1 4585 117 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 2 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 3 5719 32 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 4 870 25 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 3115 40 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 6 313 32 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 7 5720 28 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 8 5781 30 SPINAL SIRT1 ACTIVATION ATTENUATES NEUROPATHIC PAIN IN MICE. ABNORMAL HISTONE ACETYLATION OCCURS DURING NEUROPATHIC PAIN THROUGH AN EPIGENETIC MECHANISM. SILENT INFORMATION REGULATOR 1 (SIR2 OR SIRT1), A NAD-DEPENDENT DEACETYLASE, PLAYS COMPLEX SYSTEMIC ROLES IN A VARIETY OF PROCESSES THROUGH DEACETYLATING ACETYLATED HISTONE AND OTHER SPECIFIC SUBSTRATES. BUT THE ROLE OF SIRT1 IN NEUROPATHIC PAIN IS NOT WELL ESTABLISHED YET. THE PRESENT STUDY WAS INTENDED TO DETECT SIRT1 CONTENT AND ACTIVITY, NICOTINAMIDE (NAM) AND NICOTINAMIDE ADENINE DINUCLEOTIDE (NAD) IN THE SPINAL CORD USING IMMUNOBLOTTING OR MASS SPECTROSCOPY OVER TIME IN MICE FOLLOWING CHRONIC CONSTRICTION INJURY (CCI) OR SHAM SURGERY. IN ADDITION, THE EFFECT OF INTRATHECAL INJECTION OF NAD OR RESVERATROL ON THERMAL HYPERALGESIA AND MECHANICAL ALLODYNIA WAS EVALUATED IN CCI MICE. FINALLY, WE INVESTIGATED WHETHER SIRT1 INHIBITOR EX-527 COULD REVERSE THE ANTI-NOCICEPTIVE EFFECT OF NAD OR RESVERATROL. IT WAS FOUND THAT SPINAL SIRT1 EXPRESSION, DEACETYLASE ACTIVITY AND NAD/NAM DECREASED SIGNIFICANTLY 1, 3, 7, 14 AND 21 DAYS AFTER CCI SURGERY AS COMPARED WITH SHAM GROUP. IN ADDITION, DAILY INTRATHECAL INJECTION OF 5 MICROL 800 MM NAD 1 H BEFORE AND 1 DAY AFTER CCI SURGERY OR SINGLE INTRATHECAL INJECTION OF 5 MICROL 90 MM RESVERATROL 1 H BEFORE CCI SURGERY PRODUCED A TRANSIENT INHIBITORY EFFECT ON THERMAL HYPERALGESIA AND MECHANICAL ALLODYNIA IN CCI MICE. FINALLY, AN INTRATHECAL INJECTION OF 5 MICROL 1.2 MM EX-527 1 H BEFORE NAD OR RESVERATROL ADMINISTRATION REVERSED THE ANTI-NOCICEPTIVE EFFECT OF NAD OR RESVERATROL. THESE DATA INDICATE THAT THE REDUCTION IN SIRT1 DEACETYLASE ACTIVITY MAY BE A FACTOR CONTRIBUTING TO THE DEVELOPMENT OF NEUROPATHIC PAIN IN CCI MICE. OUR FINDINGS SUGGEST THAT THE ENHANCEMENT OF SPINAL NAD/NAM AND/OR SIRT1 ACTIVITY MAY BE A POTENTIALLY PROMISING STRATEGY FOR THE PREVENTION OR TREATMENT OF NEUROPATHIC PAIN. 2014 9 6103 42 THE EMERGING ROLE OF HDACS: PATHOLOGY AND THERAPEUTIC TARGETS IN DIABETES MELLITUS. DIABETES MELLITUS (DM) IS ONE OF THE PRINCIPAL MANIFESTATIONS OF METABOLIC SYNDROME AND ITS PREVALENCE WITH MODERN LIFESTYLE IS INCREASING INCESSANTLY. CHRONIC HYPERGLYCEMIA CAN INDUCE SEVERAL VASCULAR COMPLICATIONS THAT WERE REFERRED TO BE THE MAJOR CAUSE OF MORBIDITY AND MORTALITY IN DM. ALTHOUGH SEVERAL THERAPEUTIC TARGETS HAVE BEEN IDENTIFIED AND ACCESSED CLINICALLY, THE IMMINENT RISK OF DM AND ITS PREVALENCE ARE STILL ASCENDING. SUBSTANTIAL PIECES OF EVIDENCE REVEALED THAT HISTONE DEACETYLASE (HDAC) ISOFORMS CAN REGULATE VARIOUS MOLECULAR ACTIVITIES IN DM VIA EPIGENETIC AND POST-TRANSLATIONAL REGULATION OF SEVERAL TRANSCRIPTION FACTORS. TO DATE, 18 HDAC ISOFORMS HAVE BEEN IDENTIFIED IN MAMMALS THAT WERE CATEGORIZED INTO FOUR DIFFERENT CLASSES. CLASSES I, II, AND IV ARE REGARDED AS CLASSICAL HDACS, WHICH OPERATE THROUGH A ZN-BASED MECHANISM. IN CONTRAST, CLASS III HDACS OR SIRTUINS DEPEND ON NICOTINAMIDE ADENINE DINUCLEOTIDE (NAD(+)) FOR THEIR MOLECULAR ACTIVITY. FUNCTIONALLY, MOST OF THE HDAC ISOFORMS CAN REGULATE BETA CELL FATE, INSULIN RELEASE, INSULIN EXPRESSION AND SIGNALING, AND GLUCOSE METABOLISM. MOREOVER, THE ROLES OF HDAC MEMBERS HAVE BEEN IMPLICATED IN THE REGULATION OF OXIDATIVE STRESS, INFLAMMATION, APOPTOSIS, FIBROSIS, AND OTHER PATHOLOGICAL EVENTS, WHICH SUBSTANTIALLY CONTRIBUTE TO DIABETES-RELATED VASCULAR DYSFUNCTIONS. THEREFORE, HDACS COULD SERVE AS THE POTENTIAL THERAPEUTIC TARGET IN DM TOWARDS DEVELOPING NOVEL INTERVENTION STRATEGIES. THIS REVIEW SHEDS LIGHT ON THE EMERGING ROLE OF HDACS/ISOFORMS IN DIABETIC PATHOPHYSIOLOGY AND EMPHASIZED THE SCOPE OF THEIR TARGETING IN DM FOR CONSTITUTING NOVEL INTERVENTIONAL STRATEGIES FOR METABOLIC DISORDERS/COMPLICATIONS. 2021 10 128 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 11 6318 36 THE RENIN-ANGIOTENSIN SYSTEM AND REACTIVE OXYGEN SPECIES: IMPLICATIONS IN PANCREATITIS. SIGNIFICANCE: THE RENIN-ANGIOTENSIN SYSTEM (RAS) IS A CIRCULATING HORMONAL SYSTEM INVOLVED IN THE REGULATION OF BLOOD PRESSURE AND CIRCULATING FLUID ELECTROLYTES. RECENT FINDINGS HAVE REVEALED THAT LOCALLY GENERATED ANGIOTENSIN (ANG) II PLAYS A PIVOTAL ROLE IN NORMAL PHYSIOLOGY AS WELL AS PATHOPHYSIOLOGY IN VARIOUS TISSUES AND ORGANS, INCLUDING THE PANCREAS. THIS REVIEW ARTICLE SUMMARIZES CURRENT PROGRESS THAT HAS BEEN MADE IN ELUCIDATING THE PUTATIVE ROLES OF ANG II IN BOTH ACUTE AND CHRONIC PANCREATITIS. RECENT ADVANCES: A CONVERGENCE OF EVIDENCE SUGGESTS THAT THE UNDERLYING MECHANISM MAY INVOLVE REACTIVE OXYGEN SPECIES (ROS)-GENERATING SYSTEMS, SUCH AS NICOTINAMIDE ADENINE DINUCLEOTIDE PHOSPHATE OXIDASE, AND SUBSEQUENT ELEVATION OF PROINFLAMMATORY AND PROFIBROGENIC GENE EXPRESSION AS WELL AS PROTEIN ACTIVITY. MORE IMPORTANTLY, ANG II-INDUCED ROS INTERACTS WITH OTHER ROS-GENERATING SYSTEMS TO POSITIVELY FEED-FORWARD THE ROS-INDUCED SIGNALING. CRITICAL ISSUES AND FUTURE DIRECTIONS: ADVANCES IN BASIC RESEARCH INDICATE THAT RAS BLOCKERS MAY PROVIDE POTENTIAL THERAPEUTIC ROLE FOR THE MANAGEMENT OF PANCREATIC INFLAMMATION AND, MORE IMPORTANTLY, PANCREATITIS-ASSOCIATED COMPLICATIONS. GENETIC ALTERATIONS RESULTING FROM A MALFUNCTION IN THE EPIGENETIC CONTROL OF PANCREATIC RAS COULD BE A CAUSATIVE FACTOR IN THE DEVELOPMENT OF PANCREATITIS. 2011 12 6041 29 THE CLASS III HISTONE DEACETYLASE SIRTUIN 1 IN IMMUNE SUPPRESSION AND ITS THERAPEUTIC POTENTIAL IN RHEUMATOID ARTHRITIS. RHEUMATOID ARTHRITIS (RA) IS A CHRONIC DEBILITATING DISEASE OF THE JOINTS. BOTH THE INNATE AND ADAPTIVE IMMUNE RESPONSES PARTICIPATE IN THE DEVELOPMENT AND PROGRESSION OF RA. WHILE SEVERAL THERAPEUTIC REAGENTS, SUCH AS TNF-ALPHA AGONISTS, HAVE BEEN SUCCESSFULLY DEVELOPED FOR THE CLINICAL USE IN THE TREATMENT OF RA, MORE THAN HALF OF THE PATIENTS DO NOT RESPOND TO ANTI-TNF THERAPY. THEREFORE, NEW THERAPEUTIC REAGENTS ARE NEEDED. RECENT STUDIES HAVE SHOWN THAT SIRTUIN 1 (SIRT1), A NICOTINAMIDE ADENINE DINUCLEOTIDE (NAD)-DEPENDENT HISTONE DEACETYLASE, IS A CRITICAL NEGATIVE REGULATOR OF BOTH THE INNATE AND ADAPTIVE IMMUNE RESPONSE IN MICE, AND ITS ALTERED FUNCTIONS ARE LIKELY TO BE INVOLVED IN AUTOIMMUNE DISEASES. SMALL MOLECULES THAT MODULATE SIRT1 FUNCTIONS ARE POTENTIAL THERAPEUTIC REAGENTS FOR AUTOIMMUNE INFLAMMATORY DISEASES. THIS REVIEW HIGHLIGHTS THE ROLE OF SIRT1 IN IMMUNE REGULATION AND RA. 2013 13 5117 40 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 14 6658 28 UPREGULATED LNCRNA H19 SPONGES MIR-106A-5P AND CONTRIBUTES TO ALDOSTERONE-INDUCED VASCULAR CALCIFICATION VIA ACTIVATING THE RUNX2-DEPENDENT PATHWAY. BACKGROUND: EXCESS ALDOSTERONE IS IMPLICATED IN VASCULAR CALCIFICATION (VC), BUT THE MECHANISM BY WHICH ALDOSTERONE-MR (MINERALOCORTICOID RECEPTOR) COMPLEX PROMOTES VC IS UNCLEAR. EMERGING EVIDENCE INDICATES THAT LONG-NONCODING RNA H19 (H19) PLAYS A CRITICAL ROLE IN VC. WE EXAMINED WHETHER ALDOSTERONE-INDUCED OSTEOGENIC DIFFERENTIATION OF VASCULAR SMOOTH MUSCLE CELLS (VSMCS) THROUGH H19 EPIGENETIC MODIFICATION OF RUNX2 (RUNT-RELATED TRANSCRIPTION FACTOR-2) IN A MR-DEPENDENT MANNER. METHODS: WE INDUCED IN VIVO RAT MODEL OF CHRONIC KIDNEY DISEASE USING A HIGH ADENINE AND PHOSPHATE DIET TO EXPLORE THE RELATIONSHIP AMONG ALDOSTERONE, MR, H19, AND VC. WE ALSO CULTURED HUMAN AORTIC VSMCS TO EXPLORE THE ROLES OF H19 IN ALDOSTERONE-MR COMPLEX-INDUCED OSTEOGENIC DIFFERENTIATION AND CALCIFICATION OF VSMCS. RESULTS: H19 AND RUNX2 WERE SIGNIFICANTLY INCREASED IN ALDOSTERONE-INDUCED VSMC OSTEOGENIC DIFFERENTIATION AND VC, BOTH IN VITRO AND IN VIVO, WHICH WERE SIGNIFICANTLY BLOCKED BY THE MR ANTAGONIST SPIRONOLACTONE. MECHANISTICALLY, OUR FINDINGS REVEAL THAT THE ALDOSTERONE-ACTIVATED MR BOUND TO H19 PROMOTER AND INCREASED ITS TRANSCRIPTIONAL ACTIVITY, AS DETERMINED BY CHROMATIN IMMUNOPRECIPITATION, ELECTROPHORETIC MOBILITY SHIFT ASSAY, AND LUCIFERASE REPORTER ASSAY. SILENCING H19 INCREASED MICRORNA-106A-5P (MIR-106A-5P) EXPRESSION, WHICH SUBSEQUENTLY INHIBITED ALDOSTERONE-INDUCED RUNX2 EXPRESSION AT THE POSTTRANSCRIPTIONAL LEVEL. IMPORTANTLY, WE OBSERVED A DIRECT INTERACTION BETWEEN H19 AND MIR-106A-5P, AND DOWNREGULATION OF MIR-106A-5P EFFICIENTLY REVERSED THE SUPPRESSION OF RUNX2 INDUCED BY H19 SILENCING. CONCLUSIONS: OUR STUDY CLARIFIES A NOVEL MECHANISM BY WHICH UPREGULATION OF H19 CONTRIBUTES TO ALDOSTERONE-MR COMPLEX-PROMOTED RUNX2-DEPENDENT VSMC OSTEOGENIC DIFFERENTIATION AND VC THROUGH SPONGING MIR-106A-5P. THESE FINDINGS HIGHLIGHT A POTENTIAL THERAPEUTIC TARGET FOR ALDOSTERONE-INDUCED VC. 2023 15 5409 34 REGULATION OF ACETYLATION STATES BY NUTRIENTS IN THE INHIBITION OF VASCULAR INFLAMMATION AND ATHEROSCLEROSIS. ATHEROSCLEROSIS (AS) IS A CHRONIC METABOLIC DISORDER AND PRIMARY CAUSE OF CARDIOVASCULAR DISEASES, RESULTING IN SUBSTANTIAL MORBIDITY AND MORTALITY WORLDWIDE. INITIATED BY ENDOTHELIAL CELL STIMULATION, AS IS CHARACTERIZED BY ARTERIAL INFLAMMATION, LIPID DEPOSITION, FOAM CELL FORMATION, AND PLAQUE DEVELOPMENT. NUTRIENTS SUCH AS CAROTENOIDS, POLYPHENOLS, AND VITAMINS CAN PREVENT THE ATHEROSCLEROTIC PROCESS BY MODULATING INFLAMMATION AND METABOLIC DISORDERS THROUGH THE REGULATION OF GENE ACETYLATION STATES MEDIATED WITH HISTONE DEACETYLASES (HDACS). NUTRIENTS CAN REGULATE AS-RELATED EPIGENETIC STATES VIA SIRTUINS (SIRTS) ACTIVATION, SPECIFICALLY SIRT1 AND SIRT3. NUTRIENT-DRIVEN ALTERATIONS IN THE REDOX STATE AND GENE MODULATION IN AS PROGRESSION ARE LINKED TO THEIR PROTEIN DEACETYLATING, ANTI-INFLAMMATORY, AND ANTIOXIDANT PROPERTIES. NUTRIENTS CAN ALSO INHIBIT ADVANCED OXIDATION PROTEIN PRODUCT FORMATION, REDUCING ARTERIAL INTIMA-MEDIA THICKNESS EPIGENETICALLY. NONETHELESS, KNOWLEDGE GAPS REMAIN WHEN IT COMES TO UNDERSTANDING EFFECTIVE AS PREVENTION THROUGH EPIGENETIC REGULATION BY NUTRIENTS. THIS WORK REVIEWS AND CONFIRMS THE UNDERLYING MECHANISMS BY WHICH NUTRIENTS PREVENT ARTERIAL INFLAMMATION AND AS, FOCUSING ON THE EPIGENETIC PATHWAYS THAT MODIFY HISTONES AND NON-HISTONE PROTEINS BY REGULATING REDOX AND ACETYLATION STATES THROUGH HDACS SUCH AS SIRTS. THESE FINDINGS MAY SERVE AS A FOUNDATION FOR DEVELOPING POTENTIAL THERAPEUTIC AGENTS TO PREVENT AS AND CARDIOVASCULAR DISEASES BY EMPLOYING NUTRIENTS BASED ON EPIGENETIC REGULATION. 2023 16 4702 30 NICOTINE-INDUCED OXIDATIVE STRESS CONTRIBUTES TO EMT AND STEMNESS DURING NEOPLASTIC TRANSFORMATION THROUGH EPIGENETIC MODIFICATIONS IN HUMAN KIDNEY EPITHELIAL CELLS. NICOTINE IS A COMPONENT OF CIGARETTE SMOKE AND MOUNTING EVIDENCE SUGGESTS TOXICITY AND CARCINOGENICITY OF TOBACCO SMOKE IN KIDNEY. CARCINOGENICITY OF NICOTINE ITSELF IN KIDNEY AND THE UNDERLYING MOLECULAR MECHANISMS ARE NOT WELL-UNDERSTOOD. HENCE, THE OBJECTIVE OF THIS STUDY WAS TO DETERMINE THE CARCINOGENIC EFFECTS OF CHRONIC NICOTINE EXPOSURE IN HK-2 HUMAN KIDNEY EPITHELIAL CELLS. THE EFFECTS OF NICOTINE EXPOSURE ON THE EXPRESSION OF GENES FOR CELLULAR REPROGRAMMING, REDOX STATUS, AND GROWTH SIGNALING PATHWAYS WERE ALSO EVALUATED TO UNDERSTAND THE MOLECULAR MECHANISMS. RESULTS REVEALED THAT CHRONIC EXPOSURE TO NICOTINE INDUCED GROWTH AND NEOPLASTIC TRANSFORMATION IN HK-2 CELLS. INCREASED LEVELS OF INTRACELLULAR REACTIVE OXYGEN SPECIES (ROS), ACQUIRED STEM CELL-LIKE SPHERE FORMATION, AND EPITHELIAL-MESENCHYMAL-TRANSITION (EMT) CHANGES WERE OBSERVED IN NICOTINE EXPOSED CELLS. TREATMENT WITH ANTIOXIDANT N-ACETYL CYSTEINE (NAC) RESULTED IN ABROGATION OF EMT AND STEMNESS IN HK-2 CELLS, INDICATING THE ROLE OF NICOTINE-INDUCED ROS IN THESE MORPHOLOGICAL CHANGES. THE RESULT ALSO SUGGESTS THAT ROS CONTROLS THE STEMNESS THROUGH REGULATION OF AKT PATHWAY DURING EARLY STAGES OF CARCINOGENESIS. ADDITIONALLY, THE EXPRESSION OF EPIGENETIC REGULATORY GENES WAS ALTERED IN NICOTINE-EXPOSED CELLS AND THE CHANGES WERE REVERSED BY NAC. THE EPIGENETIC THERAPEUTICS 5-AZA-2'-DEOXYCYTIDINE AND TRICHOSTATIN A ALSO ABROGATED THE STEMNESS. THIS SUGGESTS THE NICOTINE-INDUCED OXIDATIVE STRESS CAUSED EPIGENETIC ALTERATIONS CONTRIBUTING TO STEMNESS DURING NEOPLASTIC TRANSFORMATION. TO OUR KNOWLEDGE, THIS IS THE FIRST REPORT SHOWING THE ROS-MEDIATED EPIGENETIC MODIFICATIONS AS THE UNDERLYING MECHANISM FOR CARCINOGENICITY OF NICOTINE IN HUMAN KIDNEY EPITHELIAL CELLS. THIS STUDY FURTHER SUGGESTS THE POTENTIAL OF EPIGENETIC THERAPEUTICS FOR PHARMACOLOGICAL INTERVENTION IN NICOTINE-INDUCED KIDNEY CANCER. 2019 17 5052 26 PHARMACOLOGICAL TARGETING OF HEME OXYGENASE-1 IN OSTEOARTHRITIS. OSTEOARTHRITIS (OA) IS A COMMON AGING-ASSOCIATED DISEASE THAT CLINICALLY MANIFESTS AS JOINT PAIN, MOBILITY LIMITATIONS, AND COMPROMISED QUALITY OF LIFE. TODAY, OA TREATMENT IS LIMITED TO PAIN MANAGEMENT AND JOINT ARTHROPLASTY AT THE LATER STAGES OF DISEASE PROGRESSION. OA PATHOGENESIS IS PREDOMINANTLY MEDIATED BY OXIDATIVE DAMAGE TO JOINT CARTILAGE EXTRACELLULAR MATRIX AND LOCAL CELLS SUCH AS CHONDROCYTES, OSTEOCLASTS, OSTEOBLASTS, AND SYNOVIAL FIBROBLASTS. UNDER NORMAL CONDITIONS, CELLS PREVENT THE ACCUMULATION OF REACTIVE OXYGEN SPECIES (ROS) UNDER OXIDATIVELY STRESSFUL CONDITIONS THROUGH THEIR ADAPTIVE CYTOPROTECTIVE MECHANISMS. HEME OXYGENASE-1 (HO-1) IS AN IRON-DEPENDENT CYTOPROTECTIVE ENZYME THAT FUNCTIONS AS THE INDUCIBLE FORM OF HO. HO-1 AND ITS METABOLITES CARBON MONOXIDE AND BILIVERDIN CONTRIBUTE TOWARDS THE MAINTENANCE OF REDOX HOMEOSTASIS. HO-1 EXPRESSION IS PRIMARILY REGULATED AT THE TRANSCRIPTIONAL LEVEL THROUGH TRANSCRIPTIONAL FACTOR NUCLEAR FACTOR ERYTHROID 2 (NF-E2)-RELATED FACTOR 2 (NRF2), SPECIFICITY PROTEIN 1 (SP1), TRANSCRIPTIONAL REPRESSOR BTB-AND-CNC HOMOLOGY 1 (BACH1), AND EPIGENETIC REGULATION. SEVERAL STUDIES REPORT THAT HO-1 EXPRESSION CAN BE REGULATED USING VARIOUS ANTIOXIDATIVE FACTORS AND CHEMICAL COMPOUNDS, SUGGESTING THERAPEUTIC IMPLICATIONS IN OA PATHOGENESIS AS WELL AS IN THE WIDER CONTEXT OF JOINT DISEASE. HERE, WE REVIEW THE PROTECTIVE ROLE OF HO-1 IN OA WITH A FOCUS ON THE REGULATORY MECHANISMS THAT MEDIATE HO-1 ACTIVITY. 2021 18 5708 27 SIRT1 ATTENUATES NEUROPATHIC PAIN BY EPIGENETIC REGULATION OF MGLUR1/5 EXPRESSIONS IN TYPE 2 DIABETIC RATS. ACCUMULATING EVIDENCE HAS DEMONSTRATED THAT EPIGENETIC MODIFICATION-MEDIATED CHANGES IN PAIN-RELATED GENE EXPRESSIONS PLAY AN IMPORTANT ROLE IN THE DEVELOPMENT AND MAINTENANCE OF NEUROPATHIC PAIN. SIRTUIN 1 (SIRT1), A NICOTINAMIDE ADENINE DINUCLEOTIDE (NAD)-DEPENDENT DEACETYLASE, IS INVOLVED IN THE DEVELOPMENT OF CHRONIC PAIN. MOREOVER, SIRT1 MAY BE A NOVEL THERAPEUTIC TARGET FOR THE PREVENTION OF TYPE 2 DIABETES MELLITUS (T2DM). BUT THE ROLE OF SIRT1 IN T2DM-INDUCED NEUROPATHIC PAIN REMAINS UNKNOWN. IN THIS STUDY, WE FOUND THAT SPINAL SIRT1 EXPRESSION AND ACTIVITY WERE DOWNREGULATED SIGNIFICANTLY IN HIGH-FAT-FED/LOW-DOSE STREPTOZOTOCIN-INDUCED NEUROPATHIC PAIN RATS. SIRT1 LOCALIZED IN SPINAL NEURONS BUT NOT IN ASTROCYTES OR MICROGLIA. FURTHERMORE, THE EXPRESSIONS OF METABOTROPIC GLUTAMATE RECEPTOR (MGLUR1) AND MGLUR5, WHICH PLAY A KEY ROLE IN CENTRAL SENSITIZATION AND NEUROPATHIC PAIN, AND H3 ACETYLATION LEVELS AT GRM1/5 (ENCODING MGLUR1/5) PROMOTER REGIONS WERE INCREASED IN DIABETIC NEUROPATHIC PAIN RATS. SIRT1 ACTIVATOR SRT1720 REVERSED THERMAL HYPERALGESIA AND MECHANICAL ALLODYNIA AND SPINAL NEURONAL ACTIVATION IN DIABETIC NEUROPATHIC PAIN RATS. CONCURRENTLY, INCREASED EXPRESSIONS OF MGLUR1/5 AND H3 ACETYLATION LEVELS AT GRM1/5 PROMOTER REGIONS WERE REVERSED BY SIRT1 ACTIVATION. IN ADDITION, KNOCKDOWN OF SIRT1 BY AD-SIRT1-SHRNA INDUCED PAIN BEHAVIORS AND SPINAL NEURONAL ACTIVATION IN NORMAL RATS, WHICH WAS ACCOMPANIED BY THE INCREASED EXPRESSIONS OF MGLUR1/5 AND H3 ACETYLATION LEVELS AT GRM1/5 PROMOTER REGIONS. THEREFORE, WE CONCLUDED THAT SIRT1-MEDIATED EPIGENETIC REGULATION OF MGLUR1/5 EXPRESSIONS WAS INVOLVED IN THE DEVELOPMENT OF NEUROPATHIC PAIN IN TYPE 2 DIABETIC RATS. 2017 19 6394 39 THE ROLE OF THE HOST-NEUTROPHIL BIOLOGY. NEUTROPHILIC POLYMORPHONUCLEAR LEUKOCYTES (NEUTROPHILS) ARE MYELOID CELLS PACKED WITH LYSOSOMAL GRANULES (HENCE ALSO CALLED GRANULOCYTES) THAT CONTAIN A FORMIDABLE ANTIMICROBIAL ARSENAL. THEY ARE TERMINALLY DIFFERENTIATED CELLS THAT PLAY A CRITICAL ROLE IN ACUTE AND CHRONIC INFLAMMATION, AS WELL AS IN THE RESOLUTION OF INFLAMMATION AND WOUND HEALING. NEUTROPHILS EXPRESS A DENSE ARRAY OF SURFACE RECEPTORS FOR MULTIPLE LIGANDS, RANGING FROM INTEGRINS TO SUPPORT THEIR EGRESS FROM BONE MARROW INTO THE CIRCULATION AND FROM THE CIRCULATION INTO TISSUES, TO CYTOKINE/CHEMOKINE RECEPTORS THAT DRIVE THEIR NAVIGATION TO THE SITE OF INFECTION OR TISSUE DAMAGE AND ALSO PRIME THEM FOR A SECOND STIMULUS, TO PATTERN RECOGNITION RECEPTORS AND IMMUNOGLOBULIN RECEPTORS TO FACILITATE THE DESTRUCTION AND REMOVAL OF INFECTIVE AGENTS OR DEBRIDEMENT OF DAMAGED TISSUES. WHEN AFFERENT NEUTROPHIL SIGNALS ARE PROPORTIONATE AND COORDINATED THEY WILL PHAGOCYTOSE OPSONIZED AND UNOPSONIZED BACTERIA, ACTIVATING THE NICOTINAMIDE ADENINE DINUCLEOTIDE PHOSPHATE OXIDASE (RESPIRATORY BURST) TO GENERATE REACTIVE OXYGEN SPECIES, WHICH AUGMENT THE PROTEOLYTIC DESTRUCTION OF MICROBES SECURED WITHIN THE PHAGOSOME. A HIGHLY ORCHESTRATED PROCESS OF APOPTOSIS FOLLOWS, FORMING MEMBRANE-BOUND SUBSTRUCTURES THAT ARE REMOVED BY MACROPHAGES. NEUTROPHILS ARE CAPABLE OF VARIOUS OTHER FORMS OF PROGRAMMED CELL DEATH, SUCH AS NETOSIS AND PYROPTOTIC CELL DEATH, AS WELL AS NONPROGRAMMED CELL DEATH BY NECROSIS. IN RECENT YEARS, RESEARCH HAS REVEALED THAT NEUTROPHILS ARE CAPABLE OF FAR MORE SUBTLE CELL-CELL INTERACTIONS THAN PREVIOUSLY THOUGHT POSSIBLE. THIS INCLUDES SYNTHESIS OF VARIOUS INFLAMMATORY MEDIATORS AND ALSO MYELOID CELL TRAINING WITHIN BONE MARROW, WHERE EPIGENETIC AND METABOLIC SIGNALS ASSOCIATED WITH RETURNING NEUTROPHILS THAT UNDERGO REVERSE EGRESS FROM TISSUES INTO THE VASCULATURE AND BACK TO BONE MARROW PROGRAM A HYPERREACTIVE SUBSET OF NEUTROPHILS DURING MYELOPOIESIS THAT ARE CAPABLE OF HYPERSENSITIVE REACTIONS TO MICROBIAL AGGRESSORS. THESE CHARACTERISTICS ARE EVIDENT IN VARIOUS NEUTROPHIL SUBSETS/SUBPOPULATIONS, CREATING BROAD HETEROGENEITY IN THE BEHAVIOR AND BIOLOGICAL REPERTOIRE OF THESE SEEMINGLY SCHIZOPHRENIC IMMUNE CELLS. MOREOVER, NEUTROPHILS ARE CRITICAL EFFECTOR CELLS OF ADAPTIVE AND INNATE IMMUNITY, BINDING TO OPSONIZED BACTERIA AND DESTROYING THEM BY EXTRACELLULAR AND INTRACELLULAR METHODS. THE FORMER CREATES SUBSTANTIAL COLLATERAL HOST TISSUE DAMAGE, AS THEY ARE LESS SPECIFIC THAN T-CYTOTOXIC CELL-KILLING MECHANISMS, AND IN CONDITIONS SUCH AS PERI-IMPLANTITIS, WHERE PLASMA CELLS AND NEUTROPHILS DOMINATE THE IMMUNE INFILTRATE, BONE AND TISSUE DESTRUCTION ARE RAPID AND APPEAR RELENTLESS. FINALLY, THE ROLE OF NEUTROPHILS AS CONDUITS FOR PERIODONTAL-SYSTEMIC DISEASE CONNECTIONS AND FOR OXIDATIVE DAMAGE TO ACT AS A CAUSAL LINK BETWEEN THE TWO HAS ONLY RECENTLY BEEN REALIZED. IN THIS CHAPTER, WE ATTEMPT TO EXPAND ON THESE ISSUES, EMPHASIZING THE CONTRIBUTIONS OF EUROPEAN SCIENTISTS THROUGHOUT A DETAILED APPRAISAL OF THE BENEFITS AND SIDE EFFECTS OF NEUTROPHILIC INFLAMMATION AND IMMUNE FUNCTION. 2023 20 4044 23 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