1 3115 180 GEROMETABOLITES: THE PSEUDOHYPOXIC AGING SIDE OF CANCER ONCOMETABOLITES. ONCOMETABOLITES ARE DEFINED AS SMALL-MOLECULE COMPONENTS (OR ENANTIOMERS) OF NORMAL METABOLISM WHOSE ACCUMULATION CAUSES SIGNALING DYSREGULATION TO ESTABLISH A MILIEU THAT INITIATES CARCINOGENESIS. IN A SIMILAR MANNER, WE PROPOSE THE TERM "GEROMETABOLITES" TO REFER TO SMALL-MOLECULE COMPONENTS OF NORMAL METABOLISM WHOSE DEPLETION CAUSES SIGNALING DYSREGULATION TO ESTABLISH A MILIEU THAT DRIVES AGING. IN AN INVESTIGATION OF THE PATHOGENIC ACTIVITIES OF THE CURRENTLY RECOGNIZED ONCOMETABOLITES R(-)-2-HYDROXYGLUTARATE (2-HG), FUMARATE, AND SUCCINATE, WHICH ACCUMULATE DUE TO MUTATIONS IN ISOCITRATE DEHYDROGENASES (IDH), FUMARATE HYDRATASE (FH), AND SUCCINATE DEHYDROGENASE (SDH), RESPECTIVELY, WE ILLUSTRATE THE FACT THAT METABOLIC PSEUDOHYPOXIA, THE ACCUMULATION OF HYPOXIA-INDUCIBLE FACTOR (HIFALPHA) UNDER NORMOXIC CONDITIONS, AND THE SUBSEQUENT WARBURG-LIKE REPROGRAMMING THAT SHIFTS GLUCOSE METABOLISM FROM THE OXIDATIVE PATHWAY TO AEROBIC GLYCOLYSIS ARE THE SAME MECHANISMS THROUGH WHICH THE DECLINE OF THE "GEROMETABOLITE" NICOTINAMIDE ADENINE DINUCLEOTIDE (NAD)(+) REVERSIBLY DISRUPTS NUCLEAR-MITOCHONDRIAL COMMUNICATION AND CONTRIBUTES TO THE DECLINE IN MITOCHONDRIAL FUNCTION WITH AGE. FROM AN EVOLUTIONARY PERSPECTIVE, IT IS REASONABLE TO VIEW NAD(+)-DRIVEN MITOCHONDRIAL HOMEOSTASIS AS A CONSERVED RESPONSE TO CHANGES IN ENERGY SUPPLIES AND OXYGEN LEVELS. SIMILARLY, THE NATURAL ABILITY OF 2-HG TO SIGNIFICANTLY ALTER EPIGENETICS MIGHT REFLECT AN EVOLUTIONARILY ANCIENT ROLE OF CERTAIN METABOLITES TO SIGNAL FOR ELEVATED GLUTAMINE/GLUTAMATE METABOLISM AND/OR OXYGEN DEFICIENCY. HOWEVER, WHEN CHRONICALLY ALTERED, THESE RESPONSES BECOME CONSERVED CAUSES OF AGING AND CANCER. BECAUSE HIFALPHA-DRIVEN PSEUDOHYPOXIA MIGHT DRIVE THE OVERPRODUCTION OF 2-HG, THE INTRIGUING POSSIBILITY EXISTS THAT THE DECLINE OF GEROMETABOLITES SUCH AS NAD(+) COULD PROMOTE THE CHRONIC ACCUMULATION OF ONCOMETABOLITES IN NORMAL CELLS DURING AGING. IF THE SOLE ACTIVATION OF A WARBURG-LIKE METABOLIC REPROGRAMMING IN NORMAL TISSUES MIGHT BE ABLE TO SIGNIFICANTLY INCREASE THE ENDOGENOUS PRODUCTION OF BONA FIDE ETIOLOGICAL DETERMINANTS IN CANCER, SUCH AS ONCOMETABOLITES, THIS UNDESIRABLE TRADE-OFF BETWEEN MITOCHONDRIAL DYSFUNCTION AND ACTIVATION OF ONCOMETABOLITES PRODUCTION MIGHT THEN PAVE THE WAY FOR THE EPIGENETIC INITIATION OF CARCINOGENESIS IN A STRICTLY METABOLIC-DEPENDENT MANNER. PERHAPS IT IS TIME TO DEFINITELY ADOPT THE VIEW THAT AGING AND AGING DISEASES INCLUDING CANCER ARE GOVERNED BY A PIVOTAL REGULATORY ROLE OF METABOLIC REPROGRAMMING IN CELL FATE DECISIONS. 2014 2 1231 37 CROSSTALK BETWEEN GLUCOSE METABOLISM, LACTATE PRODUCTION AND IMMUNE RESPONSE MODULATION. METABOLITES OF GLYCOLYTIC METABOLISM HAVE BEEN IDENTIFIED AS SIGNALING MOLECULES AND REGULATORS OF GENE EXPRESSION, IN ADDITION TO THEIR BASIC FUNCTION AS MAJOR ENERGY AND BIOSYNTHETIC SOURCE. IMMUNE CELLS REPROGRAM METABOLIC PATHWAYS TO CATER TO ENERGY AND BIOSYNTHESIS DEMANDS UPON ACTIVATION. MOST LYMPHOCYTES, INCLUDING INFLAMMATORY M1 MACROPHAGES, MAINLY SHIFT FROM OXIDATIVE PHOSPHORYLATION TO GLYCOLYSIS, WHEREAS REGULATORY T CELLS AND M2 MACROPHAGES PREFERENTIALLY USE THE TRICARBOXYLIC ACID (TCA) CYCLE AND HAVE REDUCED GLYCOLYSIS. RECENT STUDIES HAVE REVEALED THE "NON-METABOLIC" SIGNALING FUNCTIONS OF INTERMEDIATES OF THE MITOCHONDRIAL PATHWAY AND GLYCOLYSIS. THE ROLES OF CITRATE, SUCCINATE AND ITACONATE IN IMMUNE RESPONSE, INCLUDING POST-TRANSLATIONAL MODIFICATIONS OF PROTEINS AND MACROPHAGES ACTIVATION, HAVE BEEN HIGHLIGHTED. AS AN END PRODUCT OF GLYCOLYSIS, LACTATE HAS RECEIVED CONSIDERABLE INTEREST FROM RESEARCHERS. IN THIS REVIEW, WE SPECIFICALLY FOCUSED ON STUDIES EXPLORING THE INTEGRATION OF LACTATE INTO IMMUNE CELL BIOLOGY AND ASSOCIATED PATHOLOGIES. LACTATE CAN ACT AS A DOUBLE-EDGED SWORD. ON ONE HAND, ACTIVATED IMMUNE CELLS PREFER TO USE LACTATE TO SUPPORT THEIR FUNCTION. ON THE OTHER HAND, ACCUMULATED LACTATE IN THE TISSUE MICROENVIRONMENT ACTS AS A SIGNALING MOLECULE THAT RESTRICTS IMMUNE CELL FUNCTION. RECENTLY, A NOVEL EPIGENETIC CHANGE MEDIATED BY HISTONE LYSINE LACTYLATION HAS BEEN PROPOSED. THE BURGEONING RESEARCHES SUPPORT THE IDEA THAT HISTONE LACTYLATION PARTICIPATES IN DIVERSE CELLULAR EVENTS. THIS REVIEW DESCRIBES GLYCOLYTIC METABOLISM, INCLUDING THE IMMUNOREGULATION OF METABOLITES OF THE TCA CYCLE AND LACTATE. THESE LATEST FINDINGS STRENGTHEN OUR UNDERSTANDING ON TUMOR AND CHRONIC INFLAMMATORY DISEASES AND OFFER POTENTIAL THERAPEUTIC OPTIONS. 2022 3 6467 48 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 4 4585 40 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 5 5720 31 SIRTUINS LINK INFLAMMATION AND METABOLISM. SIRTUINS (SIRT), FIRST DISCOVERED IN YEAST AS NAD+ DEPENDENT EPIGENETIC AND METABOLIC REGULATORS, HAVE COMPARABLE ACTIVITIES IN HUMAN PHYSIOLOGY AND DISEASE. MOUNTING EVIDENCE SUPPORTS THAT THE SEVEN-MEMBER MAMMALIAN SIRTUIN FAMILY (SIRT1-7) GUARD HOMEOSTASIS BY SENSING BIOENERGY NEEDS AND RESPONDING BY MAKING ALTERATIONS IN THE CELL NUTRIENTS. SIRTUINS PLAY A CRITICAL ROLE IN RESTORING HOMEOSTASIS DURING STRESS RESPONSES. INFLAMMATION IS DESIGNED TO "DEFEND AND MEND" AGAINST THE INVADING ORGANISMS. EMERGING EVIDENCE SUPPORTS THAT METABOLISM AND BIOENERGY REPROGRAMMING DIRECT THE SEQUENTIAL COURSE OF INFLAMMATION; FAILURE OF HOMEOSTASIS RETRIEVAL RESULTS IN MANY CHRONIC AND ACUTE INFLAMMATORY DISEASES. ANABOLIC GLYCOLYSIS QUICKLY INDUCED (COMPARED TO OXIDATIVE PHOSPHORYLATION) FOR ROS AND ATP GENERATION IS NEEDED FOR IMMUNE ACTIVATION TO "DEFEND" AGAINST INVADING MICROORGANISMS. LIPOLYSIS/FATTY ACID OXIDATION, ESSENTIAL FOR CELLULAR PROTECTION/HIBERNATION AND CELL SURVIVAL IN ORDER TO "MEND," LEADS TO IMMUNE REPRESSION. ACUTE/CHRONIC INFLAMMATIONS ARE LINKED TO ALTERED GLYCOLYSIS AND FATTY ACID OXIDATION, AT LEAST IN PART, BY NAD+ DEPENDENT FUNCTION OF SIRTUINS. THERAPEUTICALLY TARGETING SIRTUINS MAY PROVIDE A NEW CLASS OF INFLAMMATION AND IMMUNE REGULATORS. THIS REVIEW DISCUSSES HOW SIRTUINS INTEGRATE METABOLISM, BIOENERGETICS, AND IMMUNITY DURING INFLAMMATION AND HOW SIRTUIN-DIRECTED TREATMENT IMPROVES OUTCOME IN CHRONIC INFLAMMATORY DISEASES AND IN THE EXTREME STRESS RESPONSE OF SEPSIS. 2016 6 4044 32 MACROPHAGES IN OXIDATIVE STRESS AND MODELS TO EVALUATE THE ANTIOXIDANT FUNCTION OF DIETARY NATURAL COMPOUNDS. ANTIOXIDANT TESTING OF NATURAL PRODUCTS HAS ATTRACTED INCREASING INTEREST IN RECENT YEARS, MAINLY DUE TO THE FACT THAT AN ANTIOXIDANT-RICH DIET MIGHT PROVIDE HEALTH BENEFITS. ACTIVATED MACROPHAGES ARE A MAJOR SOURCE OF REACTIVE OXYGEN SPECIES, REACTIVE NITROGEN SPECIES, AND PEROXYNITRITE GENERATED THROUGH THE SO-CALLED RESPIRATORY BURST. CONSTITUTIVELY RELEASED PROINFLAMMATORY CYTOKINE, ESPECIALLY TUMOR NECROSIS FACTOR-ALPHA, TRIGGERS NUCLEAR FACTOR-KAPPAB, AND ACTIVATOR PROTEIN-1 TRANSLOCATION LEADING TO THE OVER PRODUCTION OF REACTIVE OXYGEN SPECIES AND REACTIVE NITROGEN SPECIES IN MACROPHAGES. ACTIVATION OF TRANSCRIPTION FACTORS IN THE LONG-LIVED TISSUE-RESIDENT MACROPHAGES AND/OR MONOCYTE-DERIVED MACROPHAGES, TRIGGER EPIGENETIC MODIFICATIONS LEADING TO THE PATHOGENESIS OF CHRONIC DISEASES. NUTRACEUTICALS INCLUDING LIPID RAFT STRUCTURE DISRUPTION AGENT, CHOLESTEROL DEPLETION AGENT, FARNESYLTRANSFERASE INHIBITOR, NUCLEAR FACTOR-KAPPAB BLOCKER (ALPHA,BETA-UNSATURATED CARBONYL COMPOUNDS), GLUCOCORTICOID RECEPTOR AGONIST, AND PEROXISOME PROLIFERATOR-ACTIVATED RECEPTOR-GAMMA AGONIST HAVE LONG BEEN USED TO INACTIVE MACROPHAGE. THE INHIBITION EFFECTS ON THE FORMATION OF NITRIC OXIDE, SUPEROXIDE, AND NITRITE PEROXIDE MAY BE RESPONSIBLE FOR THE ANTI-INFLAMMATORY FUNCTIONALITIES. ACTIVATED MACROPHAGE MODELS COULD BE USED TO IDENTIFY THE ACTIVE COMPONENTS FOR FUNCTIONAL DIETS DEVELOPMENT THROUGH A MULTIPLE TARGETS STRATEGY. 2017 7 1066 37 CLINICAL USE OF AMINO ACIDS AS DIETARY SUPPLEMENT: PROS AND CONS. NITROGEN SUPPLY IS PIVOTAL FOR THE MAINTENANCE OF LIFE. AMINO ACIDS CAN BE UTILIZED TO SYNTHESIZE BOTH GLUCOSE AND LIPIDS. THE OPPOSITE, I.E., PRODUCTION OF AMINO ACIDS FROM EITHER ONE OF THEM, IS NOT POSSIBLE IN THE ABSENCE OF OTHER AMINO ACIDS AS DONORS OF NITROGEN. THE QUALITY OF AMINO ACID CONTENT IN PROTEIN HAS BEEN RE-EVALUATED RECENTLY, AND THE RELEVANCE OF ESSENTIAL AMINO ACIDS HAS BEEN REPEATEDLY UNDERLINED. ESSENTIAL AMINO ACID REQUIREMENTS IN DIFFERENT MAMMALS ARE NOT IDENTICAL, AND RATIOS AMONG THEM SHOULD BE TAKEN INTO ACCOUNT WHEN PROJECTING AN EFFICIENT FORMULATION. RECENT RESEARCH HAS DEMONSTRATED THAT GENES RESPOND TO DIFFERENT QUALITIES AND QUANTITIES OF NUTRITIONAL SUPPLY, AND INCREASED PROVISION OF ESSENTIAL AMINO ACIDS INCREASES LIFESPAN IN ANIMAL EXPERIMENTS THROUGH MITOCHONDRIOGENESIS AND MAINTENANCE OF ELEVATED RATES OF SYNTHESIS OF ANTI-OXIDANT MOLECULES. MOREOVER, GENETIC EXPRESSION OF KEY CONTROLLERS OF SYNTHESIS, LIKE MTOR, MAY BE PARTICULARLY IMPORTANT FOR UNDERSTANDING SKELETAL MUSCLE MAINTENANCE. LOSSES OF MUSCLE MASS AND IMPAIRED IMMUNE FUNCTION ARE RELATED TO REDUCED PROTEIN SUPPLY, AND THERE IS INCREASING EVIDENCE THAT REGULAR ESSENTIAL AMINO ACID INTAKE AS PART OF AN ORAL DIET IS EFFECTIVE IN REVERSING MUSCLE CATABOLISM, PROMOTING MUSCLE ANABOLISM, AND RESTORING IMMUNOLOGICAL FUNCTION. THEREFORE, THE USE OF AMINO ACIDS AS SUPPLEMENTS TO DIET WOULD BE EXPANDING IN THE NEAR FUTURE. IS THIS SAFE? FEW DATA ARE AVAILABLE ON AMINO ACID TOXICITY, AND ONLY ONE ESSENTIAL AMINO ACID MAY BE CONSIDERED TO HAVE CLINICALLY RELEVANT TOXICITY: METHIONINE, BECAUSE IT IS TRANSFORMED INTO A TOXIC INTERMEDIATE, HOMOCYSTEINE, WHEN CYSTEINE SYNTHESIS IS REQUIRED BY METABOLIC NEEDS. MATCHING OF STOICHIOMETRIC RATIOS BETWEEN METHIONINE AND CYSTEINE MAY SOLVE THE PROBLEM OF SUPPLYING SUFFICIENT AMOUNTS OF SULFUR TO THE BODY. ARGININE AND GLUTAMINE ARE TWO NON-ESSENTIAL AMINO ACIDS THAN CAN BECOME "CONDITIONALLY ESSENTIAL" BECAUSE OF ELEVATED NEEDS DURING PATHOLOGICAL CONDITIONS, AND METABOLISM MAY NOT BE ABLE TO MAINTAIN THEIR CONCENTRATIONS AT SUFFICIENT LEVELS TO MATCH METABOLIC REQUIREMENTS. CHRONIC EXOGENOUS ARGININE SUPPLEMENTATION HAS NOT PROVEN TO EXERT POSITIVE CLINICAL EFFECTS IN DIFFERENT TRIALS, AND SEQUENTIAL ARTICULATION OF THE KNOWLEDGE OF INTRODUCTION OF ARGININE-DRIVEN TRANSCRIPTIONAL, TRANSLATIONAL, AND EPIGENETIC ADAPTATIONS MAY GIVE US A KEY FOR INTERPRETING THOSE PUZZLING RESULTS. 2011 8 6166 38 THE GLUTATHIONE SYSTEM: A NEW DRUG TARGET IN NEUROIMMUNE DISORDERS. GLUTATHIONE (GSH) HAS A CRUCIAL ROLE IN CELLULAR SIGNALING AND ANTIOXIDANT DEFENSES EITHER BY REACTING DIRECTLY WITH REACTIVE OXYGEN OR NITROGEN SPECIES OR BY ACTING AS AN ESSENTIAL COFACTOR FOR GSH S-TRANSFERASES AND GLUTATHIONE PEROXIDASES. GSH ACTING IN CONCERT WITH ITS DEPENDENT ENZYMES, KNOWN AS THE GLUTATHIONE SYSTEM, IS RESPONSIBLE FOR THE DETOXIFICATION OF REACTIVE OXYGEN AND NITROGEN SPECIES (ROS/RNS) AND ELECTROPHILES PRODUCED BY XENOBIOTICS. ADEQUATE LEVELS OF GSH ARE ESSENTIAL FOR THE OPTIMAL FUNCTIONING OF THE IMMUNE SYSTEM IN GENERAL AND T CELL ACTIVATION AND DIFFERENTIATION IN PARTICULAR. GSH IS A UBIQUITOUS REGULATOR OF THE CELL CYCLE PER SE. GSH ALSO HAS CRUCIAL FUNCTIONS IN THE BRAIN AS AN ANTIOXIDANT, NEUROMODULATOR, NEUROTRANSMITTER, AND ENABLER OF NEURON SURVIVAL. DEPLETION OF GSH LEADS TO EXACERBATION OF DAMAGE BY OXIDATIVE AND NITROSATIVE STRESS; HYPERNITROSYLATION; INCREASED LEVELS OF PROINFLAMMATORY MEDIATORS AND INFLAMMATORY POTENTIAL; DYSFUNCTIONS OF INTRACELLULAR SIGNALING NETWORKS, E.G., P53, NUCLEAR FACTOR-KAPPAB, AND JANUS KINASES; DECREASED CELL PROLIFERATION AND DNA SYNTHESIS; INACTIVATION OF COMPLEX I OF THE ELECTRON TRANSPORT CHAIN; ACTIVATION OF CYTOCHROME C AND THE APOPTOTIC MACHINERY; BLOCKADE OF THE METHIONINE CYCLE; AND COMPROMISED EPIGENETIC REGULATION OF GENE EXPRESSION. AS SUCH, GSH DEPLETION HAS MARKED CONSEQUENCES FOR THE HOMEOSTATIC CONTROL OF THE IMMUNE SYSTEM, OXIDATIVE AND NITROSATIVE STRESS (O&NS) PATHWAYS, REGULATION OF ENERGY PRODUCTION, AND MITOCHONDRIAL SURVIVAL AS WELL. GSH DEPLETION AND CONCOMITANT INCREASE IN O&NS AND MITOCHONDRIAL DYSFUNCTIONS PLAY A ROLE IN THE PATHOPHYSIOLOGY OF DIVERSE NEUROIMMUNE DISORDERS, INCLUDING DEPRESSION, MYALGIC ENCEPHALOMYELITIS/CHRONIC FATIGUE SYNDROME AND PARKINSON'S DISEASE, SUGGESTING THAT DEPLETED GSH IS AN INTEGRAL PART OF THESE DISEASES. THERAPEUTICAL INTERVENTIONS THAT AIM TO INCREASE GSH CONCENTRATIONS IN VIVO INCLUDE N-ACETYL CYSTEINE; NRF-2 ACTIVATION VIA HYPERBARIC OXYGEN THERAPY; DIMETHYL FUMARATE; PHYTOCHEMICALS, INCLUDING CURCUMIN, RESVERATROL, AND CINNAMON; AND FOLATE SUPPLEMENTATION. 2014 9 3155 27 GLUTAMINE METABOLISM IN ADIPOCYTES: A BONA FIDE EPIGENETIC MODULATOR OF INFLAMMATION. A CHRONIC LOW-GRADE INFLAMMATION OF WHITE ADIPOSE TISSUE (WAT) IS ONE OF THE HALLMARKS OF OBESITY AND IS PROPOSED TO CONTRIBUTE TO INSULIN RESISTANCE AND TYPE 2 DIABETES. DESPITE THIS, THE CAUSAL MECHANISMS UNDERLYING WAT INFLAMMATION REMAIN UNCLEAR. BASED ON METABOLOMIC ANALYSES OF HUMAN WAT, PETRUS ET AL. SHOWED THAT THE AMINO ACID GLUTAMINE WAS THE MOST MARKEDLY REDUCED POLAR METABOLITE IN THE OBESE STATE. REDUCED GLUTAMINE LEVELS IN ADIPOCYTES INDUCE AN INCREASE OF URIDINE DIPHOSPHATE N-ACETYLGLUCOSAMINE (UDP-GLCNAC) LEVELS VIA INDUCTION OF GLYCOLYSIS AND THE HEXOSAMINE BIOSYNTHETIC PATHWAYS. THIS PROMOTES NUCLEAR O-GLCNACYLATION, A POSTTRANSLATIONAL MODIFICATION THAT ACTIVATES THE TRANSCRIPTION OF PRO-INFLAMMATORY GENES. CONVERSELY, GLUTAMINE SUPPLEMENTATION IN VITRO AND IN VIVO, REVERSED THESE EFFECTS. ALTOGETHER, DYSREGULATION OF INTRACELLULAR GLUTAMINE METABOLISM IN WAT ESTABLISHES AN EPIGENETIC LINK BETWEEN ADIPOCYTES AND INFLAMMATION. THIS COMMENTARY DISCUSSES THESE FINDINGS AND THEIR POSSIBLY THERAPEUTIC RELEVANCE IN RELATION TO INSULIN RESISTANCE AND TYPE 2 DIABETES. 2020 10 3734 40 INNATE IMMUNE MEMORY IN MONOCYTES AND MACROPHAGES: THE POTENTIAL THERAPEUTIC STRATEGIES FOR ATHEROSCLEROSIS. ATHEROSCLEROSIS IS A COMPLEX METABOLIC DISEASE CHARACTERIZED BY THE DYSFUNCTION OF LIPID METABOLISM AND CHRONIC INFLAMMATION IN THE INTIMAL SPACE OF THE VESSEL. AS THE MOST ABUNDANT INNATE IMMUNE CELLS, MONOCYTE-DERIVED MACROPHAGES PLAY A PIVOTAL ROLE IN THE INFLAMMATORY RESPONSE, CHOLESTEROL METABOLISM, AND FOAM CELL FORMATION. IN RECENT DECADES, IT HAS BEEN DEMONSTRATED THAT MONOCYTES AND MACROPHAGES CAN ESTABLISH INNATE IMMUNE MEMORY (ALSO TERMED TRAINED IMMUNITY) VIA ENDOGENOUS AND EXOGENOUS ATHEROGENIC STIMULI AND EXHIBIT A LONG-LASTING PROINFLAMMATORY PHENOTYPE. THE IMPORTANT CELLULAR METABOLISM PROCESSES, INCLUDING GLYCOLYSIS, OXIDATIVE PHOSPHORYLATION (OXPHOS), THE TRICARBOXYLIC ACID (TCA) CYCLE, FATTY ACID SYNTHESIS, AND CHOLESTEROL SYNTHESIS, ARE REPROGRAMMED. TRAINED MONOCYTES/MACROPHAGES WITH INNATE IMMUNE MEMORY CAN BE PERSISTENTLY HYPERACTIVATED AND CAN UNDERGO EXTENSIVE EPIGENETIC REWIRING, WHICH CONTRIBUTES TO THE PATHOPHYSIOLOGICAL DEVELOPMENT OF ATHEROSCLEROSIS VIA INCREASED PROINFLAMMATORY CYTOKINE PRODUCTION AND LIPID ACCUMULATION. HERE, WE PROVIDE AN OVERVIEW OF THE REGULATION OF CELLULAR METABOLIC PROCESSES AND EPIGENETIC MODIFICATIONS OF INNATE IMMUNE MEMORY IN MONOCYTES/MACROPHAGES AS WELL AS THE POTENTIAL ENDOGENOUS AND EXOGENOUS STIMULATIONS INVOLVED IN THE PROGRESSION OF ATHEROSCLEROSIS THAT HAVE BEEN REPORTED RECENTLY. THESE ELUCIDATIONS MIGHT BE BENEFICIAL FOR FURTHER UNDERSTANDING INNATE IMMUNE MEMORY AND THE DEVELOPMENT OF THERAPEUTIC STRATEGIES FOR INFLAMMATORY DISEASES AND ATHEROSCLEROSIS. 2022 11 4380 41 MITOCHONDRIAL DYSFUNCTION AND OXIDATIVE STRESS IN RHEUMATOID ARTHRITIS. CONTROL OF EXCESSIVE MITOCHONDRIAL OXIDATIVE STRESS COULD PROVIDE NEW TARGETS FOR BOTH PREVENTIVE AND THERAPEUTIC INTERVENTIONS IN THE TREATMENT OF CHRONIC INFLAMMATION OR ANY PATHOLOGY THAT DEVELOPS UNDER AN INFLAMMATORY SCENARIO, SUCH AS RHEUMATOID ARTHRITIS (RA). INCREASING EVIDENCE HAS DEMONSTRATED THE ROLE OF MITOCHONDRIAL ALTERATIONS IN AUTOIMMUNE DISEASES MAINLY DUE TO THE INTERPLAY BETWEEN METABOLISM AND INNATE IMMUNITY, BUT ALSO IN THE MODULATION OF INFLAMMATORY RESPONSE OF RESIDENT CELLS, SUCH AS SYNOVIOCYTES. THUS, MITOCHONDRIAL DYSFUNCTION DERIVED FROM SEVERAL DANGER SIGNALS COULD ACTIVATE TRICARBOXYLIC ACID (TCA) DISRUPTION, THEREBY FAVORING A VICIOUS CYCLE OF OXIDATIVE/MITOCHONDRIAL STRESS. MITOCHONDRIAL DYSFUNCTION CAN ACT THROUGH MODULATING INNATE IMMUNITY VIA REDOX-SENSITIVE INFLAMMATORY PATHWAYS OR DIRECT ACTIVATION OF THE INFLAMMASOME. BESIDES, MITOCHONDRIA ALSO HAVE A CENTRAL ROLE IN REGULATING CELL DEATH, WHICH IS DEEPLY ALTERED IN RA. ADDITIONALLY, MULTIPLE EVIDENCE SUGGESTS THAT PATHOLOGICAL PROCESSES IN RA CAN BE SHAPED BY EPIGENETIC MECHANISMS AND THAT IN TURN, MITOCHONDRIA ARE INVOLVED IN EPIGENETIC REGULATION. FINALLY, WE WILL DISCUSS ABOUT THE INVOLVEMENT OF SOME DIETARY COMPONENTS IN THE ONSET AND PROGRESSION OF RA. 2022 12 3544 32 IMMUNOMETABOLIC CONTROL OF TRAINED IMMUNITY. INNATE IMMUNE CELLS CAN ADOPT LONG-TERM INFLAMMATORY PHENOTYPES FOLLOWING BRIEF ENCOUNTERS WITH EXOGENOUS (MICROBIAL) OR ENDOGENOUS STIMULI. THIS PHENOMENON IS NAMED TRAINED IMMUNITY AND CAN IMPROVE HOST DEFENSE AGAINST (RECURRENT) INFECTIONS. IN CONTRAST, TRAINED IMMUNITY CAN ALSO BE MALADAPTIVE IN THE CONTEXT OF CHRONIC INFLAMMATORY DISORDERS, SUCH AS ATHEROSCLEROSIS. KEY TO FUTURE THERAPEUTIC EXPLOITATION OF THIS MECHANISM IS THOROUGH KNOWLEDGE OF THE MECHANISMS DRIVING TRAINED IMMUNITY, WHICH CAN BE USED AS PHARMACOLOGICAL TARGETS. THESE MECHANISMS INCLUDE PROFOUND CHANGES IN INTRACELLULAR METABOLISM, WHICH ARE CLOSELY INTERTWINED WITH EPIGENETIC REPROGRAMMING AT THE LEVEL OF HISTONE MODIFICATIONS. GLYCOLYSIS, GLUTAMINE REPLENISHMENT OF THE TRICARBOXYLIC ACID CYCLE WITH ACCUMULATION OF FUMARATE, AND THE MEVALONATE PATHWAY HAVE ALL BEEN IDENTIFIED AS CRITICAL PATHWAYS FOR TRAINED IMMUNITY IN MONOCYTES AND MACROPHAGES. IN THIS REVIEW, WE PROVIDE A STATE-OF-THE-ART OVERVIEW OF HOW THESE METABOLIC PATHWAYS INTERACT WITH EPIGENETIC PROGRAMS TO DEVELOP TRAINED IMMUNITY. 2021 13 329 30 ALPHA-OXOGLUTARATE INHIBITS THE PROLIFERATION OF IMMORTALIZED NORMAL BLADDER EPITHELIAL CELLS VIA AN EPIGENETIC SWITCH INVOLVING ARID1A. INTERSTITIAL CYSTITIS (IC) IS A CHRONIC URINARY TRACT DISEASE THAT IS CHARACTERIZED BY UNPLEASANT SENSATIONS, SUCH AS PERSISTENT PELVIC PAIN, IN THE ABSENCE OF INFECTION OR OTHER IDENTIFIABLE CAUSES. WE PREVIOUSLY PERFORMED COMPREHENSIVE METABOLOMICS PROFILING OF URINE SAMPLES FROM IC PATIENTS USING NUCLEAR MAGNETIC RESONANCE AND GAS-CHROMATOGRAPHY/MASS SPECTROMETRY AND FOUND THAT URINARY ALPHA-OXOGLUTARATE (ALPHA-OG), WAS SIGNIFICANTLY ELEVATED. ALPHA-OG, A TRICARBOXYLIC ACID (TCA) CYCLE INTERMEDIATE, REPORTEDLY FUNCTIONS TO SUPPRESS THE PROLIFERATION OF IMMORTALIZED NORMAL HUMAN BLADDER EPITHELIAL CELLS. HERE, WE IDENTIFIED AT-RICH INTERACTIVE DOMAIN 1 A (ARID1A), A KEY CHROMATIN REMODELER, AS BEING HYPOMETHYLATED AND UPREGULATED BY ALPHA-OG TREATMENT. THIS WAS DONE THROUGH EPIC DNA METHYLATION PROFILING AND SUBSEQUENT BIOCHEMICAL APPROACHES, INCLUDING QUANTITATIVE RT-PCR AND WESTERN BLOT ANALYSES. FURTHERMORE, WE FOUND THAT ALPHA-OG ALMOST COMPLETELY SUPPRESSES TEN-ELEVEN TRANSLOCATION (TET) ACTIVITY, BUT DOES NOT AFFECT DNA METHYLTRANSFERASE (DNMT) ACTIVITY. ALTOGETHER, OUR STUDIES REVEAL THE POTENTIAL ROLE OF ALPHA-OG IN EPIGENETIC REMODELING THROUGH ITS EFFECTS ON ARID1A AND TET EXPRESSION IN THE BLADDER. THIS MAY PROVIDE A NEW POSSIBLE THERAPEUTIC STRATEGY IN TREATING IC. 2018 14 375 22 AN ENERGETIC VIEW OF STRESS: FOCUS ON MITOCHONDRIA. ENERGY IS REQUIRED TO SUSTAIN LIFE AND ENABLE STRESS ADAPTATION. AT THE CELLULAR LEVEL, ENERGY IS LARGELY DERIVED FROM MITOCHONDRIA - UNIQUE MULTIFUNCTIONAL ORGANELLES WITH THEIR OWN GENOME. FOUR MAIN ELEMENTS CONNECT MITOCHONDRIA TO STRESS: (1) ENERGY IS REQUIRED AT THE MOLECULAR, (EPI)GENETIC, CELLULAR, ORGANELLAR, AND SYSTEMIC LEVELS TO SUSTAIN COMPONENTS OF STRESS RESPONSES; (2) GLUCOCORTICOIDS AND OTHER STEROID HORMONES ARE PRODUCED AND METABOLIZED BY MITOCHONDRIA; (3) RECIPROCALLY, MITOCHONDRIA RESPOND TO NEUROENDOCRINE AND METABOLIC STRESS MEDIATORS; AND (4) EXPERIMENTALLY MANIPULATING MITOCHONDRIAL FUNCTIONS ALTERS PHYSIOLOGICAL AND BEHAVIORAL RESPONSES TO PSYCHOLOGICAL STRESS. THUS, MITOCHONDRIA ARE ENDOCRINE ORGANELLES THAT PROVIDE BOTH THE ENERGY AND SIGNALS THAT ENABLE AND DIRECT STRESS ADAPTATION. NEURAL CIRCUITS REGULATING SOCIAL BEHAVIOR - AS WELL AS PSYCHOPATHOLOGICAL PROCESSES - ARE ALSO INFLUENCED BY MITOCHONDRIAL ENERGETICS. AN INTEGRATIVE VIEW OF STRESS AS AN ENERGY-DRIVEN PROCESS OPENS NEW OPPORTUNITIES TO STUDY MECHANISMS OF ADAPTATION AND REGULATION ACROSS THE LIFESPAN. 2018 15 788 31 CELLULAR ALLOSTATIC LOAD IS LINKED TO INCREASED ENERGY EXPENDITURE AND ACCELERATED BIOLOGICAL AGING. STRESS TRIGGERS ANTICIPATORY PHYSIOLOGICAL RESPONSES THAT PROMOTE SURVIVAL, A PHENOMENON TERMED ALLOSTASIS. HOWEVER, THE CHRONIC ACTIVATION OF ENERGY-DEPENDENT ALLOSTATIC RESPONSES RESULTS IN ALLOSTATIC LOAD, A DYSREGULATED STATE THAT PREDICTS FUNCTIONAL DECLINE, ACCELERATES AGING, AND INCREASES MORTALITY IN HUMANS. THE ENERGETIC COST AND CELLULAR BASIS FOR THE DAMAGING EFFECTS OF ALLOSTATIC LOAD HAVE NOT BEEN DEFINED. HERE, BY LONGITUDINALLY PROFILING THREE UNRELATED PRIMARY HUMAN FIBROBLAST LINES ACROSS THEIR LIFESPAN, WE FIND THAT CHRONIC GLUCOCORTICOID EXPOSURE INCREASES CELLULAR ENERGY EXPENDITURE BY APPROXIMATELY 60%, ALONG WITH A METABOLIC SHIFT FROM GLYCOLYSIS TO MITOCHONDRIAL OXIDATIVE PHOSPHORYLATION (OXPHOS). THIS STATE OF STRESS-INDUCED HYPERMETABOLISM IS LINKED TO MTDNA INSTABILITY, NON-LINEARLY AFFECTS AGE-RELATED CYTOKINES SECRETION, AND ACCELERATES CELLULAR AGING BASED ON DNA METHYLATION CLOCKS, TELOMERE SHORTENING RATE, AND REDUCED LIFESPAN. PHARMACOLOGICALLY NORMALIZING OXPHOS ACTIVITY WHILE FURTHER INCREASING ENERGY EXPENDITURE EXACERBATES THE ACCELERATED AGING PHENOTYPE, POINTING TO TOTAL ENERGY EXPENDITURE AS A POTENTIAL DRIVER OF AGING DYNAMICS. TOGETHER, OUR FINDINGS DEFINE BIOENERGETIC AND MULTI-OMIC RECALIBRATIONS OF STRESS ADAPTATION, UNDERSCORING INCREASED ENERGY EXPENDITURE AND ACCELERATED CELLULAR AGING AS INTERRELATED FEATURES OF CELLULAR ALLOSTATIC LOAD. 2023 16 870 37 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 17 3701 28 INFLAMMATORY RESPONSE TO REGULATED CELL DEATH IN GOUT AND ITS FUNCTIONAL IMPLICATIONS. GOUT, A CHRONIC INFLAMMATORY ARTHRITIS DISEASE, IS CHARACTERIZED BY HYPERURICEMIA AND CAUSED BY INTERACTIONS BETWEEN GENETIC, EPIGENETIC, AND METABOLIC FACTORS. ACUTE GOUT SYMPTOMS ARE TRIGGERED BY THE INFLAMMATORY RESPONSE TO MONOSODIUM URATE CRYSTALS, WHICH IS MEDIATED BY THE INNATE IMMUNE SYSTEM AND IMMUNE CELLS (E.G., MACROPHAGES AND NEUTROPHILS), THE NACHT, LRR, AND PYD DOMAINS-CONTAINING PROTEIN 3 (NLRP3) INFLAMMASOME ACTIVATION, AND PRO-INFLAMMATORY CYTOKINE (E.G., IL-1BETA) RELEASE. RECENT STUDIES HAVE INDICATED THAT THE MULTIPLE PROGRAMMED CELL DEATH PATHWAYS INVOLVED IN THE INFLAMMATORY RESPONSE INCLUDE PYROPTOSIS, NETOSIS, NECROPTOSIS, AND APOPTOSIS, WHICH INITIATE INFLAMMATORY REACTIONS. IN THIS REVIEW, WE EXPLORE THE CORRELATION AND INTERACTIONS AMONG THESE FACTORS AND THEIR ROLES IN THE PATHOGENESIS OF GOUT TO PROVIDE FUTURE RESEARCH DIRECTIONS AND POSSIBILITIES FOR IDENTIFYING POTENTIAL NOVEL THERAPEUTIC TARGETS AND ENHANCING OUR UNDERSTANDING OF GOUT PATHOGENESIS. 2022 18 128 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 19 4185 42 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 20 351 37 ALTERED ENDOTHELIAL DYSFUNCTION-RELATED MIRS IN PLASMA FROM ME/CFS PATIENTS. MYALGIC ENCEPHALOMYELITIS/CHRONIC FATIGUE SYNDROME (ME/CFS) IS A COMPLEX DISEASE CHARACTERIZED BY UNEXPLAINED DEBILITATING FATIGUE. ALTHOUGH THE ETIOLOGY IS UNKNOWN, EVIDENCE SUPPORTS IMMUNOLOGICAL ABNORMALITIES, SUCH AS PERSISTENT INFLAMMATION AND IMMUNE-CELL ACTIVATION, IN A SUBSET OF PATIENTS. SINCE THE INTERPLAY BETWEEN INFLAMMATION AND VASCULAR ALTERATIONS IS WELL-ESTABLISHED IN OTHER DISEASES, ENDOTHELIAL DYSFUNCTION HAS EMERGED AS ANOTHER PLAYER IN ME/CFS PATHOGENESIS. ENDOTHELIAL NITRIC OXIDE SYNTHASE (ENOS) GENERATES NITRIC OXIDE (NO) THAT MAINTAINS ENDOTHELIAL HOMEOSTASIS. ENOS IS ACTIVATED BY SILENT INFORMATION REGULATOR 1 (SIRT1), AN ANTI-INFLAMMATORY PROTEIN. DESPITE ITS RELEVANCE, NO STUDY HAS ADDRESSED THE SIRT1/ENOS AXIS IN ME/CFS. THE INTEREST IN CIRCULATING MICRORNAS (MIRS) AS POTENTIAL BIOMARKERS IN ME/CFS HAS INCREASED IN RECENT YEARS. ACCORDINGLY, WE ANALYZE A SET OF MIRS REPORTED TO MODULATE THE SIRT1/ENOS AXIS USING PLASMA FROM ME/CFS PATIENTS. OUR RESULTS SHOW THAT MIR-21, MIR-34A, MIR-92A, MIR-126, AND MIR-200C ARE JOINTLY INCREASED IN ME/CFS PATIENTS COMPARED TO HEALTHY CONTROLS. A SIMILAR FINDING WAS OBTAINED WHEN ANALYZING PUBLIC MIR DATA ON PERIPHERAL BLOOD MONONUCLEAR CELLS. BIOINFORMATICS ANALYSIS SHOWS THAT ENDOTHELIAL FUNCTION-RELATED SIGNALING PATHWAYS ARE ASSOCIATED WITH THESE MIRS, INCLUDING OXIDATIVE STRESS AND OXYGEN REGULATION. INTERESTINGLY, HISTONE DEACETYLASE 1, A PROTEIN RESPONSIBLE FOR EPIGENETIC REGULATIONS, REPRESENTED THE MOST RELEVANT NODE WITHIN THE NETWORK. IN CONCLUSION, OUR STUDY PROVIDES A BASIS TO FIND ENDOTHELIAL DYSFUNCTION-RELATED BIOMARKERS AND EXPLORE NOVEL TARGETS IN ME/CFS. 2021