1 6467 140 TISSUE-SPECIFIC EFFECTS OF EXERCISE AS NAD(+) -BOOSTING STRATEGY: CURRENT KNOWLEDGE AND FUTURE PERSPECTIVES. NICOTINAMIDE ADENINE DINUCLEOTIDE (NAD(+) ) IS AN EVOLUTIONARILY HIGHLY CONSERVED COENZYME WITH MULTI-FACETED CELL FUNCTIONS, INCLUDING ENERGY METABOLISM, MOLECULAR SIGNALING PROCESSES, EPIGENETIC REGULATION, AND DNA REPAIR. SINCE THE DISCOVERY THAT LOWER NAD(+) LEVELS ARE A SHARED CHARACTERISTIC OF VARIOUS DISEASES AND AGING PER SE, SEVERAL NAD(+) -BOOSTING STRATEGIES HAVE EMERGED. OTHER THAN PHARMACOLOGICAL AND NUTRITIONAL APPROACHES, EXERCISE IS THOUGHT TO RESTORE NAD(+) HOMEOSTASIS THROUGH METABOLIC ADAPTION TO CHRONICALLY RECURRING STATES OF INCREASED ENERGY DEMAND. IN THIS REVIEW WE DISCUSS THE IMPACT OF ACUTE EXERCISE AND EXERCISE TRAINING ON TISSUE-SPECIFIC NAD(+) METABOLISM OF RODENTS AND HUMANS TO HIGHLIGHT THE POTENTIAL VALUE AS NAD(+) -BOOSTING STRATEGY. BY INTERCONNECTING RESULTS FROM DIFFERENT INVESTIGATIONS, WE AIM TO DRAW ATTENTION TO TISSUE-SPECIFIC ALTERATIONS IN NAD(+) METABOLISM AND THE ASSOCIATED IMPLICATIONS FOR WHOLE-BODY NAD(+) HOMEOSTASIS. ACUTE EXERCISE LED TO PROFOUND ALTERATIONS OF INTRACELLULAR NAD(+) METABOLISM IN VARIOUS INVESTIGATIONS, WITH THE MAGNITUDE AND DIRECTION OF CHANGES BEING STRONGLY DEPENDENT ON THE APPLIED EXERCISE MODALITY, CELL TYPE, AND INVESTIGATED ANIMAL MODEL OR HUMAN POPULATION. EXERCISE TRAINING ELEVATED NAD(+) LEVELS AND NAD(+) METABOLISM ENZYMES IN VARIOUS TISSUES. BASED ON THESE RESULTS, WE DISCUSS MOLECULAR MECHANISMS THAT MIGHT CONNECT ACUTE EXERCISE-INDUCED DISRUPTIONS OF NAD(+) /NADH HOMEOSTASIS TO CHRONIC EXERCISE ADAPTIONS IN NAD(+) METABOLISM. TAKING THIS HYPOTHESIS-DRIVEN APPROACH, WE HOPE TO INSPIRE FUTURE RESEARCH ON THE MOLECULAR MECHANISMS OF EXERCISE AS NAD(+) -MODIFYING LIFESTYLE INTERVENTION, THEREBY ELUCIDATING THE POTENTIAL THERAPEUTIC VALUE IN NAD(+) -RELATED PATHOLOGIES. 2023 2 4585 48 NAD(+) AND VASCULAR DYSFUNCTION: FROM MECHANISMS TO THERAPEUTIC OPPORTUNITIES. NICOTINAMIDE ADENINE DINUCLEOTIDE (NAD(+)) IS AN ESSENTIAL AND PLEIOTROPIC COENZYME INVOLVED NOT ONLY IN CELLULAR ENERGY METABOLISM, BUT ALSO IN CELL SIGNALING, EPIGENETIC REGULATION, AND POST-TRANSLATIONAL PROTEIN MODIFICATIONS. VASCULAR DISEASE RISK FACTORS ARE ASSOCIATED WITH ABERRANT NAD(+) METABOLISM. CONVERSELY, THE THERAPEUTIC INCREASE OF NAD(+) LEVELS THROUGH THE ADMINISTRATION OF NAD(+) PRECURSORS OR INHIBITORS OF NAD(+)-CONSUMING ENZYMES REDUCES CHRONIC LOW-GRADE INFLAMMATION, REACTIVATES AUTOPHAGY AND MITOCHONDRIAL BIOGENESIS, AND ENHANCES OXIDATIVE METABOLISM IN VASCULAR CELLS OF HUMANS AND RODENTS WITH VASCULAR PATHOLOGIES. AS SUCH, NAD(+) HAS EMERGED AS A POTENTIAL TARGET FOR COMBATTING AGE-RELATED CARDIOVASCULAR AND CEREBROVASCULAR DISORDERS. THIS REVIEW DISCUSSES NAD(+)-REGULATED MECHANISMS CRITICAL FOR VASCULAR HEALTH AND SUMMARIZES NEW ADVANCES IN NAD(+) RESEARCH DIRECTLY RELATED TO VASCULAR AGING AND DISEASE, INCLUDING HYPERTENSION, ATHEROSCLEROSIS, CORONARY ARTERY DISEASE, AND AORTIC ANEURYSMS. FINALLY, WE ENUMERATE CHALLENGES AND OPPORTUNITIES FOR NAD(+) REPLETION THERAPY WHILE ANTICIPATING THE FUTURE OF THIS EXCITING RESEARCH FIELD, WHICH WILL HAVE A MAJOR IMPACT ON VASCULAR MEDICINE. 2022 3 128 35 A UNIFYING MECHANISM OF KETOGENIC DIET ACTION: THE MULTIPLE ROLES OF NICOTINAMIDE ADENINE DINUCLEOTIDE. THE ABILITY OF A KETOGENIC DIET TO TREAT SEIZURES AND RENDER A NEURONAL NETWORK MORE RESISTANT TO STRONG ELECTRICAL ACTIVITY HAS BEEN OBSERVED FOR A CENTURY IN CLINICS AND FOR DECADES IN RESEARCH LABORATORIES. ALONGSIDE ONGOING EFFORTS TO UNDERSTAND HOW THIS THERAPY WORKS TO STOP SEIZURES, METABOLIC HEALTH IS INCREASINGLY APPRECIATED AS CRITICAL BUFFER TO RESISTING AND RECOVERING FROM ACUTE AND CHRONIC DISEASE. ACCORDINGLY, LINKS BETWEEN METABOLISM AND HEALTH, AND THE BROADER EMERGING IMPACT OF THE KETOGENIC DIET IN IMPROVING DIVERSE METABOLIC, IMMUNOLOGICAL AND NEUROLOGICAL CONDITIONS, HAVE SERVED TO INTENSIFY THE SEARCH FOR ITS KEY AND/OR COMMON MECHANISMS. HERE WE REVIEW DIVERSE EVIDENCE FOR INCREASED LEVELS OF NAD(+), AND THUS AN ALTERED RATIO OF NAD(+)/NADH, DURING METABOLIC THERAPY WITH A KETOGENIC DIET. WE PROPOSE THIS AS A POTENTIAL UNIFYING MECHANISM, AND HIGHLIGHT SOME OF THE EVIDENCE LINKING ALTERED NAD(+)/NADH WITH REDUCED SEIZURES AND WITH A RANGE OF SHORT AND LONG-TERM CHANGES ASSOCIATED WITH THE BENEFICIAL EFFECTS OF A KETOGENIC DIET. AN INCREASE IN NAD(+)/NADH IS CONSISTENT WITH MULTIPLE LINES OF EVIDENCE AND HYPOTHESES, AND THEREFORE WE SUGGEST THAT INCREASED NAD(+) MAY BE A COMMON MECHANISM UNDERLYING BENEFICIAL EFFECTS OF KETOGENIC DIET THERAPY. 2020 4 870 27 CHRONIC ALCOHOL BINGING INJURES THE LIVER AND OTHER ORGANS BY REDUCING NAD(+) LEVELS REQUIRED FOR SIRTUIN'S DEACETYLASE ACTIVITY. NAD(+) LEVELS ARE MARKEDLY REDUCED WHEN BLOOD ALCOHOL LEVELS ARE HIGH DURING BINGE DRINKING. THIS CAUSES LIVER INJURY TO OCCUR BECAUSE THE ENZYMES THAT REQUIRE NAD(+) AS A COFACTOR SUCH AS THE SIRTUIN DE-ACETYLASES CANNOT DE-ACETYLATE ACETYLATED PROTEINS SUCH AS ACETYLATED HISTONES. THIS PREVENTS THE EPIGENETIC CHANGES THAT REGULATE METABOLIC PROCESSES AND WHICH PREVENT ORGAN INJURY SUCH AS FATTY LIVER IN RESPONSE TO ALCOHOL ABUSE. HYPER ACETYLATION OF NUMEROUS REGULATORY PROTEINS DEVELOPS. SYSTEMIC MULTI-ORGAN INJURY OCCURS WHEN NAD(+) IS REDUCED. FOR INSTANCE THE CIRCADIAN CLOCK IS ALTERED IF NAD(+) IS NOT AVAILABLE. CELL CYCLE ARREST OCCURS DUE TO UP REGULATION OF CELL CYCLE INHIBITORS LEADING TO DNA DAMAGE, MUTATIONS, APOPTOSIS AND TUMORIGENESIS. NAD(+) IS LINKED TO AGING IN THE REGULATION OF TELOMERE STABILITY. NAD(+) IS REQUIRED FOR MITOCHONDRIAL RENEWAL. ALCOHOL DEHYDROGENASE IS PRESENT IN EVERY VISCERAL ORGAN IN THE BODY SO THAT THERE IS A SYSTEMIC REDUCTION OF NAD(+) LEVELS IN ALL OF THESE ORGANS DURING BINGE DRINKING. 2016 5 313 31 ALCOHOL METABOLISM AND EPIGENETICS CHANGES. METABOLITES, INCLUDING THOSE GENERATED DURING ETHANOL METABOLISM, CAN IMPACT DISEASE STATES BY BINDING TO TRANSCRIPTION FACTORS AND/OR MODIFYING CHROMATIN STRUCTURE, THEREBY ALTERING GENE EXPRESSION PATTERNS. FOR EXAMPLE, THE ACTIVITIES OF ENZYMES INVOLVED IN EPIGENETIC MODIFICATIONS SUCH AS DNA AND HISTONE METHYLATION AND HISTONE ACETYLATION, ARE INFLUENCED BY THE LEVELS OF METABOLITES SUCH AS NICOTINAMIDE ADENINE DINUCLEOTIDE (NAD), ADENOSINE TRIPHOSPHATE (ATP), AND S-ADENOSYLMETHIONINE (SAM). CHRONIC ALCOHOL CONSUMPTION LEADS TO SIGNIFICANT REDUCTIONS IN SAM LEVELS, THEREBY CONTRIBUTING TO DNA HYPOMETHYLATION. SIMILARLY, ETHANOL METABOLISM ALTERS THE RATIO OF NAD+ TO REDUCED NAD (NADH) AND PROMOTES THE FORMATION OF REACTIVE OXYGEN SPECIES AND ACETATE, ALL OF WHICH IMPACT EPIGENETIC REGULATORY MECHANISMS. IN ADDITION TO ALTERED CARBOHYDRATE METABOLISM, INDUCTION OF CELL DEATH, AND CHANGES IN MITOCHONDRIAL PERMEABILITY TRANSITION, THESE METABOLISM-RELATED CHANGES CAN LEAD TO MODULATION OF EPIGENETIC REGULATION OF GENE EXPRESSION. UNDERSTANDING THE NATURE OF THESE EPIGENETIC CHANGES WILL HELP RESEARCHERS DESIGN NOVEL MEDICATIONS TO TREAT OR AT LEAST AMELIORATE ALCOHOL-INDUCED ORGAN DAMAGE. 2013 6 4037 26 MACROPHAGE IMMUNOMETABOLISM AND INFLAMMAGING: ROLES OF MITOCHONDRIAL DYSFUNCTION, CELLULAR SENESCENCE, CD38, AND NAD. AGING IS A COMPLEX PROCESS THAT INVOLVES DYSFUNCTION ON MULTIPLE LEVELS, ALL OF WHICH SEEM TO CONVERGE ON INFLAMMATION. MACROPHAGES ARE INTIMATELY INVOLVED IN INITIATING AND RESOLVING INFLAMMATION, AND THEIR DYSREGULATION WITH AGE IS A PRIMARY CONTRIBUTOR TO INFLAMMAGING-A STATE OF CHRONIC, LOW-GRADE INFLAMMATION THAT DEVELOPS DURING AGING. AMONG THE AGE-RELATED CHANGES THAT OCCUR TO MACROPHAGES ARE A HEIGHTENED STATE OF BASAL INFLAMMATION AND DIMINISHED OR HYPERACTIVE INFLAMMATORY RESPONSES, WHICH SEEM TO BE DRIVEN BY METABOLIC-DEPENDENT EPIGENETIC CHANGES. IN THIS REVIEW ARTICLE WE PROVIDE A BRIEF OVERVIEW OF MITOCHONDRIAL FUNCTIONS AND AGE-RELATED CHANGES THAT OCCUR TO MACROPHAGES, WITH AN EMPHASIS ON HOW THE INFLAMMAGING ENVIRONMENT, SENESCENCE, AND NAD DECLINE CAN AFFECT THEIR METABOLISM, PROMOTE DYSREGULATION, AND CONTRIBUTE TO INFLAMMAGING AND AGE-RELATED PATHOLOGIES. 2020 7 2360 28 EPIGENETIC REGULATION OF SKELETAL MUSCLE METABOLISM. NORMAL SKELETAL MUSCLE METABOLISM IS ESSENTIAL FOR WHOLE BODY METABOLIC HOMOEOSTASIS AND DISRUPTIONS IN MUSCLE METABOLISM ARE ASSOCIATED WITH A NUMBER OF CHRONIC DISEASES. TRANSCRIPTIONAL CONTROL OF METABOLIC ENZYME EXPRESSION IS A MAJOR REGULATORY MECHANISM FOR MUSCLE METABOLIC PROCESSES. SUBSTANTIAL EVIDENCE IS EMERGING THAT HIGHLIGHTS THE IMPORTANCE OF EPIGENETIC MECHANISMS IN THIS PROCESS. THIS REVIEW WILL EXAMINE THE IMPORTANCE OF EPIGENETICS IN THE REGULATION OF MUSCLE METABOLISM, WITH A PARTICULAR EMPHASIS ON DNA METHYLATION AND HISTONE ACETYLATION AS EPIGENETIC CONTROL POINTS. THE EMERGING CROSS-TALK BETWEEN METABOLISM AND EPIGENETICS IN THE CONTEXT OF HEALTH AND DISEASE WILL ALSO BE EXAMINED. THE CONCEPT OF INHERITANCE OF SKELETAL MUSCLE METABOLIC PHENOTYPES WILL BE DISCUSSED, IN ADDITION TO EMERGING EPIGENETIC THERAPIES THAT COULD BE USED TO ALTER MUSCLE METABOLISM IN CHRONIC DISEASE STATES. 2016 8 2703 39 EXERCISE ADAPTATIONS: MOLECULAR MECHANISMS AND POTENTIAL TARGETS FOR THERAPEUTIC BENEFIT. EXERCISE IS FUNDAMENTAL FOR GOOD HEALTH, WHEREAS PHYSICAL INACTIVITY UNDERPINS MANY CHRONIC DISEASES OF MODERN SOCIETY. IT IS WELL APPRECIATED THAT REGULAR EXERCISE IMPROVES METABOLISM AND THE METABOLIC PHENOTYPE IN A NUMBER OF TISSUES. THE PHENOTYPIC ALTERATIONS OBSERVED IN SKELETAL MUSCLE ARE PARTLY MEDIATED BY TRANSCRIPTIONAL RESPONSES THAT OCCUR FOLLOWING EACH INDIVIDUAL BOUT OF EXERCISE. THIS ADAPTIVE RESPONSE INCREASES OXIDATIVE CAPACITY AND INFLUENCES THE FUNCTION OF MYOKINES AND EXTRACELLULAR VESICLES THAT SIGNAL TO OTHER TISSUES. OUR UNDERSTANDING OF THE EPIGENETIC AND TRANSCRIPTIONAL MECHANISMS THAT MEDIATE THE SKELETAL MUSCLE GENE EXPRESSION RESPONSE TO EXERCISE AS WELL AS OF THEIR UPSTREAM SIGNALLING PATHWAYS HAS ADVANCED SUBSTANTIALLY IN THE PAST 10 YEARS. WITH THIS KNOWLEDGE ALSO COMES THE OPPORTUNITY TO DESIGN NEW THERAPEUTIC STRATEGIES BASED ON THE BIOLOGY OF EXERCISE FOR A VARIETY OF CHRONIC CONDITIONS WHERE REGULAR EXERCISE MIGHT BE A CHALLENGE. THIS REVIEW PROVIDES AN OVERVIEW OF THE BENEFICIAL ADAPTIVE RESPONSES TO EXERCISE AND DETAILS THE MOLECULAR MECHANISMS INVOLVED. THE POSSIBILITY OF DESIGNING THERAPEUTIC INTERVENTIONS BASED ON THESE MOLECULAR MECHANISMS IS ADDRESSED, USING RELEVANT EXAMPLES THAT HAVE EXPLOITED THIS APPROACH. 2020 9 4185 44 METABOLIC ADAPTIONS/REPROGRAMMING IN ISLET BETA-CELLS IN RESPONSE TO PHYSIOLOGICAL STIMULATORS-WHAT ARE THE CONSEQUENCES. IRREVERSIBLE PANCREATIC BETA-CELL DAMAGE MAY BE A RESULT OF CHRONIC EXPOSURE TO SUPRAPHYSIOLOGICAL GLUCOSE OR LIPID CONCENTRATIONS OR CHRONIC EXPOSURE TO THERAPEUTIC ANTI-DIABETIC DRUGS. THE BETA-CELLS ARE ABLE TO RESPOND TO BLOOD GLUCOSE IN A NARROW CONCENTRATION RANGE AND RELEASE INSULIN IN RESPONSE, FOLLOWING ACTIVATION OF METABOLIC PATHWAYS SUCH AS GLYCOLYSIS AND THE TCA CYCLE. THE BETA-CELL CANNOT PROTECT ITSELF FROM GLUCOSE TOXICITY BY BLOCKING GLUCOSE UPTAKE, BUT INDEED RELIES ON ALTERNATIVE METABOLIC PROTECTION MECHANISMS TO AVOID DYSFUNCTION AND DEATH. ALTERATION OF NORMAL METABOLIC PATHWAY FUNCTION OCCURS AS A COUNTER REGULATORY RESPONSE TO HIGH NUTRIENT, INFLAMMATORY FACTOR, HORMONE OR THERAPEUTIC DRUG CONCENTRATIONS. METABOLIC REPROGRAMMING IS A TERM WIDELY USED TO DESCRIBE A CHANGE IN REGULATION OF VARIOUS METABOLIC ENZYMES AND TRANSPORTERS, USUALLY ASSOCIATED WITH CELL GROWTH AND PROLIFERATION AND MAY INVOLVE RESHAPING EPIGENETIC RESPONSES, IN PARTICULAR THE ACETYLATION AND METHYLATION OF HISTONE PROTEINS AND DNA. OTHER METABOLIC MODIFICATIONS SUCH AS MALONYLATION, SUCCINYLATION, HYDROXYBUTYRYLATION, ADP-RIBOSYLATION, AND LACTYLATION, MAY IMPACT REGULATORY PROCESSES, MANY OF WHICH NEED TO BE INVESTIGATED IN DETAIL TO CONTRIBUTE TO CURRENT ADVANCES IN METABOLISM. BY DESCRIBING MULTIPLE MECHANISMS OF METABOLIC ADAPTION THAT ARE AVAILABLE TO THE BETA-CELL ACROSS ITS LIFESPAN, WE HOPE TO IDENTIFY SITES FOR METABOLIC REPROGRAMMING MECHANISMS, MOST OF WHICH ARE INCOMPLETELY DESCRIBED OR UNDERSTOOD. MANY OF THESE MECHANISMS ARE RELATED TO PROMINENT ANTIOXIDANT RESPONSES. HERE, WE HAVE ATTEMPTED TO DESCRIBE THE KEY BETA-CELL METABOLIC ADAPTIONS AND CHANGES WHICH ARE REQUIRED FOR SURVIVAL AND FUNCTION IN VARIOUS PHYSIOLOGICAL, PATHOLOGICAL AND PHARMACOLOGICAL CONDITIONS. 2022 10 6183 37 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 11 5719 34 SIRTUINS IN NEURODEGENERATIVE DISEASES: AN UPDATE ON POTENTIAL MECHANISMS. SILENT INFORMATION REGULATOR 2 PROTEINS (SIRTUINS OR SIRTS) ARE A GROUP OF DEACETYLASES (OR DEACYLASES) WHOSE ACTIVITIES ARE DEPENDENT ON AND REGULATED BY NICOTINAMIDE ADENINE DINUCLEOTIDE (NAD(+)). COMPELLING EVIDENCE SUPPORTS THAT SIRTUINS PLAY MAJOR ROLES IN MANY ASPECTS OF PHYSIOLOGY, ESPECIALLY IN PATHWAYS RELATED TO AGING - THE PREDOMINANT AND UNIFYING RISK FACTOR FOR NEURODEGENERATIVE DISEASES. IN THIS REVIEW, WE HIGHLIGHT THE MOLECULAR MECHANISMS UNDERLYING THE PROTECTIVE EFFECTS OF SIRTUINS IN NEURODEGENERATIVE DISEASES, FOCUSING ON PROTEIN HOMEOSTASIS, NEURAL PLASTICITY, MITOCHONDRIAL FUNCTION, AND SUSTAINED CHRONIC INFLAMMATION. WE WILL ALSO EXAMINE THE POTENTIAL AND CHALLENGES OF TARGETING SIRTUIN PATHWAYS TO BLOCK THESE PATHOGENIC PATHWAYS. 2013 12 6034 40 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 13 5069 31 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 14 996 37 CHRONIC STRESS, EPIGENETICS, AND ADIPOSE TISSUE METABOLISM IN THE OBESE STATE. IN OBESITY, ENDOCRINE AND METABOLIC PERTURBATIONS, INCLUDING THOSE INDUCED BY CHRONIC ACTIVATION OF THE HYPOTHALAMUS-PITUITARY-ADRENAL AXIS, ARE ASSOCIATED WITH THE ACCUMULATION OF ADIPOSE TISSUE AND INFLAMMATION. SUCH CHANGES ARE ATTRIBUTABLE TO A COMBINATION OF GENETIC AND EPIGENETIC FACTORS THAT ARE INFLUENCED BY THE ENVIRONMENT AND EXACERBATED BY CHRONIC ACTIVATION OF THE HYPOTHALAMUS-PITUITARY-ADRENAL AXIS. STRESS EXPOSURE AT DIFFERENT LIFE STAGES CAN ALTER ADIPOSE TISSUE METABOLISM DIRECTLY THROUGH EPIGENETIC MODIFICATION OR INDIRECTLY THROUGH THE MANIPULATION OF HYPOTHALAMIC APPETITE REGULATION, AND THEREBY CONTRIBUTE TO ENDOCRINE CHANGES THAT FURTHER DISRUPT WHOLE-BODY ENERGY BALANCE. THIS REVIEW SYNTHESIZES CURRENT KNOWLEDGE, WITH AN EMPHASIS ON HUMAN CLINICAL TRIALS, TO DESCRIBE METABOLIC CHANGES IN ADIPOSE TISSUE AND ASSOCIATED ENDOCRINE, GENETIC AND EPIGENETIC CHANGES IN THE OBESE STATE. IN PARTICULAR, WE DISCUSS EPIGENETIC CHANGES INDUCED BY STRESS EXPOSURE AND THEIR CONTRIBUTION TO APPETITE AND ADIPOCYTE DYSFUNCTION, WHICH COLLECTIVELY PROMOTE THE PATHOGENESIS OF OBESITY. SUCH KNOWLEDGE IS CRITICAL FOR PROVIDING FUTURE DIRECTIONS OF METABOLISM RESEARCH AND TARGETS FOR TREATING METABOLIC DISORDERS. 2020 15 3581 31 IMPACT OF PHYSICAL ACTIVITY AND EXERCISE ON THE EPIGENOME IN SKELETAL MUSCLE AND EFFECTS ON SYSTEMIC METABOLISM. EXERCISE AND PHYSICAL ACTIVITY INDUCES PHYSIOLOGICAL RESPONSES IN ORGANISMS, AND ADAPTATIONS IN SKELETAL MUSCLE, WHICH IS BENEFICIAL FOR MAINTAINING HEALTH AND PREVENTING AND/OR TREATING MOST CHRONIC DISEASES. THESE ADAPTATIONS ARE MAINLY INSTIGATED BY TRANSCRIPTIONAL RESPONSES THAT ENSUE IN REACTION TO EACH INDIVIDUAL EXERCISE, EITHER RESISTANCE OR ENDURANCE. CONSEQUENTLY, CHANGES IN KEY METABOLIC, REGULATORY, AND MYOGENIC GENES IN SKELETAL MUSCLE OCCUR AS BOTH AN EARLY AND LATE RESPONSE TO EXERCISE, AND THESE EPIGENETIC MODIFICATIONS, WHICH ARE INFLUENCED BY ENVIRONMENTAL AND GENETIC FACTORS, TRIGGER THOSE ALTERATIONS IN THE TRANSCRIPTIONAL RESPONSES. DNA METHYLATION AND HISTONE MODIFICATIONS ARE THE MOST SIGNIFICANT EPIGENETIC CHANGES DESCRIBED IN GENE TRANSCRIPTION, LINKED TO THE SKELETAL MUSCLE TRANSCRIPTIONAL RESPONSE TO EXERCISE, AND MEDIATING THE EXERCISE ADAPTATIONS. NEVERTHELESS, OTHER ALTERATIONS IN THE EPIGENETICS MARKERS, SUCH AS EPITRANSCRIPTOMICS, MODIFICATIONS MEDIATED BY MIRNAS, AND LACTYLATION AS A NOVEL EPIGENETIC MODIFICATION, ARE EMERGING AS KEY EVENTS FOR GENE TRANSCRIPTION. HERE, WE PROVIDE AN OVERVIEW AND UPDATE OF THE IMPACT OF EXERCISE ON EPIGENETIC MODIFICATIONS, INCLUDING THE WELL-DESCRIBED DNA METHYLATIONS AND HISTONE MODIFICATIONS, AND THE EMERGING MODIFICATIONS IN THE SKELETAL MUSCLE. IN ADDITION, WE DESCRIBE THE EFFECTS OF EXERCISE ON EPIGENETIC MARKERS IN OTHER METABOLIC TISSUES; ALSO, WE PROVIDE INFORMATION ABOUT HOW SYSTEMIC METABOLISM OR ITS METABOLITES INFLUENCE EPIGENETIC MODIFICATIONS IN THE SKELETAL MUSCLE. 2022 16 5117 39 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 17 6715 34 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 18 4273 42 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 19 2562 31 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 5410 31 REGULATION OF ADAPTIVE IMMUNE CELLS BY SIRTUINS. IT IS NOW WELL-ESTABLISHED THAT THE PATHWAYS THAT CONTROL LYMPHOCYTE METABOLISM AND FUNCTION ARE INTIMATELY LINKED, AND CHANGES IN LYMPHOCYTE METABOLISM CAN INFLUENCE AND DIRECT CELLULAR FUNCTION. INTERESTINGLY, A NUMBER OF RECENT ADVANCES INDICATE THAT LYMPHOCYTE IDENTITY AND METABOLISM IS PARTIALLY CONTROLLED VIA EPIGENETIC REGULATION. EPIGENETIC MECHANISMS, SUCH AS CHANGES IN DNA METHYLATION OR HISTONE ACETYLATION, HAVE BEEN FOUND TO ALTER IMMUNE FUNCTION AND PLAY A ROLE IN NUMEROUS CHRONIC DISEASE STATES. THERE ARE SEVERAL ENZYMES THAT CAN MEDIATE EPIGENETIC CHANGES; OF PARTICULAR INTEREST ARE SIRTUINS, PROTEIN DEACETYLASES THAT MEDIATE ADAPTIVE RESPONSES TO A VARIETY OF STRESSES (INCLUDING CALORIE RESTRICTION AND METABOLIC STRESS) AND ARE NOW UNDERSTOOD TO PLAY A SIGNIFICANT ROLE IN IMMUNITY. THIS REVIEW WILL FOCUS ON RECENT ADVANCES IN THE UNDERSTANDING OF HOW SIRTUINS AFFECT THE ADAPTIVE IMMUNE SYSTEM. THESE PATHWAYS ARE OF SIGNIFICANT INTEREST AS THERAPEUTIC TARGETS FOR THE TREATMENT OF AUTOIMMUNITY, CANCER, AND TRANSPLANT TOLERANCE. 2019