1 1302 97 DEFECTIVE FUNCTIONAL BETA-CELL MASS AND TYPE 2 DIABETES IN THE GOTO-KAKIZAKI RAT MODEL. INCREASING EVIDENCE INDICATES THAT DECREASED FUNCTIONAL BETA-CELL MASS IS THE HALLMARK OF TYPE 2 DIABETES MELLITUS. THEREFORE, THE DEBATE FOCUSES ON THE POSSIBLE MECHANISMS RESPONSIBLE FOR ABNORMAL ISLET MICROENVIRONMENT, DECREASED BETA-CELL NUMBER, IMPAIRED BETA-CELL FUNCTION AND THEIR MULTIFACTORIAL ETIOLOGIES. THE INFORMATION AVAILABLE ON THE GOTO-KAKIZAKI/PAR RAT LINE, ONE OF THE BEST CHARACTERIZED ANIMAL MODELS OF SPONTANEOUS TYPE 2 DIABETES MELLITUS, ARE REVIEWED IN SUCH A PERSPECTIVE. WE PROPOSE THAT THE DEFECTIVE BETA-CELL MASS AND FUNCTION IN THE GOTO-KAKIZAKI/PAR MODEL REFLECT THE COMPLEX INTERACTIONS OF MULTIPLE PATHOGENIC PLAYERS, INCLUDING SEVERAL INDEPENDENT LOCI CONTAINING GENES RESPONSIBLE FOR SOME DIABETIC TRAITS (BUT NOT DECREASED BETA-CELL MASS), GESTATIONAL METABOLIC IMPAIRMENT INDUCING AN EPIGENETIC PROGRAMMING OF THE PANCREAS (DECREASED BETA-CELL NEOGENESIS), WHICH IS TRANSMITTED TO THE NEXT GENERATION, AND LOSS OF BETA-CELL DIFFERENTIATION DUE TO CHRONIC EXPOSURE TO HYPERGLYCEMIA, INFLAMMATORY MEDIATORS, OXIDATIVE STRESS AND PERTURBED ISLET MICROARCHITECTURE. 2007 2 6163 87 THE GK RAT BETA-CELL: A PROTOTYPE FOR THE DISEASED HUMAN BETA-CELL IN TYPE 2 DIABETES? INCREASING EVIDENCE INDICATES THAT DECREASED FUNCTIONAL BETA-CELL MASS IS THE HALLMARK OF TYPE 2 DIABETES (T2D) MELLITUS. NOWADAYS, THE DEBATE FOCUSES ON THE POSSIBLE MECHANISMS RESPONSIBLE FOR ABNORMAL ISLET MICROENVIRONMENT, DECREASED BETA-CELL NUMBER, IMPAIRED BETA-CELL FUNCTION, AND THEIR MULTIFACTORIAL AETIOLOGIES. THIS REVIEW IS AIMED TO ILLUSTRATE TO WHAT EXTEND THE GOTO-KAKIZAKI RAT, ONE OF THE BEST CHARACTERIZED ANIMAL MODELS OF SPONTANEOUS T2D, HAS PROVED BE A VALUABLE TOOL OFFERING SUFFICIENT COMMONALITIES TO STUDY THESE ASPECTS. WE PROPOSE THAT THE DEFECTIVE BETA-CELL MASS AND FUNCTION IN THE GK MODEL REFLECT THE COMPLEX INTERACTIONS OF MULTIPLE PATHOGENIC PLAYERS: (I) SEVERAL INDEPENDENT LOCI CONTAINING GENES RESPONSIBLE FOR SOME DIABETIC TRAITS (BUT NOT DECREASED BETA-CELL MASS); (II) GESTATIONAL METABOLIC IMPAIRMENT INDUCING AN EPIGENETIC PROGRAMMING OF THE PANCREAS (DECREASED BETA-CELL NEOGENESIS AND/OR PROLIFERATION) WHICH IS TRANSMITTED TO THE NEXT GENERATION; AND (III) LOSS OF BETA-CELL DIFFERENTIATION DUE TO CHRONIC EXPOSURE TO HYPERGLYCEMIA/HYPERLIPIDEMIA, INFLAMMATORY MEDIATORS, OXIDATIVE STRESS AND TO PERTURBED ISLET MICROARCHITECTURE. 2009 3 3859 65 ISLET STRUCTURE AND FUNCTION IN THE GK RAT. TYPE 2 DIABETES MELLITUS (T2D) ARISES WHEN THE ENDOCRINE PANCREAS FAILS TO SECRETE SUFFICIENT INSULIN TO COPE WITH THE METABOLIC DEMAND BECAUSE OF BETA-CELL SECRETORY DYSFUNCTION AND/OR DECREASED BETA-CELL MASS. DEFINING THE NATURE OF THE PANCREATIC ISLET DEFECTS PRESENT IN T2D HAS BEEN DIFFICULT, IN PART BECAUSE HUMAN ISLETS ARE INACCESSIBLE FOR DIRECT STUDY. THIS REVIEW IS AIMED TO ILLUSTRATE TO WHAT EXTENT THE GOTO-KAKIZAKI RAT, ONE OF THE BEST CHARACTERIZED ANIMAL MODELS OF SPONTANEOUS T2D, HAS PROVED TO BE A VALUABLE TOOL OFFERING SUFFICIENT COMMONALITIES TO STUDY THIS ASPECT. A COMPREHENSIVE COMPENDIUM OF THE MULTIPLE FUNCTIONAL GK ISLET ABNORMALITIES SO FAR IDENTIFIED IS PROPOSED IN THIS PERSPECTIVE. THE PATHOGENESIS OF DEFECTIVE BETA-CELL NUMBER AND FUNCTION IN THE GK MODEL IS ALSO DISCUSSED. IT IS PROPOSED THAT THE DEVELOPMENT OF T2D IN THE GK MODEL RESULTS FROM THE COMPLEX INTERACTION OF MULTIPLE EVENTS: (I) SEVERAL SUSCEPTIBILITY LOCI CONTAINING GENES RESPONSIBLE FOR SOME DIABETIC TRAITS (DISTINCT LOCI ENCODING IMPAIRMENT OF BETA-CELL METABOLISM AND INSULIN EXOCYTOSIS, BUT NO QUANTITATIVE TRAIT LOCUS FOR DECREASED BETA-CELL MASS); (II) GESTATIONAL METABOLIC IMPAIRMENT INDUCING AN EPIGENETIC PROGRAMMING OF THE OFFSPRING PANCREAS (DECREASED BETA-CELL NEOGENESIS AND PROLIFERATION) TRANSMITTED OVER GENERATIONS; AND (III) LOSS OF BETA-CELL DIFFERENTIATION RELATED TO CHRONIC EXPOSURE TO HYPERGLYCAEMIA/HYPERLIPIDAEMIA, ISLET INFLAMMATION, ISLET OXIDATIVE STRESS, ISLET FIBROSIS AND PERTURBED ISLET VASCULATURE. 2010 4 5250 78 PROGRAMMED DISORDERS OF BETA-CELL DEVELOPMENT AND FUNCTION AS ONE CAUSE FOR TYPE 2 DIABETES? THE GK RAT PARADIGM. NOW THAT THE REDUCTION IN BETA-MASS HAS BEEN CLEARLY ESTABLISHED IN HUMANS WITH TYPE 2 DIABETES MELLITUS (T2DM) 1-4, THE DEBATE FOCUSES ON THE POSSIBLE MECHANISMS RESPONSIBLE FOR DECREASED BETA-CELL NUMBER AND IMPAIRED BETA-CELL FUNCTION AND THEIR MULTIFACTORIAL ETIOLOGY. APPROPRIATE INBRED RODENT MODELS ARE ESSENTIAL TOOLS FOR IDENTIFICATION OF GENES AND ENVIRONMENTAL FACTORS THAT INCREASE THE RISK OF ABNORMAL BETA-CELL FUNCTION AND OF T2DM. THE INFORMATION AVAILABLE IN THE GOTO-KAKIZAKI (GK) RAT, ONE OF THE BEST CHARACTERIZED ANIMAL MODELS OF SPONTANEOUS T2DM, ARE REVIEWED IN SUCH A PERSPECTIVE. WE PROPOSE THAT THE DEFECTIVE BETA-CELL MASS AND FUNCTION IN THE GK MODEL REFLECT THE COMPLEX INTERACTIONS OF THREE PATHOGENIC PLAYERS: (1) SEVERAL INDEPENDENT LOCI CONTAINING GENES CAUSING IMPAIRED INSULIN SECRETION; (2) GESTATIONAL METABOLIC IMPAIRMENT INDUCING A PROGRAMMING OF ENDOCRINE PANCREAS (DECREASED BETA-CELL NEOGENESIS) WHICH IS TRANSMITTED TO THE NEXT GENERATION; AND (3) SECONDARY (ACQUIRED) LOSS OF BETA-CELL DIFFERENTIATION DUE TO CHRONIC EXPOSURE TO HYPERGLYCEMIA (GLUCOTOXICITY). AN IMPORTANT MESSAGE IS THAT THE 'HERITABLE' DETERMINANTS OF T2DM ARE NOT SIMPLY DEPENDANT ON GENETIC FACTORS, BUT PROBABLY INVOLVE TRANSGENERATIONAL EPIGENETIC RESPONSES. 2005 5 6164 61 THE GK RAT: A PROTOTYPE FOR THE STUDY OF NON-OVERWEIGHT TYPE 2 DIABETES. TYPE 2 DIABETES MELLITUS (T2D) ARISES WHEN THE ENDOCRINE PANCREAS FAILS TO SECRETE SUFFICIENT INSULIN TO COPE WITH THE METABOLIC DEMAND BECAUSE OF BETA-CELL SECRETORY DYSFUNCTION AND/OR DECREASED BETA-CELL MASS. DEFINING THE NATURE OF THE PANCREATIC ISLET DEFECTS PRESENT IN T2D HAS BEEN DIFFICULT, IN PART BECAUSE HUMAN ISLETS ARE INACCESSIBLE FOR DIRECT STUDY. THIS REVIEW IS AIMED TO ILLUSTRATE TO WHAT EXTENT THE GOTO KAKIZAKI RAT, ONE OF THE BEST CHARACTERIZED ANIMAL MODELS OF SPONTANEOUS T2D, HAS PROVED TO BE A VALUABLE TOOL OFFERING SUFFICIENT COMMONALITIES TO STUDY THIS ASPECT. A COMPREHENSIVE COMPENDIUM OF THE MULTIPLE FUNCTIONAL GK ABNORMALITIES SO FAR IDENTIFIED IS PROPOSED IN THIS PERSPECTIVE, TOGETHER WITH THEIR TIME-COURSE AND INTERACTIONS. A SPECIAL FOCUS IS GIVEN TOWARD THE PATHOGENESIS OF DEFECTIVE BETA-CELL NUMBER AND FUNCTION IN THE GK MODEL. IT IS PROPOSED THAT THE DEVELOPMENT OF T2D IN THE GK MODEL RESULTS FROM THE COMPLEX INTERACTION OF MULTIPLE EVENTS: (1) SEVERAL SUSCEPTIBILITY LOCI CONTAINING GENES RESPONSIBLE FOR SOME DIABETIC TRAITS; (2) GESTATIONAL METABOLIC IMPAIRMENT INDUCING AN EPIGENETIC PROGRAMMING OF THE OFFSPRING PANCREAS AND THE MAJOR INSULIN TARGET TISSUES; AND (3) ENVIRONMENTALLY INDUCED LOSS OF BETA-CELL DIFFERENTIATION DUE TO CHRONIC EXPOSURE TO HYPERGLYCEMIA/HYPERLIPIDEMIA, INFLAMMATION, AND OXIDATIVE STRESS. 2012 6 4116 30 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 7 6050 23 THE CONTRIBUTION OF EPIGENETICS IN SJOGREN'S SYNDROME. SJOGREN'S SYNDROME (SS) IS A CHRONIC AUTOIMMUNE EPITHELITIS THAT COMBINES EXOCRINE GLAND DYSFUNCTIONS AND LYMPHOCYTIC INFILTRATIONS. WHILE THE PATHOGENESIS OF SS REMAINS UNCLEAR, ITS ETIOLOGY IS MULTIFUNCTIONAL AND INCLUDES A COMBINATION OF GENETIC PREDISPOSITIONS, ENVIRONMENTAL FACTORS, AND EPIGENETIC FACTORS. RECENTLY, INTEREST HAS GROWN IN THE INVOLVEMENT OF EPIGENETICS IN AUTOIMMUNE DISEASES. EPIGENETICS IS DEFINED AS CHANGES IN GENE EXPRESSION, THAT ARE INHERITABLE AND THAT DO NOT ENTAIL CHANGES IN THE DNA SEQUENCE. IN SS, SEVERAL EPIGENETIC MECHANISMS ARE DEFECTIVE INCLUDING DNA DEMETHYLATION THAT PREDOMINATES IN EPITHELIAL CELLS, AN ABNORMAL EXPRESSION OF MICRORNAS, AND ABNORMAL CHROMATIN POSITIONING-ASSOCIATED WITH AUTOANTIBODY PRODUCTION. LAST BUT NOT LEAST, EPIGENETIC MODIFICATIONS ARE REVERSIBLE AS OBSERVED IN MINOR SALIVARY GLANDS FROM SS PATIENTS AFTER B CELL DEPLETION USING RITUXIMAB. THUS EPIGENETIC FINDINGS IN SS OPEN NEW PERSPECTIVES FOR THERAPEUTIC APPROACHES AS WELL AS THE POSSIBLE IDENTIFICATION OF NEW BIOMARKERS. 2014 8 9 29 'TRAINED IMMUNITY': CONSEQUENCES FOR LYMPHOID MALIGNANCIES. IN HEMATOLOGICAL MALIGNANCIES COMPLEX INTERACTIONS EXIST BETWEEN THE IMMUNE SYSTEM, MICROORGANISMS AND MALIGNANT CELLS. ON ONE HAND, MICROORGANISMS CAN INDUCE CANCER, AS ILLUSTRATED BY SPECIFIC INFECTION-INDUCED LYMPHOPROLIFERATIVE DISEASES SUCH AS HELICOBACTER PYLORI-ASSOCIATED GASTRIC MUCOSA-ASSOCIATED LYMPHOID TISSUE LYMPHOMA. ON THE OTHER HAND, MALIGNANT CELLS CREATE AN IMMUNOSUPPRESSIVE ENVIRONMENT FOR THEIR OWN BENEFIT, BUT THIS ALSO RESULTS IN AN INCREASED RISK OF INFECTIONS. DISRUPTED INNATE IMMUNITY CONTRIBUTES TO THE NEOPLASTIC TRANSFORMATION OF BLOOD CELLS BY SEVERAL MECHANISMS, INCLUDING THE UNCONTROLLED CLEARANCE OF MICROBIAL AND AUTOANTIGENS RESULTING IN CHRONIC IMMUNE STIMULATION AND PROLIFERATION, CHRONIC INFLAMMATION, AND DEFECTIVE IMMUNE SURVEILLANCE AND ANTI-CANCER IMMUNITY. RESTORING DYSFUNCTION OR ENHANCING RESPONSIVENESS OF THE INNATE IMMUNE SYSTEM MIGHT THEREFORE REPRESENT A NEW ANGLE FOR THE PREVENTION AND TREATMENT OF HEMATOLOGICAL MALIGNANCIES, IN PARTICULAR LYMPHOID MALIGNANCIES AND ASSOCIATED INFECTIONS. RECENTLY, IT HAS BEEN SHOWN THAT CELLS OF THE INNATE IMMUNE SYSTEM, SUCH AS MONOCYTES/MACROPHAGES AND NATURAL KILLER CELLS, HARBOR FEATURES OF IMMUNOLOGICAL MEMORY AND DISPLAY ENHANCED FUNCTIONALITY LONG-TERM AFTER STIMULATION WITH CERTAIN MICROORGANISMS AND VACCINES. THESE FUNCTIONAL CHANGES RELY ON EPIGENETIC REPROGRAMMING AND HAVE BEEN TERMED 'TRAINED IMMUNITY'. IN THIS REVIEW THE CONCEPT OF 'TRAINED IMMUNITY' IS DISCUSSED IN THE SETTING OF LYMPHOID MALIGNANCIES. AMELIORATION OF INFECTIOUS COMPLICATIONS AND HEMATOLOGICAL DISEASE PROGRESSION CAN BE ENVISIONED TO RESULT FROM THE INDUCTION OF TRAINED IMMUNITY, BUT FUTURE STUDIES ARE REQUIRED TO PROVE THIS EXCITING NEW HYPOTHESIS. 2016 9 5293 24 PROTEASOMAL DEGRADATION OF THE HISTONE ACETYL TRANSFERASE P300 CONTRIBUTES TO BETA-CELL INJURY IN A DIABETES ENVIRONMENT. IN TYPE 2 DIABETES, AMYLOID OLIGOMERS, CHRONIC HYPERGLYCEMIA, LIPOTOXICITY, AND PRO-INFLAMMATORY CYTOKINES ARE DETRIMENTAL TO BETA-CELLS, CAUSING APOPTOSIS AND IMPAIRED INSULIN SECRETION. THE HISTONE ACETYL TRANSFERASE P300, INVOLVED IN REMODELING OF CHROMATIN STRUCTURE BY EPIGENETIC MECHANISMS, IS A KEY UBIQUITOUS ACTIVATOR OF THE TRANSCRIPTIONAL MACHINERY. IN THIS STUDY, WE REPORT THAT LOSS OF P300 ACETYL TRANSFERASE ACTIVITY AND EXPRESSION LEADS TO BETA-CELL APOPTOSIS, AND MOST IMPORTANTLY, THAT STRESS SITUATIONS KNOWN TO BE ASSOCIATED WITH DIABETES ALTER P300 LEVELS AND FUNCTIONAL INTEGRITY. WE FOUND THAT PROTEASOMAL DEGRADATION IS THE MECHANISM SUBSERVING P300 LOSS IN BETA-CELLS EXPOSED TO HYPERGLYCEMIA OR PRO-INFLAMMATORY CYTOKINES. WE ALSO REPORT THAT MELATONIN, A HORMONE PRODUCED IN THE PINEAL GLAND AND KNOWN TO PLAY KEY ROLES IN BETA-CELL HEALTH, PRESERVES P300 LEVELS ALTERED BY THESE TOXIC CONDITIONS. COLLECTIVELY, THESE DATA IMPLY AN IMPORTANT ROLE FOR P300 IN THE PATHOPHYSIOLOGY OF DIABETES. 2018 10 2552 23 EPIGENETICS IN PRIMARY SJOGREN'S SYNDROME. PRIMARY SJOGREN'S SYNDROME (SJS) IS A CHRONIC AND SYSTEMIC AUTOIMMUNE EPITHELITIS WITH PREDOMINANT FEMALE INCIDENCE, WHICH IS CHARACTERIZED BY EXOCRINE GLAND DYSFUNCTION. INCOMPLETELY UNDERSTOOD, THE ETIOLOGY OF SJS IS MULTI-FACTORIAL AND EVIDENCE IS GROWING TO CONSIDER THAT EPIGENETIC FACTORS ARE PLAYING A CRUCIAL ROLE IN ITS DEVELOPMENT. INDEPENDENT FROM DNA SEQUENCE MUTATIONS, EPIGENETICS IS DESCRIBED AS INHERITABLE AND REVERSIBLE PROCESSES THAT MODIFY GENE EXPRESSION. EPIGENETIC MODIFICATIONS REPORTED IN MINOR SALIVARY GLAND AND LYMPHOCYTES FROM SJS PATIENTS ARE RELATED TO (I) AN ABNORMAL DNA METHYLATION PROCESS INDUCING IN TURN DEFECTIVE CONTROL OF NORMALLY REPRESSED GENES INVOLVING SUCH MATTERS AS AUTOANTIGENS, RETROTRANSPOSONS, AND THE X CHROMOSOME IN WOMEN; (II) ALTERED NUCLEOSOME POSITIONING ASSOCIATED WITH AUTOANTIBODY PRODUCTION; AND (III) ALTERED CONTROL OF MICRORNA. RESULTS FROM EPIGENOME-WIDE ASSOCIATION STUDIES HAVE FURTHER REVEALED THE IMPORTANCE OF THE INTERFERON PATHWAY IN DISEASE PROGRESSION, THE CALCIUM SIGNALING PATHWAY FOR CONTROLLING FLUID SECRETIONS, AND A CELL-SPECIFIC CROSS TALK WITH RISK FACTORS ASSOCIATED WITH SJS. IMPORTANTLY, EPIGENETIC MODIFICATIONS ARE REVERSIBLE THUS OPENING OPPORTUNITIES FOR THERAPEUTIC PROCEDURES IN THIS CURRENTLY INCURABLE DISEASE. 2020 11 3545 24 IMMUNOMETABOLISM IN THE PATHOGENESIS OF SYSTEMIC LUPUS ERYTHEMATOSUS. SYSTEMIC LUPUS ERYTHEMATOSUS (SLE) IS A TYPICAL AUTOIMMUNE DISEASE CHARACTERIZED BY CHRONIC INFLAMMATION AND PATHOGENIC AUTO-ANTIBODIES. APART FROM B CELLS, DYSREGULATION OF OTHER IMMUNE CELLS ALSO PLAYS AN ESSENTIAL ROLE IN THE PATHOGENESIS AND DEVELOPMENT OF THE DISEASE INCLUDING CD4(+)T CELLS, DENDRITIC CELLS, MACROPHAGES AND NEUTROPHILS. SINCE METABOLIC PROGRAMS CONTROL IMMUNE CELL FATE AND FUNCTION, THEY ARE CRITICAL CHECKPOINTS IN AN EFFECTIVE IMMUNE RESPONSE AND ARE INVOLVED IN THE ETIOLOGY OF AUTOIMMUNE DISEASE. IN ADDITION, MITOCHONDRIA AND OXIDATIVE STRESS ARE BOTH INVOLVED IN CELLULAR METABOLISM AND IS ALSO ESSENTIAL IN IMMUNE RESPONSE. IN THIS REVIEW, APART FROM THE DISTURBED IMMUNE SYSTEM, WE WILL DISCUSS MITOCHONDRIAL DYSFUNCTION, OXIDATIVE STRESS, ABNORMAL METABOLISM (INCLUDING GLUCOSE, LIPID AND AMINO ACID METABOLISM) OF IMMUNE CELLS AS WELL AS EPIGENETIC CONTROL OF METABOLISM REPROGRAMMING TO ELUCIDATE THE UNDERLYING PATHOGENIC MECHANISMS OF SYSTEMIC LUPUS ERYTHEMATOSUS. 2020 12 2657 17 EPITHELIAL DYSFUNCTION IN CHRONIC RESPIRATORY DISEASES, A SHARED ENDOTYPE? PURPOSE OF REVIEW: EPITHELIAL BARRIER DEFECTS ARE BEING APPRECIATED IN VARIOUS INFLAMMATORY DISORDERS; HOWEVER, CAUSAL UNDERLYING MECHANISMS ARE LACKING. IN THIS REVIEW, WE DESCRIBE THE DISRUPTION OF THE AIRWAY EPITHELIUM WITH REGARD TO UPPER AND LOWER AIRWAY DISEASES, THE ROLE OF EPIGENETIC ALTERATIONS UNDERLYING THIS PROCESS, AND POTENTIAL NOVEL WAYS OF INTERFERING WITH DYSFUNCTIONAL EPITHELIAL BARRIERS AS A NOVEL THERAPEUTIC APPROACH. RECENT FINDINGS: A DEFECTIVE EPITHELIAL BARRIER, IMPAIRED INNATE DEFENCE MECHANISMS OR HAMPERED EPITHELIAL CELL RENEWAL ARE FOUND IN UPPER AND LOWER AIRWAY DISEASES. BARRIER DYSFUNCTION MIGHT FACILITATE THE ENTRANCE OF FOREIGN SUBSTANCES, INITIATING AND FACILITATING THE ONSET OF DISEASE. LATEST DATA PROVIDED NOVEL INSIGHTS FOR POSSIBLE INVOLVEMENT OF EPIGENETIC ALTERATIONS INDUCED BY INFLAMMATION OR OTHER UNKNOWN MECHANISMS AS A POTENTIAL MECHANISM RESPONSIBLE FOR EPITHELIAL DEFECTS. ADDITIONALLY, THESE MECHANISMS MIGHT PRECEDE DISEASE DEVELOPMENT, AND REPRESENT A NOVEL THERAPEUTIC APPROACH FOR RESTORING EPITHELIAL DEFECTS. SUMMARY: A BETTER UNDERSTANDING OF THE ROLE OF EPIGENETICS IN DRIVING AND MAINTAINING EPITHELIAL DEFECTS IN VARIOUS INFLAMMATORY DISEASES, USING STATE-OF-THE-ART BIOLOGY TOOLS WILL BE CRUCIAL IN DESIGNING NOVEL THERAPIES TO PROTECT OR RECONSTITUTE A DEFECTIVE AIRWAY EPITHELIAL BARRIER. 2020 13 4200 28 METABOLIC REQUIREMENTS OF TH17 CELLS AND OF B CELLS: REGULATION AND DEFECTS IN HEALTH AND IN INFLAMMATORY DISEASES. THE IMMUNE SYSTEM PROTECTS FROM INFECTIONS AND CANCER THROUGH COMPLEX CELLULAR NETWORKS. FOR THIS PURPOSE, IMMUNE CELLS REQUIRE WELL-DEVELOPED MECHANISMS OF ENERGY GENERATION. HOWEVER, THE IMMUNE SYSTEM ITSELF CAN ALSO CAUSE DISEASES WHEN DEFECTIVE REGULATION RESULTS IN THE EMERGENCE OF AUTOREACTIVE LYMPHOCYTES. RECENT STUDIES PROVIDE INSIGHTS INTO HOW DIFFERENTIAL PATTERNS OF IMMUNE CELL RESPONSES ARE ASSOCIATED WITH SELECTIVE METABOLIC PATHWAYS. THIS REVIEW WILL EXAMINE THE CHANGING METABOLIC REQUIREMENTS OF TH17 CELLS AND OF B CELLS AT DIFFERENT STAGES OF THEIR DEVELOPMENT AND ACTIVATION. BOTH CELLS PROVIDE PROTECTION BUT CAN ALSO MEDIATE DISEASES THROUGH THE PRODUCTION OF AUTOANTIBODIES AND THE PRODUCTION OF PROINFLAMMATORY MEDIATORS. IN HEALTH, B CELLS PRODUCE ANTIBODIES AND CYTOKINES AND PRESENT ANTIGENS TO T CELLS TO MOUNT SPECIFIC IMMUNITY. TH17 CELLS, ON THE OTHER HAND, PROVIDE PROTECTION AGAINST EXTRA CELLULAR PATHOGENS AT MUCOSAL SURFACES BUT CAN ALSO DRIVE CHRONIC INFLAMMATION. THE LATTER CELLS CAN ALSO PROMOTE THE DIFFERENTIATION OF B CELLS TO PLASMA CELLS TO PRODUCE MORE AUTOANTIBODIES. METABOLISM-REGULATED CHECKPOINTS AT DIFFERENT STAGES OF THEIR DEVELOPMENT ENSURE THE THAT SELF-REACTIVE B CELLS CLONES AND NEEDLESS PRODUCTION OF INTERLEUKIN (IL-)17 ARE LIMITED. THE METABOLIC REGULATION OF THE TWO CELL TYPES HAS SOME SIMILARITIES, E.G. THE UTILITY OF HYPOXIA INDUCED FACTOR (HIF)1ALPHA DURING LOW OXYGEN TENSION, TO PREVENT AUTOIMMUNITY AND REGULATE INFLAMMATION. THERE ARE ALSO CLEAR DIFFERENCES, AS TH17 CELLS ONLY ARE VULNERABLE TO THE LACK OF CERTAIN AMINO ACIDS. B CELLS, UNLIKE TH17 CELLS, ARE ALSO DEPENDENT OF MECHANISTIC TARGET OF RAPAMYCIN 2 (MTORC2) TO FUNCTION. SIGNIFICANT KNOWLEDGE HAS RECENTLY BEEN GAINED, PARTICULARLY ON TH17 CELLS, ON HOW METABOLISM REGULATES THESE CELLS THROUGH INFLUENCING THEIR EPIGENOME. METABOLIC DYSREGULATION OF TH17 CELLS AND B CELLS CAN LEAD TO CHRONIC INFLAMMATION. DISEASE ASSOCIATED ALTERATIONS IN THE GENOME CAN, IN ADDITION, CAUSE DYSREGULATION TO METABOLISM AND, THEREBY, RESULT IN EPIGENETIC ALTERATIONS IN THESE CELLS. RECENT STUDIES HIGHLIGHT HOW PATHOLOGY CAN RESULT FROM THE COOPERATION BETWEEN THE TWO CELL TYPES BUT ONLY FEW HAVE SO FAR ADDRESSED THE KEY METABOLIC ALTERATIONS IN SUCH SETTINGS. KNOWLEDGE OF THE IMPACT OF METABOLIC DYSFUNCTION ON CHRONIC INFLAMMATION AND PATHOLOGY CAN REVEAL NOVEL THERAPEUTIC TARGETS TO TREAT SUCH DISEASES. 2022 14 3732 19 INNATE IMMUNE MEMORY AND THE HOST RESPONSE TO INFECTION. UNLIKE THE ADAPTIVE IMMUNE SYSTEM, THE INNATE IMMUNE SYSTEM HAS CLASSICALLY BEEN CHARACTERIZED AS BEING DEVOID OF MEMORY FUNCTIONS. HOWEVER, RECENT RESEARCH SHOWS THAT INNATE MYELOID AND LYMPHOID CELLS HAVE THE ABILITY TO RETAIN MEMORY OF PRIOR PATHOGEN EXPOSURE AND BECOME PRIMED TO ELICIT A ROBUST, BROAD-SPECTRUM RESPONSE TO SUBSEQUENT INFECTION. THIS PHENOMENON HAS BEEN TERMED INNATE IMMUNE MEMORY OR TRAINED IMMUNITY. INNATE IMMUNE MEMORY IS INDUCED VIA ACTIVATION OF PATTERN RECOGNITION RECEPTORS AND THE ACTIONS OF CYTOKINES ON HEMATOPOIETIC PROGENITORS AND STEM CELLS IN BONE MARROW AND INNATE LEUKOCYTES IN THE PERIPHERY. THE TRAINED PHENOTYPE IS INDUCED AND SUSTAINED VIA EPIGENETIC MODIFICATIONS THAT REPROGRAM TRANSCRIPTIONAL PATTERNS AND METABOLISM. THESE MODIFICATIONS AUGMENT ANTIMICROBIAL FUNCTIONS, SUCH AS LEUKOCYTE EXPANSION, CHEMOTAXIS, PHAGOCYTOSIS, AND MICROBIAL KILLING, TO FACILITATE AN AUGMENTED HOST RESPONSE TO INFECTION. ALTERNATIVELY, INNATE IMMUNE MEMORY MAY CONTRIBUTE TO THE PATHOGENESIS OF CHRONIC DISEASES, SUCH AS ATHEROSCLEROSIS AND ALZHEIMER'S DISEASE. 2022 15 6365 27 THE ROLE OF METABOLIC DYSFUNCTION IN T-CELL EXHAUSTION DURING CHRONIC VIRAL INFECTION. T CELLS ARE IMPORTANT COMPONENTS OF ADAPTIVE IMMUNITY THAT PROTECT THE HOST AGAINST INVADING PATHOGENS DURING INFECTION. UPON RECOGNIZING THE ACTIVATION SIGNALS, NAIVE AND/OR MEMORY T CELLS WILL INITIATE CLONAL EXPANSION, TRIGGER DIFFERENTIATION INTO EFFECTOR POPULATIONS AND TRAFFIC TO THE INFLAMED SITES TO ELIMINATE PATHOGENS. HOWEVER, IN CHRONIC VIRAL INFECTIONS, SUCH AS THOSE CAUSED BY HUMAN IMMUNODEFICIENCY VIRUS (HIV), HEPATITIS B AND C (HBV AND HCV), T CELLS EXHIBIT IMPAIRED FUNCTION AND BECOME DIFFICULT TO CLEAR PATHOGENS IN A STATE KNOWN AS T-CELL EXHAUSTION. THE ACTIVATION AND FUNCTION PERSISTENCE OF T CELLS DEMAND FOR DYNAMIC CHANGES IN CELLULAR METABOLISM TO MEET THEIR BIOENERGETIC AND BIOSYNTHETIC DEMANDS, ESPECIALLY THE AUGMENTATION OF AEROBIC GLYCOLYSIS, WHICH NOT ONLY PROVIDE EFFICIENT ENERGY GENERATION, BUT ALSO FUEL MULTIPLE BIOCHEMICAL INTERMEDIATES THAT ARE ESSENTIAL FOR NUCLEOTIDE, AMINO ACID, FATTY ACID SYNTHESIS AND MITOCHONDRIA FUNCTION. CHANGES IN CELLULAR METABOLISM ALSO AFFECT THE FUNCTION OF EFFECTORS T CELLS THROUGH MODIFYING EPIGENETIC SIGNATURES. IT IS WIDELY ACCEPTED THAT THE DYSFUNCTION OF T CELL METABOLISM CONTRIBUTES GREATLY TO T-CELL EXHAUSTION. HERE, WE REVIEWED RECENT FINDINGS ON T CELLS METABOLISM UNDER CHRONIC VIRAL INFECTION, SEEKING TO REVEAL THE ROLE OF METABOLIC DYSFUNCTION PLAYED IN T-CELL EXHAUSTION. 2022 16 4386 20 MITOCHONDRIAL STRESS INDUCED BY CONTINUOUS STIMULATION UNDER HYPOXIA RAPIDLY DRIVES T CELL EXHAUSTION. CANCER AND CHRONIC INFECTIONS INDUCE T CELL EXHAUSTION, A HYPOFUNCTIONAL FATE CARRYING DISTINCT EPIGENETIC, TRANSCRIPTOMIC AND METABOLIC CHARACTERISTICS. HOWEVER, DRIVERS OF EXHAUSTION REMAIN POORLY UNDERSTOOD. AS INTRATUMORAL EXHAUSTED T CELLS EXPERIENCE SEVERE HYPOXIA, WE HYPOTHESIZED THAT METABOLIC STRESS ALTERS THEIR RESPONSES TO OTHER SIGNALS, SPECIFICALLY, PERSISTENT ANTIGENIC STIMULATION. IN VITRO, ALTHOUGH CD8(+) T CELLS EXPERIENCING CONTINUOUS STIMULATION OR HYPOXIA ALONE DIFFERENTIATED INTO FUNCTIONAL EFFECTORS, THE COMBINATION RAPIDLY DROVE T CELL DYSFUNCTION CONSISTENT WITH EXHAUSTION. CONTINUOUS STIMULATION PROMOTED BLIMP-1-MEDIATED REPRESSION OF PGC-1ALPHA-DEPENDENT MITOCHONDRIAL REPROGRAMMING, RENDERING CELLS POORLY RESPONSIVE TO HYPOXIA. LOSS OF MITOCHONDRIAL FUNCTION GENERATED INTOLERABLE LEVELS OF REACTIVE OXYGEN SPECIES (ROS), SUFFICIENT TO PROMOTE EXHAUSTED-LIKE STATES, IN PART THROUGH PHOSPHATASE INHIBITION AND THE CONSEQUENT ACTIVITY OF NUCLEAR FACTOR OF ACTIVATED T CELLS. REDUCING T CELL-INTRINSIC ROS AND LOWERING TUMOR HYPOXIA LIMITED T CELL EXHAUSTION, SYNERGIZING WITH IMMUNOTHERAPY. THUS, IMMUNOLOGIC AND METABOLIC SIGNALING ARE INTRINSICALLY LINKED: THROUGH MITIGATION OF METABOLIC STRESS, T CELL DIFFERENTIATION CAN BE ALTERED TO PROMOTE MORE FUNCTIONAL CELLULAR FATES. 2021 17 1033 20 CITRULLINATION OF AUTOANTIGENS IMPLICATES NETOSIS IN THE INDUCTION OF AUTOIMMUNITY. TOLERANCE BLOCKS THE EXPRESSION OF AUTOANTIBODIES, WHEREAS AUTOIMMUNITY PROMOTES IT. HOW TOLERANCE BREAKS AND AUTOANTIBODY PRODUCTION BEGINS THUS ARE CRUCIAL QUESTIONS FOR UNDERSTANDING AND TREATMENT OF AUTOIMMUNE DISEASES. EVIDENCE IMPLICATES CELL DEATH AND AUTOANTIGEN MODIFICATIONS IN THE INITIATION OF AUTOIMMUNE REACTIONS. ONE FORM OF NEUTROPHIL CELL DEATH CALLED NETOSIS DESERVES ATTENTION BECAUSE IT REQUIRES THE POST-TRANSLATIONAL MODIFICATION OF HISTONES AND RESULTS IN THE EXTRACELLULAR RELEASE OF CHROMATIN. NETOSIS RECEIVED ITS NAME FROM NET, THE ACRONYM GIVEN TO NEUTROPHIL EXTRACELLULAR TRAP. THE EXTRACELLULAR CHROMATIN INCORPORATES HISTONES IN WHICH ARGININES HAVE BEEN CONVERTED TO CITRULLINES BY PEPTIDYLARGININE DEIMINASE IV (PAD4). THE DEIMINATED CHROMATIN MAY FUNCTION TO CAPTURE OR 'TRAP' BACTERIAL PATHOGENS, THUS GENERATING AN EXTRACELLULAR COMPLEX OF DEIMINATED HISTONES AND BACTERIAL CELL ADJUVANTS. THE COMPLEX OF BACTERIAL ANTIGENS AND DEIMINATED CHROMATIN MAY BE INTERNALISED BY HOST PHAGOCYTES DURING ACUTE INFLAMMATORY CONDITIONS, AS ARISE DURING BACTERIAL INFECTIONS OR CHRONIC AUTOINFLAMMATORY DISORDERS. THE UPTAKE AND PROCESSING OF DEIMINATED CHROMATIN TOGETHER WITH BACTERIAL ADJUVANTS BY PHAGOCYTES MAY INDUCE THE PRESENTATION OF MODIFIED HISTONE EPITOPES AND CO-STIMULATION, THUS YIELDING A POWERFUL STIMULUS TO BREAK TOLERANCE. AUTOANTIBODIES TO DEIMINATED HISTONES ARE PREVALENT IN FELTY'S SYNDROME PATIENTS AND ARE PRESENT IN SYSTEMIC LUPUS ERYTHEMATOSUS (SLE) AND PATIENTS WITH RHEUMATOID ARTHRITIS (RA). THESE OBSERVATIONS CLEARLY IMPLICATE HISTONE DEIMINATION AS AN EPIGENETIC MARK THAT CAN ACT AS AN AUTOANTIBODY STIMULANT. 2014 18 4582 28 N-TERMINAL BET BROMODOMAIN INHIBITORS DISRUPT A BRD4-P65 INTERACTION AND REDUCE INDUCIBLE NITRIC OXIDE SYNTHASE TRANSCRIPTION IN PANCREATIC BETA-CELLS. CHRONIC INFLAMMATION OF PANCREATIC ISLETS IS A KEY DRIVER OF BETA-CELL DAMAGE THAT CAN LEAD TO AUTOREACTIVITY AND THE EVENTUAL ONSET OF AUTOIMMUNE DIABETES (T1D). IN THE ISLET, ELEVATED LEVELS OF PROINFLAMMATORY CYTOKINES INDUCE THE TRANSCRIPTION OF THE INDUCIBLE NITRIC OXIDE SYNTHASE (INOS) GENE, NOS2, ULTIMATELY RESULTING IN INCREASED NITRIC OXIDE (NO). EXCESSIVE OR PROLONGED EXPOSURE TO NO CAUSES BETA-CELL DYSFUNCTION AND FAILURE ASSOCIATED WITH DEFECTS IN MITOCHONDRIAL RESPIRATION. RECENT STUDIES SHOWED THAT INHIBITION OF THE BROMODOMAIN AND EXTRATERMINAL DOMAIN (BET) FAMILY OF PROTEINS, A DRUGGABLE CLASS OF EPIGENETIC READER PROTEINS, PREVENTS THE ONSET AND PROGRESSION OF T1D IN THE NON-OBESE DIABETIC MOUSE MODEL. WE HYPOTHESIZED THAT BET PROTEINS CO-ACTIVATE TRANSCRIPTION OF CYTOKINE-INDUCED INFLAMMATORY GENE TARGETS IN BETA-CELLS AND THAT SELECTIVE, CHEMOTHERAPEUTIC INHIBITION OF BET BROMODOMAINS COULD REDUCE SUCH TRANSCRIPTION. HERE, WE INVESTIGATED THE ABILITY OF BET BROMODOMAIN SMALL MOLECULE INHIBITORS TO REDUCE THE BETA-CELL RESPONSE TO THE PROINFLAMMATORY CYTOKINE INTERLEUKIN 1 BETA (IL-1BETA). BET BROMODOMAIN INHIBITION ATTENUATED IL-1BETA-INDUCED TRANSCRIPTION OF THE INFLAMMATORY MEDIATOR NOS2 AND CONSEQUENT INOS PROTEIN AND NO PRODUCTION. REDUCED NOS2 TRANSCRIPTION IS CONSISTENT WITH INHIBITION OF NF-KAPPAB FACILITATED BY DISRUPTING THE INTERACTION OF A SINGLE BET FAMILY MEMBER, BRD4, WITH THE NF-KAPPAB SUBUNIT, P65. USING RECENTLY REPORTED SELECTIVE INHIBITORS OF THE FIRST AND SECOND BET BROMODOMAINS, INHIBITION OF ONLY THE FIRST BROMODOMAIN WAS NECESSARY TO REDUCE THE INTERACTION OF BRD4 WITH P65 IN BETA-CELLS. MOREOVER, INHIBITION OF THE FIRST BROMODOMAIN WAS SUFFICIENT TO MITIGATE IL-1BETA-DRIVEN DECREASES IN MITOCHONDRIAL OXYGEN CONSUMPTION RATES AND BETA-CELL VIABILITY. BY IDENTIFYING A ROLE FOR THE INTERACTION BETWEEN BRD4 AND P65 IN CONTROLLING THE RESPONSE OF BETA-CELLS TO PROINFLAMMATORY CYTOKINES, WE PROVIDE MECHANISTIC INFORMATION ON HOW BET BROMODOMAIN INHIBITION CAN DECREASE INFLAMMATION. THESE STUDIES ALSO SUPPORT THE POTENTIAL THERAPEUTIC APPLICATION OF MORE SELECTIVE BET BROMODOMAIN INHIBITORS IN ATTENUATING BETA-CELL INFLAMMATION. 2022 19 4380 29 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 20 6452 18 THERAPIES TARGETING TRAINED IMMUNE CELLS IN INFLAMMATORY AND AUTOIMMUNE DISEASES. THE CONCEPT OF TRAINED IMMUNITY HAS RECENTLY EMERGED AS A MECHANISM CONTRIBUTING TO SEVERAL IMMUNE MEDIATED INFLAMMATORY CONDITIONS. TRAINED IMMUNITY IS DEFINED BY THE IMMUNOLOGICAL MEMORY DEVELOPED IN INNATE IMMUNE CELLS AFTER A PRIMARY NON-SPECIFIC STIMULUS THAT, IN TURN, PROMOTES A HEIGHTENED INFLAMMATORY RESPONSE UPON A SECONDARY CHALLENGE. THE MOST CHARACTERISTIC CHANGES ASSOCIATED TO THIS PROCESS INVOLVE THE REWIRING OF CELL METABOLISM AND EPIGENETIC REPROGRAMMING. UNDER PHYSIOLOGICAL CONDITIONS, THE ROLE OF TRAINED IMMUNE CELLS ENSURES A PROMPT RESPONSE. THIS ACTION IS LIMITED BY EFFECTIVE RESOLUTION OF INFLAMMATION AND TISSUE REPAIR IN ORDER TO RESTORE HOMEOSTASIS. HOWEVER, UNRESTRAINED ACTIVATION OF INNATE IMMUNE CELLS CONTRIBUTES TO THE DEVELOPMENT OF CHRONIC INFLAMMATION AND TISSUE DESTRUCTION THROUGH THE SECRETION OF INFLAMMATORY CYTOKINES, PROTEASES AND GROWTH FACTORS. THEREFORE, INTERVENTIONS AIMED AT REVERSING THE CHANGES INDUCED BY TRAINED IMMUNITY PROVIDE POTENTIAL THERAPEUTIC APPROACHES TO TREAT INFLAMMATORY AND AUTOIMMUNE DISEASES LIKE RHEUMATOID ARTHRITIS (RA). WE REVIEW CELLULAR APPROACHES THAT TARGET METABOLISM AND THE EPIGENETIC REPROGRAMMING OF DENDRITIC CELLS, MACROPHAGES, NATURAL KILLER CELLS, AND OTHER TRAINED CELLS IN THE CONTEXT OF AUTOIMMUNE INFLAMMATORY DISEASES. 2020