONS (NUTRITIONAL EPIGENETICS), AND NUTRIENT INDUCED CHANGES IN GENE EXPRESSION (NUTRITIONAL TRANSCRIPTOMICS). THESE APPROACHES TO THE STUDY OF NUTRITION WILL ASSIST IN UNDERSTANDING HOW GENETIC VARIATION, EPIGENETIC EVENTS, AND REGULATION OF GENE EXPRESSION ALTER REQUIREMENTS FOR, AND RESPONSES TO, NUTRIENTS. RECOGNITION OF THE INTERPLAY BETWEEN GENES AND DIET COULD ULTIMATELY HELP IDENTIFY MODIFIABLE MOLECULAR TARGETS FOR PREVENTING, DELAYING, OR REDUCING THE SYMPTOMS OF CANCER AND OTHER CHRONIC DISEASES. 2007 8 2282 35 EPIGENETIC REGULATION IN EXPOSOME-INDUCED TUMORIGENESIS: EMERGING ROLES OF NCRNAS. ENVIRONMENTAL FACTORS, INCLUDING POLLUTANTS AND LIFESTYLE, CONSTITUTE A SIGNIFICANT ROLE IN SEVERE, CHRONIC PATHOLOGIES WITH AN ESSENTIAL SOCIETAL, ECONOMIC BURDEN. THE MEASUREMENT OF ALL ENVIRONMENTAL EXPOSURES AND ASSESSING THEIR CORRELATION WITH EFFECTS ON INDIVIDUAL HEALTH IS DEFINED AS THE EXPOSOME, WHICH INTERACTS WITH OUR UNIQUE CHARACTERISTICS SUCH AS GENETICS, PHYSIOLOGY, AND EPIGENETICS. EPIGENETICS INVESTIGATES MODIFICATIONS IN THE EXPRESSION OF GENES THAT DO NOT DEPEND ON THE UNDERLYING DNA SEQUENCE. SOME STUDIES HAVE CONFIRMED THAT ENVIRONMENTAL FACTORS MAY PROMOTE DISEASE IN INDIVIDUALS OR SUBSEQUENT PROGENY THROUGH EPIGENETIC ALTERATIONS. VARIATIONS IN THE EPIGENETIC MACHINERY CAUSE A SPECTRUM OF DIFFERENT DISORDERS SINCE THESE MECHANISMS ARE MORE SENSITIVE TO THE ENVIRONMENT THAN THE GENOME, DUE TO THE INHERENT REVERSIBLE NATURE OF THE EPIGENETIC LANDSCAPE. SEVERAL EPIGENETIC MECHANISMS, INCLUDING MODIFICATIONS IN DNA (E.G., METHYLATION), HISTONES, AND NONCODING RNAS CAN CHANGE GENOME EXPRESSION UNDER THE EXOGENOUS INFLUENCE. NOTABLY, THE ROLE OF LONG NONCODING RNAS IN EPIGENETIC PROCESSES HAS NOT BEEN WELL EXPLORED IN THE CONTEXT OF EXPOSOME-INDUCED TUMORIGENESIS. IN THE PRESENT REVIEW, OUR SCOPE IS TO PROVIDE RELEVANT EVIDENCE INDICATING THAT EPIGENETIC ALTERATIONS MEDIATE THOSE DETRIMENTAL EFFECTS CAUSED BY EXPOSURE TO ENVIRONMENTAL TOXICANTS, FOCUSING MAINLY ON A MULTI-STEP REGULATION BY DIVERSE NONCODING RNAS SUBTYPES. 2022 9 2704 31 EXERCISE AND COLORECTAL CANCER: PREVENTION AND MOLECULAR MECHANISMS. EXERCISE AND PHYSICAL ACTIVITY HAVE BEEN SHOWN TO BE STRONGLY ASSOCIATED WITH A DECREASED INCIDENCE RATE OF VARIOUS CHRONIC DISEASES ESPECIALLY NUMEROUS HUMAN MALIGNANCIES. A HUGE NUMBER OF CLINICAL TRIALS AND META-ANALYSIS HAVE DEMONSTRATED THAT EXERCISE IS SIGNIFICANTLY EFFECTIVE IN LOWERING THE RISK OF COLORECTAL CANCER. IN ADDITION, IT IS SUGGESTED AS AN EFFECTIVE THERAPEUTIC MODALITY AGAINST THIS CANCER TYPE. THEREFORE, IN THIS REVIEW, WE WILL REVIEW COMPREHENSIBLY THE EFFECTS OF EXERCISE IN PREVENTING, TREATING, AND ALLEVIATING THE ADVERSE EFFECTS OF CONVENTIONAL THERAPEUTIC OPTIONS IN COLORECTAL CANCER. MOREOVER, THE POSSIBLE MECHANISMS UNDERLYING THE POSITIVE EFFECTS OF EXERCISE AND PHYSICAL ACTIVITY IN COLORECTAL CANCER, INCLUDING REGULATION OF INFLAMMATION, APOPTOSIS, GROWTH FACTOR AXIS, IMMUNITY, EPIGENETIC, ETC. WILL BE ALSO DISCUSSED. 2022 10 6812 24 [EPIGENETICS, INTERFACE BETWEEN ENVIRONMENT AND GENES: ROLE IN COMPLEX DISEASES]. EPIGENETICS IS THE STUDY OF HERITABLE CHANGES IN GENE EXPRESSION OR CELLULAR PHENOTYPE CAUSED BY MECHANISMS OTHER THAN CHANGES IN THE UNDERLYING DNA SEQUENCE. EPIGENETICS IS ONE OF THE MAJOR MECHANISMS EXPLAINING THE "DEVELOPMENTAL ORIGIN OF HEALTH AND DISEASES" (DOHAD). BESIDES GENETIC BACKGROUND INHERITED FROM PARENTS, WHICH CONFERS SUSCEPTIBILITY TO CERTAIN PATHOLOGIES, EPIGENETIC CHANGES CONSTITUTE THE MEMORY OF PREVIOUS EVENTS, EITHER POSITIVE OR NEGATIVE, ALONG THE LIFE CYCLE, INCLUDING AT THE IN UTERO STAGE. THE LATER EXPOSITION TO HOSTILE ENVIRONMENT MAY REVEAL SUCH SUSCEPTIBILITY, WITH THE DEVELOPMENT OF VARIOUS PATHOLOGIES, AMONG THEM NUMEROUS CHRONIC COMPLEX DISEASES. THE DEMONSTRATION OF SUCH A SEQUENCE OF EVENTS HAS BEEN SHOWN FOR METABOLIC DISEASES AS OBESITY, METABOLIC SYNDROME AND TYPE 2 DIABETES, CARDIOVASCULAR DISEASE AND CANCER. IN CONTRAST TO GENETIC PREDISPOSITION, WHICH IS IRREVERSIBLE, EPIGENETIC CHANGES ARE POTENTIALLY REVERSIBLE, THUS GIVING TARGETS NOT ONLY FOR PREVENTION, BUT POSSIBLY ALSO FOR THE TREATMENT OF CERTAIN COMPLEX DISEASES. 2012 11 2855 47 FROM INFLAMMAGING TO HEALTHY AGING BY DIETARY LIFESTYLE CHOICES: IS EPIGENETICS THE KEY TO PERSONALIZED NUTRITION? THE PROGRESSIVELY OLDER POPULATION IN DEVELOPED COUNTRIES IS REFLECTED IN AN INCREASE IN THE NUMBER OF PEOPLE SUFFERING FROM AGE-RELATED CHRONIC INFLAMMATORY DISEASES SUCH AS METABOLIC SYNDROME, DIABETES, HEART AND LUNG DISEASES, CANCER, OSTEOPOROSIS, ARTHRITIS, AND DEMENTIA. THE HETEROGENEITY IN BIOLOGICAL AGING, CHRONOLOGICAL AGE, AND AGING-ASSOCIATED DISORDERS IN HUMANS HAVE BEEN ASCRIBED TO DIFFERENT GENETIC AND ENVIRONMENTAL FACTORS (I.E., DIET, POLLUTION, STRESS) THAT ARE CLOSELY LINKED TO SOCIOECONOMIC FACTORS. THE COMMON DENOMINATOR OF THESE FACTORS IS THE INFLAMMATORY RESPONSE. CHRONIC LOW-GRADE SYSTEMIC INFLAMMATION DURING PHYSIOLOGICAL AGING AND IMMUNOSENESCENCE ARE INTERTWINED IN THE PATHOGENESIS OF PREMATURE AGING ALSO DEFINED AS 'INFLAMMAGING.' THE LATTER HAS BEEN ASSOCIATED WITH FRAILTY, MORBIDITY, AND MORTALITY IN ELDERLY SUBJECTS. HOWEVER, IT IS UNKNOWN TO WHAT EXTENT INFLAMMAGING OR LONGEVITY IS CONTROLLED BY EPIGENETIC EVENTS IN EARLY LIFE. TODAY, HUMAN DIET IS BELIEVED TO HAVE A MAJOR INFLUENCE ON BOTH THE DEVELOPMENT AND PREVENTION OF AGE-RELATED DISEASES. MOST PLANT-DERIVED DIETARY PHYTOCHEMICALS AND MACRO- AND MICRONUTRIENTS MODULATE OXIDATIVE STRESS AND INFLAMMATORY SIGNALING AND REGULATE METABOLIC PATHWAYS AND BIOENERGETICS THAT CAN BE TRANSLATED INTO STABLE EPIGENETIC PATTERNS OF GENE EXPRESSION. THEREFORE, DIET INTERVENTIONS DESIGNED FOR HEALTHY AGING HAVE BECOME A HOT TOPIC IN NUTRITIONAL EPIGENOMIC RESEARCH. INCREASING EVIDENCE HAS REVEALED THAT COMPLEX INTERACTIONS BETWEEN FOOD COMPONENTS AND HISTONE MODIFICATIONS, DNA METHYLATION, NON-CODING RNA EXPRESSION, AND CHROMATIN REMODELING FACTORS INFLUENCE THE INFLAMMAGING PHENOTYPE AND AS SUCH MAY PROTECT OR PREDISPOSE AN INDIVIDUAL TO MANY AGE-RELATED DISEASES. REMARKABLY, HUMANS PRESENT A BROAD RANGE OF RESPONSES TO SIMILAR DIETARY CHALLENGES DUE TO BOTH GENETIC AND EPIGENETIC MODULATIONS OF THE EXPRESSION OF TARGET PROTEINS AND KEY GENES INVOLVED IN THE METABOLISM AND DISTRIBUTION OF THE DIETARY CONSTITUENTS. HERE, WE WILL SUMMARIZE THE EPIGENETIC ACTIONS OF DIETARY COMPONENTS, INCLUDING PHYTOCHEMICALS, AND MACRO- AND MICRONUTRIENTS AS WELL AS METABOLITES, THAT CAN ATTENUATE INFLAMMAGING. WE WILL DISCUSS THE CHALLENGES FACING PERSONALIZED NUTRITION TO TRANSLATE HIGHLY VARIABLE INTERINDIVIDUAL EPIGENETIC DIET RESPONSES TO POTENTIAL INDIVIDUAL HEALTH BENEFITS/RISKS RELATED TO AGING DISEASE. 2015 12 6905 22 [THE ROLE OF EPIGENETIC REGULATIONS IN EARLY CHILDHOOD DISEASES]. WITH THE ACCEPTANCE OF "THE DEVELOPMENTAL ORIGINS OF HEALTH AND DISEASE" CONCEPT IN THE 1990S, IT BECAME CLEAR THAT EPIGENETIC INHERITANCE, WHICH DO NOT INVOLVE CHANGES IN THE DNA SEQUENCE HAS IMPORTANT ROLE IN THE PATHOGENESIS OF DISEASES. EPIGENETIC REGULATION SERVES THE ADAPTATION TO THE CHANGING ENVIRONMENT AND MAINTAINS THE REPRODUCTIVE FITNESS EVEN ON THE DRAWBACK OF INCREASED RISK OF DISEASES IN LATER LIFE. THE ROLE OF EPIGENETIC MECHANISMS IN CHRONIC NON-COMMUNICABLE DISEASES HAS BEEN WELL ESTABLISHED. RECENT STUDIES HAVE REVEALED THAT EPIGENETIC CHANGES HAVE ALSO CAUSAL ROLE IN CERTAIN PEDIATRIC DISEASES. THE REVIEW EVALUATES THE RECENT EPIGENETIC FINDINGS IN THE PATHOMECHANISM OF COMMON PEDIATRIC DISEASES. THE WIDE RANGE AND LONG-LASTING DURATION OF EPIGENETIC REGULATIONS GIVE IMPORTANCE TO THE SUBJECT. METHODS ARE ALREADY AVAILABLE TO EVALUATE A PART OF THE EPIGENETIC CHANGES IN THE CLINICAL PRACTICE, PRESENTLY AIMING PRIMARILY THE ESTIMATION OF THE DISEASE RISK OR DEFINITION OF DIAGNOSIS. FURTHERMORE, THERE ARE ALREADY AVAILABLE LIMITED MEANS TO INFLUENCE THE EPIGENETIC REGULATION. 2019 13 2100 28 EPIGENETIC EFFECTS OF NATURAL POLYPHENOLS: A FOCUS ON SIRT1-MEDIATED MECHANISMS. POLYPHENOLS ARE A CLASS OF NATURAL COMPOUNDS WIDELY DISTRIBUTED IN FRUITS, VEGETABLES, AND PLANTS. THEY HAVE BEEN REPORTED TO POSSESS A WIDE RANGE OF ACTIVITIES IN PREVENTION AND ALLEVIATION OF VARIOUS DISEASES LIKE CANCER, NEUROINFLAMMATION, DIABETES, AND AGING. POLYPHENOLS ARE EFFECTIVE AGAINST CHRONIC DISEASES AND RECENT REPORTS INDICATED STRONG EPIGENETIC EFFECTS OF POLYPHENOLS. MOST OF THE STUDIES INVESTIGATING EPIGENETIC EFFECTS OF NATURAL POLYPHENOLS HAVE FOCUSED ON THEIR BENEFICIAL EFFECTS IN CANCER TREATMENT. HOWEVER, EPIGENETIC DEFECTS HAVE BEEN DEMONSTRATED IN MANY OTHER DISEASES AS WELL, AND APPLICATION OF POLYPHENOLS TO MODULATE THE EPIGENOME IS BECOMING AN INTERESTING FIELD OF RESEARCH. THIS REVIEW SUMMARIZES THE EFFECTS OF NATURAL POLYPHENOLS IN MODULATING EPIGENETIC-RELATED ENZYMES AS WELL AS THEIR EFFECT IN PREVENTION AND TREATMENT OF CHRONIC DISEASES WITH A FOCUS ON SIRT1 MODULATION. WE HAVE ALSO DISCUSSED THE RELATION BETWEEN THE STRUCTURE AND FUNCTION OF EPIGENETIC-MODIFYING POLYPHENOLS. 2014 14 6211 29 THE INTERPLAY BETWEEN OXIDATIVE STRESS, EXERCISE, AND PAIN IN HEALTH AND DISEASE: POTENTIAL ROLE OF AUTONOMIC REGULATION AND EPIGENETIC MECHANISMS. OXIDATIVE STRESS CAN BE INDUCED BY VARIOUS STIMULI AND ALTERED IN CERTAIN CONDITIONS, INCLUDING EXERCISE AND PAIN. ALTHOUGH MANY STUDIES HAVE INVESTIGATED OXIDATIVE STRESS IN RELATION TO EITHER EXERCISE OR PAIN, THE LITERATURE PRESENTS CONFLICTING RESULTS. THEREFORE, THIS REVIEW CRITICALLY DISCUSSES EXISTING LITERATURE ABOUT THIS TOPIC, AIMING TO PROVIDE A CLEAR OVERVIEW OF KNOWN INTERACTIONS BETWEEN OXIDATIVE STRESS, EXERCISE, AND PAIN IN HEALTHY PEOPLE AS WELL AS IN PEOPLE WITH CHRONIC PAIN, AND TO HIGHLIGHT POSSIBLE CONFOUNDING FACTORS TO KEEP IN MIND WHEN REFLECTING ON THESE INTERACTIONS. IN ADDITION, AUTONOMIC REGULATION AND EPIGENETIC MECHANISMS ARE PROPOSED AS POTENTIAL MECHANISMS OF ACTION UNDERLYING THE INTERPLAY BETWEEN OXIDATIVE STRESS, EXERCISE, AND PAIN. THIS REVIEW HIGHLIGHTS THAT THE RELATION BETWEEN OXIDATIVE STRESS, EXERCISE, AND PAIN IS POORLY UNDERSTOOD AND NOT STRAIGHTFORWARD, AS IT IS DEPENDENT ON THE CHARACTERISTICS OF EXERCISE, BUT ALSO ON WHICH POPULATION IS INVESTIGATED. TO BE ABLE TO COMPARE STUDIES ON THIS TOPIC, STRICT GUIDELINES SHOULD BE DEVELOPED TO LIMIT THE EFFECT OF SEVERAL CONFOUNDING FACTORS. THIS WAY, THE TRUE INTERPLAY BETWEEN OXIDATIVE STRESS, EXERCISE, AND PAIN, AND THE UNDERLYING MECHANISMS OF ACTION CAN BE REVEALED AND VALIDATED VIA INDEPENDENT STUDIES. 2020 15 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 16 6183 34 THE IMPACT OF ENVIRONMENTAL FACTORS IN INFLUENCING EPIGENETICS RELATED TO OXIDATIVE STATES IN THE CARDIOVASCULAR SYSTEM. OXIDATIVE STATES EXERT A SIGNIFICANT INFLUENCE ON A WIDE RANGE OF BIOLOGICAL AND MOLECULAR PROCESSES AND FUNCTIONS. WHEN THEIR BALANCE IS SHIFTED TOWARDS ENHANCED AMOUNTS OF FREE RADICALS, PATHOLOGICAL PHENOMENA CAN OCCUR, AS THE GENERATION OF REACTIVE OXYGEN SPECIES (ROS) IN TISSUE MICROENVIRONMENT OR IN THE SYSTEMIC CIRCULATION CAN BE DETRIMENTAL. EPIDEMIC CHRONIC DISEASES OF WESTERN SOCIETIES, SUCH AS CARDIOVASCULAR DISEASE, OBESITY, AND DIABETES CORRELATE WITH THE IMBALANCE OF REDOX HOMEOSTASIS. CURRENT ADVANCES IN OUR UNDERSTANDING OF EPIGENETICS HAVE REVEALED A PARALLEL SCENARIO SHOWING THE INFLUENCE OF OXIDATIVE STRESS AS A MAJOR REGULATOR OF EPIGENETIC GENE REGULATION VIA MODIFICATION OF DNA METHYLATION, HISTONES, AND MICRORNAS. THIS HAS PROVIDED BOTH THE BIOLOGICAL LINK AND A POTENTIAL MOLECULAR EXPLANATION BETWEEN OXIDATIVE STRESS AND CARDIOVASCULAR/METABOLIC PHENOMENA. ACCORDINGLY, IN THIS REVIEW, WE WILL PROVIDE CURRENT INSIGHTS ON THE PHYSIOLOGICAL AND PATHOLOGICAL IMPACT OF CHANGES IN OXIDATIVE STATES ON CARDIOVASCULAR DISORDERS, BY SPECIFICALLY FOCUSING ON THE INFLUENCE OF EPIGENETIC REGULATION. A SPECIAL EMPHASIS WILL HIGHLIGHT THE EFFECT ON EPIGENETIC REGULATION OF HUMAN'S CURRENT LIFE HABITS, EXTERNAL AND ENVIRONMENTAL FACTORS, INCLUDING FOOD INTAKE, TOBACCO, AIR POLLUTION, AND ANTIOXIDANT-BASED APPROACHES. ADDITIONALLY, THE STRATEGY TO QUANTIFY OXIDATIVE STATES IN HUMANS IN ORDER TO DETERMINE WHICH BIOLOGICAL MARKER COULD BEST MATCH A SUBJECT'S PROFILE WILL BE DISCUSSED. 2017 17 738 27 CANCER SUSCEPTIBILITY: EPIGENETIC MANIFESTATION OF ENVIRONMENTAL EXPOSURES. CANCER IS A DISEASE THAT RESULTS FROM BOTH GENETIC AND EPIGENETIC CHANGES. DISCORDANT PHENOTYPES AND VARYING INCIDENCES OF COMPLEX DISEASES SUCH AS CANCER IN MONOZYGOTIC TWINS AS WELL AS GENETICALLY IDENTICAL LABORATORY ANIMALS HAVE LONG BEEN ATTRIBUTED TO DIFFERENCES IN ENVIRONMENTAL EXPOSURES. ACCUMULATING EVIDENCE INDICATES, HOWEVER, THAT DISPARITIES IN GENE EXPRESSION RESULTING FROM VARIABLE MODIFICATIONS IN DNA METHYLATION AND CHROMATIN STRUCTURE IN RESPONSE TO THE ENVIRONMENT ALSO PLAY A ROLE IN DIFFERENTIAL SUSCEPTIBILITY TO DISEASE. DESPITE A GROWING CONSENSUS ON THE IMPORTANCE OF EPIGENETICS IN THE ETIOLOGY OF CHRONIC HUMAN DISEASES, THE GENES MOST PRONE TO EPIGENETIC DYSREGULATION ARE INCOMPLETELY DEFINED. MOREOVER, NEITHER THE ENVIRONMENTAL AGENTS MOST STRONGLY AFFECTING THE EPIGENOME NOR THE CRITICAL WINDOWS OF VULNERABILITY TO ENVIRONMENTALLY INDUCED EPIGENETIC ALTERATIONS ARE ADEQUATELY CHARACTERIZED. THESE MAJOR DEFICITS IN KNOWLEDGE MARKEDLY IMPAIR OUR ABILITY TO UNDERSTAND FULLY THE ETIOLOGY OF CANCER AND THE IMPORTANCE OF THE EPIGENOME IN DIAGNOSING AND PREVENTING THIS DEVASTATING DISEASE. 2007 18 3547 38 IMMUNOMODULATORY ROLE OF NUTRIENTS: HOW CAN PULMONARY DYSFUNCTIONS IMPROVE? NUTRITION IS AN IMPORTANT TOOL THAT CAN BE USED TO MODULATE THE IMMUNE RESPONSE DURING INFECTIOUS DISEASES. IN ADDITION, THROUGH DIET, IMPORTANT SUBSTRATES ARE ACQUIRED FOR THE BIOSYNTHESIS OF REGULATORY MOLECULES IN THE IMMUNE RESPONSE, INFLUENCING THE PROGRESSION AND TREATMENT OF CHRONIC LUNG DISEASES, SUCH AS ASTHMA AND CHRONIC OBSTRUCTIVE PULMONARY DISEASE (COPD). IN THIS WAY, NUTRITION CAN PROMOTE LUNG HEALTH STATUS. A RANGE OF NUTRIENTS, SUCH AS VITAMINS (A, C, D, AND E), MINERALS (ZINC, SELENIUM, IRON, AND MAGNESIUM), FLAVONOIDS AND FATTY ACIDS, PLAY IMPORTANT ROLES IN REDUCING THE RISK OF PULMONARY CHRONIC DISEASES AND VIRAL INFECTIONS. THROUGH THEIR ANTIOXIDANT AND ANTI-INFLAMMATORY EFFECTS, NUTRIENTS ARE ASSOCIATED WITH BETTER LUNG FUNCTION AND A LOWER RISK OF COMPLICATIONS SINCE THEY CAN DECREASE THE HARMFUL EFFECTS FROM THE IMMUNE SYSTEM DURING THE INFLAMMATORY RESPONSE. IN ADDITION, BIOACTIVE COMPOUNDS CAN EVEN CONTRIBUTE TO EPIGENETIC CHANGES, INCLUDING HISTONE DEACETYLASE (HDAC) MODIFICATIONS THAT INHIBIT THE TRANSCRIPTION OF PROINFLAMMATORY CYTOKINES, WHICH CAN CONTRIBUTE TO THE MAINTENANCE OF HOMEOSTASIS IN THE CONTEXT OF INFECTIONS AND CHRONIC INFLAMMATORY DISEASES. THESE NUTRIENTS ALSO PLAY AN IMPORTANT ROLE IN ACTIVATING IMMUNE RESPONSES AGAINST PATHOGENS, WHICH CAN HELP THE IMMUNE SYSTEM DURING INFECTIONS. HERE, WE PROVIDE AN UPDATED OVERVIEW OF THE ROLES PLAYED BY DIETARY FACTORS AND HOW THEY CAN AFFECT RESPIRATORY HEALTH. THEREFORE, WE WILL SHOW THE ANTI-INFLAMMATORY ROLE OF FLAVONOIDS, FATTY ACIDS, VITAMINS AND MICROBIOTA, IMPORTANT FOR THE CONTROL OF CHRONIC INFLAMMATORY DISEASES AND ALLERGIES, IN ADDITION TO THE ANTIVIRAL ROLE OF VITAMINS, FLAVONOIDS, AND MINERALS DURING PULMONARY VIRAL INFECTIONS, ADDRESSING THE MECHANISMS INVOLVED IN EACH FUNCTION. THESE MECHANISMS ARE INTERESTING IN THE DISCUSSION OF PERSPECTIVES ASSOCIATED WITH SEVERE ACUTE RESPIRATORY SYNDROME CORONAVIRUS 2 (SARS-COV-2) INFECTION AND ITS PULMONARY COMPLICATIONS SINCE PATIENTS WITH SEVERE DISEASE HAVE VITAMINS DEFICIENCY, ESPECIALLY VITAMIN D. IN ADDITION, RESEARCHES WITH THE USE OF FLAVONOIDS HAVE BEEN SHOWN TO DECREASE VIRAL REPLICATION IN VITRO. THIS WAY, A FULL UNDERSTANDING OF DIETARY INFLUENCES CAN IMPROVE THE LUNG HEALTH OF PATIENTS. 2021 19 2346 33 EPIGENETIC REGULATION OF METABOLISM AND INFLAMMATION BY CALORIE RESTRICTION. CHRONIC CALORIC RESTRICTION (CR) WITHOUT MALNUTRITION IS KNOWN TO AFFECT DIFFERENT CELLULAR PROCESSES SUCH AS STEM CELL FUNCTION, CELL SENESCENCE, INFLAMMATION, AND METABOLISM. DESPITE THE DIFFERENCES IN THE IMPLEMENTATION OF CR, THE REDUCTION OF CALORIES PRODUCES A WIDESPREAD BENEFICIAL EFFECT IN NONCOMMUNICABLE CHRONIC DISEASES, WHICH CAN BE EXPLAINED BY IMPROVEMENTS IN IMMUNO-METABOLIC ADAPTATION. CELLULAR ADAPTATION THAT OCCURS IN RESPONSE TO DIETARY PATTERNS CAN BE EXPLAINED BY ALTERATIONS IN EPIGENETIC MECHANISMS SUCH AS DNA METHYLATION, HISTONE MODIFICATIONS, AND MICRORNA. IN THIS REVIEW, WE DEFINE THESE MODIFICATIONS AND SYSTEMATICALLY SUMMARIZE THE CURRENT EVIDENCE RELATED TO CR AND THE EPIGENOME. WE THEN EXPLAIN THE SIGNIFICANCE OF GENOME-WIDE EPIGENETIC MODIFICATIONS IN THE CONTEXT OF DISEASE DEVELOPMENT. ALTHOUGH SUBSTANTIAL EVIDENCE EXISTS FOR THE WIDESPREAD EFFECT OF CR ON LONGEVITY, THERE IS NO CONSENSUS REGARDING THE EPIGENETIC REGULATIONS OF THE UNDERLYING CELLULAR MECHANISMS THAT LEAD TO IMPROVED HEALTH. WE PROVIDE COMPELLING EVIDENCE THAT CR PRODUCES LONG-LASTING EPIGENETIC EFFECTS THAT MEDIATE EXPRESSION OF GENES RELATED TO IMMUNO-METABOLIC PROCESSES. EPIGENETIC REPROGRAMMING OF THE UNDERLYING CHRONIC LOW-GRADE INFLAMMATION BY CR CAN LEAD TO IMMUNO-METABOLIC ADAPTATIONS THAT ENHANCE QUALITY OF LIFE, EXTEND LIFESPAN, AND DELAY CHRONIC DISEASE ONSET. 2019 20 3848 27 IS EPIGENETICS AN IMPORTANT LINK BETWEEN EARLY LIFE EVENTS AND ADULT DISEASE? BACKGROUND: EPIGENETIC MECHANISMS PROVIDE ONE POTENTIAL EXPLANATION FOR HOW ENVIRONMENTAL INFLUENCES IN EARLY LIFE CAUSE LONG-TERM CHANGES IN CHRONIC DISEASE SUSCEPTIBILITY. WHEREAS EPIGENETIC DYSREGULATION IS INCREASINGLY IMPLICATED IN VARIOUS RARE DEVELOPMENTAL SYNDROMES AND CANCER, THE ROLE OF EPIGENETICS IN COMPLEX CHRONIC DISEASES, SUCH AS CARDIOVASCULAR DISEASE, TYPE 2 DIABETES AND OBESITY, REMAINS LARGELY UNCHARACTERIZED. EXTENSIVE WORK IN ANIMAL MODELS IS REQUIRED TO DEVELOP SPECIFIC HYPOTHESES THAT CAN BE PRACTICABLY TESTED IN HUMANS. ANIMAL MODELS: WE HAVE DEVELOPED A MOUSE MODEL SHOWING THAT METHYL DONOR SUPPLEMENTATION PREVENTS TRANSGENERATIONAL AMPLIFICATION OF OBESITY, SUGGESTING A ROLE FOR DNA METHYLATION IN THE DEVELOPMENTAL ESTABLISHMENT OF BODY WEIGHT REGULATION. CONCLUSIONS: COUPLING SUCH MODELS WITH RECENTLY DEVELOPED EPIGENOMIC TECHNOLOGIES SHOULD ULTIMATELY ENABLE US TO DETERMINE IF EPIGENETICS IS AN IMPORTANT LINK BETWEEN EARLY LIFE EVENTS AND ADULT DISEASE. 2009