1 5048 171 PHARMACOLOGICAL APPROACHES IN EITHER INTERMITTENT OR PERMANENT HYPOXIA: A TALE OF TWO EXPOSURES. HYPOXIA INDUCES SEVERAL RESPONSES AT CARDIOVASCULAR, PULMONARY AND REPRODUCTIVE LEVELS, WHICH MAY LEAD TO CHRONIC DISEASES. THIS IS RELEVANT IN HUMAN POPULATIONS EXPOSED TO HIGH ALTITUDE (HA), IN EITHER CHRONIC CONTINUOUS (PERMANENT INHABITANTS) OR INTERMITTENT FASHION (HA WORKERS, TOURISTS AND MOUNTAINEERS). IN CHILE, IT IS ESTIMATED THAT 1.000.000 PEOPLE LIVE AT HIGHLANDS AND MORE THAN 55.000 WORK IN HA SHIFTS. INITIAL RESPONSES TO HYPOXIA ARE COMPENSATORY AND INDUCE ACTIVATION OF CARDIOPROTECTIVE MECHANISMS, SUCH AS THOSE SEEN UNDER INTERMITTENT HYPOBARIC (IH) HYPOXIA, EVENTS THAT COULD MEDIATE PRECONDITIONING. HOWEVER, WHENEVER HYPOXIA IS PROLONGED, THE CHRONIC ACTIVATION OF CELLULAR RESPONSES INDUCES LONG-LASTING MODIFICATIONS THAT MAY RESULT IN ACCLIMATIZATION OR PRODUCE MALADAPTIVE CHANGES WITH INCREASE IN CARDIOVASCULAR RISK. HA EXPOSURE DURING PREGNANCY INDUCES HYPOXIA AND OXIDATIVE STRESS, WHICH IN TURN MAY PROMOTE CELLULAR RESPONSES AND EPIGENETIC MODIFICATIONS RESULTING IN SEVERE IMPAIRMENT IN GROWTH AND DEVELOPMENT. SADLY, THIS CONDITION IS ACCOMPANIED WITH AN INCREASED FETAL AND NEONATAL MORBI-MORTALITY. FURTHER, DEVELOPMENTAL HYPOXIA MAY PROGRAM CARDIO-PULMONARY CIRCULATIONS LATER IN POSTNATAL LIFE, ENDING IN VASCULAR STRUCTURAL AND FUNCTIONAL ALTERATIONS WITH AUGMENTED RISK ON PULMONARY AND CARDIOVASCULAR FAILURE. ADDITIONALLY, PERMANENT HA INHABITANTS HAVE AUGMENTED RISK AND PREVALENCE OF CHRONIC HYPOXIC PULMONARY HYPERTENSION, RIGHT VENTRICULAR HYPERTROPHY AND CARDIOPULMONARY REMODELING. SIMILAR RESPONSES ARE SEEN IN ADULTS THAT ARE INTERMITTENTLY EXPOSED TO CHRONIC HYPOXIA (CH) SUCH AS SHIFT WORKERS IN HA AREAS. THE MECHANISMS INVOLVED DETERMINING THE IMMEDIATE, SHORT AND LONG-LASTING EFFECTS ARE STILL UNCLEAR. FOR SEVERAL YEARS, THE STUDY OF THE RESPONSES TO HYPOXIC INSULTS AND PHARMACOLOGICAL TARGETS HAS BEEN THE MOTIVATION OF OUR GROUP. THIS REVIEW DESCRIBES SOME OF THE MECHANISMS UNDERLYING HYPOXIC RESPONSES AND POTENTIAL THERAPEUTIC APPROACHES WITH ANTIOXIDANTS SUCH AS MELATONIN, ASCORBATE, OMEGA 3 (OMEGA3) OR COMPOUNDS THAT INCREASE THE NITRIC OXIDE (NO) BIOAVAILABILITY. 2015 2 4109 43 MECHANISMS AND DRUG THERAPY OF PULMONARY HYPERTENSION AT HIGH ALTITUDE. PULMONARY VASOCONSTRICTION REPRESENTS A PHYSIOLOGICAL ADAPTIVE MECHANISM TO HIGH ALTITUDE. IF EXAGGERATED, HOWEVER, IT IS ASSOCIATED WITH IMPORTANT MORBIDITY AND MORTALITY. RECENT MECHANISTIC STUDIES USING SHORT-TERM ACUTE HIGH ALTITUDE EXPOSURE HAVE PROVIDED INSIGHT INTO THE IMPORTANCE OF DEFECTIVE VASCULAR ENDOTHELIAL AND RESPIRATORY EPITHELIAL NITRIC OXIDE (NO) SYNTHESIS, INCREASED ENDOTHELIN-1 BIOAVAILABILITY, AND OVERACTIVATION OF THE SYMPATHETIC NERVOUS SYSTEM IN CAUSING EXAGGERATED HYPOXIC PULMONARY HYPERTENSION IN HUMANS. BASED ON THESE STUDIES, DRUGS THAT INCREASE NO BIOAVAILABILITY, ATTENUATE ENDOTHELIN-1 INDUCED PULMONARY VASOCONSTRICTION, OR PREVENT EXAGGERATED SYMPATHETIC ACTIVATION HAVE BEEN SHOWN TO BE USEFUL FOR THE TREATMENT/PREVENTION OF EXAGGERATED PULMONARY HYPERTENSION DURING ACUTE SHORT-TERM HIGH ALTITUDE EXPOSURE. THE MECHANISMS UNDERPINNING CHRONIC PULMONARY HYPERTENSION IN HIGH ALTITUDE DWELLERS ARE LESS WELL UNDERSTOOD, BUT RECENT EVIDENCE SUGGESTS THAT THEY DIFFER IN SOME ASPECTS FROM THOSE INVOLVED IN SHORT-TERM ADAPTATION TO HIGH ALTITUDE. THESE DIFFERENCES HAVE CONSEQUENCES FOR THE CHOICE OF THE TREATMENT FOR CHRONIC PULMONARY HYPERTENSION AT HIGH ALTITUDE. FINALLY, RECENT DATA INDICATE THAT FETAL PROGRAMMING OF PULMONARY VASCULAR DYSFUNCTION IN OFFSPRING OF PREECLAMPSIA AND CHILDREN GENERATED BY ASSISTED REPRODUCTIVE TECHNOLOGIES REPRESENTS A NOVEL AND FREQUENT CAUSE OF PULMONARY HYPERTENSION AT HIGH ALTITUDE. IN ANIMAL MODELS OF FETAL PROGRAMMING OF HYPOXIC PULMONARY HYPERTENSION, EPIGENETIC MECHANISMS PLAY A ROLE, AND TARGETING OF THESE MECHANISMS WITH DRUGS LOWERS PULMONARY ARTERY PRESSURE. IF EPIGENETIC MECHANISMS ALSO ARE OPERATIONAL IN THE FETAL PROGRAMMING OF PULMONARY VASCULAR DYSFUNCTION IN HUMANS, SUCH DRUGS MAY BECOME NOVEL TOOLS FOR THE TREATMENT OF HYPOXIC PULMONARY HYPERTENSION. 2013 3 2567 42 EPIGENETICS MODIFIERS: POTENTIAL HUB FOR UNDERSTANDING AND TREATING NEURODEVELOPMENTAL DISORDERS FROM HYPOXIC INJURY. BACKGROUND: THE FETAL BRAIN IS ADAPTED TO THE HYPOXIC CONDITIONS PRESENT DURING NORMAL IN UTERO DEVELOPMENT. RELATIVELY MORE HYPOXIC STATES, EITHER CHRONIC OR ACUTE, ARE PATHOLOGIC AND CAN LEAD TO SIGNIFICANT LONG-TERM NEURODEVELOPMENTAL SEQUELAE. IN UTERO HYPOXIC INJURY IS ASSOCIATED WITH NEONATAL MORTALITY AND MILLIONS OF LIVES LIVED WITH VARYING DEGREES OF DISABILITY. MAIN BODY: GENETIC STUDIES OF CHILDREN WITH NEURODEVELOPMENTAL DISEASE INDICATE THAT EPIGENETIC MODIFIERS REGULATING DNA METHYLATION AND HISTONE REMODELING ARE CRITICAL FOR NORMAL BRAIN DEVELOPMENT. EPIGENETIC MODIFIERS ARE ALSO REGULATED BY ENVIRONMENTAL STIMULI, SUCH AS HYPOXIA. INDEED, EPIGENETIC MODIFIERS THAT ARE MUTATED IN CHILDREN WITH GENETIC NEURODEVELOPMENTAL DISEASES ARE REGULATED BY HYPOXIA IN A NUMBER OF PRECLINICAL MODELS AND MAY BE PART OF THE MECHANISM FOR THE LONG-TERM NEURODEVELOPMENTAL SEQUELAE SEEM IN CHILDREN WITH HYPOXIC BRAIN INJURY. THUS, A COMPREHENSIVE UNDERSTANDING THE ROLE OF DNA METHYLATION AND HISTONE MODIFICATIONS IN HYPOXIC INJURY IS CRITICAL FOR DEVELOPING NOVEL STRATEGIES TO TREAT CHILDREN WITH HYPOXIC INJURY. CONCLUSIONS: THIS REVIEW FOCUSES ON OUR CURRENT UNDERSTANDING OF THE INTERSECTION BETWEEN EPIGENETICS, BRAIN DEVELOPMENT, AND HYPOXIA. OPPORTUNITIES FOR THE USE OF EPIGENETICS AS BIOMARKERS OF NEURODEVELOPMENTAL DISEASE AFTER HYPOXIC INJURY AND POTENTIAL CLINICAL EPIGENETICS TARGETS TO IMPROVE OUTCOMES AFTER INJURY ARE ALSO DISCUSSED. WHILE THERE HAVE BEEN MANY PUBLISHED STUDIES ON THE EPIGENETICS OF HYPOXIA, MORE ARE NEEDED IN THE DEVELOPING BRAIN IN ORDER TO DETERMINE WHICH EPIGENETIC PATHWAYS MAY BE MOST IMPORTANT FOR MITIGATING THE LONG-TERM CONSEQUENCES OF HYPOXIC BRAIN INJURY. 2020 4 2023 28 EPIGENETIC CHANGES BY DNA METHYLATION IN CHRONIC AND INTERMITTENT HYPOXIA. DNA METHYLATION OF CYTOSINE RESIDUES IS A WELL-STUDIED EPIGENETIC CHANGE, WHICH REGULATES GENE TRANSCRIPTION BY ALTERING ACCESSIBILITY FOR TRANSCRIPTION FACTORS. HYPOXIA IS A PERVASIVE STIMULUS THAT AFFECTS MANY PHYSIOLOGICAL PROCESSES. THE CIRCULATORY AND RESPIRATORY SYSTEMS ADAPT TO CHRONIC SUSTAINED HYPOXIA, SUCH AS THAT ENCOUNTERED DURING A HIGH-ALTITUDE SOJOURN. MANY PEOPLE LIVING AT SEA LEVEL EXPERIENCE CHRONIC INTERMITTENT HYPOXIA (IH) DUE TO SLEEP APNEA, WHICH LEADS TO CARDIOVASCULAR AND RESPIRATORY MALADAPTATION. THIS ARTICLE PRESENTS A BRIEF UPDATE ON EMERGING EVIDENCE SUGGESTING THAT CHANGES IN DNA METHYLATION CONTRIBUTE TO PATHOLOGIES CAUSED BY CHRONIC IH AND POTENTIALLY MEDIATE ADAPTATIONS TO CHRONIC SUSTAINED HYPOXIA BY AFFECTING THE HYPOXIA-INDUCIBLE FACTOR (HIF) SIGNALING PATHWAY. 2017 5 4125 37 MECHANISMS OF DISEASE: IN UTERO PROGRAMMING IN THE PATHOGENESIS OF HYPERTENSION. NUTRITIONAL AND OTHER ENVIRONMENTAL CUES DURING DEVELOPMENT CAN PERMANENTLY ALTER THE STRUCTURE, HOMEOSTATIC SYSTEMS, AND FUNCTIONS OF THE BODY. THIS PHENOMENON HAS BEEN REFERRED TO AS 'PROGRAMMING'. EPIDEMIOLOGICAL AND ANIMAL STUDIES SHOW THAT PROGRAMMED EFFECTS OPERATE WITHIN THE NORMAL RANGE OF GROWTH AND DEVELOPMENT, AND INFLUENCE THE RISK OF CHRONIC DISEASE IN ADULT LIFE. WE REVIEW THE EVIDENCE THAT THESE EFFECTS INCLUDE REDUCED NEPHRON NUMBER AND COMPENSATORY ADAPTATIONS, WHICH MIGHT LEAD TO HYPERTENSION, AND PERHAPS ACCELERATE THE DECLINE IN RENAL FUNCTION THAT ACCOMPANIES AGING. THESE PROCESSES MIGHT BE EXACERBATED BY PROGRAMMED CHANGES IN VASCULAR STRUCTURE AND FUNCTION, AND ALTERATIONS IN ENDOCRINE AND METABOLIC HOMEOSTASIS. PROGRAMMED EFFECTS MIGHT BE INITIATED AS EARLY AS THE PERICONCEPTUAL PHASE OF DEVELOPMENT, AND COULD INVOLVE EPIGENETIC CHANGES IN GENE EXPRESSION OR ALTERED STEM CELL ALLOCATION. BETTER UNDERSTANDING OF THESE PROCESSES COULD LEAD TO THE DEVELOPMENT OF NOVEL DIAGNOSTIC AND PREVENTIVE MEASURES, AND TO EARLY DETECTION OF AT-RISK INDIVIDUALS. BY MONITORING BLOOD PRESSURE, WEIGHT, AND RENAL FUNCTION IN CHILDREN, IT MIGHT BE POSSIBLE TO REDUCE THE RISK OF CARDIOVASCULAR AND RENAL DISEASE IN LATER LIFE. 2006 6 1371 37 DEVELOPMENTAL ORIGINS OF HEALTH AND DISEASE: NEW INSIGHTS. EPIDEMIOLOGICAL AND ANIMAL STUDIES SHOW THAT SMALL CHANGES IN THE DEVELOPMENTAL ENVIRONMENT CAN INDUCE PHENOTYPIC CHANGES AFFECTING AN INDIVIDUAL'S RESPONSES TO THEIR LATER ENVIRONMENT. THESE MAY ALTER THE RISK OF CHRONIC DISEASE SUCH AS METABOLIC SYNDROME OR CARDIOVASCULAR DISEASE. RECENT RESEARCH SHOWS THAT ANIMALS EXPOSED TO SUCH A MISMATCH BETWEEN PRENATAL AND POSTNATAL ENVIRONMENT DEVELOP OBESITY, REDUCED ACTIVITY, LEPTIN AND INSULIN RESISTANCE, ELEVATED BLOOD PRESSURE AND VASCULAR ENDOTHELIAL DYSFUNCTION. EPIGENETIC PROCESSES ARE INVOLVED IN SUCH EFFECTS, TARGETED TO PROMOTER REGIONS OF SPECIFIC GENES IN SPECIFIC TISSUES. SUCH FINE CONTROL OF GENE EXPRESSION SUGGESTS THAT THE MECHANISMS HAVE BEEN RETAINED THROUGH EVOLUTION THROUGH THEIR ADAPTIVE ADVANTAGE, RATHER THAN REPRESENTING EXTREME EFFECTS OF DEVELOPMENTAL DISRUPTION AKIN TO TERATOGENESIS. THERE MAY BE ADAPTIVE ADVANTAGE IN A DEVELOPMENTAL CUE INDUCING A PHENOTYPIC CHANGE IN GENERATIONS BEYOND THE IMMEDIATE PREGNANCY, AND A RANGE OF DATA THAT SUPPORT THIS CONCEPT. IN ANIMALS, EPIGENETIC EFFECTS SUCH AS DNA METHYLATION CAN BE PASSED TO SUCCESSIVE GENERATIONS. ENVIRONMENTAL TOXINS, INCLUDING ENDOCRINE DISRUPTORS, MAY INDUCE GREATER RISK OF CHRONIC DISEASE, EVEN AT LOW EXPOSURE LEVELS, IF THEY AFFECT SUCH NORMAL DEVELOPMENTAL EPIGENETIC PROCESSES. APPROPRIATE INTERVENTIONS MAY HAVE LONG-TERM MULTIGENERATIONAL EFFECTS TO REDUCE THE RISK OF CHRONIC DISEASE. 2008 7 6133 39 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 8 2738 44 EXPOSOMES TO EXOSOMES: EXOSOMES AS TOOLS TO STUDY EPIGENETIC ADAPTIVE MECHANISMS IN HIGH-ALTITUDE HUMANS. HUMANS ON EARTH INHABIT A WIDE RANGE OF ENVIRONMENTAL CONDITIONS AND SOME ENVIRONMENTS ARE MORE CHALLENGING FOR HUMAN SURVIVAL THAN OTHERS. HOWEVER, MANY LIVING BEINGS, INCLUDING HUMANS, HAVE DEVELOPED ADAPTIVE MECHANISMS TO LIVE IN SUCH INHOSPITABLE, HARSH ENVIRONMENTS. AMONG DIFFERENT DIFFICULT ENVIRONMENTS, HIGH-ALTITUDE LIVING IS ESPECIALLY DEMANDING BECAUSE OF DIMINISHED PARTIAL PRESSURE OF OXYGEN AND RESULTING CHRONIC HYPOBARIC HYPOXIA. THIS RESULTS IN POOR BLOOD OXYGENATION AND REDUCES AEROBIC OXIDATIVE RESPIRATION IN THE MITOCHONDRIA, LEADING TO INCREASED REACTIVE OXYGEN SPECIES GENERATION AND ACTIVATION OF HYPOXIA-INDUCIBLE GENE EXPRESSION. GENETIC MECHANISMS IN THE ADAPTATION TO HIGH ALTITUDE IS WELL-STUDIED, BUT THERE ARE ONLY LIMITED STUDIES REGARDING THE ROLE OF EPIGENETIC MECHANISMS. THE PURPOSE OF THIS REVIEW IS TO UNDERSTAND THE EPIGENETIC MECHANISMS BEHIND HIGH-ALTITUDE ADAPTIVE AND MALADAPTIVE PHENOTYPES. HYPOBARIC HYPOXIA IS A FORM OF CELLULAR HYPOXIA, WHICH IS SIMILAR TO THE ONE SUFFERED BY CRITICALLY-ILL HYPOXEMIA PATIENTS. THUS, UNDERSTANDING THE ADAPTIVE EPIGENETIC SIGNALS OPERATING IN IN HIGH-ALTITUDE ADJUSTED INDIGENOUS POPULATIONS MAY HELP IN THERAPEUTICALLY MODULATING SIGNALING PATHWAYS IN HYPOXEMIA PATIENTS BY COPYING THE MOST SUCCESSFUL EPIGENOTYPE. IN ADDITION, WE HAVE SUMMARIZED THE CURRENT INFORMATION ABOUT EXOSOMES IN HYPOXIA RESEARCH AND PROSPECTS TO USE THEM AS DIAGNOSTIC TOOLS TO STUDY THE EPIGENOME OF HIGH-ALTITUDE ADAPTED HEALTHY OR MALADAPTED INDIVIDUALS. 2021 9 4767 38 NUCLEAR AND MITOCHONDRIAL DNA ALTERATIONS IN NEWBORNS WITH PRENATAL EXPOSURE TO CIGARETTE SMOKE. NEWBORNS EXPOSED TO MATERNAL CIGARETTE SMOKE (CS) IN UTERO HAVE AN INCREASED RISK OF DEVELOPING CHRONIC DISEASES, CANCER, AND ACQUIRING DECREASED COGNITIVE FUNCTION IN ADULTHOOD. ALTHOUGH THE LITERATURE REPORTS MANY DELETERIOUS EFFECTS ASSOCIATED WITH MATERNAL CIGARETTE SMOKING ON THE FETUS, THE MOLECULAR ALTERATIONS AND MECHANISMS OF ACTION ARE NOT YET CLEAR. SMOKING MAY ACT DIRECTLY ON NUCLEAR DNA BY INDUCING MUTATIONS OR EPIGENETIC MODIFICATIONS. RECENT STUDIES ALSO INDICATE THAT SMOKING MAY ACT ON MITOCHONDRIAL DNA BY INDUCING A CHANGE IN THE NUMBER OF COPIES TO MAKE UP FOR THE DAMAGE CAUSED BY SMOKING ON THE RESPIRATORY CHAIN AND LACK OF ENERGY. IN ADDITION, INDIVIDUAL GENETIC SUSCEPTIBILITY PLAYS A SIGNIFICANT ROLE IN DETERMINING THE EFFECTS OF SMOKING DURING DEVELOPMENT. FURTHERMORE, PRIOR EXPOSURE OF PATERNAL AND MATERNAL GAMETES TO CIGARETTE SMOKE MAY AFFECT THE HEALTH OF THE DEVELOPING INDIVIDUAL, NOT ONLY THE IN UTERO EXPOSURE. THIS REVIEW EXAMINES THE GENETIC AND EPIGENETIC ALTERATIONS IN NUCLEAR AND MITOCHONDRIAL DNA ASSOCIATED WITH SMOKE EXPOSURE DURING THE MOST SENSITIVE PERIODS OF DEVELOPMENT (PRIOR TO CONCEPTION, PRENATAL AND EARLY POSTNATAL) AND ASSESSES HOW SUCH CHANGES MAY HAVE CONSEQUENCES FOR BOTH FETAL GROWTH AND DEVELOPMENT. 2015 10 3210 45 HEALTH EFFECTS ASSOCIATED WITH PRE- AND PERINATAL EXPOSURE TO ARSENIC. INORGANIC ARSENIC IS A WELL-ESTABLISHED HUMAN CARCINOGEN, ABLE TO INDUCE GENETIC AND EPIGENETIC ALTERATIONS. MORE THAN 200 MILLION PEOPLE WORLDWIDE ARE EXPOSED TO ARSENIC CONCENTRATIONS IN DRINKING WATER EXCEEDING THE RECOMMENDED WHO THRESHOLD (10MUG/L). ADDITIONALLY, CHRONIC EXPOSURE TO LEVELS BELOW THIS THRESHOLD IS KNOWN TO RESULT IN LONG-TERM HEALTH EFFECTS IN HUMANS. THE ARSENIC-RELATED HEALTH EFFECTS IN HUMANS ARE ASSOCIATED WITH ITS BIOTRANSFORMATION PROCESS, WHEREBY THE RESULTING METABOLITES CAN INDUCE MOLECULAR DAMAGE THAT ACCUMULATES OVER TIME. THE EFFECTS DERIVED FROM THESE ALTERATIONS INCLUDE GENOMIC INSTABILITY ASSOCIATED WITH OXIDATIVE DAMAGE, ALTERATION OF GENE EXPRESSION (INCLUDING CODING AND NON-CODING RNAS), GLOBAL AND LOCALIZED EPIGENETIC REPROGRAMMING, AND HISTONE POSTTRANSLATIONAL MODIFICATIONS. THESE ALTERATIONS DIRECTLY AFFECT MOLECULAR PATHWAYS INVOLVED IN THE ONSET AND PROGRESSION OF MANY CONDITIONS THAT CAN ARISE EVEN DECADES AFTER THE EXPOSURE OCCURS. IMPORTANTLY, ARSENIC METABOLITES GENERATED DURING ITS BIOTRANSFORMATION CAN ALSO PASS THROUGH THE PLACENTAL BARRIER, RESULTING IN FETAL EXPOSURE TO THIS CARCINOGEN AT SIMILAR LEVELS TO THOSE OF THE MOTHER. AS SUCH, MORE IMMEDIATE EFFECTS OF THE ARSENIC-INDUCED MOLECULAR DAMAGE CAN BE OBSERVED AS DETRIMENTAL EFFECTS ON FETAL DEVELOPMENT, PREGNANCY, AND BIRTH OUTCOMES. IN THIS REVIEW, WE FOCUS ON THE GENETIC AND EPIGENETIC DAMAGE ASSOCIATED WITH EXPOSURE TO LOW LEVELS OF ARSENIC, PARTICULARLY THOSE AFFECTING EARLY DEVELOPMENTAL STAGES. WE ALSO PRESENT HOW THESE ALTERATIONS OCCURRING DURING EARLY LIFE CAN IMPACT THE DEVELOPMENT OF CERTAIN DISEASES IN ADULT LIFE. 2021 11 1895 49 ENDOTHELIAL DYSFUNCTION IN INDIVIDUALS BORN AFTER FETAL GROWTH RESTRICTION: CARDIOVASCULAR AND RENAL CONSEQUENCES AND PREVENTIVE APPROACHES. INDIVIDUALS BORN AFTER INTRAUTERINE GROWTH RESTRICTION (IUGR) HAVE AN INCREASED RISK OF PERINATAL MORBIDITY/MORTALITY, AND THOSE WHO SURVIVE FACE LONG-TERM CONSEQUENCES SUCH AS CARDIOVASCULAR-RELATED DISEASES, INCLUDING SYSTEMIC HYPERTENSION, ATHEROSCLEROSIS, CORONARY HEART DISEASE AND CHRONIC KIDNEY DISEASE. IN ADDITION TO THE DEMONSTRATED LONG-TERM EFFECTS OF DECREASED NEPHRON ENDOWMENT AND HYPERACTIVITY OF THE HYPOTHALAMIC-PITUITARY-ADRENAL AXIS, INDIVIDUALS BORN AFTER IUGR ALSO EXHIBIT EARLY ALTERATIONS IN VASCULAR STRUCTURE AND FUNCTION, WHICH HAVE BEEN IDENTIFIED AS KEY FACTORS OF THE DEVELOPMENT OF CARDIOVASCULAR-RELATED DISEASES. THE ENDOTHELIUM PLAYS A MAJOR ROLE IN MAINTAINING VASCULAR FUNCTION AND HOMEOSTASIS. THEREFORE, IT IS NOT SURPRISING THAT IMPAIRED ENDOTHELIAL FUNCTION CAN LEAD TO THE LONG-TERM DEVELOPMENT OF VASCULAR-RELATED DISEASES. ENDOTHELIAL DYSFUNCTION, PARTICULARLY IMPAIRED ENDOTHELIUM-DEPENDENT VASODILATION AND VASCULAR REMODELING, INVOLVES DECREASED NITRIC OXIDE (NO) BIOAVAILABILITY, IMPAIRED ENDOTHELIAL NO SYNTHASE FUNCTIONALITY, INCREASED OXIDATIVE STRESS, ENDOTHELIAL PROGENITOR CELLS DYSFUNCTION AND ACCELERATED VASCULAR SENESCENCE. PREVENTIVE APPROACHES SUCH AS BREASTFEEDING, SUPPLEMENTATION WITH FOLATE, VITAMINS, ANTIOXIDANTS, L-CITRULLINE, L-ARGININE AND TREATMENT WITH NO MODULATORS REPRESENT PROMISING STRATEGIES FOR IMPROVING ENDOTHELIAL FUNCTION, MITIGATING LONG-TERM OUTCOMES AND POSSIBLY PREVENTING IUGR OF VASCULAR ORIGIN. MOREOVER, THE IDENTIFICATION OF EARLY BIOMARKERS OF ENDOTHELIAL DYSFUNCTION, ESPECIALLY EPIGENETIC BIOMARKERS, COULD ALLOW EARLY SCREENING AND FOLLOW-UP OF INDIVIDUALS AT RISK OF DEVELOPING CARDIOVASCULAR AND RENAL DISEASES, THUS CONTRIBUTING TO THE DEVELOPMENT OF PREVENTIVE AND THERAPEUTIC STRATEGIES TO AVERT THE LONG-TERM EFFECTS OF ENDOTHELIAL DYSFUNCTION IN INFANTS BORN AFTER IUGR. 2017 12 5471 36 RESPIRATORY MUSCLE SENESCENCE IN AGEING AND CHRONIC LUNG DISEASES. AGEING IS A PROGRESSIVE CONDITION THAT USUALLY LEADS TO THE LOSS OF PHYSIOLOGICAL PROPERTIES. THIS PROCESS IS ALSO PRESENT IN RESPIRATORY MUSCLES, WHICH ARE AFFECTED BY BOTH SENESCENT CHANGES OCCURRING IN THE WHOLE ORGANISM AND THOSE THAT ARE MORE SPECIFIC FOR MUSCLES. THE MECHANISMS OF THE LATTER CHANGES INCLUDE OXIDATIVE STRESS, DECREASE IN NEUROTROPHIC FACTORS AND DNA ABNORMALITIES. AGEING NORMALLY COEXISTS WITH COMORBIDITIES, INCLUDING RESPIRATORY DISEASES, WHICH FURTHER DETERIORATE THE STRUCTURE AND FUNCTION OF RESPIRATORY MUSCLES. IN THIS CONTEXT, CHANGES INTRINSIC TO AGEING BECOME ENHANCED BY MORE SPECIFIC FACTORS SUCH AS THE IMPAIRMENT IN LUNG MECHANICS AND GAS EXCHANGE, EXACERBATIONS AND HYPOXIA. HYPOXIA IN PARTICULAR HAS A DIRECT EFFECT ON MUSCLES, MAINLY THROUGH THE EXPRESSION OF INDUCIBLE FACTORS (HYPOXIC-INDUCIBLE FACTOR), AND CAN RESULT IN OXIDATIVE STRESS AND CHANGES IN DNA, DECREASE IN MITOCHONDRIAL BIOGENESIS AND DEFECTS IN THE TISSUE REPAIR MECHANISMS. INTENSE EXERCISE CAN ALSO CAUSE DAMAGE IN RESPIRATORY MUSCLES OF ELDERLY RESPIRATORY PATIENTS, BUT THIS CAN BE FOLLOWED BY TISSUE REPAIR AND REMODELLING. HOWEVER, AGEING INTERFERES WITH MUSCLE REPAIR BY TAMPERING WITH THE FUNCTION OF SATELLITE CELLS, MAINLY DUE TO OXIDATIVE STRESS, DNA DAMAGE AND EPIGENETIC MECHANISMS. IN ADDITION TO THE NORMAL PROCESS OF AGEING, STRESS-INDUCED PREMATURE SENESCENCE CAN ALSO OCCUR, INVOLVING CHANGES IN THE EXPRESSION OF MULTIPLE GENES BUT WITHOUT MODIFICATIONS IN TELOMERE LENGTH. 2020 13 4197 45 METABOLIC PROFILES IN OVINE CAROTID ARTERIES WITH DEVELOPMENTAL MATURATION AND LONG-TERM HYPOXIA. BACKGROUND: LONG-TERM HYPOXIA (LTH) IS AN IMPORTANT STRESSOR RELATED TO HEALTH AND DISEASE DURING DEVELOPMENT. AT DIFFERENT TIME POINTS FROM FETUS TO ADULT, WE ARE EXPOSED TO HYPOXIC STRESS BECAUSE OF PLACENTAL INSUFFICIENCY, HIGH-ALTITUDE RESIDENCE, SMOKING, CHRONIC ANEMIA, PULMONARY, AND HEART DISORDERS, AS WELL AS CANCERS. INTRAUTERINE HYPOXIA CAN LEAD TO FETAL GROWTH RESTRICTION AND LONG-TERM SEQUELAE SUCH AS COGNITIVE IMPAIRMENTS, HYPERTENSION, CARDIOVASCULAR DISORDERS, DIABETES, AND SCHIZOPHRENIA. SIMILARLY, PROLONGED HYPOXIC EXPOSURE DURING ADULT LIFE CAN LEAD TO ACUTE MOUNTAIN SICKNESS, CHRONIC FATIGUE, CHRONIC HEADACHE, COGNITIVE IMPAIRMENT, ACUTE CEREBRAL AND/OR PULMONARY EDEMA, AND DEATH. AIM: LTH ALSO CAN LEAD TO ALTERATION IN METABOLITES SUCH AS FUMARATE, 2-OXOGLUTARATE, MALATE, AND LACTATE, WHICH ARE LINKED TO EPIGENETIC REGULATION OF GENE EXPRESSION. IMPORTANTLY, DURING THE INTRAUTERINE LIFE, A FETUS IS UNDER A RELATIVE HYPOXIC ENVIRONMENT, AS COMPARED TO NEWBORN OR ADULT. THUS, THE CHANGES IN GENE EXPRESSION WITH DEVELOPMENT FROM FETUS TO NEWBORN TO ADULT MAY BE AS A CONSEQUENCE OF UNDERLYING CHANGES IN THE METABOLIC PROFILE BECAUSE OF THE HYPOXIC ENVIRONMENT ALONG WITH DEVELOPMENTAL MATURATION. TO EXAMINE THIS POSSIBILITY, WE EXAMINED THE METABOLIC PROFILE IN CAROTID ARTERIES FROM NEAR-TERM FETUS, NEWBORN, AND ADULT SHEEP IN BOTH NORMOXIC AND LONG-TERM HYPOXIC ACCLIMATIZED GROUPS. RESULTS: OUR RESULTS DEMONSTRATE THAT LTH DIFFERENTIALLY REGULATED GLUCOSE METABOLISM, MITOCHONDRIAL METABOLISM, NICOTINAMIDE COFACTOR METABOLISM, OXIDATIVE STRESS AND ANTIOXIDANTS, MEMBRANE LIPID HYDROLYSIS, AND FREE FATTY ACID METABOLISM, EACH OF WHICH MAY PLAY A ROLE IN GENETIC-EPIGENETIC REGULATION. 2015 14 3582 36 IMPACT OF PRENATAL AND EARLY LIFE ENVIRONMENTAL EXPOSURES ON NORMAL HUMAN DEVELOPMENT. THE GLOBAL BURDEN AND PATTERN OF DISEASE HAS CHANGED IN RECENT DECADES, WITH FEWER EARLY CHILDHOOD DEATHS AND LONGER LIVES COMPLICATED BY CHRONIC DISEASE. DISRUPTION OF NORMAL HUMAN GROWTH AND DEVELOPMENT BY ADVERSE ENVIRONMENTAL EXPOSURES, ESPECIALLY DURING FOETAL DEVELOPMENT AND EARLY POSTNATAL LIFE INCREASE LIFE-LONG RISK OF CHRONIC DISEASE. THE DEVELOPMENTAL TIMING AND METHOD OF ADVERSE EXPOSURE DETERMINES THE LIKELY IMPACT ON HEALTH AND DEVELOPMENT. WHILE MANY ORGAN SYSTEMS ARE STRUCTURALLY AND FUNCTIONALLY MATURE AT BIRTH, THE CNS, RESPIRATORY AND IMMUNE SYSTEMS ARE NOT AND UNDERGO PROLONGED PERIODS OF POSTNATAL GROWTH AND DEVELOPMENT. AS SUCH, THESE ORGAN SYSTEMS ARE VULNERABLE TO ADVERSE EFFECTS OF BOTH PRENATAL AND POSTNATAL ENVIRONMENTAL EXPOSURES. WHILE THE PRECISE MECHANISMS UNDERLYING CHRONIC DISEASE ARE UNKNOWN, EPIGENETIC MECHANISMS AND THE INDUCTION OF OXIDATIVE STRESS ARE LIKELY TO BE INVOLVED. AN UNDERSTANDING OF THESE PROCESSES IS NECESSARY TO DEVELOP MITIGATION STRATEGIES AIMED AT REDUCING CHRONIC DISEASE PREVALENCE. 2021 15 4983 43 PATHOPHYSIOLOGY, CELLULAR AND MOLECULAR MECHANISMS OF FOETAL GROWTH RETARDATION. IN MAMMALS, SIZE AT BIRTH IS THE OUTCOME OF LENGTH OF GESTATION AND RATE OF FOETAL GROWTH. IN THE ABSENCE OF PREMATURE DELIVERY, FOETAL SIZE WITHIN SPECIES IS DETERMINED PRINCIPALLY BY FOETAL GROWTH RATE WHICH IS DEPENDENT ON BOTH GENETIC AND EPIGENETIC FACTORS. FAILURE OF EITHER OF THESE MECHANISMS LEADS TO FOETAL GROWTH RETARDATION. IN MAMMALS, INCLUDING HUMAN INFANTS, FOETAL GROWTH RETARDATION CAN OCCUR NATURALLY OR PATHOLOGICALLY. ONE MAJOR CAUSE FOR NATURAL FOETAL GROWTH RETARDATION OR RUNTING IS THE INCREASE IN LITTER SIZE. IN MANY CASES, HOWEVER, THE CAUSE OF RUNTING IS UNKNOWN. PARENTAL GENOTYPE OR ANTIGENIC DIFFERENCES BETWEEN THE MOTHER AND THE DEVELOPING CONCEPTUS MAY BE POTENTIAL CAUSES. PATHOLOGICAL FOETAL GROWTH RETARDATION OR INTRAUTERINE GROWTH RETARDATION (IUGR) IS DUE TO GENETIC CAUSES (CHROMOSOMAL ABNORMALITIES OR INHERITED SYNDROMES) OR EPIGENETIC CAUSES (INTRAUTERINE INFECTIONS, TOXINS AND CHEMICALS, MATERNAL DISEASES OF PREGNANCY AFFECTING THE PLACENTA). THE UNDERLYING PATHOPHYSIOLOGICAL PROCESSES THAT OCCUR AT THE CELLULAR AND MOLECULAR LEVEL IN IUGR ARE STILL UNKNOWN. REDUCTION IN THE SUPPLY OF SUBSTRATES THAT ARE NECESSARY FOR NORMAL CELLULAR FUNCTION, AND ALTERATION IN MEDIATOR MOLECULES THAT REGULATE CELLULAR GROWTH AND DIFFERENTIATION, ARE IMPORTANT MECHANISMS. A DECREASE IN GROWTH PROMOTING FACTORS OR AN INCREASE IN GROWTH INHIBITORY FACTORS MAY LEAD TO GROWTH FAILURE. GROWTH FACTORS AND THEIR RECEPTORS ARE EXPRESSED IN THE DEVELOPING EMBRYO (AS EARLY AS THE 1-2-CELL STAGE), PLACENTA AND MATERNAL UTERINE TISSUES, SUGGESTING THAT THESE MOLECULES MAY PLAY A ROLE IN REGULATING NORMAL GROWTH AND DIFFERENTIATION OF THE CONCEPTUS AS WELL AS MATERNAL REPRODUCTIVE TISSUES. THE LOCAL EXPRESSION WITHIN DEVELOPING TISSUES INDICATES THAT THESE FACTORS ACT IN EITHER AUTOCRINE OR PARACRINE MECHANISM. RECENT STUDIES USING GENE TARGETING TO KNOCK OUT ONE ALLELE OF INSULIN-LIKE GROWTH FACTOR II (IGF II) GENE IN MICE WHICH RESULTED IN GROWTH RETARDED PUPS AT BIRTH, STRONGLY SUPPORT THE IMPORTANCE OF LOCAL IGF II IN REGULATING TISSUE GROWTH. FOETAL GROWTH RETARDATION HAS ALSO BEEN INDUCED EXPERIMENTALLY IN SEVERAL SPECIES USING ONE OF THE FOLLOWING METHODS: (I) MATERNAL UNDERNUTRITION, (II) CHRONIC HYPOXIA, (III) PROLONGED REDUCTION IN UTERINE BLOOD FLOW, (IV) REDUCTION IN PLACENTAL SIZE, AND (V) ENDOCRINE ALTERATIONS. THESE MODELS PROVIDE USEFUL INFORMATION ON THE PHYSIOLOGICAL MECHANISMS UNDERLYING A SPECIFIC TYPE OF GROWTH RETARDATION. THESE IN-VIVO MODELS AND IN-VIVO TISSUE CULTURE MODELS CAN NOW BE ANALYSED BY BIOCHEMICAL AND MOLECULAR BIOLOGICAL TECHNIQUES TO UNRAVEL THE BASIC MECHANISMS THAT UNDERLIE FOETAL GROWTH RETARDATION. 1993 16 2346 32 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 17 6034 41 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 18 2274 40 EPIGENETIC REGULATION AND FETAL PROGRAMMING. FETAL PROGRAMMING ENCOMPASSES THE ROLE OF DEVELOPMENTAL PLASTICITY IN RESPONSE TO ENVIRONMENTAL AND NUTRITIONAL SIGNALS DURING EARLY LIFE AND ITS POTENTIAL ADVERSE CONSEQUENCES (RISK OF CARDIOVASCULAR, METABOLIC AND BEHAVIOURAL DISEASES) IN LATER LIFE. THE FIRST STUDIES IN THIS FIELD HIGHLIGHTED AN ASSOCIATION BETWEEN POOR FETAL GROWTH AND CHRONIC ADULT DISEASES. HOWEVER, ENVIRONMENTAL SIGNALS DURING EARLY LIFE MAY LEAD TO ADVERSE LONG-TERM EFFECTS INDEPENDENTLY OF OBVIOUS EFFECTS ON FETAL GROWTH. ADVERSE LONG-TERM EFFECTS REFLECT A MISMATCH BETWEEN EARLY (FETAL AND NEONATAL) ENVIRONMENTAL CONDITIONS AND THE CONDITIONS THAT THE INDIVIDUAL WILL CONFRONT LATER IN LIFE. THE MECHANISMS UNDERLYING THIS RISK REMAIN UNCLEAR. HOWEVER, EXPERIMENTAL DATA IN RODENTS AND RECENT OBSERVATIONS IN HUMANS SUGGEST THAT EPIGENETIC CHANGES IN REGULATORY GENES AND GROWTH-RELATED GENES PLAY A SIGNIFICANT ROLE IN FETAL PROGRAMMING. IMPROVEMENTS IN OUR UNDERSTANDING OF THE BIOCHEMICAL AND MOLECULAR MECHANISMS AT PLAY IN FETAL PROGRAMMING WOULD MAKE IT POSSIBLE TO IDENTIFY BIOMARKERS FOR DETECTING INFANTS AT HIGH RISK OF ADULT-ONSET DISEASES. SUCH IMPROVEMENTS SHOULD ALSO LEAD TO THE DEVELOPMENT OF PREVENTIVE AND THERAPEUTIC STRATEGIES. 2008 19 3837 32 IONIZING RADIATION-INDUCED OXIDATIVE STRESS, EPIGENETIC CHANGES AND GENOMIC INSTABILITY: THE PIVOTAL ROLE OF MITOCHONDRIA. PURPOSE: TO REVIEW THE DATA CONCERNING THE ROLE OF ENDOGENOUSLY GENERATED REACTIVE OXYGEN SPECIES (ROS) IN THE NON-TARGETED IONIZING RADIATION (IR) EFFECTS AND IN DETERMINATION OF THE CELL POPULATION'S FATE, BOTH EARLY AFTER EXPOSURE AND AFTER MANY GENERATIONS. CONCLUSIONS: THE SHORT-TERM AS WELL AS CHRONIC OXIDATIVE STRESS RESPONSES MAINLY ARE PRODUCED DUE TO ROS GENERATION BY THE ELECTRON TRANSPORT CHAIN (ETC) OF THE MITOCHONDRIA AND BY THE CYTOPLASMIC NADPH OXIDASES. WHETHER THE INDUCTION OF THE OXIDATIVE STRESS AND ITS CONSEQUENCES OCCUR OR ARE HAMPERED IN A SINGLE CELL LARGELY DEPENDS ON THE INTERACTION BETWEEN THE NUCLEUS AND THE CELLULAR POPULATION OF SEVERAL HUNDRED OR THOUSANDS OF MITOCHONDRIA THAT ARE GENETICALLY HETEROGENEOUS. HIGH INTRA-MITOCHONDRIAL ROS LEVEL IS DAMAGING THE MITOCHONDRIAL (MT) DNA AND ITS MUTATIONS AFFECT THE EPIGENETIC CONTROL MECHANISMS OF THE NUCLEAR (N) DNA, BY DECREASING THE ACTIVITY OF METHYLTRANSFERASES AND THUS, CAUSING GLOBAL DNA HYPOMETHYLATION. THESE CHANGES ARE TRANSMITTED TO THE PROGENY OF THE IRRADIATED CELLS. THE CHRONIC OXIDATIVE STRESS IS THE MAIN CAUSE OF THE LATE POST-RADIATION EFFECTS, INCLUDING CANCER, AND THIS MAKES IT AN IMPORTANT ADVERSE EFFECT OF EXPOSURE TO IR AND A TARGET FOR RADIOLOGICAL PROTECTION. 2015 20 795 36 CELLULAR RESILIENCE. CELLULAR RESILIENCE DESCRIBES THE ABILITY OF A CELL TO COPE WITH ENVIRONMENTAL CHANGES SUCH AS TOXICANT EXPOSURE. IF CELLULAR METABOLISM DOES NOT COLLAPSE DIRECTLY AFTER THE HIT OR END IN PROGRAMMED CELL DEATH, THE ENSUING STRESS RESPONSES PROMOTE A NEW HOMEOSTASIS UNDER STRESS. THE PROCESSES OF REVERTING "BACK TO NORMAL" AND REVERSAL OF APOPTOSIS ("ANASTASIS") HAVE BEEN STUDIED LITTLE AT THE CELLULAR LEVEL. CELL TYPES SHOW ASTONISHINGLY SIMILAR VULNERABILITY TO MOST TOXICANTS, EXCEPT FOR THOSE THAT REQUIRE A VERY SPECIFIC TARGET, METABOLISM OR MECHANISM PRESENT ONLY IN SPECIFIC CELL TYPES. THE MAJORITY OF CHEMICALS TRIGGERS "GENERAL CYTOTOXICITY" IN ANY CELL AT SIMILAR CONCENTRATIONS. WE HYPOTHESIZE THAT CELLS DIFFER LESS IN THEIR VULNERABILITY TO A GIVEN TOXICANT THAN IN THEIR RESILIENCE (COPING WITH THE "HIT"). IN MANY CASES, CELLS DO NOT RETURN TO THE NAIVE STATE AFTER A TOXIC INSULT. THE PHENOMENA OF "PRE-CONDITIONING", "TOLERANCE" AND "HORMESIS" DESCRIBE THIS FOR LOW-DOSE EXPOSURES TO TOXICANTS THAT RENDER THE CELL MORE RESISTANT TO SUBSEQUENT HITS. THE DEFENSE AND RESILIENCE PROGRAMS INCLUDE EPIGENETIC CHANGES THAT LEAVE A "MEMORY/SCAR" - AN ALTERATION AS A CONSEQUENCE OF THE STRESS THE CELL HAS EXPERIENCED. THESE MEMORIES MIGHT HAVE LONG-TERM CONSEQUENCES, BOTH POSITIVE (RESISTANCE) AND NEGATIVE, THAT CONTRIBUTE TO CHRONIC AND DELAYED MANIFESTATIONS OF HAZARD AND, ULTIMATELY, DISEASE. THIS ARTICLE CALLS FOR MORE SYSTEMATIC ANALYSES OF HOW CELLS COPE WITH TOXIC PERTURBATIONS IN THE LONG-TERM AFTER STRESSOR WITHDRAWAL. A TECHNICAL PREREQUISITE FOR THESE ARE STABLE (ORGANOTYPIC) CULTURES AND A CHARACTERIZATION OF STRESS RESPONSE MOLECULAR NETWORKS. 2015