1 1231 143 CROSSTALK BETWEEN GLUCOSE METABOLISM, LACTATE PRODUCTION AND IMMUNE RESPONSE MODULATION. METABOLITES OF GLYCOLYTIC METABOLISM HAVE BEEN IDENTIFIED AS SIGNALING MOLECULES AND REGULATORS OF GENE EXPRESSION, IN ADDITION TO THEIR BASIC FUNCTION AS MAJOR ENERGY AND BIOSYNTHETIC SOURCE. IMMUNE CELLS REPROGRAM METABOLIC PATHWAYS TO CATER TO ENERGY AND BIOSYNTHESIS DEMANDS UPON ACTIVATION. MOST LYMPHOCYTES, INCLUDING INFLAMMATORY M1 MACROPHAGES, MAINLY SHIFT FROM OXIDATIVE PHOSPHORYLATION TO GLYCOLYSIS, WHEREAS REGULATORY T CELLS AND M2 MACROPHAGES PREFERENTIALLY USE THE TRICARBOXYLIC ACID (TCA) CYCLE AND HAVE REDUCED GLYCOLYSIS. RECENT STUDIES HAVE REVEALED THE "NON-METABOLIC" SIGNALING FUNCTIONS OF INTERMEDIATES OF THE MITOCHONDRIAL PATHWAY AND GLYCOLYSIS. THE ROLES OF CITRATE, SUCCINATE AND ITACONATE IN IMMUNE RESPONSE, INCLUDING POST-TRANSLATIONAL MODIFICATIONS OF PROTEINS AND MACROPHAGES ACTIVATION, HAVE BEEN HIGHLIGHTED. AS AN END PRODUCT OF GLYCOLYSIS, LACTATE HAS RECEIVED CONSIDERABLE INTEREST FROM RESEARCHERS. IN THIS REVIEW, WE SPECIFICALLY FOCUSED ON STUDIES EXPLORING THE INTEGRATION OF LACTATE INTO IMMUNE CELL BIOLOGY AND ASSOCIATED PATHOLOGIES. LACTATE CAN ACT AS A DOUBLE-EDGED SWORD. ON ONE HAND, ACTIVATED IMMUNE CELLS PREFER TO USE LACTATE TO SUPPORT THEIR FUNCTION. ON THE OTHER HAND, ACCUMULATED LACTATE IN THE TISSUE MICROENVIRONMENT ACTS AS A SIGNALING MOLECULE THAT RESTRICTS IMMUNE CELL FUNCTION. RECENTLY, A NOVEL EPIGENETIC CHANGE MEDIATED BY HISTONE LYSINE LACTYLATION HAS BEEN PROPOSED. THE BURGEONING RESEARCHES SUPPORT THE IDEA THAT HISTONE LACTYLATION PARTICIPATES IN DIVERSE CELLULAR EVENTS. THIS REVIEW DESCRIBES GLYCOLYTIC METABOLISM, INCLUDING THE IMMUNOREGULATION OF METABOLITES OF THE TCA CYCLE AND LACTATE. THESE LATEST FINDINGS STRENGTHEN OUR UNDERSTANDING ON TUMOR AND CHRONIC INFLAMMATORY DISEASES AND OFFER POTENTIAL THERAPEUTIC OPTIONS. 2022 2 3544 33 IMMUNOMETABOLIC CONTROL OF TRAINED IMMUNITY. INNATE IMMUNE CELLS CAN ADOPT LONG-TERM INFLAMMATORY PHENOTYPES FOLLOWING BRIEF ENCOUNTERS WITH EXOGENOUS (MICROBIAL) OR ENDOGENOUS STIMULI. THIS PHENOMENON IS NAMED TRAINED IMMUNITY AND CAN IMPROVE HOST DEFENSE AGAINST (RECURRENT) INFECTIONS. IN CONTRAST, TRAINED IMMUNITY CAN ALSO BE MALADAPTIVE IN THE CONTEXT OF CHRONIC INFLAMMATORY DISORDERS, SUCH AS ATHEROSCLEROSIS. KEY TO FUTURE THERAPEUTIC EXPLOITATION OF THIS MECHANISM IS THOROUGH KNOWLEDGE OF THE MECHANISMS DRIVING TRAINED IMMUNITY, WHICH CAN BE USED AS PHARMACOLOGICAL TARGETS. THESE MECHANISMS INCLUDE PROFOUND CHANGES IN INTRACELLULAR METABOLISM, WHICH ARE CLOSELY INTERTWINED WITH EPIGENETIC REPROGRAMMING AT THE LEVEL OF HISTONE MODIFICATIONS. GLYCOLYSIS, GLUTAMINE REPLENISHMENT OF THE TRICARBOXYLIC ACID CYCLE WITH ACCUMULATION OF FUMARATE, AND THE MEVALONATE PATHWAY HAVE ALL BEEN IDENTIFIED AS CRITICAL PATHWAYS FOR TRAINED IMMUNITY IN MONOCYTES AND MACROPHAGES. IN THIS REVIEW, WE PROVIDE A STATE-OF-THE-ART OVERVIEW OF HOW THESE METABOLIC PATHWAYS INTERACT WITH EPIGENETIC PROGRAMS TO DEVELOP TRAINED IMMUNITY. 2021 3 3734 46 INNATE IMMUNE MEMORY IN MONOCYTES AND MACROPHAGES: THE POTENTIAL THERAPEUTIC STRATEGIES FOR ATHEROSCLEROSIS. ATHEROSCLEROSIS IS A COMPLEX METABOLIC DISEASE CHARACTERIZED BY THE DYSFUNCTION OF LIPID METABOLISM AND CHRONIC INFLAMMATION IN THE INTIMAL SPACE OF THE VESSEL. AS THE MOST ABUNDANT INNATE IMMUNE CELLS, MONOCYTE-DERIVED MACROPHAGES PLAY A PIVOTAL ROLE IN THE INFLAMMATORY RESPONSE, CHOLESTEROL METABOLISM, AND FOAM CELL FORMATION. IN RECENT DECADES, IT HAS BEEN DEMONSTRATED THAT MONOCYTES AND MACROPHAGES CAN ESTABLISH INNATE IMMUNE MEMORY (ALSO TERMED TRAINED IMMUNITY) VIA ENDOGENOUS AND EXOGENOUS ATHEROGENIC STIMULI AND EXHIBIT A LONG-LASTING PROINFLAMMATORY PHENOTYPE. THE IMPORTANT CELLULAR METABOLISM PROCESSES, INCLUDING GLYCOLYSIS, OXIDATIVE PHOSPHORYLATION (OXPHOS), THE TRICARBOXYLIC ACID (TCA) CYCLE, FATTY ACID SYNTHESIS, AND CHOLESTEROL SYNTHESIS, ARE REPROGRAMMED. TRAINED MONOCYTES/MACROPHAGES WITH INNATE IMMUNE MEMORY CAN BE PERSISTENTLY HYPERACTIVATED AND CAN UNDERGO EXTENSIVE EPIGENETIC REWIRING, WHICH CONTRIBUTES TO THE PATHOPHYSIOLOGICAL DEVELOPMENT OF ATHEROSCLEROSIS VIA INCREASED PROINFLAMMATORY CYTOKINE PRODUCTION AND LIPID ACCUMULATION. HERE, WE PROVIDE AN OVERVIEW OF THE REGULATION OF CELLULAR METABOLIC PROCESSES AND EPIGENETIC MODIFICATIONS OF INNATE IMMUNE MEMORY IN MONOCYTES/MACROPHAGES AS WELL AS THE POTENTIAL ENDOGENOUS AND EXOGENOUS STIMULATIONS INVOLVED IN THE PROGRESSION OF ATHEROSCLEROSIS THAT HAVE BEEN REPORTED RECENTLY. THESE ELUCIDATIONS MIGHT BE BENEFICIAL FOR FURTHER UNDERSTANDING INNATE IMMUNE MEMORY AND THE DEVELOPMENT OF THERAPEUTIC STRATEGIES FOR INFLAMMATORY DISEASES AND ATHEROSCLEROSIS. 2022 4 5720 31 SIRTUINS LINK INFLAMMATION AND METABOLISM. SIRTUINS (SIRT), FIRST DISCOVERED IN YEAST AS NAD+ DEPENDENT EPIGENETIC AND METABOLIC REGULATORS, HAVE COMPARABLE ACTIVITIES IN HUMAN PHYSIOLOGY AND DISEASE. MOUNTING EVIDENCE SUPPORTS THAT THE SEVEN-MEMBER MAMMALIAN SIRTUIN FAMILY (SIRT1-7) GUARD HOMEOSTASIS BY SENSING BIOENERGY NEEDS AND RESPONDING BY MAKING ALTERATIONS IN THE CELL NUTRIENTS. SIRTUINS PLAY A CRITICAL ROLE IN RESTORING HOMEOSTASIS DURING STRESS RESPONSES. INFLAMMATION IS DESIGNED TO "DEFEND AND MEND" AGAINST THE INVADING ORGANISMS. EMERGING EVIDENCE SUPPORTS THAT METABOLISM AND BIOENERGY REPROGRAMMING DIRECT THE SEQUENTIAL COURSE OF INFLAMMATION; FAILURE OF HOMEOSTASIS RETRIEVAL RESULTS IN MANY CHRONIC AND ACUTE INFLAMMATORY DISEASES. ANABOLIC GLYCOLYSIS QUICKLY INDUCED (COMPARED TO OXIDATIVE PHOSPHORYLATION) FOR ROS AND ATP GENERATION IS NEEDED FOR IMMUNE ACTIVATION TO "DEFEND" AGAINST INVADING MICROORGANISMS. LIPOLYSIS/FATTY ACID OXIDATION, ESSENTIAL FOR CELLULAR PROTECTION/HIBERNATION AND CELL SURVIVAL IN ORDER TO "MEND," LEADS TO IMMUNE REPRESSION. ACUTE/CHRONIC INFLAMMATIONS ARE LINKED TO ALTERED GLYCOLYSIS AND FATTY ACID OXIDATION, AT LEAST IN PART, BY NAD+ DEPENDENT FUNCTION OF SIRTUINS. THERAPEUTICALLY TARGETING SIRTUINS MAY PROVIDE A NEW CLASS OF INFLAMMATION AND IMMUNE REGULATORS. THIS REVIEW DISCUSSES HOW SIRTUINS INTEGRATE METABOLISM, BIOENERGETICS, AND IMMUNITY DURING INFLAMMATION AND HOW SIRTUIN-DIRECTED TREATMENT IMPROVES OUTCOME IN CHRONIC INFLAMMATORY DISEASES AND IN THE EXTREME STRESS RESPONSE OF SEPSIS. 2016 5 6493 41 TRAINED IMMUNITY AND REACTIVITY OF MACROPHAGES AND ENDOTHELIAL CELLS. INNATE IMMUNE CELLS CAN DEVELOP EXACERBATED IMMUNOLOGIC RESPONSE AND LONG-TERM INFLAMMATORY PHENOTYPE FOLLOWING BRIEF EXPOSURE TO ENDOGENOUS OR EXOGENOUS INSULTS, WHICH LEADS TO AN ALTERED RESPONSE TOWARDS A SECOND CHALLENGE AFTER THE RETURN TO A NONACTIVATED STATE. THIS PHENOMENON IS KNOWN AS TRAINED IMMUNITY (TI). TI IS NOT ONLY IMPORTANT FOR HOST DEFENSE AND VACCINE RESPONSE BUT ALSO FOR CHRONIC INFLAMMATIONS SUCH AS CARDIOVASCULAR AND METABOLIC DISEASES SUCH AS ATHEROSCLEROSIS. TI CAN OCCUR IN INNATE IMMUNE CELLS SUCH AS MONOCYTES/MACROPHAGES, NATURAL KILLER CELLS, ENDOTHELIAL CELLS (ECS), AND NONIMMUNE CELLS, SUCH AS FIBROBLAST. IN THIS BRIEF REVIEW, WE ANALYZE THE SIGNIFICANCE OF TI IN ECS, WHICH ARE ALSO CONSIDERED AS INNATE IMMUNE CELLS IN ADDITION TO MACROPHAGES. TI CAN BE INDUCED BY A VARIETY OF STIMULI, INCLUDING LIPOPOLYSACCHARIDES, BCG (BACILLUS CALMETTE-GUERIN), AND OXLDL (OXIDIZED LOW-DENSITY LIPOPROTEIN), WHICH ARE DEFINED AS RISK FACTORS FOR CARDIOVASCULAR AND METABOLIC DISEASES. FURTHERMORE, TI IN ECS IS FUNCTIONAL FOR INFLAMMATION EFFECTIVENESS AND TRANSITION TO CHRONIC INFLAMMATION. REWIRING OF CELLULAR METABOLISM OF THE TRAINED CELLS TAKES PLACE DURING INDUCTION OF TI, INCLUDING INCREASED GLYCOLYSIS, GLUTAMINOLYSIS, INCREASED ACCUMULATION OF TRICARBOXYLIC ACID CYCLE METABOLITES AND ACETYL-COENZYME A PRODUCTION, AS WELL AS INCREASED MEVALONATE SYNTHESIS. SUBSEQUENTLY, THIS LEADS TO EPIGENETIC REMODELING, RESULTING IN IMPORTANT CHANGES IN CHROMATIN ARCHITECTURE THAT ENABLES INCREASED GENE TRANSCRIPTION AND ENHANCED PROINFLAMMATORY IMMUNE RESPONSE. HOWEVER, TI PATHWAYS AND INFLAMMATORY PATHWAYS ARE SEPARATED TO ENSURE MEMORY STAYS WHEN INFLAMMATION UNDERGOES RESOLUTION. ADDITIONALLY, REACTIVE OXYGEN SPECIES PLAY CONTEXT-DEPENDENT ROLES IN TI. THEREFORE, TI PLAYS SIGNIFICANT ROLES IN EC AND MACROPHAGE PATHOLOGY AND CHRONIC INFLAMMATION. HOWEVER, FURTHER CHARACTERIZATION OF TI IN ECS AND MACROPHAGES WOULD PROVIDE NOVEL INSIGHTS INTO CARDIOVASCULAR DISEASE PATHOGENESIS AND NEW THERAPEUTIC TARGETS. GRAPHIC ABSTRACT: A GRAPHIC ABSTRACT IS AVAILABLE FOR THIS ARTICLE. 2021 6 4196 32 METABOLIC PLASTICITY AND REGULATION OF T CELL EXHAUSTION. THE METABOLIC REPROGRAMMING DURING T CELL ACTIVATION AND DIFFERENTIATION AFFECTS T CELL FATE AND IMMUNE RESPONSES. CELL METABOLISM MAY SERVE AS THE DRIVING FORCE THAT INDUCES EPIGENETIC MODIFICATIONS, CONTRIBUTING TO REGULATING T CELL DIFFERENTIATION. PERSISTENT PATHOGEN INFECTION LEADS TO T CELL EXHAUSTION, WHICH IS COMPOSED OF TWO MAIN SUBSETS AND WITH DISTINCT METABOLIC CHARACTERISTICS. THE PROGENITOR EXHAUSTED T CELLS UTILIZE MITOCHONDRIAL FATTY ACID OXIDATION (FAO) AND OXIDATIVE PHOSPHORYLATION (OXPHOS) FOR ENERGY, WHILE TERMINALLY EXHAUSTED T CELLS MAINLY RELY ON GLYCOLYTIC METABOLISM WITH IMPAIRED GLYCOLYSIS AND OXPHOS. HERE, WE COMPILED THE LATEST RESEARCH ON HOW T CELL METABOLISM DEFINES DIFFERENTIATION, FOCUSING ON T CELL EXHAUSTION DURING CHRONIC INFECTIONS. IN ADDITION, METABOLIC-RELATED FACTORS INCLUDING ANTIGEN STIMULATION SIGNALS STRENGTH, CYTOKINES AND EPIGENETICS AFFECTING T CELL EXHAUSTION WERE ALSO REVIEWED. FURTHERMORE, THE INTERVENTION STRATEGIES ON METABOLISM AND EPIGENETICS TO REVERSE T CELL EXHAUSTION WERE DISCUSSED IN DETAIL, WHICH MAY CONTRIBUTE TO ACHIEVING THE GOAL OF PREVENTION AND TREATMENT OF T CELL EXHAUSTION. 2022 7 3155 31 GLUTAMINE METABOLISM IN ADIPOCYTES: A BONA FIDE EPIGENETIC MODULATOR OF INFLAMMATION. A CHRONIC LOW-GRADE INFLAMMATION OF WHITE ADIPOSE TISSUE (WAT) IS ONE OF THE HALLMARKS OF OBESITY AND IS PROPOSED TO CONTRIBUTE TO INSULIN RESISTANCE AND TYPE 2 DIABETES. DESPITE THIS, THE CAUSAL MECHANISMS UNDERLYING WAT INFLAMMATION REMAIN UNCLEAR. BASED ON METABOLOMIC ANALYSES OF HUMAN WAT, PETRUS ET AL. SHOWED THAT THE AMINO ACID GLUTAMINE WAS THE MOST MARKEDLY REDUCED POLAR METABOLITE IN THE OBESE STATE. REDUCED GLUTAMINE LEVELS IN ADIPOCYTES INDUCE AN INCREASE OF URIDINE DIPHOSPHATE N-ACETYLGLUCOSAMINE (UDP-GLCNAC) LEVELS VIA INDUCTION OF GLYCOLYSIS AND THE HEXOSAMINE BIOSYNTHETIC PATHWAYS. THIS PROMOTES NUCLEAR O-GLCNACYLATION, A POSTTRANSLATIONAL MODIFICATION THAT ACTIVATES THE TRANSCRIPTION OF PRO-INFLAMMATORY GENES. CONVERSELY, GLUTAMINE SUPPLEMENTATION IN VITRO AND IN VIVO, REVERSED THESE EFFECTS. ALTOGETHER, DYSREGULATION OF INTRACELLULAR GLUTAMINE METABOLISM IN WAT ESTABLISHES AN EPIGENETIC LINK BETWEEN ADIPOCYTES AND INFLAMMATION. THIS COMMENTARY DISCUSSES THESE FINDINGS AND THEIR POSSIBLY THERAPEUTIC RELEVANCE IN RELATION TO INSULIN RESISTANCE AND TYPE 2 DIABETES. 2020 8 4386 30 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 9 6365 32 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 10 3115 37 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 11 6494 32 TRAINED IMMUNITY AS A NOVEL THERAPEUTIC STRATEGY. RECENT STUDIES HAVE SHOWN THAT UPON CERTAIN VACCINATIONS OR INFECTIONS HUMAN INNATE IMMUNE CELLS CAN UNDERGO EXTENSIVE METABOLIC AND EPIGENETIC REPROGRAMMING, WHICH RESULTS IN ENHANCED IMMUNE RESPONSES UPON HETEROLOGOUS RE-INFECTION, A PROCESS TERMED TRAINED IMMUNITY. TRAINED IMMUNITY HAS ALSO BEEN SHOWN TO BE INAPPROPRIATELY ACTIVATED IN INFLAMMATORY DISEASES. THIS PROVIDES THE POTENTIAL FOR IDENTIFYING NOVEL THERAPEUTIC TARGETS: POTENTIATION OF TRAINED IMMUNITY COULD PROTECT FROM SECONDARY INFECTIONS AND REVERSE IMMUNOTOLERANT STATES, WHILE INHIBITION OF TRAINED IMMUNITY MIGHT REDUCE EXCESSIVE IMMUNE ACTIVATION IN CHRONIC INFLAMMATORY CONDITIONS. BY TARGETING SPECIFIC MECHANISMS OF TRAINED IMMUNITY ON EITHER IMMUNOLOGIC, METABOLIC OR EPIGENETIC LEVEL, NOVEL THERAPEUTIC APPROACHES COULD BE DEVELOPED. 2018 12 6502 30 TRAINED IMMUNITY: LONG-TERM ADAPTATION IN INNATE IMMUNE RESPONSES. ADAPTIVE IMMUNE RESPONSES ARE CHARACTERIZED BY ANTIGEN SPECIFICITY AND INDUCTION OF LIFELONG IMMUNOLOGIC MEMORY. RECENTLY, IT HAS BEEN REPORTED THAT INNATE IMMUNE CELLS CAN ALSO BUILD IMMUNE MEMORY CHARACTERISTICS-A PROCESS TERMED TRAINED IMMUNITY. TRAINED IMMUNITY DESCRIBES THE PERSISTENT HYPERRESPONSIVE PHENOTYPE THAT INNATE IMMUNE CELLS CAN DEVELOP AFTER BRIEF STIMULATION. PATHOGENIC STIMULI SUCH AS MICROORGANISMS, AND ALSO ENDOGENOUS MOLECULES INCLUDING URIC ACID, OXIDIZED LDL (LOW-DENSITY LIPOPROTEIN), AND CATECHOLAMINES, ARE CAPABLE OF INDUCING MEMORY IN MONOCYTES AND MACROPHAGES. WHILE TRAINED IMMUNITY PROVIDES FAVORABLE CROSS-PROTECTION IN THE CONTEXT OF INFECTIOUS DISEASES, THE HEIGHTENED IMMUNE RESPONSE CAN BE MALADAPTIVE IN DISEASES DRIVEN BY CHRONIC SYSTEMIC INFLAMMATION, SUCH AS ATHEROSCLEROSIS. TRAINED IMMUNITY IS MAINTAINED BY DISTINCT EPIGENETIC AND METABOLIC MECHANISMS AND PERSISTS FOR AT LEAST SEVERAL MONTHS IN VIVO DUE TO REPROGRAMMING OF MYELOID PROGENITOR CELLS. ADDITIONALLY, CERTAIN NONIMMUNE CELLS ARE ALSO FOUND TO EXHIBIT TRAINED IMMUNITY CHARACTERISTICS. THUS, TRAINED IMMUNITY PRESENTS AN EXCITING FRAMEWORK TO DEVELOP NEW APPROACHES TO VACCINATION AND ALSO NOVEL PHARMACOLOGICAL TARGETS IN THE TREATMENT OF INFLAMMATORY DISEASES. 2021 13 771 32 CD8(+) T CELL EXHAUSTION. CD8(+) T CELLS ARE IMPORTANT FOR THE PROTECTIVE IMMUNITY AGAINST INTRACELLULAR PATHOGENS AND TUMOR. IN THE CASE OF CHRONIC INFECTION OR CANCER, CD8(+) T CELLS ARE EXPOSED TO PERSISTENT ANTIGEN AND/OR INFLAMMATORY SIGNALS. THIS EXCESSIVE AMOUNT OF SIGNALS OFTEN LEADS CD8(+) T CELLS TO GRADUAL DETERIORATION OF T CELL FUNCTION, A STATE CALLED "EXHAUSTION." EXHAUSTED T CELLS ARE CHARACTERIZED BY PROGRESSIVE LOSS OF EFFECTOR FUNCTIONS (CYTOKINE PRODUCTION AND KILLING FUNCTION), EXPRESSION OF MULTIPLE INHIBITORY RECEPTORS (SUCH AS PD-1 AND LAG3), DYSREGULATED METABOLISM, POOR MEMORY RECALL RESPONSE, AND HOMEOSTATIC PROLIFERATION. THESE ALTERED FUNCTIONS ARE CLOSELY RELATED WITH ALTERED TRANSCRIPTIONAL PROGRAM AND EPIGENETIC LANDSCAPE THAT CLEARLY DISTINGUISH EXHAUSTED T CELLS FROM NORMAL EFFECTOR AND MEMORY T CELLS. T CELL EXHAUSTION IS OFTEN ASSOCIATED WITH INEFFICIENT CONTROL OF PERSISTING INFECTIONS AND CANCERS, BUT RE-INVIGORATION OF EXHAUSTED T CELLS WITH INHIBITORY RECEPTOR BLOCKADE CAN PROMOTE IMPROVED IMMUNITY AND DISEASE OUTCOME. ACCUMULATING EVIDENCES SUPPORT THE THERAPEUTIC POTENTIAL OF TARGETING EXHAUSTED T CELLS. HOWEVER, EXHAUSTED T CELLS COMPRISE HETEROGENOUS CELL POPULATION WITH DISTINCT RESPONSIVENESS TO INTERVENTION. UNDERSTANDING MOLECULAR MECHANISM OF T CELL EXHAUSTION IS ESSENTIAL TO ESTABLISH RATIONAL IMMUNOTHERAPEUTIC INTERVENTIONS. 2019 14 4298 35 MICRORNA-146A GOVERNS FIBROBLAST ACTIVATION AND JOINT PATHOLOGY IN ARTHRITIS. SYNOVIAL FIBROBLASTS ARE KEY CELLS ORCHESTRATING THE INFLAMMATORY RESPONSE IN ARTHRITIS. HERE WE DEMONSTRATE THAT LOSS OF MIR-146A, A KEY EPIGENETIC REGULATOR OF THE INNATE IMMUNE RESPONSE, LEADS TO INCREASED JOINT DESTRUCTION IN A TNF-DRIVEN MODEL OF ARTHRITIS BY SPECIFICALLY REGULATING THE BEHAVIOR OF SYNOVIAL FIBROBLASTS. ABSENCE OF MIR-146A IN SYNOVIAL FIBROBLASTS DISPLAY A HIGHLY DEREGULATED GENE EXPRESSION PATTERN AND ENHANCED PROLIFERATION IN VITRO AND IN VIVO. DEFICIENCY OF MIR-146A INDUCES DEREGULATION OF TUMOR NECROSIS FACTOR (TNF) RECEPTOR ASSOCIATED FACTOR 6 (TRAF6) IN SYNOVIAL FIBROBLASTS, LEADING TO INCREASED PROLIFERATION. IN ADDITION, LOSS OF MIR-146A SHIFTS THE METABOLIC STATE OF FIBROBLASTS TOWARDS GLYCOLYSIS AND AUGMENTS THE ABILITY OF SYNOVIAL FIBROBLASTS TO SUPPORT THE GENERATION OF OSTEOCLASTS BY CONTROLLING THE BALANCE OF OSTEOCLASTOGENIC REGULATORY FACTORS RECEPTOR ACTIVATOR OF NF-KAPPAB LIGAND (RANKL) AND OSTEOPROTEGERIN (OPG). BONE MARROW TRANSPLANTATION EXPERIMENTS CONFIRMED THE IMPORTANCE OF MIR-146A IN THE RADIORESISTANT MESENCHYMAL COMPARTMENT FOR THE CONTROL OF ARTHRITIS SEVERITY, IN PARTICULAR FOR INFLAMMATORY JOINT DESTRUCTION. THIS STUDY THEREFORE IDENTIFIES MICRORNA-146A AS AN IMPORTANT LOCAL EPIGENETIC REGULATOR OF THE INFLAMMATORY RESPONSE IN ARTHRITIS. IT IS A CENTRAL ELEMENT OF AN ANTI-INFLAMMATORY FEEDBACK LOOP IN RESIDENT SYNOVIAL FIBROBLASTS, WHO ARE ORCHESTRATING THE INFLAMMATORY RESPONSE IN CHRONIC ARTHRITIS. MIR-146A RESTRICTS THEIR ACTIVATION, THEREBY PREVENTING EXCESSIVE TISSUE DAMAGE DURING ARTHRITIS. 2017 15 3184 28 HARNESSING METABOLISM OF HEPATIC MACROPHAGES TO AID LIVER REGENERATION. LIVER REGENERATION IS A DYNAMIC AND REGULATED PROCESS THAT INVOLVES INFLAMMATION, GRANULATION, AND TISSUE REMODELING. HEPATIC MACROPHAGES, ABUNDANTLY DISTRIBUTED IN THE LIVER, ARE ESSENTIAL COMPONENTS THAT ACTIVELY PARTICIPATE IN EACH STEP TO ORCHESTRATE LIVER REGENERATION. IN THE HOMEOSTATIC LIVER, RESIDENT MACROPHAGES (KUPFFER CELLS) ACQUIRE A TOLEROGENIC PHENOTYPE AND CONTRIBUTE TO IMMUNOLOGICAL TOLERANCE. FOLLOWING TOXICITY-INDUCED DAMAGE OR PHYSICAL RESECTION, KUPFFER CELLS AS WELL AS MONOCYTE-DERIVED MACROPHAGES CAN BE ACTIVATED AND PROMOTE AN INFLAMMATORY PROCESS THAT SUPPORTS THE SURVIVAL AND ACTIVATION OF HEPATIC MYOFIBROBLASTS AND THUS PROMOTES SCAR TISSUE FORMATION. SUBSEQUENTLY, THESE MACROPHAGES, IN TURN, EXHIBIT THE ANTI-INFLAMMATORY EFFECTS CRITICAL TO EXTRACELLULAR MATRIX REMODELING DURING THE RESOLUTION STAGE. HOWEVER, CONTINUOUS DAMAGE-INDUCED CHRONIC INFLAMMATION GENERALLY LEADS TO HEPATIC MACROPHAGE DYSFUNCTION, WHICH EXACERBATES HEPATOCELLULAR INJURY AND TRIGGERS FURTHER LIVER FIBROSIS AND EVEN CIRRHOSIS. EMERGING MACROPHAGE-TARGETING STRATEGIES HAVE SHOWN EFFICACY IN BOTH PRECLINICAL AND CLINICAL STUDIES. INCREASING EVIDENCE INDICATES THAT METABOLIC REWIRING PROVIDES SUBSTRATES FOR EPIGENETIC MODIFICATION, WHICH ENDOWS MONOCYTES/MACROPHAGES WITH PROLONGED "INNATE IMMUNE MEMORY". THEREFORE, IT IS REASONABLE TO CONCEIVE NOVEL THERAPEUTIC STRATEGIES FOR METABOLICALLY REPROGRAMMING MACROPHAGES AND THUS MEDIATE A HOMEOSTATIC OR REPARATIVE PROCESS FOR HEPATIC INFLAMMATION MANAGEMENT AND LIVER REGENERATION. 2023 16 4489 31 MONOCYTE AND MACROPHAGE IMMUNOMETABOLISM IN ATHEROSCLEROSIS. ATHEROSCLEROSIS IS CHARACTERIZED BY CHRONIC LOW GRADE INFLAMMATION OF ARTERIES THAT RESULTS IN THE DEVELOPMENT OF LIPID DENSE PLAQUES. CHRONIC INFLAMMATION INDUCED BY WESTERN-TYPE DIET IS ASSOCIATED WITH THE RISK OF DEVELOPING ATHEROSCLEROSIS, AND NEW INSIGHTS SHED LIGHT ON THE IMPORTANCE OF METABOLIC AND FUNCTIONAL REPROGRAMMING IN MONOCYTES AND MACROPHAGES FOR PROGRESSION OF ATHEROSCLEROSIS. THIS REVIEW AIMS TO PROVIDE AN OVERVIEW OF OUR CURRENT UNDERSTANDING INTO HOW THE METABOLIC REPROGRAMMING OF GLUCOSE, CHOLESTEROL, FATTY ACID, AND AMINO ACID METABOLISM IN MACROPHAGES CONTRIBUTES TO INFLAMMATION DURING ATHEROSCLEROSIS. RECENT INSIGHTS SUGGEST THAT TRANSCRIPTIONAL AND EPIGENETIC ADAPTATION WITHIN INNATE IMMUNE CELLS (TERMED TRAINED IMMUNITY) PLAY AN IMPORTANT ROLE IN THE PATHOGENESIS OF ATHEROSCLEROSIS. WE PROPOSE THAT METABOLIC CHANGES INDUCED BY PRO-ATHEROGENIC LIPOPROTEINS PARTLY MEDIATE THESE CHANGES IN TRAINED MACROPHAGES. FINALLY, WE DISCUSS THE POSSIBILITY OF MANIPULATING CELLULAR METABOLISM OF IMMUNE CELLS FOR TARGETED THERAPEUTIC INTERVENTION AGAINST ATHEROSCLEROSIS. 2018 17 6452 35 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 18 4570 31 MYELOMONOCYTIC CELLS IN GIANT CELL ARTERITIS ACTIVATE TRAINED IMMUNITY PROGRAMS SUSTAINING INFLAMMATION AND CYTOKINE PRODUCTION. OBJECTIVE: TRAINED IMMUNITY (TI) IS A DE FACTO MEMORY PROGRAM OF INNATE IMMUNE CELLS, CHARACTERIZED BY IMMUNOMETABOLIC AND EPIGENETIC CHANGES SUSTAINING ENHANCED PRODUCTION OF CYTOKINES. TI EVOLVED AS A PROTECTIVE MECHANISM AGAINST INFECTIONS; HOWEVER, INAPPROPRIATE ACTIVATION CAN CAUSE DETRIMENTAL INFLAMMATION AND MIGHT BE IMPLICATED IN THE PATHOGENESIS OF CHRONIC INFLAMMATORY DISEASES. IN THIS STUDY, WE INVESTIGATED THE ROLE OF TI IN THE PATHOGENESIS OF GIANT CELL ARTERITIS (GCA), A LARGE-VESSEL VASCULITIS CHARACTERIZED BY ABERRANT MACROPHAGE ACTIVATION AND EXCESS CYTOKINE PRODUCTION. METHODS: MONOCYTES FROM GCA PATIENTS AND FROM AGE- AND SEX-MATCHED HEALTHY DONORS WERE SUBJECTED TO POLYFUNCTIONAL STUDIES, INCLUDING CYTOKINE PRODUCTION ASSAYS AT BASELINE AND FOLLOWING STIMULATION, INTRACELLULAR METABOLOMICS, CHROMATIN IMMUNOPRECIPITATION-QPCR, AND COMBINED ATAC/RNA SEQUENCING. IMMUNOMETABOLIC ACTIVATION (I.E. GLYCOLYSIS) WAS ASSESSED IN INFLAMED VESSELS OF GCA PATIENTS WITH FDG-PET AND IMMUNOHISTOCHEMISTRY (IHC), AND THE ROLE OF THIS PATHWAY IN SUSTAINING CYTOKINE PRODUCTION WAS CONFIRMED WITH SELECTIVE PHARMACOLOGIC INHIBITION IN GCA MONOCYTES. RESULTS: GCA MONOCYTES EXHIBITED HALLMARK MOLECULAR FEATURES OF TI. SPECIFICALLY, THESE INCLUDED ENHANCED IL-6 PRODUCTION UPON STIMULATION, TYPICAL IMMUNOMETABOLIC CHANGES (E.G. INCREASED GLYCOLYSIS AND GLUTAMINOLYSIS) AND EPIGENETIC CHANGES PROMOTING ENHANCED TRANSCRIPTION OF GENES GOVERNING PRO-INFLAMMATORY ACTIVATION. IMMUNOMETABOLIC CHANGES OF TI (I.E. GLYCOLYSIS) WERE A FEATURE OF MYELOMONOCYTIC CELLS IN GCA LESIONS AND WERE REQUIRED FOR ENHANCED CYTOKINE PRODUCTION. CONCLUSIONS: MYELOMONOCYTIC CELLS IN GCA ACTIVATE TI PROGRAMS SUSTAINING ENHANCED INFLAMMATORY ACTIVATION WITH EXCESS CYTOKINE PRODUCTION. 2023 19 6376 28 THE ROLE OF NEUTROPHILS IN TRAINED IMMUNITY. THE PRINCIPLE OF TRAINED IMMUNITY REPRESENTS INNATE IMMUNE MEMORY DUE TO SUSTAINED, MAINLY EPIGENETIC, CHANGES TRIGGERED BY ENDOGENOUS OR EXOGENOUS STIMULI IN BONE MARROW (BM) PROGENITORS (CENTRAL TRAINED IMMUNITY) AND THEIR INNATE IMMUNE CELL PROGENY, THEREBY TRIGGERING ELEVATED RESPONSIVENESS AGAINST SECONDARY STIMULI. BM PROGENITORS CAN RESPOND TO MICROBIAL AND STERILE SIGNALS, THEREBY POSSIBLY ACQUIRING TRAINED IMMUNITY-MEDIATED LONG-LASTING ALTERATIONS THAT MAY SHAPE THE FATE AND FUNCTION OF THEIR PROGENY, FOR EXAMPLE, NEUTROPHILS. NEUTROPHILS, THE MOST ABUNDANT INNATE IMMUNE CELL POPULATION, ARE PRODUCED IN THE BM FROM COMMITTED PROGENITOR CELLS IN A PROCESS DESIGNATED GRANULOPOIESIS. NEUTROPHILS ARE THE FIRST RESPONDERS AGAINST INFECTIOUS OR INFLAMMATORY CHALLENGES AND HAVE VERSATILE FUNCTIONS IN IMMUNITY. TOGETHER WITH OTHER INNATE IMMUNE CELLS, NEUTROPHILS ARE EFFECTORS OF PERIPHERAL TRAINED IMMUNITY. HOWEVER, GIVEN THE SHORT LIFETIME OF NEUTROPHILS, THEIR ABILITY TO ACQUIRE IMMUNOLOGICAL MEMORY MAY LIE IN THE CENTRAL TRAINING OF THEIR BM PROGENITORS RESULTING IN GENERATION OF REPROGRAMMED, THAT IS, "TRAINED", NEUTROPHILS. ALTHOUGH TRAINED IMMUNITY MAY HAVE BENEFICIAL EFFECTS IN INFECTION OR CANCER, IT MAY ALSO MEDIATE DETRIMENTAL OUTCOMES IN CHRONIC INFLAMMATION. HERE, WE REVIEW THE EMERGING RESEARCH AREA OF TRAINED IMMUNITY WITH A PARTICULAR EMPHASIS ON THE ROLE OF NEUTROPHILS AND GRANULOPOIESIS. 2023 20 744 43 CANNABINOID WIN55,212-2 REPROGRAMS MONOCYTES AND MACROPHAGES TO INHIBIT LPS-INDUCED INFLAMMATION. INTRODUCTION: CHRONIC OR UNCONTROLLED ACTIVATION OF MYELOID CELLS INCLUDING MONOCYTES, MACROPHAGES AND DENDRITIC CELLS (DCS) IS A HALLMARK OF IMMUNE-MEDIATED INFLAMMATORY DISORDERS. THERE IS AN URGENT NEED FOR THE DEVELOPMENT OF NOVEL DRUGS WITH THE CAPACITY TO IMPAIR INNATE IMMUNE CELL OVERACTIVATION UNDER INFLAMMATORY CONDITIONS. COMPELLING EVIDENCE POINTED OUT CANNABINOIDS AS POTENTIAL THERAPEUTIC TOOLS WITH ANTI-INFLAMMATORY AND IMMUNOMODULATORY CAPACITY. WIN55,212-2, A NON-SELECTIVE SYNTHETIC CANNABINOID AGONIST, DISPLAYS PROTECTIVE EFFECTS IN SEVERAL INFLAMMATORY CONDITIONS BY MECHANISMS PARTIALLY DEPENDING ON THE GENERATION OF TOLEROGENIC DCS ABLE TO INDUCE FUNCTIONAL REGULATORY T CELLS (TREGS). HOWEVER, ITS IMMUNOMODULATORY CAPACITY ON OTHER MYELOID CELLS SUCH AS MONOCYTES AND MACROPHAGES REMAINS INCOMPLETELY UNDERSTOOD. METHODS: HUMAN MONOCYTE-DERIVED DCS (HMODCS) WERE DIFFERENTIATED IN THE ABSENCE (CONVENTIONAL HMODCS) OR PRESENCE OF WIN55,212-2 (WIN-HMODCS). CELLS WERE STIMULATED WITH LPS, COCULTURED WITH NAIVE T LYMPHOCYTES AND THEIR CYTOKINE PRODUCTION AND ABILITY TO INDUCE T CELL RESPONSES WERE ANALYSED BY ELISA OR FLOW CYTOMETRY. TO EVALUATE THE EFFECT OF WIN55,212-2 IN MACROPHAGE POLARIZATION, HUMAN AND MURINE MACROPHAGES WERE ACTIVATED WITH LPS OR LPS/IFNGAMMA, IN THE PRESENCE OR ABSENCE OF THE CANNABINOID. CYTOKINE, COSTIMULATORY MOLECULES AND INFLAMMASOME MARKERS WERE ASSAYED. METABOLIC AND CHROMATIN IMMUNOPRECIPITATION ASSAYS WERE ALSO PERFORMED. FINALLY, THE PROTECTIVE CAPACITY OF WIN55,212-2 WAS STUDIED IN VIVO IN BALB/C MICE AFTER INTRAPERITONEAL INJECTION WITH LPS. RESULTS: WE SHOW FOR THE FIRST TIME THAT THE DIFFERENTIATION OF HMODCS IN THE PRESENCE OF WIN55,212-2 GENERATES TOLEROGENIC WIN-HMODCS THAT ARE LESS RESPONSIVE TO LPS STIMULATION AND ABLE TO PRIME TREGS. WIN55,212-2 ALSO IMPAIRS THE PRO-INFLAMMATORY POLARIZATION OF HUMAN MACROPHAGES BY INHIBITING CYTOKINE PRODUCTION, INFLAMMASOME ACTIVATION AND RESCUING MACROPHAGES FROM PYROPTOTIC CELL DEATH. MECHANISTICALLY, WIN55,212-2 INDUCED A METABOLIC AND EPIGENETIC SHIFT IN MACROPHAGES BY DECREASING LPS-INDUCED MTORC1 SIGNALING, COMMITMENT TO GLYCOLYSIS AND ACTIVE HISTONE MARKS IN PRO-INFLAMMATORY CYTOKINE PROMOTERS. WE CONFIRMED THESE DATA IN EX VIVO LPS-STIMULATED PERITONEAL MACROPHAGES (PMPHIS), WHICH WERE ALSO SUPPORTED BY THE IN VIVO ANTI-INFLAMMATORY CAPACITY OF WIN55,212-2 IN A LPS-INDUCED SEPSIS MOUSE MODEL. CONCLUSION: OVERALL, WE SHED LIGHT INTO THE MOLECULAR MECHANISMS BY WHICH CANNABINOIDS EXERT ANTI-INFLAMMATORY PROPERTIES IN MYELOID CELLS, WHICH MIGHT WELL CONTRIBUTE TO THE FUTURE RATIONAL DESIGN OF NOVEL THERAPEUTIC STRATEGIES FOR INFLAMMATORY DISORDERS. 2023