1 5967 153 TERMINATION OF ACUTE STRESS RESPONSE BY THE ENDOCANNABINOID SYSTEM IS REGULATED THROUGH LYSINE-SPECIFIC DEMETHYLASE 1-MEDIATED TRANSCRIPTIONAL REPRESSION OF 2-AG HYDROLASES ABHD6 AND MAGL. ACUTE ENVIRONMENTAL STRESS RARELY IMPLIES LONG-LASTING NEUROPHYSIOLOGICAL AND BEHAVIORAL ALTERATIONS. ON THE CONTRARY, CHRONIC STRESS EXERTS A POTENT TOXIC EFFECT AT THE GLUTAMATERGIC SYNAPSE WHOSE ALTERED PHYSIOLOGY HAS BEEN RECOGNIZED AS A CORE TRAIT OF NEUROPSYCHIATRIC DISORDERS. THE ENDOCANNABINOID SYSTEM (ECS) PLAYS AN IMPORTANT ROLE IN THE HOMEOSTATIC RESPONSE TO ACUTE STRESS. IN PARTICULAR, STRESS INDUCES SYNTHESIS OF ENDOCANNABINOID (ECB) 2-ARACHIDONYL GLYCEROL (2-AG). 2-AG STIMULATES PRESYNAPTIC CANNABINOID 1 (CB1) RECEPTOR CONTRIBUTING TO STRESS RESPONSE TERMINATION THROUGH INHIBITION OF GLUTAMATE RELEASE, RESTRAINING THEREAFTER ANXIETY AROUSAL. WE EMPLOY MOUSE MODELS OF STRESS RESPONSE COUPLED TO GENE EXPRESSION ANALYSES, UNRAVELLING THAT IN RESPONSE TO ACUTE PSYCHOSOCIAL STRESS IN THE MOUSE HIPPOCAMPUS, ECS-MEDIATED SYNAPTIC MODULATION IS ENHANCED VIA TRANSCRIPTIONAL REPRESSION OF TWO ENZYMES INVOLVED IN 2-AG DEGRADATION: ALPHA/BETA-HYDROLASE DOMAIN CONTAINING 6 (ABHD6) AND MONOACYLGLYCEROL LIPASE (MAGL). SUCH A PROCESS IS ORCHESTRATED BY THE EPIGENETIC COREPRESSOR LSD1 WHO DIRECTLY INTERACTS WITH PROMOTER REGULATORY REGIONS OF ABHD6 AND MAGL. REMARKABLY, NEGATIVE TRANSCRIPTIONAL CONTROL OF ABHD6 AND MAGL IS LOST IN THE HIPPOCAMPUS UPON CHRONIC PSYCHOSOCIAL STRESS, POSSIBLY CONTRIBUTING TO TRAUMA-INDUCED DRIFT OF SYNAPSE PHYSIOLOGY TOWARD UNCONTROLLED GLUTAMATE TRANSMISSION. WE PREVIOUSLY SHOWED THAT IN MICE LYSINE-SPECIFIC DEMETHYLASE 1 (LSD1) INCREASES ITS HIPPOCAMPAL EXPRESSION IN RESPONSE TO PSYCHOSOCIAL STRESS PREVENTING EXCESSIVE CONSOLIDATION OF ANXIETY-RELATED PLASTICITY. IN THIS WORK, WE UNRAVEL A NODAL EPIGENETIC MODULATION OF ECB TURN OVER, SHEDDING NEW LIGHT ON THE MOLECULAR SUBSTRATE OF CONVERGING STRESS-TERMINATING EFFECTS DISPLAYED BY ECS AND LSD1. 2020 2 4842 30 ONE YEAR IN REVIEW 2017: PATHOGENESIS OF RHEUMATOID ARTHRITIS. RHEUMATOID ARTHRITIS (RA) IS A CHRONIC INFLAMMATORY AUTOIMMUNE DISEASE INFLUENCED BY BOTH GENETIC AND ENVIRONMENTAL FACTORS. IT HAS BEEN POSTULATED THAT A HIGH-RISK GENETIC BACKGROUND, IN COMBINATION WITH EPIGENETIC MARKS AND ENVIRONMENTAL EXPOSURES, LEADS TO A CASCADE OF EVENTS INDUCING SYNOVITIS AND CONSEQUENT DESTRUCTIVE ARTHRITIS. THE CLINICAL PICTURE OF JOINT INVOLVEMENT IN RA IS THE RESULT OF CHRONIC INFLAMMATION OF THE SYNOVIUM, CHARACTERISED BY INTERACTIONS OF RESIDENT CELLS SUCH AS FIBROBLAST-LIKE SYNOVIOCYTES (FLS) WITH CELLS OF THE INNATE (E.G. MACROPHAGES, DENDRITIC CELLS, MAST CELLS AND NK CELLS, NEUTROPHILS) AND ADAPTIVE IMMUNE SYSTEM (E.G. B AND T LYMPHOCYTES). CURRENTLY, OUR UNDERSTANDING OF THE ROLE OF INNATE AND ADAPTIVE IMMUNITY IN THE PATHOGENESIS OF RA IS EXPANDING. THE CONCEPT OF HOW IMMUNE RESPONSES CONTRIBUTE TO THE DISEASE HAS DRAMATICALLY EVOLVED OVER THE LAST 50 YEARS. SHEDDING SOME LIGHT ON THE DIFFERENT ASPECTS OF RA PATHOGENESIS WILL HELP TO IDENTIFY NEW TARGETS FOR THE DEVELOPMENT OF DISEASE-MODIFYING THERAPIES. THUS, IN THIS REVIEW WE REPORT NEW INSIGHTS IN RA PATHOGENESIS, RESULTING FROM A LITERATURE RESEARCH DATE PUBLISHED IN THE LAST YEAR. 2017 3 2354 25 EPIGENETIC REGULATION OF PERSISTENT PAIN. PERSISTENT OR CHRONIC PAIN IS TIGHTLY ASSOCIATED WITH VARIOUS ENVIRONMENTAL CHANGES AND LINKED TO ABNORMAL GENE EXPRESSION WITHIN CELLS PROCESSING NOCICEPTIVE SIGNALING. EPIGENETIC REGULATION GOVERNS GENE EXPRESSION IN RESPONSE TO ENVIRONMENTAL CUES. RECENT ANIMAL MODEL AND CLINICAL STUDIES INDICATE THAT EPIGENETIC REGULATION PLAYS AN IMPORTANT ROLE IN THE DEVELOPMENT OR MAINTENANCE OF PERSISTENT PAIN AND POSSIBLY THE TRANSITION OF ACUTE PAIN TO CHRONIC PAIN, THUS SHEDDING LIGHT IN A DIRECTION FOR DEVELOPMENT OF NEW THERAPEUTICS FOR PERSISTENT PAIN. 2015 4 2065 26 EPIGENETIC CONTROL OF INTESTINAL BARRIER FUNCTION AND INFLAMMATION IN ZEBRAFISH. THE INTESTINAL EPITHELIUM FORMS A BARRIER PROTECTING THE ORGANISM FROM MICROBES AND OTHER PROINFLAMMATORY STIMULI. THE INTEGRITY OF THIS BARRIER AND THE PROPER RESPONSE TO INFECTION REQUIRES PRECISE REGULATION OF POWERFUL IMMUNE HOMING SIGNALS SUCH AS TUMOR NECROSIS FACTOR (TNF). DYSREGULATION OF TNF LEADS TO INFLAMMATORY BOWEL DISEASES (IBD), BUT THE MECHANISM CONTROLLING THE EXPRESSION OF THIS POTENT CYTOKINE AND THE EVENTS THAT TRIGGER THE ONSET OF CHRONIC INFLAMMATION ARE UNKNOWN. HERE, WE SHOW THAT LOSS OF FUNCTION OF THE EPIGENETIC REGULATOR UBIQUITIN-LIKE PROTEIN CONTAINING PHD AND RING FINGER DOMAINS 1 (UHRF1) IN ZEBRAFISH LEADS TO A REDUCTION IN TNFA PROMOTER METHYLATION AND THE INDUCTION OF TNFA EXPRESSION IN INTESTINAL EPITHELIAL CELLS (IECS). THE INCREASE IN IEC TNFA LEVELS IS MICROBE-DEPENDENT AND RESULTS IN IEC SHEDDING AND APOPTOSIS, IMMUNE CELL RECRUITMENT, AND BARRIER DYSFUNCTION, CONSISTENT WITH CHRONIC INFLAMMATION. IMPORTANTLY, TNFA KNOCKDOWN IN UHRF1 MUTANTS RESTORES IEC MORPHOLOGY, REDUCES CELL SHEDDING, AND IMPROVES BARRIER FUNCTION. WE PROPOSE THAT LOSS OF EPIGENETIC REPRESSION AND TNF INDUCTION IN THE INTESTINAL EPITHELIUM CAN LEAD TO IBD ONSET. 2015 5 6592 29 TUMOR-ASSOCIATED MACROPHAGES IN HEPATOCELLULAR CARCINOMA PATHOGENESIS, PROGNOSIS AND THERAPY. HEPATOCELLULAR CARCINOMA (HCC) CONSTITUTES A MAJOR HEALTH BURDEN GLOBALLY, AND IT IS CAUSED BY INTRINSIC GENETIC MUTATIONS ACTING IN CONCERT WITH A MULTITUDE OF EPIGENETIC AND EXTRINSIC RISK FACTORS. CANCER INDUCES MYELOPOIESIS IN THE BONE MARROW, AS WELL AS THE MOBILIZATION OF HEMATOPOIETIC STEM AND PROGENITOR CELLS, WHICH RESIDE IN THE SPLEEN. MONOCYTES PRODUCED IN THE BONE MARROW AND THE SPLEEN FURTHER INFILTRATE TUMORS, WHERE THEY DIFFERENTIATE INTO TUMOR-ASSOCIATED MACROPHAGES (TAMS). THE RELATIONSHIP BETWEEN CHRONIC INFLAMMATION AND HEPATOCARCINOGENESIS HAS BEEN THOROUGHLY INVESTIGATED OVER THE PAST DECADE; HOWEVER, SEVERAL ASPECTS OF THE ROLE OF TAMS IN HCC DEVELOPMENT ARE YET TO BE DETERMINED. IN RESPONSE TO CERTAIN STIMULI AND SIGNALING, MONOCYTES DIFFERENTIATE INTO MACROPHAGES WITH ANTITUMOR PROPERTIES, WHICH ARE CLASSIFIED AS M1-LIKE. ON THE OTHER HAND, UNDER DIFFERENT STIMULI AND SIGNALING, THE POLARIZATION OF MACROPHAGES SHIFTS TOWARDS AN M2-LIKE PHENOTYPE WITH A TUMOR PROMOTING CAPACITY. M2-LIKE MACROPHAGES DRIVE TUMOR GROWTH BOTH DIRECTLY AND INDIRECTLY, VIA THE SUPPRESSION OF CYTOTOXIC CELL POPULATIONS, INCLUDING CD8+ T CELLS AND NK CELLS. THE TUMOR MICROENVIRONMENT AFFECTS THE RESPONSE TO IMMUNOTHERAPIES. THEREFORE, AN ENHANCED UNDERSTANDING OF ITS IMMUNOBIOLOGY IS ESSENTIAL FOR THE DEVELOPMENT OF NEXT-GENERATION IMMUNOTHERAPIES. THE UTILIZATION OF VARIOUS MONOCYTE-CENTERED ANTICANCER TREATMENT MODALITIES HAS BEEN UNDER CLINICAL INVESTIGATION, SELECTIVELY TARGETING AND MODULATING THE PROCESSES OF MONOCYTE RECRUITMENT, ACTIVATION AND MIGRATION. THIS REVIEW SUMMARIZES THE CURRENT EVIDENCE ON THE ROLE OF TAMS IN HCC PATHOGENESIS AND PROGRESSION, AS WELL AS IN THEIR POTENTIAL INVOLVEMENT IN TUMOR THERAPY, SHEDDING LIGHT ON EMERGING ANTICANCER TREATMENT METHODS TARGETING MONOCYTES. 2022 6 209 32 ACTIVATION-INDUCED CYTIDINE DEAMINASE: IN SICKNESS AND IN HEALTH. ACTIVATION INDUCED CYTIDINE DEAMINASE (AID) IS AN ESSENTIAL ENZYME OF THE ADAPTIVE IMMUNE SYSTEM. ITS CANONICAL ACTIVITY IS RESTRICTED TO B LYMPHOCYTES, PLAYING AN ESSENTIAL ROLE IN THE DIVERSIFICATION OF ANTIBODIES BY ENHANCING SPECIFICITY AND CHANGING AFFINITY. THIS IS POSSIBLE THROUGH ITS DNA DEAMINASE FUNCTION, LEADING TO MUTATIONS IN DNA. IN THE LAST DECADE, AID HAS BEEN ASSIGNED AN ADDITIONAL FUNCTION: THAT OF A POWERFUL DNA DEMETHYLATOR. ADVERSE CELLULAR CONDITIONS SUCH AS CHRONIC INFLAMMATION CAN LEAD TO ITS DEREGULATION AND OVEREXPRESSION. IT IS AN IMPORTANT DRIVER OF B-CELL LYMPHOMA DUE TO ITS NATURAL ABILITY TO MODIFY DNA THROUGH DEAMINATION, LEADING TO MUTATIONS AND EPIGENETIC CHANGES. HOWEVER, THE DEREGULATION OF AID IS NOT RESTRICTED TO LYMPHOID CELLS. RECENT FINDINGS HAVE PROVIDED NEW INSIGHTS INTO THE ROLE THAT THIS PROTEIN PLAYS IN THE DEVELOPMENT OF NON-LYMPHOID CANCERS, WITH SOME RESEARCH SHEDDING LIGHT ON NOVEL AID-DRIVEN MECHANISMS OF CELLULAR TRANSFORMATION. IN THIS REVIEW, WE PROVIDE AN UPDATED NARRATIVE OF THE NORMAL PHYSIOLOGICAL FUNCTIONS OF AID. ADDITIONALLY, WE REVIEW AND DISCUSS THE RECENT RESEARCH STUDIES THAT HAVE IMPLICATED AID IN CARCINOGENESIS IN VARYING TISSUE TYPES INCLUDING LYMPHOID AND NON-LYMPHOID CANCERS. WE REVIEW THE MECHANISMS, WHEREBY AID PROMOTES CARCINOGENESIS AND HIGHLIGHT IMPORTANT AREAS OF FUTURE RESEARCH. 2020 7 4844 24 ONE YEAR IN REVIEW 2019: PATHOGENESIS OF RHEUMATOID ARTHRITIS. RHEUMATOID ARTHRITIS (RA) IS A CHRONIC INFLAMMATORY AUTOIMMUNE DISEASE INFLUENCED BY BOTH GENETIC AND ENVIRONMENTAL FACTORS. OVER THE LAST FEW YEARS, PARTICULAR ATTENTION HAS BEEN GIVEN TO NOVEL GENES AND TO THE CLOSE INTERACTION BETWEEN GENETIC FACTORS AND EPIGENETIC MECHANISMS. RESEARCH HAS ALSO FOCUSED ON THE INFLUENCE OF ENVIRONMENTAL FACTORS ON DISEASE DEVELOPMENT, AND ON NEW MECHANISMS OF THE INNATE AND ADAPTIVE IMMUNE SYSTEM THAT CAN INFLUENCE THE DIFFERENT STAGES OF RA. HOWEVER, THERE ARE STILL SEVERAL ASPECTS OF THE DISEASE THAT NEED FURTHER INVESTIGATION. SHEDDING SOME LIGHT ON THE DIFFERENT ASPECTS OF RA PATHOGENESIS WILL HELP TO IMPROVE THE CURRENT DIAGNOSTIC TOOLS AND TO IDENTIFY NEW TARGETS FOR THE DEVELOPMENT OF DISEASE-MODIFYING THERAPIES. THUS, IN THIS REVIEW WE SUMMARISE THE NEW INSIGHTS IN RA PATHOGENESIS, RESULTING FROM LITERATURE RESEARCH DATA PUBLISHED IN THE LAST YEAR. 2019 8 6741 18 WHERE TO STAND WITH STROMAL CELLS AND CHRONIC SYNOVITIS IN RHEUMATOID ARTHRITIS? THE SYNOVIUM EXERCISES ITS MAIN FUNCTION IN JOINT HOMEOSTASIS THROUGH THE SECRETION OF FACTORS (SUCH AS LUBRICIN AND HYALURONIC ACID) THAT ARE CRITICAL FOR THE JOINT LUBRICATION AND FUNCTION. THE MAIN SYNOVIUM CELL COMPONENTS ARE FIBROBLAST-LIKE SYNOVIOCYTES, MESENCHYMAL STROMAL/STEM CELLS AND MACROPHAGE-LIKE SYNOVIAL CELLS. IN THE SYNOVIUM, CELLS OF MESENCHYMAL ORIGIN MODULATE LOCAL INFLAMMATION AND FIBROSIS, AND INTERACT WITH DIFFERENT FIBROBLAST SUBTYPES AND WITH RESIDENT MACROPHAGES. IN PATHOLOGIC CONDITIONS, SUCH AS RHEUMATOID ARTHRITIS, FIBROBLAST-LIKE SYNOVIOCYTES PROLIFERATE ABNORMALLY, RECRUIT MESENCHYMAL STEM CELLS FROM SUBCHONDRAL BONE MARROW, AND INFLUENCE IMMUNE CELL ACTIVITY THROUGH EPIGENETIC AND METABOLIC ADAPTATIONS. THE RESULTING SYNOVIAL HYPERPLASIA LEADS TO SECONDARY CARTILAGE DESTRUCTION, JOINT SWELLING, AND PAIN. IN THE PRESENT REVIEW, WE SUMMARIZE RECENT FINDINGS ON THE MOLECULAR SIGNATURE AND THE ROLES OF STROMAL CELLS DURING SYNOVIAL PANNUS FORMATION AND RHEUMATOID ARTHRITIS PROGRESSION. 2019 9 1884 49 ENDOCANNABINOID-EPIGENETIC CROSS-TALK: A BRIDGE TOWARD STRESS COPING. THERE IS NO ARGUMENT WITH REGARD TO THE PHYSICAL AND PSYCHOLOGICAL STRESS-RELATED NATURE OF NEUROPSYCHIATRIC DISORDERS. YET, THE MECHANISMS THAT FACILITATE DISEASE ONSET STARTING FROM MOLECULAR STRESS RESPONSES ARE ELUSIVE. ENVIRONMENTAL STRESS CHALLENGES INDIVIDUALS' EQUILIBRIUM, ENHANCING HOMEOSTATIC REQUEST IN THE ATTEMPT TO STEER DOWN AROUSAL-INSTRUMENTAL MOLECULAR PATHWAYS THAT UNDERLIE HYPERVIGILANCE AND ANXIETY. A RELEVANT HOMEOSTATIC PATHWAY IS THE ENDOCANNABINOID SYSTEM (ECS). IN THIS REVIEW, WE SUMMARIZE RECENT DISCOVERIES UNAMBIGUOUSLY LISTING ECS AS A STRESS COPING MECHANISM. AS STRESS EVOKES HUGE EXCITATORY RESPONSES IN EMOTIONAL-RELEVANT LIMBIC AREAS, THE ECS LIMITS GLUTAMATE RELEASE VIA 2-ARACHYDONILGLYCEROL (2-AG) STRESS-INDUCED SYNTHESIS AND RETROGRADE CANNABINOID 1 (CB1)-RECEPTOR ACTIVATION AT THE SYNAPSE. HOWEVER, ECS SHOWS INTRINSIC VULNERABILITY AS 2-AG OVERSTIMULATION BY CHRONIC STRESS RAPIDLY LEADS TO CB1-RECEPTOR DESENSITIZATION. IN THIS REVIEW, WE EMPHASIZE THE PROTECTIVE ROLE OF 2-AG IN STRESS-RESPONSE TERMINATION AND STRESS RESILIENCY. INTERESTINGLY, WE DISCUSS ECS REGULATION WITH A FURTHER NUCLEAR HOMEOSTATIC SYSTEM WHOSE NATURE IS EXQUISITELY EPIGENETIC, ORCHESTRATED BY LYSINE SPECIFIC DEMETHYLASE 1. WE HERE EMPHASIZE A REMARKABLE EXAMPLE OF STRESS-COPING NETWORK WHERE TRANSCRIPTIONAL HOMEOSTASIS SUBSERVES SYNAPTIC AND BEHAVIORAL ADAPTATION, AIMING AT REDUCING PSYCHIATRIC EFFECTS OF TRAUMATIC EXPERIENCES. 2020 10 5242 31 PROGESTERONE RESISTANCE IN ENDOMETRIOSIS: ORIGINS, CONSEQUENCES AND INTERVENTIONS. ENDOMETRIOSIS IS A COMMON CAUSE OF PELVIC PAIN AND AFFECTS UP TO 10% OF WOMEN OF REPRODUCTIVE AGE. ABERRANT PROGESTERONE SIGNALING IN THE ENDOMETRIUM PLAYS A SIGNIFICANT ROLE IN IMPAIRED DECIDUALIZATION AND ESTABLISHMENT OF ECTOPIC ENDOMETRIAL IMPLANTS. EUTOPIC ENDOMETRIAL CELLS FROM WOMEN WITH ENDOMETRIOSIS FAIL TO DOWNREGULATE GENES NEEDED FOR DECIDUALIZATION, SUCH AS THOSE INVOLVED IN CELL CYCLE REGULATION, LEADING TO UNBRIDLED PROLIFERATION. SEVERAL CAUSES OF PROGESTERONE RESISTANCE IN THE ENDOMETRIUM HAVE BEEN POSTULATED, INCLUDING CONGENITAL "PRECONDITIONING", WHEREBY THE IN UTERO ENVIRONMENT RENDERS INFANTS SUSCEPTIBLE TO NEONATAL UTERINE BLEEDING AND ENDOMETRIOSIS. PROGESTERONE ACTION IS CRUCIAL TO DECREASING INFLAMMATION IN THE ENDOMETRIUM, AND DEVIANT PROGESTERONE SIGNALING RESULTS IN A PROINFLAMMATORY PHENOTYPE. CONVERSELY, CHRONIC INFLAMMATION CAN INDUCE A PROGESTERONE-RESISTANT STATE. REPETITIVE RETROGRADE ENDOMETRIAL SHEDDING BEGETS CHRONIC PERITONEAL INFLAMMATION, WHICH FURTHER EXACERBATES PROGESTERONE RESISTANCE. GENETIC CAUSES OF PROGESTERONE RESISTANCE INCLUDE PROGESTERONE RECEPTOR GENE POLYMORPHISMS, ALTERED MICRORNA EXPRESSION, AND EPIGENETIC MODIFICATIONS TO PROGESTERONE RECEPTORS AND THEIR TARGETS. ENVIRONMENTAL TOXINS SUCH AS DIOXIN PLAY A POSSIBLE ROLE IN THE GENESIS OF ENDOMETRIOSIS BY PERMITTING AN INFLAMMATORY MILIEU. A CONSEQUENCE OF IMPAIRED PROGESTERONE ACTION IS THAT HORMONAL THERAPY IS RENDERED INEFFECTIVE FOR A SUBSET OF WOMEN WITH ENDOMETRIOSIS. SYNTHETIC PROGESTINS, SUCH AS DIENOGEST, MAY OVERCOME THIS PHENOMENON BY INCREASING PROGESTERONE RECEPTOR EXPRESSION AND DECREASING PROINFLAMMATORY CYTOKINES. OTHER MODALITIES INCLUDE HIGH DOSE DEPOT FORMULATIONS OF PROGESTINS, MEDICATED INTRAUTERINE DEVICES AND THE LIKELY ADVENT OF ORAL GNRH ANTAGONISTS. UNEARTHING ROOT CAUSES OF PROGESTERONE INACTION IN ENDOMETRIOSIS WILL AID IN THE DEVELOPMENT OF NOVEL THERAPEUTICS GEARED TOWARD PREVENTION AND TREATMENT. 2017 11 4955 26 PATHOGENESIS OF COVID-19 DESCRIBED THROUGH THE LENS OF AN UNDERSULFATED AND DEGRADED EPITHELIAL AND ENDOTHELIAL GLYCOCALYX. THE GLYCOCALYX SURROUNDS EVERY EUKARYOTIC CELL AND IS A COMPLEX MESH OF PROTEINS AND CARBOHYDRATES. IT CONSISTS OF PROTEOGLYCANS WITH GLYCOSAMINOGLYCAN SIDE CHAINS, WHICH ARE HIGHLY SULFATED UNDER NORMAL PHYSIOLOGICAL CONDITIONS. THE DEGREE OF SULFATION AND THE POSITION OF THE SULFATE GROUPS MAINLY DETERMINE BIOLOGICAL FUNCTION. THE INTACT HIGHLY SULFATED GLYCOCALYX OF THE EPITHELIUM MAY REPEL SEVERE ACUTE RESPIRATORY SYNDROME-RELATED CORONAVIRUS 2 (SARS-COV-2) THROUGH ELECTROSTATIC FORCES. HOWEVER, IF THE GLYCOCALYX IS UNDERSULFATED AND 3-O-SULFOTRANSFERASE 3B (3OST-3B) IS OVEREXPRESSED, AS IS THE CASE DURING CHRONIC INFLAMMATORY CONDITIONS, SARS-COV-2 ENTRY MAY BE FACILITATED BY THE GLYCOCALYX. THE DEGREE OF SULFATION AND POSITION OF THE SULFATE GROUPS WILL ALSO AFFECT FUNCTIONS SUCH AS IMMUNE MODULATION, THE INFLAMMATORY RESPONSE, VASCULAR PERMEABILITY AND TONE, COAGULATION, MEDIATION OF SHEER STRESS, AND PROTECTION AGAINST OXIDATIVE STRESS. THE RATE-LIMITING FACTOR TO SULFATION IS THE AVAILABILITY OF INORGANIC SULFATE. VARIOUS GENETIC AND EPIGENETIC FACTORS WILL AFFECT SULFUR METABOLISM AND INORGANIC SULFATE AVAILABILITY, SUCH AS VARIOUS DIETARY FACTORS, AND EXPOSURE TO DRUGS, ENVIRONMENTAL TOXINS, AND BIOTOXINS, WHICH WILL DEPLETE INORGANIC SULFATE. THE ROLE THAT UNDERSULFATION PLAYS IN THE VARIOUS COMORBID CONDITIONS THAT PREDISPOSE TO CORONAVIRUS DISEASE 2019 (COVID-19), IS ALSO CONSIDERED. THE UNDERSULFATED GLYCOCALYX MAY NOT ONLY INCREASE SUSCEPTIBILITY TO SARS-COV-2 INFECTION, BUT WOULD ALSO RESULT IN A HYPERINFLAMMATORY RESPONSE, VASCULAR PERMEABILITY, AND SHEDDING OF THE GLYCOCALYX COMPONENTS, GIVING RISE TO A PROCOAGULANT AND ANTIFIBRINOLYTIC STATE AND EVENTUAL MULTIPLE ORGAN FAILURE. THESE SYMPTOMS RELATE TO A DIAGNOSIS OF SYSTEMIC SEPTIC SHOCK SEEN IN ALMOST ALL COVID-19 DEATHS. THE FOCUS OF PREVENTION AND TREATMENT PROTOCOLS PROPOSED IS THE PRESERVATION OF EPITHELIAL AND ENDOTHELIAL GLYCOCALYX INTEGRITY. 2022 12 1476 22 DIVERSE EPIGENETIC REGULATIONS OF MACROPHAGES IN ATHEROSCLEROSIS. EMERGING RESEARCH ON EPIGENETICS HAS RESULTED IN MANY NOVEL DISCOVERIES IN ATHEROSCLEROSIS (AS), AN INFLAMMAGING-ASSOCIATED DISEASE CHARACTERIZED BY CHRONIC INFLAMMATION PRIMARILY DRIVEN BY MACROPHAGES. THE BULK OF EVIDENCE HAS DEMONSTRATED THE CENTRAL ROLE OF EPIGENETIC MACHINERY IN MACROPHAGE POLARIZATION TO PRO- (M1-LIKE) OR ANTI-INFLAMMATORY (M2-LIKE) PHENOTYPE. AN INCREASING NUMBER OF EPIGENETIC ALTERATIONS AND THEIR MODIFIERS INVOLVED IN REPROGRAMMING MACROPHAGES BY REGULATING DNA METHYLATION OR HISTONE MODIFICATIONS (E.G., METHYLATION, ACETYLATION, AND RECENTLY LACTYLATION) HAVE BEEN IDENTIFIED. THEY MAY ACT TO DETERMINE OR SKEW THE DIRECTION OF MACROPHAGE POLARIZATION IN AS LESIONS, THEREBY REPRESENTING A PROMISING TARGET. HERE WE DESCRIBE THE CURRENT UNDERSTANDING OF THE EPIGENETIC MACHINERY INVOLVING MACROPHAGE POLARIZATION, TO SHED LIGHT ON CHRONIC INFLAMMATION-DRIVING ONSET AND PROGRESSION OF INFLAMMAGING-ASSOCIATED DISEASES, USING AS AS A PROTOTYPIC EXAMPLE, AND DISCUSS THE CHALLENGE FOR DEVELOPING EFFECTIVE THERAPIES TARGETING THE EPIGENETIC MODIFIERS AGAINST THESE DISEASES, PARTICULARLY HIGHLIGHTING A POTENTIAL STRATEGY BASED ON EPIGENETICALLY-GOVERNED REPOLARIZATION FROM M1-LIKE TO M2-LIKE PHENOTYPE. 2022 13 5265 21 PROMISING THERAPEUTIC TARGETS FOR TREATMENT OF RHEUMATOID ARTHRITIS. RHEUMATOID ARTHRITIS (RA) IS A SYSTEMIC POLY-ARTICULAR CHRONIC AUTOIMMUNE JOINT DISEASE THAT MAINLY DAMAGES THE HANDS AND FEET, WHICH AFFECTS 0.5% TO 1.0% OF THE POPULATION WORLDWIDE. WITH THE SUSTAINED DEVELOPMENT OF DISEASE-MODIFYING ANTIRHEUMATIC DRUGS (DMARDS), SIGNIFICANT SUCCESS HAS BEEN ACHIEVED FOR PREVENTING AND RELIEVING DISEASE ACTIVITY IN RA PATIENTS. UNFORTUNATELY, SOME PATIENTS STILL SHOW LIMITED RESPONSE TO DMARDS, WHICH PUTS FORWARD NEW REQUIREMENTS FOR SPECIAL TARGETS AND NOVEL THERAPIES. UNDERSTANDING THE PATHOGENETIC ROLES OF THE VARIOUS MOLECULES IN RA COULD FACILITATE DISCOVERY OF POTENTIAL THERAPEUTIC TARGETS AND APPROACHES. IN THIS REVIEW, BOTH EXISTING AND EMERGING TARGETS, INCLUDING THE PROTEINS, SMALL MOLECULAR METABOLITES, AND EPIGENETIC REGULATORS RELATED TO RA, ARE DISCUSSED, WITH A FOCUS ON THE MECHANISMS THAT RESULT IN INFLAMMATION AND THE DEVELOPMENT OF NEW DRUGS FOR BLOCKING THE VARIOUS MODULATORS IN RA. 2021 14 4097 22 MATRIX STIFFNESS REGULATES MACROPHAGE POLARIZATION IN ATHEROSCLEROSIS. ATHEROSCLEROSIS IS A CHRONIC INFLAMMATORY DISEASE AND THE PATHOLOGICAL BASIS OF MANY FATAL CARDIOVASCULAR DISEASES. MACROPHAGES, THE MAIN INFLAMMATORY CELLS IN ATHEROSCLEROTIC PLAQUE, HAVE A PARADOX ROLE IN DISEASE PROGRESSION. IN RESPONSE TO DIFFERENT MICROENVIRONMENTS, MACROPHAGES MAINLY HAVE TWO POLARIZED DIRECTIONS: PRO-INFLAMMATORY MACROPHAGES AND ANTI-INFLAMMATORY MACROPHAGES. MORE AND MORE EVIDENCE SHOWS THAT MACROPHAGE IS MECHANOSENSITIVE AND MATRIX STIFFNESS REGULATE MACROPHAGE PHENOTYPES IN ATHEROSCLEROSIS. HOWEVER, THE MOLECULAR MECHANISM OF MATRIX STIFFNESS REGULATING MACROPHAGE POLARIZATION STILL LACKS IN-DEPTH RESEARCH, WHICH HINDERS THE DEVELOPMENT OF NEW ANTI-ATHEROSCLEROTIC THERAPIES. IN THIS REVIEW, WE DISCUSS THE IMPORTANT ROLE OF MATRIX STIFFNESS IN REGULATING MACROPHAGE POLARIZATION THROUGH MECHANICAL SIGNAL TRANSDUCTION (HIPPO, PIEZO, CYTOSKELETON, AND INTEGRIN) AND EPIGENETIC MECHANISMS (MIRNA, DNA METHYLATION, AND HISTONE). WE HOPE TO PROVIDE A NEW PERSPECTIVE FOR ATHEROSCLEROSIS THERAPY BY TARGETING MATRIX STIFFNESS AND MACROPHAGE POLARIZATION. 2022 15 3699 20 INFLAMMATORY MEMORIES: IS EPIGENETICS THE MISSING LINK TO PERSISTENT STROMAL CELL ACTIVATION IN RHEUMATOID ARTHRITIS? RHEUMATOID ARTHRITIS (RA) IS A CHRONIC INFLAMMATORY DISEASE LEADING TO JOINT DESTRUCTION. SYNOVIAL FIBROBLASTS ARE RECOGNIZED AS KEY CELLS IN THE PATHOGENESIS OF RA SINCE THEY ATTRACT AND ACTIVATE IMMUNE CELLS AND PRODUCE MATRIX DEGRADING ENZYMES. MOST NOTABLY SYNOVIAL FIBROBLASTS FROM PATIENTS WITH RA ARE STABLY ACTIVATED AND PRODUCE HIGH LEVELS OF DISEASE-PROMOTING MOLECULES WITHOUT FURTHER STIMULATION BY IMMUNE CELLS. ACCUMULATING DATA SUGGEST THAT EPIGENETIC CHANGES IN STROMAL CELL POPULATIONS MIGHT BE CRUCIALLY INVOLVED IN THE PATHOLOGY OF RA AND OTHER CHRONIC INFLAMMATORY DISEASES. IN THE CURRENT REVIEW, WE DISCUSS THE MECHANISMS BY WHICH EPIGENETIC CHANGES MIGHT CAUSE THE STABLE ACTIVATION OF SYNOVIAL FIBROBLASTS IN RA AND HOW CHANGES IN THE EPIGENOME MIGHT ALTER IMMUNE FUNCTION AND INFLAMMATORY RESPONSE AND THEREBY PROMOTE THE DEVELOPMENT OF CHRONIC DISEASES. 2011 16 1712 34 DYSFUNCTIONAL VASCULAR ENDOTHELIUM AS A DRIVER OF ATHEROSCLEROSIS: EMERGING INSIGHTS INTO PATHOGENESIS AND TREATMENT. ATHEROSCLEROSIS, THE CHRONIC ACCUMULATION OF CHOLESTEROL-RICH PLAQUE WITHIN ARTERIES, IS ASSOCIATED WITH A BROAD SPECTRUM OF CARDIOVASCULAR DISEASES INCLUDING MYOCARDIAL INFARCTION, AORTIC ANEURYSM, PERIPHERAL VASCULAR DISEASE, AND STROKE. ATHEROSCLEROTIC CARDIOVASCULAR DISEASE REMAINS A LEADING CAUSE OF MORTALITY IN HIGH-INCOME COUNTRIES AND RECENT YEARS HAVE WITNESSED A NOTABLE INCREASE IN PREVALENCE WITHIN LOW- AND MIDDLE-INCOME REGIONS OF THE WORLD. CONSIDERING THIS PROMINENT AND EVOLVING GLOBAL BURDEN, THERE IS A NEED TO IDENTIFY THE CELLULAR MECHANISMS THAT UNDERLIE THE PATHOGENESIS OF ATHEROSCLEROSIS TO DISCOVER NOVEL THERAPEUTIC TARGETS FOR PREVENTING OR MITIGATING ITS CLINICAL SEQUELAE. DESPITE DECADES OF RESEARCH, WE STILL DO NOT FULLY UNDERSTAND THE COMPLEX CELL-CELL INTERACTIONS THAT DRIVE ATHEROSCLEROSIS, BUT NEW INVESTIGATIVE APPROACHES ARE RAPIDLY SHEDDING LIGHT ON THESE ESSENTIAL MECHANISMS. THE VASCULAR ENDOTHELIUM RESIDES AT THE INTERFACE OF SYSTEMIC CIRCULATION AND THE UNDERLYING VESSEL WALL AND PLAYS AN ESSENTIAL ROLE IN GOVERNING PATHOPHYSIOLOGICAL PROCESSES DURING ATHEROGENESIS. IN THIS REVIEW, WE PRESENT EMERGING EVIDENCE THAT IMPLICATES THE ACTIVATED ENDOTHELIUM AS A DRIVER OF ATHEROSCLEROSIS BY DIRECTING SITE-SPECIFICITY OF PLAQUE FORMATION AND BY PROMOTING PLAQUE DEVELOPMENT THROUGH INTRACELLULAR PROCESSES, WHICH REGULATE ENDOTHELIAL CELL PROLIFERATION AND TURNOVER, METABOLISM, PERMEABILITY, AND PLASTICITY. MOREOVER, WE HIGHLIGHT NOVEL MECHANISMS OF INTERCELLULAR COMMUNICATION BY WHICH ENDOTHELIAL CELLS MODULATE THE ACTIVITY OF KEY VASCULAR CELL POPULATIONS INVOLVED IN ATHEROGENESIS, AND DISCUSS HOW ENDOTHELIAL CELLS CONTRIBUTE TO RESOLUTION BIOLOGY - A PROCESS THAT IS DYSREGULATED IN ADVANCED PLAQUES. FINALLY, WE DESCRIBE IMPORTANT FUTURE DIRECTIONS FOR PRECLINICAL ATHEROSCLEROSIS RESEARCH, INCLUDING EPIGENETIC AND TARGETED THERAPIES, TO LIMIT THE PROGRESSION OF ATHEROSCLEROSIS IN AT-RISK OR AFFECTED PATIENTS. 2021 17 6452 25 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 5423 18 REGULATION OF MACROPHAGE ACTIVATION AND DIFFERENTIATION IN ATHEROSCLEROSIS. CHRONIC INFLAMMATION IS A HALLMARK OF ATHEROSCLEROSIS AND MACROPHAGES PLAY A CENTRAL ROLE IN CONTROLLING INFLAMMATION AT ALL STAGES OF ATHEROSCLEROSIS. IN ATHEROSCLEROSIS, MACROPHAGES AND MONOCYTE-DERIVED MACROPHAGES ARE CONTINUOUSLY EXPOSED TO CHOLESTEROL, OXIDIZED LIPIDS, CELL DEBRIS, CYTOKINES, AND CHEMOKINES. NOT ONLY DO THESE STIMULI INDUCE A SPECIFIC MACROPHAGE PHENOTYPE, BUT THEY ALSO INTERACT EXTENSIVELY, LEADING TO MACROPHAGE HETEROGENEITY IN ATHEROSCLEROTIC PLAQUES. HEREIN, WE REVIEW THE DIVERSE PHENOTYPES OF MACROPHAGES, THE MECHANISMS UNDERLYING MACROPHAGE ACTIVATION, AND THE CONTRIBUTIONS OF MACROPHAGES TO ATHEROSCLEROSIS IN THIS CONTEXT. WE ALSO SUMMARIZE RECENT STUDIES ON FOAMY MACROPHAGES AND MONOCYTE-DERIVED MACROPHAGES IN PLAQUE DURING DISEASE PROGRESSION. WE PROVIDE A COMPREHENSIVE OVERVIEW OF TRANSCRIPTIONAL, EPIGENETIC, AND METABOLIC REPROGRAMMING OF MACROPHAGES AND DISCUSS THE EMERGING CONCEPTS OF TARGETING CYTOKINES AND MACROPHAGES TO MODULATE ATHEROSCLEROSIS. 2021 19 1310 21 DEFINING TRAINED IMMUNITY AND ITS ROLE IN HEALTH AND DISEASE. IMMUNE MEMORY IS A DEFINING FEATURE OF THE ACQUIRED IMMUNE SYSTEM, BUT ACTIVATION OF THE INNATE IMMUNE SYSTEM CAN ALSO RESULT IN ENHANCED RESPONSIVENESS TO SUBSEQUENT TRIGGERS. THIS PROCESS HAS BEEN TERMED 'TRAINED IMMUNITY', A DE FACTO INNATE IMMUNE MEMORY. RESEARCH IN THE PAST DECADE HAS POINTED TO THE BROAD BENEFITS OF TRAINED IMMUNITY FOR HOST DEFENCE BUT HAS ALSO SUGGESTED POTENTIALLY DETRIMENTAL OUTCOMES IN IMMUNE-MEDIATED AND CHRONIC INFLAMMATORY DISEASES. HERE WE DEFINE 'TRAINED IMMUNITY' AS A BIOLOGICAL PROCESS AND DISCUSS THE INNATE STIMULI AND THE EPIGENETIC AND METABOLIC REPROGRAMMING EVENTS THAT SHAPE THE INDUCTION OF TRAINED IMMUNITY. 2020 20 2225 23 EPIGENETIC MODIFICATIONS IN TUMOR-ASSOCIATED MACROPHAGES: A NEW PERSPECTIVE FOR AN OLD FOE. TUMORIGENESIS IS FREQUENTLY ACCOMPANIED BY CHRONIC INFLAMMATION, AND THE TUMOR MICROENVIRONMENT (TME) CAN BE CONSIDERED AN ECOSYSTEM THAT CONSISTS OF TUMOR CELLS, ENDOTHELIOCYTES, FIBROBLASTS, IMMUNE CELLS AND ACELLULAR COMPONENTS SUCH AS EXTRACELLULAR MATRIX. FOR TUMOR CELLS, THEIR SURVIVAL ADVANTAGES ARE DEPENDENT ON BOTH GENETIC AND EPIGENETIC ALTERATIONS, WHILE OTHER CELLS MAINLY PRESENT EPIGENETIC MODIFICATIONS. MACROPHAGES ARE THE MOST PLASTIC TYPE OF IMMUNE CELLS AND UNDERGO DIVERSE EPIGENETIC ALTERATIONS IN THE TME. SOME OF THESE EPIGENETIC MODIFICATIONS MITIGATE AGAINST CANCER PROGRESSION, AND OTHERS ACCELERATE THIS PROCESS. DUE TO THE COMPLEX ROLES OF MACROPHAGES IN THE TME, IT IS URGENT TO UNDERSTAND THEIR EPIGENETIC MODIFICATIONS ASSOCIATED WITH THE TME. HERE, WE MAINLY SUMMARIZE RECENT FINDINGS ON TME-ASSOCIATED EPIGENETIC ALTERATIONS OF TUMOR-ASSOCIATED MACROPHAGES (TAMS), INCLUDING DNA METHYLATION, POSTTRANSLATIONAL MODIFICATIONS OF HISTONE PROTEINS, CHROMATIN REMODELING, AND NONCODING RNA-MEDIATED EPIGENETIC REGULATION. AT THE END OF THIS REVIEW, WE ALSO DISCUSS THE TRANSLATIONAL POTENTIAL OF THESE EPIGENETIC MODIFICATIONS FOR DEVELOPING NOVEL CANCER THERAPIES TARGETING TAMS. 2022