1 3760 99 INTEGRATED SINGLE CELL ANALYSIS SHOWS CHRONIC ALCOHOL DRINKING DISRUPTS MONOCYTE DIFFERENTIATION IN THE BONE MARROW. CHRONIC HEAVY ALCOHOL DRINKING (CHD) REWIRES MONOCYTES AND MACROPHAGES TOWARD HEIGHTENED INFLAMMATORY STATES WITH COMPROMISED ANTIMICROBIAL DEFENSES THAT PERSIST AFTER 1-MONTH ABSTINENCE. TO DETERMINE WHETHER THESE CHANGES ARE MEDIATED THROUGH ALTERATIONS IN THE BONE MARROW NICHE, WE PROFILED MONOCYTES AND HEMATOPOIETIC STEM CELL PROGENITORS (HSCPS) FROM CHD RHESUS MACAQUES USING A COMBINATION OF FUNCTIONAL ASSAYS AND SINGLE CELL GENOMICS. CHD RESULTED IN TRANSCRIPTIONAL PROFILES CONSISTENT WITH INCREASED ACTIVATION AND INFLAMMATION WITHIN BONE MARROW RESIDENT MONOCYTES AND MACROPHAGES. FURTHERMORE, CHD RESULTED IN TRANSCRIPTIONAL SIGNATURES ASSOCIATED WITH INCREASED OXIDATIVE AND CELLULAR STRESS IN HSCP. DIFFERENTIATION OF HSCP IN VITRO REVEALED SKEWING TOWARD MONOCYTES EXPRESSING "NEUTROPHIL-LIKE" MARKERS WITH GREATER INFLAMMATORY RESPONSES TO BACTERIAL AGONISTS. FURTHER ANALYSES OF HSCPS SHOWED BROAD EPIGENETIC CHANGES THAT WERE IN LINE WITH EXACERBATED INFLAMMATORY RESPONSES WITHIN MONOCYTES AND THEIR PROGENITORS. IN SUMMARY, CHD ALTERS HSCPS IN THE BONE MARROW LEADING TO THE PRODUCTION OF MONOCYTES POISED TO GENERATE DYSREGULATED HYPER-INFLAMMATORY RESPONSES. 2023 2 6166 27 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 3 3759 74 INTEGRATED SINGLE CELL ANALYSIS SHOWS CHRONIC ALCOHOL DRINKING DISRUPTS MONOCYTE DIFFERENTIATION IN THE BONE MARROW NICHE. CHRONIC ALCOHOL DRINKING REWIRES CIRCULATING MONOCYTES AND TISSUE-RESIDENT MACROPHAGES TOWARDS HEIGHTENED INFLAMMATORY STATES WITH COMPROMISED ANTI-MICROBIAL DEFENSES. AS THESE EFFECTS REMAIN CONSISTENT IN SHORT-LIVED MONOCYTES AFTER A 1-MONTH ABSTINENCE PERIOD IT IS UNCLEAR WHETHER THESE CHANGES ARE RESTRICTED TO THE PERIPHERY OR MEDIATED THROUGH ALTERATIONS IN THE PROGENITOR NICHE. TO TEST THIS HYPOTHESIS, WE PROFILED MONOCYTES/MACROPHAGES AND HEMATOPOIETIC STEM CELL PROGENITORS (HSCP) OF THE BONE MARROW COMPARTMENT FROM RHESUS MACAQUES AFTER 12 MONTHS OF ETHANOL CONSUMPTION USING A COMBINATION OF FUNCTIONAL ASSAYS AND SINGLE CELL GENOMICS. BONE MARROW-RESIDENT MONOCYTES/MACROPHAGES FROM ETHANOL-CONSUMING ANIMALS EXHIBITED HEIGHTENED INFLAMMATION. DIFFERENTIATION OF HSCP IN VITRO REVEALED SKEWING TOWARDS MONOCYTES EXPRESSING NEUTROPHIL-LIKE MARKERS WITH HEIGHTENED INFLAMMATORY RESPONSES TO BACTERIAL AGONISTS. SINGLE CELL TRANSCRIPTIONAL ANALYSIS OF HSCPS SHOWED REDUCED PROLIFERATION BUT INCREASED INFLAMMATORY MARKERS IN MATURE MYELOID PROGENITORS. WE OBSERVED TRANSCRIPTIONAL SIGNATURES ASSOCIATED WITH INCREASED OXIDATIVE AND CELLULAR STRESS AS WELL AS OXIDATIVE PHOSPHORYLATION IN IMMATURE AND MATURE MYELOID PROGENITORS. SINGLE CELL ANALYSIS OF THE CHROMATIN LANDSCAPE SHOWED ALTERED DRIVERS OF DIFFERENTIATION IN MONOCYTES AND PROGENITORS. COLLECTIVELY, THESE DATA INDICATE THAT CHRONIC ETHANOL DRINKING RESULTS IN REMODELING OF THE TRANSCRIPTIONAL AND EPIGENETIC LANDSCAPES OF THE BONE MARROW COMPARTMENT LEADING TO ALTERED FUNCTIONS IN THE PERIPHERY. 2023 4 4762 16 NRF2 SIGNALING AND THE SLOWED AGING PHENOTYPE: EVIDENCE FROM LONG-LIVED MODELS. STUDYING LONG-LIVED ANIMALS PROVIDES NOVEL INSIGHT INTO SHARED CHARACTERISTICS OF AGING AND REPRESENTS A UNIQUE MODEL TO ELUCIDATE APPROACHES TO PREVENT CHRONIC DISEASE. OXIDANT STRESS UNDERLIES MANY CHRONIC DISEASES AND RESISTANCE TO STRESS IS A POTENTIAL MECHANISM GOVERNING SLOWED AGING. THE TRANSCRIPTION FACTOR NUCLEAR FACTOR (ERYTHROID-DERIVED 2)-LIKE 2 IS THE "MASTER REGULATOR" OF CELLULAR ANTIOXIDANT DEFENSES. NRF2 IS UPREGULATED BY SOME LONGEVITY PROMOTING INTERVENTIONS AND MAY PLAY A ROLE IN REGULATING SPECIES LONGEVITY. HOWEVER, NRF2 EXPRESSION AND ACTIVITY IN LONG-LIVED MODELS HAVE NOT BEEN WELL DESCRIBED. HERE, WE REVIEW EVIDENCE FOR ALTERED NRF2 SIGNALING IN A VARIETY OF SLOWED AGING MODELS THAT ACCOMPLISH LIFESPAN EXTENSION VIA PHARMACOLOGICAL, NUTRITIONAL, EVOLUTIONARY, GENETIC, AND PRESUMABLY EPIGENETIC MEANS. 2015 5 1443 28 DIFFERENTIAL RESPONSES OF HEALTHY AND CHRONIC OBSTRUCTIVE PULMONARY DISEASED HUMAN BRONCHIAL EPITHELIAL CELLS REPEATEDLY EXPOSED TO AIR POLLUTION-DERIVED PM(4). WHILE THE KNOWLEDGE OF THE UNDERLYING MECHANISMS BY WHICH AIR POLLUTION-DERIVED PARTICULATE MATTER (PM) EXERTS ITS HARMFUL HEALTH EFFECTS IS STILL INCOMPLETE, DETAILED IN VITRO STUDIES ARE HIGHLY NEEDED. WITH THE AIM OF GETTING CLOSER TO THE HUMAN IN VIVO CONDITIONS AND BETTER INTEGRATING A NUMBER OF FACTORS RELATED TO PRE-EXISTING CHRONIC PULMONARY INFLAMMATORY, WE SOUGHT TO DEVELOP PRIMARY CULTURES OF NORMAL HUMAN BRONCHIAL EPITHELIAL (NHBE) CELLS AND CHRONIC OBSTRUCTIVE PULMONARY DISEASE (COPD)-DISEASED HUMAN BRONCHIAL EPITHELIAL (DHBE) CELLS, GROWN AT THE AIR-LIQUID INTERFACE. PAN-CYTOKERATIN AND MUC5AC IMMUNOSTAINING CONFIRMED THE SPECIFIC CELL-TYPES OF BOTH THESE HEALTHY AND DISEASED CELL MODELS AND SHOWED THEY ARE CLOSED TO HUMAN BRONCHIAL EPITHELIA. THEREAFTER, HEALTHY AND DISEASED CELLS WERE REPEATEDLY EXPOSED TO AIR POLLUTION-DERIVED PM(4) AT THE NON-CYTOTOXIC CONCENTRATION OF 5 MUG/CM(2). THE DIFFERENCES BETWEEN THE OXIDATIVE AND INFLAMMATORY STATES IN NON-EXPOSED NHBE AND COPD-DHBE CELLS INDICATED THAT DISEASED CELLS CONSERVED THEIR SPECIFIC PHYSIOPATHOLOGICAL CHARACTERISTICS. INCREASES IN BOTH OXIDATIVE DAMAGE AND CYTOKINE SECRETION WERE REPORTED IN REPEATEDLY EXPOSED NHBE CELLS AND PARTICULARLY IN COPD-DHBE CELLS. DISEASED CELLS REPEATEDLY EXPOSED HAD LOWER CAPACITIES TO METABOLIZE THE ORGANIC CHEMICALS-COATED ONTO THE AIR-POLLUTION-DERIVED PM(4), SUCH AS BENZO[A]PYRENE (B[A]P), BUT SHOWED HIGHER SENSIBILITY TO THE FORMATION OF OH-B[A]P DNA ADDUCTS, BECAUSE THEIR DISEASED STATE POSSIBLY AFFECTED THEIR DEFENSES. DIFFERENTIAL PROFILES OF EPIGENETIC HALLMARKS (I.E., GLOBAL DNA HYPOMETHYLATION, P16 PROMOTER HYPERMETHYLATION, TELOMERE LENGTH SHORTENING, TELOMERASE ACTIVATION, AND HISTONE H3 MODIFICATIONS) OCCURRED IN REPEATEDLY EXPOSED NHBE AND PARTICULARLY IN COPD-DHBE CELLS. TAKEN TOGETHER, THESE RESULTS CLOSELY SUPPORTED THE HIGHEST RESPONSIVENESS OF COPD-DHBE CELLS TO A REPEATED EXPOSURE TO AIR POLLUTION-DERIVED PM(4). THE USE OF THESE INNOVATIVE IN VITRO EXPOSURE SYSTEMS SUCH AS NHBE AND COPD-DHBE CELLS COULD THEREFORE BE CONSIDER AS A VERY USEFUL AND POWERFUL PROMISING TOOL IN THE FIELD OF THE RESPIRATORY TOXICOLOGY, TAKING INTO ACCOUNT SENSITIVE INDIVIDUALS. 2016 6 2671 39 ETHANOL CONSUMPTION INDUCES NONSPECIFIC INFLAMMATION AND FUNCTIONAL DEFECTS IN ALVEOLAR MACROPHAGES. CHRONIC ALCOHOL DRINKING IS ASSOCIATED WITH INCREASED SUSCEPTIBILITY TO VIRAL AND BACTERIAL RESPIRATORY PATHOGENS. IN THIS STUDY, WE USE A RHESUS MACAQUE MODEL OF VOLUNTARY ETHANOL SELF-ADMINISTRATION TO STUDY THE EFFECTS OF LONG-TERM ALCOHOL DRINKING ON THE IMMUNOLOGICAL LANDSCAPE OF THE LUNG. WE REPORT A HEIGHTENED INFLAMMATORY STATE IN ALVEOLAR MACROPHAGES (AMS) OBTAINED FROM ETHANOL (ETOH)-DRINKING ANIMALS THAT IS ACCOMPANIED BY INCREASED CHROMATIN ACCESSIBILITY IN INTERGENIC REGIONS THAT REGULATE INFLAMMATORY GENES AND CONTAIN BINDING MOTIFS FOR TRANSCRIPTION FACTORS AP-1, IRF8, AND NFKB P-65. IN LINE WITH THESE TRANSCRIPTIONAL AND EPIGENETIC CHANGES AT THE BASAL STATE, AMS FROM ETOH-DRINKING ANIMALS GENERATE ELEVATED INFLAMMATORY MEDIATOR RESPONSES TO LIPOPOLYSACCHARIDES AND RESPIRATORY SYNCYTIAL VIRUS. HOWEVER, THE TRANSCRIPTIONAL ANALYSIS REVEALED AN INEFFICIENT INDUCTION OF INTERFERON-STIMULATED GENES WITH ETOH IN RESPONSE TO THE RESPIRATORY SYNCYTIAL VIRUS, SUGGESTING DISRUPTION OF ANTIMICROBIAL DEFENSES. CORRESPONDINGLY, AMS FROM ETOH-DRINKING ANIMALS EXHIBITED TRANSCRIPTIONAL SHIFTS INDICATIVE OF INCREASED OXIDATIVE STRESS AND OXIDATIVE PHOSPHORYLATION, WHICH WAS COUPLED WITH HIGHER CYTOSOLIC REACTIVE OXYGEN SPECIES AND MITOCHONDRIAL POTENTIAL. THIS HEIGHTENED OXIDATIVE STRESS STATE WAS ACCOMPANIED BY DECREASED ABILITY TO PHAGOCYTOSE BACTERIA. BULK RNA AND ASSAY FOR TRANSPOSASE-ACCESSIBLE CHROMATIN SEQUENCING DATA FURTHER REVEALED REDUCED EXPRESSION AND CHROMATIN ACCESSIBILITY OF LOCI ASSOCIATED WITH TISSUE REPAIR AND MAINTENANCE WITH CHRONIC ETOH DRINKING. SIMILARLY, ANALYSIS OF SINGLE-CELL RNA SEQUENCING DATA REVEALED SHIFTS IN CELL STATES FROM TISSUE MAINTENANCE TO INFLAMMATORY RESPONSES WITH ETOH. COLLECTIVELY, THESE DATA PROVIDE NOVEL INSIGHT INTO MECHANISMS BY WHICH CHRONIC ETOH DRINKING INCREASES SUSCEPTIBILITY TO INFECTION IN PATIENTS WITH ALCOHOL USE DISORDERS. 2022 7 5551 17 ROLE OF EPIGENETICS IN MODULATION OF IMMUNE RESPONSE AT THE JUNCTION OF HOST-PATHOGEN INTERACTION AND DANGER MOLECULE SIGNALING. EPIGENETIC MECHANISMS HAVE RAPIDLY AND CONTROVERSIALLY EMERGED AS SILENT MODULATORS OF HOST DEFENSES THAT CAN LEAD TO A MORE PROMINENT IMMUNE RESPONSE AND SHAPE THE COURSE OF INFLAMMATION IN THE HOST. THUS, THE EPIGENETICS CAN BOTH DRIVE THE PRODUCTION OF SPECIFIC INFLAMMATORY MEDIATORS AND CONTROL THE MAGNITUDE OF THE HOST RESPONSE. THE EPIGENETIC ACTIONS THAT ARE PREDOMINANTLY SHOWN TO MODULATE THE HOST DEFENSE AGAINST MICROBIAL PATHOGENS ARE DNA METHYLATION, HISTONE MODIFICATION AND THE ACTIVITY OF NON-CODING RNAS. THERE IS ALSO GROWING EVIDENCE THAT OPPORTUNISTIC CHRONIC PATHOGENS, SUCH AS PORPHYROMONAS GINGIVALIS, AS A MICROBIAL HOST SUBVERSION STRATEGY, CAN EPIGENETICALLY INTERFERE WITH THE HOST DNA MACHINERY FOR SUCCESSFUL COLONIZATION. SIMILARLY, THE NOVEL INVOLVEMENT OF SMALL MOLECULE 'DANGER SIGNALS', WHICH ARE RELEASED BY STRESSED OR INFECTED CELLS, AT THE CENTER OF HOST-PATHOGEN INTERPLAY AND EPIGENETICS IS DEVELOPING. IN THIS REVIEW, WE SYSTEMATICALLY EXAMINE THE LATEST KNOWLEDGE WITHIN THE FIELD OF EPIGENETICS IN THE CONTEXT OF HOST-DERIVED DANGER MOLECULE AND PURINERGIC SIGNALING, WITH A PARTICULAR FOCUS ON HOST MICROBIAL DEFENSES AND INFECTION-DRIVEN CHRONIC INFLAMMATION. 2016 8 4044 24 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 9 6205 24 THE INFLUENCE OF PLANT EXTRACTS AND PHYTOCONSTITUENTS ON ANTIOXIDANT ENZYMES ACTIVITY AND GENE EXPRESSION IN THE PREVENTION AND TREATMENT OF IMPAIRED GLUCOSE HOMEOSTASIS AND DIABETES COMPLICATIONS. DIABETES IS A COMPLEX METABOLIC DISORDER RESULTING EITHER FROM INSULIN RESISTANCE OR AN IMPAIRED INSULIN SECRETION. PROLONGED ELEVATED BLOOD GLUCOSE CONCENTRATION, THE KEY CLINICAL SIGN OF DIABETES, INITIATES AN ENHANCEMENT OF REACTIVE OXYGEN SPECIES DERIVED FROM GLUCOSE AUTOXIDATION AND GLYCOSYLATION OF PROTEINS. CONSEQUENTLY, CHRONIC OXIDATIVE STRESS OVERWHELMS CELLULAR ENDOGENOUS ANTIOXIDANT DEFENSES AND LEADS TO THE ACUTE AND LONG-STANDING STRUCTURAL AND FUNCTIONAL CHANGES OF MACROMOLECULES RESULTING IN IMPAIRED CELLULAR FUNCTIONING, CELL DEATH AND ORGAN DYSFUNCTION. THE OXIDATIVE STRESS PROVOKED CHAIN OF PATHOLOGICAL EVENTS OVER TIME CAUSE DIABETIC COMPLICATIONS SUCH AS NEPHROPATHY, PERIPHERAL NEUROPATHY, CARDIOMYOPATHY, RETINOPATHY, HYPERTENSION, AND LIVER DISEASE. UNDER DIABETIC CONDITIONS, ACCOMPANYING GENOME/EPIGENOME AND METABOLITE MARKERS ALTERATIONS MAY ALSO AFFECT GLUCOSE HOMEOSTASIS, PANCREATIC BETA-CELLS, MUSCLE, LIVER, AND ADIPOSE TISSUE. BY PROVIDING DEEPER GENETIC/EPIGENETIC INSIGHT OF DIRECT OR INDIRECT DIETARY EFFECTS, NUTRIGENOMICS OFFERS A PROMISING OPPORTUNITY TO IMPROVE THE QUALITY OF LIFE OF DIABETIC PATIENTS. NATURAL PLANT EXTRACTS, OR THEIR NATURALLY OCCURRING COMPOUNDS, WERE SHOWN TO BE VERY PROFICIENT IN THE PREVENTION AND TREATMENT OF DIFFERENT PATHOLOGIES ASSOCIATED WITH OXIDATIVE STRESS INCLUDING DIABETES AND ITS COMPLICATIONS. CONSIDERING THAT FOOD INTAKE IS ONE OF THE CRUCIAL COMPONENTS IN DIABETES' PREVALENCE, PROGRESSION AND COMPLICATIONS, THIS REVIEW SUMMARIZES THE EFFECT OF THE MAJOR PLANT SECONDARY METABOLITE AND PHYTOCONSTITUENTS ON THE ANTIOXIDANT ENZYMES ACTIVITY AND GENE EXPRESSION UNDER DIABETIC CONDITIONS. 2021 10 6701 21 VASCULAR FACTORS AND EPIGENETIC MODIFICATIONS IN THE PATHOGENESIS OF ALZHEIMER'S DISEASE. ALZHEIMER'S DISEASE (AD) IS A DEBILITATING ILLNESS WITH NO KNOWN CURE. NOWADAYS ACCUMULATING EVIDENCE SUGGESTED THAT THE VASCULAR ENDOTHELIUM AND CHRONIC HYPOPERFUSION MAY PLAY IMPORTANT ROLE IN PATHOBIOLOGY OF AD. THE VASCULAR ENDOTHELIUM WHICH REGULATES THE PASSAGE OF MACROMOLECULES AND CIRCULATING CELLS FROM BLOOD TO TISSUE, IS A MAJOR TARGET OF OXIDATIVE STRESS, PLAYING A CRITICAL ROLE IN THE PATHOPHYSIOLOGY OF VASCULAR DISEASES. SINCE THE VASCULAR ENDOTHELIUM, NEURONS AND GLIA ARE ALL ABLE TO SYNTHESIZE, STORE AND RELEASE REACTIVE OXYGEN SPECIES (ROS) AND VASCULAR ACTIVE SUBSTANCES IN RESPONSE TO CERTAIN STIMULI, THEIR CONTRIBUTION TO THE PATHOPHYSIOLOGY OF AD CAN BE VERY IMPORTANT. NEW EVIDENCE INDICATES THAT CONTINUOUS FORMATION OF FREE ROS INDUCES CELLULAR DAMAGE AND DECREASES ANTIOXIDANT DEFENSES. SPECIFICALLY, OXIDATIVE STRESS INCREASES VASCULAR ENDOTHELIAL PERMEABILITY AND PROMOTES LEUKOCYTE ADHESION. WE SUMMARIZE THE REPORTS THAT SPORADIC, LATE-ONSET OF AD RESULTS FROM VASCULAR ETIOLOGY. RECENTLY AN INVOLVEMENT OF EPIGENETIC ALTERATIONS IN THE ETIOLOGY OF AD IS ALSO INTENSIVELY INVESTIGATED. GAINING A MORE COMPLETE UNDERSTANDING OF THE ESSENTIAL COMPONENTS AND UNDERLYING MECHANISMS INVOLVED IN EPIGENETIC REGULATION COULD LEAD TO NOVEL TREATMENTS FOR A NUMBER OF NEUROLOGICAL AND PSYCHIATRIC CONDITIONS. 2012 11 5816 21 STRESS AND STEM CELLS. THE UNIQUE PROPERTIES AND FUNCTIONS OF STEM CELLS MAKE THEM PARTICULARLY SUSCEPTIBLE TO STRESSES AND ALSO LEAD TO THEIR REGULATION BY STRESS. STEM CELL DIVISION MUST RESPOND TO THE DEMAND TO REPLENISH CELLS DURING NORMAL TISSUE TURNOVER AS WELL AS IN RESPONSE TO DAMAGE. OXIDATIVE STRESS, MECHANICAL STRESS, GROWTH FACTORS, AND CYTOKINES SIGNAL STEM CELL DIVISION AND DIFFERENTIATION. MANY OF THE CONSERVED PATHWAYS REGULATING STEM CELL SELF-RENEWAL AND DIFFERENTIATION ARE ALSO STRESS-RESPONSE PATHWAYS. THE LONG LIFE SPAN AND DIVISION POTENTIAL OF STEM CELLS CREATE A PROPENSITY FOR TRANSFORMATION (CANCER) AND SPECIFIC STRESS RESPONSES SUCH AS APOPTOSIS AND SENESCENCE ACT AS ANTITUMOR MECHANISMS. QUIESCENCE REGULATED BY CDK INHIBITORS AND A HYPOXIC NICHE REGULATED BY FOXO TRANSCRIPTION FACTOR FUNCTION TO REDUCE STRESS FOR SEVERAL TYPES OF STEM CELLS TO FACILITATE LONG-TERM MAINTENANCE. AGING IS A PARTICULARLY RELEVANT STRESS FOR STEM CELLS, BECAUSE REPEATED DEMANDS ON STEM CELL FUNCTION OVER THE LIFE SPAN CAN HAVE CUMULATIVE CELL-AUTONOMOUS EFFECTS INCLUDING EPIGENETIC DYSREGULATION, MUTATIONS, AND TELOMERE EROSION. IN ADDITION, AGING OF THE ORGANISM IMPAIRS FUNCTION OF THE STEM CELL NICHE AND SYSTEMIC SIGNALS, INCLUDING CHRONIC INFLAMMATION AND OXIDATIVE STRESS. 2012 12 293 24 AGING HALLMARKS AND THE ROLE OF OXIDATIVE STRESS. AGING IS A COMPLEX BIOLOGICAL PROCESS ACCOMPANIED BY A PROGRESSIVE DECLINE IN THE PHYSICAL FUNCTION OF THE ORGANISM AND AN INCREASED RISK OF AGE-RELATED CHRONIC DISEASES SUCH AS CARDIOVASCULAR DISEASES, CANCER, AND NEURODEGENERATIVE DISEASES. STUDIES HAVE ESTABLISHED THAT THERE EXIST NINE HALLMARKS OF THE AGING PROCESS, INCLUDING (I) TELOMERE SHORTENING, (II) GENOMIC INSTABILITY, (III) EPIGENETIC MODIFICATIONS, (IV) MITOCHONDRIAL DYSFUNCTION, (V) LOSS OF PROTEOSTASIS, (VI) DYSREGULATED NUTRIENT SENSING, (VII) STEM CELL EXHAUSTION, (VIII) CELLULAR SENESCENCE, AND (IX) ALTERED CELLULAR COMMUNICATION. ALL THESE ALTERATIONS HAVE BEEN LINKED TO SUSTAINED SYSTEMIC INFLAMMATION, AND THESE MECHANISMS CONTRIBUTE TO THE AGING PROCESS IN TIMING NOT CLEARLY DETERMINED YET. NEVERTHELESS, MITOCHONDRIAL DYSFUNCTION IS ONE OF THE MOST IMPORTANT MECHANISMS CONTRIBUTING TO THE AGING PROCESS. MITOCHONDRIA IS THE PRIMARY ENDOGENOUS SOURCE OF REACTIVE OXYGEN SPECIES (ROS). DURING THE AGING PROCESS, THERE IS A DECLINE IN ATP PRODUCTION AND ELEVATED ROS PRODUCTION TOGETHER WITH A DECLINE IN THE ANTIOXIDANT DEFENSE. ELEVATED ROS LEVELS CAN CAUSE OXIDATIVE STRESS AND SEVERE DAMAGE TO THE CELL, ORGANELLE MEMBRANES, DNA, LIPIDS, AND PROTEINS. THIS DAMAGE CONTRIBUTES TO THE AGING PHENOTYPE. IN THIS REVIEW, WE SUMMARIZE RECENT ADVANCES IN THE MECHANISMS OF AGING WITH AN EMPHASIS ON MITOCHONDRIAL DYSFUNCTION AND ROS PRODUCTION. 2023 13 6532 25 TRANSCRIPTIONAL REGULATION OF INFLAMMASOMES. INFLAMMASOMES ARE MULTIMOLECULAR COMPLEXES WITH POTENT INFLAMMATORY ACTIVITY. AS SUCH, THEIR ACTIVITY IS TIGHTLY REGULATED AT THE TRANSCRIPTIONAL AND POST-TRANSCRIPTIONAL LEVELS. IN THIS REVIEW, WE PRESENT THE TRANSCRIPTIONAL REGULATION OF INFLAMMASOME GENES FROM SENSORS (E.G., NLRP3) TO SUBSTRATES (E.G., IL-1BETA). LINEAGE-DETERMINING TRANSCRIPTION FACTORS SHAPE INFLAMMASOME RESPONSES IN DIFFERENT CELL TYPES WITH PROFOUND CONSEQUENCES ON THE RESPONSIVENESS TO INFLAMMASOME-ACTIVATING STIMULI. PRO-INFLAMMATORY SIGNALS (STERILE OR MICROBIAL) HAVE A KEY TRANSCRIPTIONAL IMPACT ON INFLAMMASOME GENES, WHICH IS LARGELY MEDIATED BY NF-KAPPAB AND THAT TRANSLATES INTO HIGHER ANTIMICROBIAL IMMUNE RESPONSES. FURTHERMORE, DIVERSE INTRINSIC (E.G., CIRCADIAN CLOCK, METABOLITES) OR EXTRINSIC (E.G., XENOBIOTICS) SIGNALS ARE INTEGRATED BY SIGNAL-DEPENDENT TRANSCRIPTION FACTORS AND CHROMATIN STRUCTURE CHANGES TO MODULATE TRANSCRIPTIONALLY INFLAMMASOME RESPONSES. FINALLY, ANTI-INFLAMMATORY SIGNALS (E.G., IL-10) COUNTERBALANCE INFLAMMASOME GENES INDUCTION TO LIMIT DELETERIOUS INFLAMMATION. TRANSCRIPTIONAL REGULATIONS THUS APPEAR AS THE FIRST LINE OF INFLAMMASOME REGULATION TO RAISE THE DEFENSE LEVEL IN FRONT OF STRESS AND INFECTIONS BUT ALSO TO LIMIT EXCESSIVE OR CHRONIC INFLAMMATION. 2020 14 4384 19 MITOCHONDRIAL EPIGENETICS REGULATING INFLAMMATION IN CANCER AND AGING. INFLAMMATION IS A DEFINING FACTOR IN DISEASE PROGRESSION; EPIGENETIC MODIFICATIONS OF THIS FIRST LINE OF DEFENCE PATHWAY CAN AFFECT MANY PHYSIOLOGICAL AND PATHOLOGICAL CONDITIONS, LIKE AGING AND TUMORIGENESIS. INFLAMMAGEING, ONE OF THE HALLMARKS OF AGING, REPRESENTS A CHRONIC, LOW KEY BUT A PERSISTENT INFLAMMATORY STATE. OXIDATIVE STRESS, ALTERATIONS IN MITOCHONDRIAL DNA (MTDNA) COPY NUMBER AND MIS-LOCALIZED EXTRA-MITOCHONDRIAL MTDNA ARE SUGGESTED TO DIRECTLY INDUCE VARIOUS IMMUNE RESPONSE PATHWAYS. THIS COULD ULTIMATELY PERTURB CELLULAR HOMEOSTASIS AND LEAD TO PATHOLOGICAL CONSEQUENCES. EPIGENETIC REMODELLING OF MTDNA BY DNA METHYLATION, POST-TRANSLATIONAL MODIFICATIONS OF MTDNA BINDING PROTEINS AND REGULATION OF MITOCHONDRIAL GENE EXPRESSION BY NUCLEAR DNA OR MTDNA ENCODED NON-CODING RNAS, ARE SUGGESTED TO DIRECTLY CORRELATE WITH THE ONSET AND PROGRESSION OF VARIOUS TYPES OF CANCER. MITOCHONDRIA ARE ALSO CAPABLE OF REGULATING IMMUNE RESPONSE TO VARIOUS INFECTIONS AND TISSUE DAMAGE BY PRODUCING PRO- OR ANTI-INFLAMMATORY SIGNALS. THIS OCCURS BY ALTERING THE LEVELS OF MITOCHONDRIAL METABOLITES AND REACTIVE OXYGEN SPECIES (ROS) LEVELS. SINCE MITOCHONDRIA ARE KNOWN AS THE GUARDIANS OF THE INFLAMMATORY RESPONSE, IT IS PLAUSIBLE THAT MITOCHONDRIAL EPIGENETICS MIGHT PLAY A PIVOTAL ROLE IN INFLAMMATION. HENCE, THIS REVIEW FOCUSES ON THE INTRICATE DYNAMICS OF EPIGENETIC ALTERATIONS OF INFLAMMATION, WITH EMPHASIS ON MITOCHONDRIA IN CANCER AND AGING. 2022 15 4116 23 MECHANISMS OF AIRWAY EPITHELIAL INJURY AND ABNORMAL REPAIR IN ASTHMA AND COPD. THE AIRWAY EPITHELIUM COMPRISES OF DIFFERENT CELL TYPES AND ACTS AS A PHYSICAL BARRIER PREVENTING PATHOGENS, INCLUDING INHALED PARTICLES AND MICROBES, FROM ENTERING THE LUNGS. GOBLET CELLS AND SUBMUCOSAL GLANDS PRODUCE MUCUS THAT TRAPS PATHOGENS, WHICH ARE EXPELLED FROM THE RESPIRATORY TRACT BY CILIATED CELLS. BASAL CELLS ACT AS PROGENITOR CELLS, DIFFERENTIATING INTO DIFFERENT EPITHELIAL CELL TYPES, TO MAINTAIN HOMEOSTASIS FOLLOWING INJURY. ADHERENS AND TIGHT JUNCTIONS BETWEEN CELLS MAINTAIN THE EPITHELIAL BARRIER FUNCTION AND REGULATE THE MOVEMENT OF MOLECULES ACROSS IT. IN THIS REVIEW WE DISCUSS HOW ABNORMAL EPITHELIAL STRUCTURE AND FUNCTION, CAUSED BY CHRONIC INJURY AND ABNORMAL REPAIR, DRIVES AIRWAY DISEASE AND SPECIFICALLY ASTHMA AND CHRONIC OBSTRUCTIVE PULMONARY DISEASE (COPD). IN BOTH DISEASES, INHALED ALLERGENS, POLLUTANTS AND MICROBES DISRUPT JUNCTIONAL COMPLEXES AND PROMOTE CELL DEATH, IMPAIRING THE BARRIER FUNCTION AND LEADING TO INCREASED PENETRATION OF PATHOGENS AND A CONSTANT AIRWAY IMMUNE RESPONSE. IN ASTHMA, THE INFLAMMATORY RESPONSE PRECIPITATES THE EPITHELIAL INJURY AND DRIVES ABNORMAL BASAL CELL DIFFERENTIATION. THIS LEADS TO REDUCED CILIATED CELLS, GOBLET CELL HYPERPLASIA AND INCREASED EPITHELIAL MESENCHYMAL TRANSITION, WHICH CONTRIBUTE TO IMPAIRED MUCOCILIARY CLEARANCE AND AIRWAY REMODELLING. IN COPD, CHRONIC OXIDATIVE STRESS AND INFLAMMATION TRIGGER PREMATURE EPITHELIAL CELL SENESCENCE, WHICH CONTRIBUTES TO LOSS OF EPITHELIAL INTEGRITY AND AIRWAY INFLAMMATION AND REMODELLING. INCREASED NUMBERS OF BASAL CELLS SHOWING DEREGULATED DIFFERENTIATION, CONTRIBUTES TO CILIARY DYSFUNCTION AND MUCOUS HYPERPRODUCTION IN COPD AIRWAYS. DEFECTIVE ANTIOXIDANT, ANTIVIRAL AND DAMAGE REPAIR MECHANISMS, POSSIBLY DUE TO GENETIC OR EPIGENETIC FACTORS, MAY CONFER SUSCEPTIBILITY TO AIRWAY EPITHELIAL DYSFUNCTION IN THESE DISEASES. THE CURRENT EVIDENCE SUGGESTS THAT A CONSTANT CYCLE OF INJURY AND ABNORMAL REPAIR OF THE EPITHELIUM DRIVES CHRONIC AIRWAY INFLAMMATION AND REMODELLING IN ASTHMA AND COPD. MECHANISTIC UNDERSTANDING OF INJURY SUSCEPTIBILITY AND DAMAGE RESPONSE MAY LEAD TO IMPROVED THERAPIES FOR THESE DISEASES. 2023 16 375 15 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 17 4037 21 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 18 4898 23 OXIDATIVE STRESS INDUCED LUNG CANCER AND COPD: OPPORTUNITIES FOR EPIGENETIC THERAPY. REACTIVE OXYGEN SPECIES (ROS) FORM AS A NATURAL BY-PRODUCT OF THE NORMAL METABOLISM OF OXYGEN AND PLAY IMPORTANT ROLES WITHIN THE CELL. UNDER NORMAL CIRCUMSTANCES THE CELL IS ABLE TO MAINTAIN AN ADEQUATE HOMEOSTASIS BETWEEN THE FORMATION OF ROS AND ITS REMOVAL THROUGH PARTICULAR ENZYMATIC PATHWAYS OR VIA ANTIOXIDANTS. IF HOWEVER, THIS BALANCE IS DISTURBED A SITUATION CALLED OXIDATIVE STRESS OCCURS. CRITICALLY, OXIDATIVE STRESS PLAYS IMPORTANT ROLES IN THE PATHOGENESIS OF MANY DISEASES, INCLUDING CANCER. EPIGENETICS IS A PROCESS WHERE GENE EXPRESSION IS REGULATED BY HERITABLE MECHANISMS THAT DO NOT CAUSE ANY DIRECT CHANGES TO THE DNA SEQUENCE ITSELF, AND DISRUPTION OF EPIGENETIC MECHANISMS HAS IMPORTANT IMPLICATIONS IN DISEASE. EVIDENCE IS EMERGING THAT HISTONE DEACETYLASES (HDACS) PLAY DECISIVE ROLES IN REGULATING IMPORTANT CELLULAR OXIDATIVE STRESS PATHWAYS INCLUDING THOSE INVOLVED WITH SENSING OXIDATIVE STRESS AND THOSE INVOLVED WITH REGULATING THE CELLULAR RESPONSE TO OXIDATIVE STRESS. IN PARTICULAR ABERRANT REGULATION OF THESE PATHWAYS BY HDACS MAY PLAY CRITICAL ROLES IN CANCER PROGRESSION. IN THIS REVIEW WE DISCUSS THE CURRENT EVIDENCE LINKING EPIGENETICS AND OXIDATIVE STRESS AND CANCER, USING CHRONIC OBSTRUCTIVE PULMONARY DISEASE AND NON-SMALL CELL LUNG CANCER TO ILLUSTRATE THE IMPORTANCE OF EPIGENETICS ON THESE PATHWAYS WITHIN THESE DISEASE SETTINGS. 2009 19 5726 19 SKIN WELL-BEING IN DIABETES: ROLE OF MACROPHAGES. MACROPHAGES ARE KEY PLAYERS IN WOUND HEALING- ALONG WITH MEDIATING THE ACUTE INFLAMMATORY RESPONSE, MACROPHAGES ACTIVATE CUTANEOUS EPITHELIAL CELLS AND PROMOTE TISSUE REPAIR. DIABETES COMPLICATIONS, INCLUDING DIABETIC CHRONIC WOUNDS, ARE ACCOMPANIED BY PERSISTENT INFLAMMATION AND MACROPHAGE MALFUNCTION. SEVERAL STUDIES INDICATE THAT HYPERGLYCEMIA INDUCES VARIOUS ALTERATIONS THAT AFFECT MACROPHAGE FUNCTION IN WOUND HEALING INCLUDING EPIGENETIC CHANGES, IMBALANCE BETWEEN PRO- AND ANTI-INFLAMMATORY MODULATORS, AND INSENSITIVITY TO PROLIFERATIVE STIMULI. IN THIS REVIEW, WE BRIEFLY SUMMARIZE RECENT STUDIES REGARDING THOSE ALTERATIONS AND THEIR IMPLICATIONS ON SKIN WELL-BEING IN DIABETES. 2020 20 1876 20 EMERGING ROLES FOR EPIGENETIC PROGRAMMING IN THE CONTROL OF INFLAMMATORY SIGNALING INTEGRATION IN HEATH AND DISEASE. MACROPHAGES AND DENDRITIC CELLS INITIATE THE INNATE IMMUNE RESPONSE TO INFECTION AND INJURY AND CONTRIBUTE TO INFLAMMATORY SIGNALING TO MAINTAIN THE HOMEOSTASIS OF VARIOUS TISSUES, WHICH INCLUDES RESIDENT MACROPHAGES FOR THE ELIMINATION OF INVADING MICROORGANISMS AND TISSUE DAMAGE. INAPPROPRIATE INFLAMMATORY SIGNALING CAN LEAD TO PERSISTENT INFLAMMATION AND FURTHER DEVELOP INTO AUTOIMMUNE AND INFLAMMATION-ASSOCIATED DISEASES. INFLAMMATORY SIGNALING PATHWAYS HAVE BEEN WELL CHARACTERIZED, BUT HOW THESE SIGNALING PATHWAYS ARE CONVERTED INTO SUSTAINED AND DIVERSE PATTERNS OF EXPRESSION OF CYTOKINES, CHEMOKINES, AND OTHER GENES IN RESPONSE TO ENVIRONMENTAL CHALLENGES IS UNCLEAR. EMERGING EVIDENCE SUGGESTS THE IMPORTANT ROLE OF EPIGENETIC MECHANISMS IN FINELY TUNING THE OUTCOME OF THE HOST INNATE IMMUNE RESPONSE. AN UNDERSTANDING OF EPIGENETIC REGULATION OF INNATE IMMUNE CELL IDENTITY AND FUNCTION WILL ENABLE THE IDENTIFICATION OF THE MECHANISM BETWEEN GENE-SPECIFIC HOST DEFENSES AND INFLAMMATORY DISEASE AND WILL ALSO ALLOW FOR EXPLORATION OF THE PROGRAM OF INNATE IMMUNE MEMORY IN HEALTH AND DISEASE. THIS INFORMATION COULD BE USED TO DEVELOP THERAPEUTIC AGENTS TO ENHANCE THE HOST RESPONSE, PREVENTING CHRONIC INFLAMMATION THROUGH PRESERVING TISSUES AND SIGNALING INTEGRITY. 2017