1 6023 139 THE BET PROTAC INHIBITOR DBET6 PROTECTS AGAINST RETINAL DEGENERATION AND INHIBITS THE CGAS-STING IN RESPONSE TO LIGHT DAMAGE. BACKGROUND: CHRONIC INFLAMMATION SIGNIFICANTLY CONTRIBUTES TO PHOTORECEPTOR DEATH IN BLINDING RETINAL DISEASES SUCH AS AGE-RELATED MACULAR DEGENERATION (AMD) AND RETINITIS PIGMENTOSA (RP). BROMODOMAIN AND EXTRATERMINAL DOMAIN (BET) PROTEINS ARE EPIGENETIC READERS THAT ACT AS KEY PROINFLAMMATORY FACTORS. WE RECENTLY FOUND THE FIRST-GENERATION BET INHIBITOR JQ1 ALLEVIATED SODIUM IODATE-INDUCED RETINAL DEGENERATION BY SUPPRESSING CGAS-STING INNATE IMMUNITY. HERE, WE INVESTIGATED THE EFFECTS AND MECHANISM OF DBET6, A PROTEOLYSIS?TARGETING CHIMERA (PROTAC) SMALL MOLECULE THAT SELECTIVELY DEGRADES BET BY THE UBIQUITIN?PROTEASOME SYSTEM, IN LIGHT-INDUCED RETINAL DEGENERATION. METHODS: MICE WERE EXPOSED TO BRIGHT LIGHT TO INDUCE RETINAL DEGENERATION, AND THE ACTIVATION OF CGAS-STING WAS DETERMINED BY RNA-SEQUENCING AND MOLECULAR BIOLOGY. RETINAL FUNCTION, MORPHOLOGY, PHOTORECEPTOR VIABILITY AND RETINAL INFLAMMATION WERE EXAMINED IN THE PRESENCE AND ABSENCE OF DBET6 TREATMENT. RESULTS: INTRAPERITONEAL INJECTION OF DBET6 LED TO THE RAPID DEGRADATION OF BET PROTEIN IN THE RETINA WITHOUT DETECTABLE TOXICITY. DBET6 IMPROVED RETINAL RESPONSIVENESS AND VISUAL ACUITY AFTER LIGHT DAMAGE (LD). DBET6 ALSO REPRESSED LD-INDUCED RETINAL MACROPHAGES/MICROGLIA ACTIVATION, MULLER CELL GLIOSIS, PHOTORECEPTOR DEATH AND RETINAL DEGENERATION. ANALYSIS OF SINGLE-CELL RNA-SEQUENCING RESULTS REVEALED CGAS-STING COMPONENTS WERE EXPRESSED IN RETINAL MICROGLIA. LD LED TO DRAMATIC ACTIVATION OF THE CGAS-STING PATHWAY, WHEREAS DBET6 SUPPRESSED LD-INDUCED STING EXPRESSION IN REACTIVE MACROPHAGES/MICROGLIA AND THE RELATED INFLAMMATORY RESPONSE. CONCLUSIONS: THIS STUDY INDICATES TARGETED DEGRADATION OF BET BY DBET6 EXERTS NEUROPROTECTIVE EFFECTS BY INHIBITING CGAS-STING IN REACTIVE RETINAL MACROPHAGES/MICROGLIA, AND IS EXPECTED TO BECOME A NEW STRATEGY FOR TREATMENT OF RETINAL DEGENERATION. 2023 2 620 37 BIOCHEMISTRY AND MOLECULAR BIOLOGY OF GELATINASE B OR MATRIX METALLOPROTEINASE-9 (MMP-9): THE NEXT DECADE. RESEARCH ON MATRIX METALLOPROTEINASES (MMPS) AND IN PARTICULAR ON GELATINASE B, ALIAS MMP-9, HAS GROWN EXPONENTIALLY IN THE DECADE 2003-2012. STRUCTURAL DETAILS ABOUT FLEXIBILITY OF MMP-9 MONOMERS, TOGETHER WITH GLYCOSYLATION, OLIGOMERIZATION, HETEROGENEITY AND INSTABILITY OF THE WILDTYPE ENZYME EXPLAIN WHY CRYSTALLOGRAPHY EXPERIMENTS HAVE NOT YET BEEN SUCCESSFUL FOR THE INTACT ENZYME. MMP-9 MAY BE VIEWED AS A MULTIDOMAIN ENZYME IN WHICH THE HEMOPEXIN, THE O-GLYCOSYLATED AND THE CATALYTIC DOMAINS YIELD SUPPORT FOR ATTACHMENT, ARTICULATION AND CATALYSIS, RESPECTIVELY. THE STEPWISE PROTEOLYTIC ACTIVATION OF THE INACTIVE ZYMOGEN INTO A CATALYTICALLY ACTIVE FORM BECOMES GRADUALLY BETTER UNDERSTOOD. PRIMING OF ACTIVATION BY MMP-3 MAY BE EXECUTED BY MEPRINS THAT DESTABILIZE THE INTERACTION OF THE AMINOTERMINUS WITH THE THIRD FIBRONECTIN REPEAT. ALTERNATIVELY, AUTOCATALYTIC ACTIVATION MAY OCCUR IN THE PRESENCE OF MOLECULES THAT TIGHTLY BIND TO THE CATALYTIC SITE AND THAT PUSH THE CYSTEIN RESIDUE IN THE PRODOMAIN AWAY FROM THE CATALYTIC ZINC ION. THANKS TO THE DEVELOPMENT OF DEGRADOMICS TECHNOLOGIES, SUBSTRATE REPERTOIRES OF MMP-9 HAVE BEEN DEFINED, BUT IT REMAINS A CHALLENGE TO DETERMINE AND PROVE WHICH SUBSTRATES ARE BIOLOGICALLY RELEVANT. THE SUBSTRATE REPERTOIRE HAS BEEN ENLARGED FROM EXTRACELLULAR TO MEMBRANE-BOUND AND EFFICIENT INTRACELLULAR SUBSTRATES, SUCH AS CRYSTALLINS, TUBULINS AND ACTINS. BIOLOGICAL STUDIES OF MMP-9 HAVE TUNED THE FIELD FROM BEING PRIMARILY CANCER-ORIENTED TOWARDS VASCULAR AND INFLAMMATORY RESEARCH. IN TUMOR BIOLOGY, IT HAS BEEN INCREASINGLY APPRECIATED THAT MMP-9 FROM INFLAMMATORY CELLS, PARTICULARLY NEUTROPHILS, CO-DETERMINES PROGNOSIS AND OUTCOME. ASIDE FROM THE CATALYTIC FUNCTIONS EXECUTED BY AMINOTERMINAL DOMAINS OF MMP-9, THE CARBOXYTERMINAL HEMOPEXIN (PEX) DOMAIN OF GELATINASE B EXERTS NON-CATALYTIC ANTI-APOPTOTIC SIGNALING EFFECTS. THE RECOGNITION THAT GELATINASE B IS INDUCED BY MANY PRO-INFLAMMATORY CYTOKINES, WHEREAS ITS INHIBITORS ARE INCREASED BY ANTI-INFLAMMATORY CYTOKINES, HAS GENERATED INTEREST TO TARGET MMP-9 IN ACUTE LETHAL CONDITIONS, SUCH AS BACTERIAL MENINGITIS, SEPSIS AND ENDOTOXIN SHOCK, AND IN ACUTE EXACERBATIONS OF CHRONIC DISEASES. PREVIOUSLY DESCRIBED TRANSCRIPTIONAL REGULATION OF MMP-9 IS COMPLEMENTED BY EPIGENETIC CHECKPOINTS, INCLUDING HISTONE MODIFICATIONS AND MICRORNAS. BECAUSE ACTIVATION OF PROMMP-9 MAY BE EXECUTED BY OTHER MMPS, THE THERAPEUTIC DOGMA THAT MMP INHIBITORS NEED TO BE HIGHLY SELECTIVE MAY BE KEYED DOWN FOR THE TREATMENT OF LIFE-THREATENING CONDITIONS. WHEN INFLAMMATION AND MMP-9 FULFILL BENEFICIAL FUNCTIONS TO CLEAR DAMAGING PROTEIN COMPLEXES, SUCH AS IN SYSTEMIC AUTOIMMUNE DISEASES, THERAPEUTIC MMP INHIBITION HAS TO BE AVOIDED. IN MMP9 GENE KNOCKOUT MICE, SPECIFIC SPONTANEOUS PHENOTYPES EMERGED WITH EFFECTS ON THE SKELETAL, REPRODUCTIVE AND NERVOUS SYSTEMS. THESE FINDINGS NOT ONLY HAVE CLINICAL CORRELATES IN BONE GROWTH AND FERTILITY, BUT ALSO STIMULATE RESEARCH ON THE ROLES OF MMPS AND MMP-9 IN ENDOCRINOLOGY, IMMUNOLOGY AND THE NEUROSCIENCES. MMP9-DEFICIENT MICE ARE VALUABLE TOOLS TO DEFINE MMP-9 SUBSTRATES IN VIVO AND TO STUDY THE ROLE OF THIS ENZYME IN ANIMAL MODELS OF INFLAMMATORY, VASCULAR, NEOPLASTIC AND DEGENERATIVE DISEASES. FUTURE CHALLENGES INCLUDE SOLVING THE CRYSTAL STRUCTURE, DEFINITION OF THE FUNCTIONS OF COVALENT OLIGOMERS AND HETEROMERS IN BIOLOGY AND PATHOLOGY, LIFE-IMAGING OF MMP-9 ACTIVITY, SUBSTRATE DETERMINATION IN SITU AND THE STUDY OF INHIBITOR EFFECTS ON FERTILITY, CANCER AND INFLAMMATION AND IN NEUROBIOLOGY AND REGENERATIVE MEDICINE. SUCH STUDIES WILL BETTER DEFINE CONDITIONS IN WHICH INHIBITION OF MMP-9 IS BENEFICIAL OR HAS TO BE AVOIDED. 2013 3 6394 37 THE ROLE OF THE HOST-NEUTROPHIL BIOLOGY. NEUTROPHILIC POLYMORPHONUCLEAR LEUKOCYTES (NEUTROPHILS) ARE MYELOID CELLS PACKED WITH LYSOSOMAL GRANULES (HENCE ALSO CALLED GRANULOCYTES) THAT CONTAIN A FORMIDABLE ANTIMICROBIAL ARSENAL. THEY ARE TERMINALLY DIFFERENTIATED CELLS THAT PLAY A CRITICAL ROLE IN ACUTE AND CHRONIC INFLAMMATION, AS WELL AS IN THE RESOLUTION OF INFLAMMATION AND WOUND HEALING. NEUTROPHILS EXPRESS A DENSE ARRAY OF SURFACE RECEPTORS FOR MULTIPLE LIGANDS, RANGING FROM INTEGRINS TO SUPPORT THEIR EGRESS FROM BONE MARROW INTO THE CIRCULATION AND FROM THE CIRCULATION INTO TISSUES, TO CYTOKINE/CHEMOKINE RECEPTORS THAT DRIVE THEIR NAVIGATION TO THE SITE OF INFECTION OR TISSUE DAMAGE AND ALSO PRIME THEM FOR A SECOND STIMULUS, TO PATTERN RECOGNITION RECEPTORS AND IMMUNOGLOBULIN RECEPTORS TO FACILITATE THE DESTRUCTION AND REMOVAL OF INFECTIVE AGENTS OR DEBRIDEMENT OF DAMAGED TISSUES. WHEN AFFERENT NEUTROPHIL SIGNALS ARE PROPORTIONATE AND COORDINATED THEY WILL PHAGOCYTOSE OPSONIZED AND UNOPSONIZED BACTERIA, ACTIVATING THE NICOTINAMIDE ADENINE DINUCLEOTIDE PHOSPHATE OXIDASE (RESPIRATORY BURST) TO GENERATE REACTIVE OXYGEN SPECIES, WHICH AUGMENT THE PROTEOLYTIC DESTRUCTION OF MICROBES SECURED WITHIN THE PHAGOSOME. A HIGHLY ORCHESTRATED PROCESS OF APOPTOSIS FOLLOWS, FORMING MEMBRANE-BOUND SUBSTRUCTURES THAT ARE REMOVED BY MACROPHAGES. NEUTROPHILS ARE CAPABLE OF VARIOUS OTHER FORMS OF PROGRAMMED CELL DEATH, SUCH AS NETOSIS AND PYROPTOTIC CELL DEATH, AS WELL AS NONPROGRAMMED CELL DEATH BY NECROSIS. IN RECENT YEARS, RESEARCH HAS REVEALED THAT NEUTROPHILS ARE CAPABLE OF FAR MORE SUBTLE CELL-CELL INTERACTIONS THAN PREVIOUSLY THOUGHT POSSIBLE. THIS INCLUDES SYNTHESIS OF VARIOUS INFLAMMATORY MEDIATORS AND ALSO MYELOID CELL TRAINING WITHIN BONE MARROW, WHERE EPIGENETIC AND METABOLIC SIGNALS ASSOCIATED WITH RETURNING NEUTROPHILS THAT UNDERGO REVERSE EGRESS FROM TISSUES INTO THE VASCULATURE AND BACK TO BONE MARROW PROGRAM A HYPERREACTIVE SUBSET OF NEUTROPHILS DURING MYELOPOIESIS THAT ARE CAPABLE OF HYPERSENSITIVE REACTIONS TO MICROBIAL AGGRESSORS. THESE CHARACTERISTICS ARE EVIDENT IN VARIOUS NEUTROPHIL SUBSETS/SUBPOPULATIONS, CREATING BROAD HETEROGENEITY IN THE BEHAVIOR AND BIOLOGICAL REPERTOIRE OF THESE SEEMINGLY SCHIZOPHRENIC IMMUNE CELLS. MOREOVER, NEUTROPHILS ARE CRITICAL EFFECTOR CELLS OF ADAPTIVE AND INNATE IMMUNITY, BINDING TO OPSONIZED BACTERIA AND DESTROYING THEM BY EXTRACELLULAR AND INTRACELLULAR METHODS. THE FORMER CREATES SUBSTANTIAL COLLATERAL HOST TISSUE DAMAGE, AS THEY ARE LESS SPECIFIC THAN T-CYTOTOXIC CELL-KILLING MECHANISMS, AND IN CONDITIONS SUCH AS PERI-IMPLANTITIS, WHERE PLASMA CELLS AND NEUTROPHILS DOMINATE THE IMMUNE INFILTRATE, BONE AND TISSUE DESTRUCTION ARE RAPID AND APPEAR RELENTLESS. FINALLY, THE ROLE OF NEUTROPHILS AS CONDUITS FOR PERIODONTAL-SYSTEMIC DISEASE CONNECTIONS AND FOR OXIDATIVE DAMAGE TO ACT AS A CAUSAL LINK BETWEEN THE TWO HAS ONLY RECENTLY BEEN REALIZED. IN THIS CHAPTER, WE ATTEMPT TO EXPAND ON THESE ISSUES, EMPHASIZING THE CONTRIBUTIONS OF EUROPEAN SCIENTISTS THROUGHOUT A DETAILED APPRAISAL OF THE BENEFITS AND SIDE EFFECTS OF NEUTROPHILIC INFLAMMATION AND IMMUNE FUNCTION. 2023 4 593 47 BET PROTEIN INHIBITION REGULATES CYTOKINE PRODUCTION AND PROMOTES NEUROPROTECTION AFTER SPINAL CORD INJURY. BACKGROUND: SPINAL CORD INJURY (SCI) USUALLY CAUSES A DEVASTATING LIFELONG DISABILITY FOR PATIENTS. AFTER A TRAUMATIC LESION, DISRUPTION OF THE BLOOD-SPINAL CORD BARRIER INDUCES THE INFILTRATION OF MACROPHAGES INTO THE LESION SITE AND THE ACTIVATION OF RESIDENT GLIAL CELLS, WHICH RELEASE CYTOKINES AND CHEMOKINES. THESE EVENTS RESULT IN A PERSISTENT INFLAMMATION, WHICH HAS BOTH DETRIMENTAL AND BENEFICIAL EFFECTS, BUT EVENTUALLY LIMITS FUNCTIONAL RECOVERY AND CONTRIBUTES TO THE APPEARANCE OF NEUROPATHIC PAIN. BROMODOMAIN AND EXTRA-TERMINAL DOMAIN (BET) PROTEINS ARE EPIGENETIC READERS THAT REGULATE THE EXPRESSION OF INFLAMMATORY GENES BY INTERACTING WITH ACETYLATED LYSINE RESIDUES. WHILE BET INHIBITORS ARE A PROMISING THERAPEUTIC STRATEGY FOR CANCER, LITTLE IS KNOWN ABOUT THEIR IMPLICATION AFTER SCI. THUS, THE CURRENT STUDY WAS AIMED TO INVESTIGATE THE ANTI-INFLAMMATORY ROLE OF BET INHIBITORS IN THIS PATHOLOGIC CONDITION. METHODS: WE EVALUATED THE EFFECTIVENESS OF THE BET INHIBITOR JQ1 TO MODIFY MACROPHAGE REACTIVITY IN VITRO AND TO MODULATE INFLAMMATION IN A SCI MICE MODEL. WE ANALYZED THE EFFECTS OF BET INHIBITION IN PRO-INFLAMMATORY AND ANTI-INFLAMMATORY CYTOKINE PRODUCTION IN VITRO AND IN VIVO. WE DETERMINED THE EFFECTIVENESS OF BET INHIBITION IN TISSUE SPARING, INFLAMMATION, NEURONAL PROTECTION, AND BEHAVIORAL OUTCOME AFTER SCI. RESULTS: WE HAVE FOUND THAT THE BET INHIBITOR JQ1 REDUCED THE LEVELS OF PRO-INFLAMMATORY MEDIATORS AND INCREASED THE EXPRESSION OF ANTI-INFLAMMATORY CYTOKINES. A PROLONGED TREATMENT WITH JQ1 ALSO DECREASED REACTIVITY OF MICROGLIA/MACROPHAGES, ENHANCED NEUROPROTECTION AND FUNCTIONAL RECOVERY, AND ACUTELY REDUCED NEUROPATHIC PAIN AFTER SCI. CONCLUSIONS: BET PROTEIN INHIBITION IS AN EFFECTIVE TREATMENT TO REGULATE CYTOKINE PRODUCTION AND PROMOTE NEUROPROTECTION AFTER SCI. THESE NOVEL RESULTS DEMONSTRATE FOR THE FIRST TIME THAT TARGETING BET PROTEINS IS AN ENCOURAGING APPROACH FOR SCI REPAIR AND A POTENTIAL STRATEGY TO TREAT OTHER INFLAMMATORY PATHOLOGIES. 2019 5 3701 27 INFLAMMATORY RESPONSE TO REGULATED CELL DEATH IN GOUT AND ITS FUNCTIONAL IMPLICATIONS. GOUT, A CHRONIC INFLAMMATORY ARTHRITIS DISEASE, IS CHARACTERIZED BY HYPERURICEMIA AND CAUSED BY INTERACTIONS BETWEEN GENETIC, EPIGENETIC, AND METABOLIC FACTORS. ACUTE GOUT SYMPTOMS ARE TRIGGERED BY THE INFLAMMATORY RESPONSE TO MONOSODIUM URATE CRYSTALS, WHICH IS MEDIATED BY THE INNATE IMMUNE SYSTEM AND IMMUNE CELLS (E.G., MACROPHAGES AND NEUTROPHILS), THE NACHT, LRR, AND PYD DOMAINS-CONTAINING PROTEIN 3 (NLRP3) INFLAMMASOME ACTIVATION, AND PRO-INFLAMMATORY CYTOKINE (E.G., IL-1BETA) RELEASE. RECENT STUDIES HAVE INDICATED THAT THE MULTIPLE PROGRAMMED CELL DEATH PATHWAYS INVOLVED IN THE INFLAMMATORY RESPONSE INCLUDE PYROPTOSIS, NETOSIS, NECROPTOSIS, AND APOPTOSIS, WHICH INITIATE INFLAMMATORY REACTIONS. IN THIS REVIEW, WE EXPLORE THE CORRELATION AND INTERACTIONS AMONG THESE FACTORS AND THEIR ROLES IN THE PATHOGENESIS OF GOUT TO PROVIDE FUTURE RESEARCH DIRECTIONS AND POSSIBILITIES FOR IDENTIFYING POTENTIAL NOVEL THERAPEUTIC TARGETS AND ENHANCING OUR UNDERSTANDING OF GOUT PATHOGENESIS. 2022 6 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 7 4211 32 METFORMIN FOR CARDIOVASCULAR PROTECTION, INFLAMMATORY BOWEL DISEASE, OSTEOPOROSIS, PERIODONTITIS, POLYCYSTIC OVARIAN SYNDROME, NEURODEGENERATION, CANCER, INFLAMMATION AND SENESCENCE: WHAT IS NEXT? DIABETES IS ACCOMPANIED BY SEVERAL COMPLICATIONS. HIGHER PREVALENCE OF CANCERS, CARDIOVASCULAR DISEASES, CHRONIC KIDNEY DISEASE (CKD), OBESITY, OSTEOPOROSIS, AND NEURODEGENERATIVE DISEASES HAS BEEN REPORTED AMONG PATIENTS WITH DIABETES. METFORMIN IS THE OLDEST ORAL ANTIDIABETIC DRUG AND CAN IMPROVE COEXISTING COMPLICATIONS OF DIABETES. CLINICAL TRIALS AND OBSERVATIONAL STUDIES UNCOVERED THAT METFORMIN CAN REMARKABLY PREVENT OR ALLEVIATE CARDIOVASCULAR DISEASES, OBESITY, POLYCYSTIC OVARIAN SYNDROME (PCOS), OSTEOPOROSIS, CANCER, PERIODONTITIS, NEURONAL DAMAGE AND NEURODEGENERATIVE DISEASES, INFLAMMATION, INFLAMMATORY BOWEL DISEASE (IBD), TUBERCULOSIS, AND COVID-19. IN ADDITION, METFORMIN HAS BEEN PROPOSED AS AN ANTIAGING AGENT. NUMEROUS MECHANISMS WERE SHOWN TO BE INVOLVED IN THE PROTECTIVE EFFECTS OF METFORMIN. METFORMIN ACTIVATES THE LKB1/AMPK PATHWAY TO INTERACT WITH SEVERAL INTRACELLULAR SIGNALING PATHWAYS AND MOLECULAR MECHANISMS. THE DRUG MODIFIES THE BIOLOGIC FUNCTION OF NF-KAPPAB, PI3K/AKT/MTOR, SIRT1/PGC-1ALPHA, NLRP3, ERK, P38 MAPK, WNT/BETA-CATENIN, NRF2, JNK, AND OTHER MAJOR MOLECULES IN THE INTRACELLULAR SIGNALING NETWORK. IT ALSO REGULATES THE EXPRESSION OF NONCODING RNAS. THEREBY, METFORMIN CAN REGULATE METABOLISM, GROWTH, PROLIFERATION, INFLAMMATION, TUMORIGENESIS, AND SENESCENCE. ADDITIONALLY, METFORMIN MODULATES IMMUNE RESPONSE, AUTOPHAGY, MITOPHAGY, ENDOPLASMIC RETICULUM (ER) STRESS, AND APOPTOSIS AND EXERTS EPIGENETIC EFFECTS. FURTHERMORE, METFORMIN PROTECTS AGAINST OXIDATIVE STRESS AND GENOMIC INSTABILITY, PRESERVES TELOMERE LENGTH, AND PREVENTS STEM CELL EXHAUSTION. IN THIS REVIEW, THE PROTECTIVE EFFECTS OF METFORMIN ON EACH DISEASE WILL BE DISCUSSED USING THE RESULTS OF RECENT META-ANALYSES, CLINICAL TRIALS, AND OBSERVATIONAL STUDIES. THEREAFTER, IT WILL BE METICULOUSLY EXPLAINED HOW METFORMIN REPROGRAMS INTRACELLULAR SIGNALING PATHWAYS AND ALTERS MOLECULAR AND CELLULAR INTERACTIONS TO MODIFY THE CLINICAL PRESENTATIONS OF SEVERAL DISEASES. 2021 8 4582 37 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 9 700 30 BROMODOMAIN-CONTAINING PROTEIN 4 (BRD4): A KEY PLAYER IN INFLAMMATORY BOWEL DISEASE AND POTENTIAL TO INSPIRE EPIGENETIC THERAPEUTICS. INTRODUCTION: INFLAMMATORY BOWEL DISEASES (IBDS) ARE DEBILITATING CHRONIC INFLAMMATORY DISORDERS WITH INCREASING PREVALENCE WORLDWIDE. EPIGENETIC REGULATOR BROMODOMAIN-CONTAINING PROTEIN 4 (BRD4) IS CRITICAL IN CONTROLLING GENE EXPRESSION OF IBD-ASSOCIATED INFLAMMATORY CYTOKINE NETWORKS. BRD4 AS A PROMISING THERAPEUTIC TARGET IS ALSO TIGHTLY ASSOCIATED WITH MANY OTHER DISEASES, SUCH AS AIRWAY INFLAMMATION AND FIBROSIS, CANCERS, INFECTIOUS DISEASES AND CENTRAL NERVOUS SYSTEM DISORDERS. AREAS COVERED: THIS REVIEW BRIEFLY SUMMARIZED THE CRITICAL ROLE OF BRD4 IN THE PATHOGENESIS OF IBDS AND THE CURRENT CLINICAL LANDSCAPE OF DEVELOPING BROMODOMAIN AND EXTRA TERMINAL DOMAIN (BET) INHIBITORS. THE CHALLENGES AND OPPORTUNITIES AS WELL AS FUTURE DIRECTIONS OF TARGETING BRD4 INHIBITION FOR POTENTIAL IBD MEDICATIONS WERE ALSO DISCUSSED. EXPERT OPINION: TARGETING BRD4 WITH POTENT AND SPECIFIC INHIBITORS MAY OFFER NOVEL EFFECTIVE THERAPEUTICS FOR IBD PATIENTS, PARTICULARLY THOSE WHO ARE REFRACTORY TO ANTI-TNFALPHA THERAPY AND IBD-RELATED PROFIBROTIC. DEVELOPING HIGHLY SPECIFIC BRD4 INHIBITORS FOR IBD MEDICATIONS MAY HELP ERASE THE DRAWBACKS OF MOST CURRENT PAN-BET/BRD4 INHIBITORS, SUCH AS OFF-TARGET EFFECTS, POOR ORAL BIOAVAILABILITY, AND LOW GUT MUCOSAL ABSORBANCE. NOVEL STRATEGIES SUCH AS COMBINATORIAL THERAPY, BRD4-BASED DUAL INHIBITORS AND PROTEOLYSIS TARGETING CHIMERAS (PROTACS) MAY ALSO HAVE GREAT POTENTIAL TO MITIGATE SIDE EFFECTS AND OVERCOME DRUG RESISTANCE DURING IBD TREATMENT. 2023 10 5145 23 POTENTIAL ROLE OF NUTRACEUTICALS VIA TARGETING A WNT/BETA-CATENIN AND NF-KAPPAB PATHWAY IN TREATMENT OF OSTEOARTHRITIS. OSTEOARTHRITIS (OA) IS A DISEASE DUE TO THE AGING OF THE ARTICULAR CARTILAGE, A POST-MITOTIC TISSUE THAT STAYS FUNCTIONING UNTIL PRIMARY HOMEOSTATIC PROCESSES FAIL. BECAUSE OF PAIN AND DISABILITY, OA SIGNIFICANTLY INFLUENCES NATIONAL HEALTHCARE EXPENSES AND PATIENT QUALITY OF LIFE. IT IS A WHOLE-JOINT ILLNESS CHARACTERIZED BY INFLAMMATORY AND OXIDATIVE SIGNALING PATHWAYS AND SIGNIFICANT EPIGENETIC ALTERATIONS THAT CAUSE CARTILAGE EXTRACELLULAR MATRIX DEGRADATION. THE CANONICAL WNT PATHWAY (WNT/BETA-CATENIN PATHWAY) AND NUCLEAR FACTOR KAPPA B (NF-KAPPAB) SIGNALING PATHWAYS MAY FUNCTION IN JOINT TISSUES BY MODULATING THE ACTIVITY OF SYNOVIAL CELLS, OSTEOBLASTS, AND CHONDROCYTES. HOWEVER, FINDING INNOVATIVE WAYS TO TREAT OSTEOARTHRITIS AND GET THE JOINT BACK TO AVERAGE BALANCE IS STILL A STRUGGLE. NUTRACEUTICALS ARE DIETARY SUPPLEMENTS THAT PROMOTE JOINT HEALTH BY BALANCING ANABOLIC AND CATABOLIC SIGNALS. NEW THERAPEUTIC METHODS FOR OA TREATMENT HAVE BEEN DEVELOPED BASED ON MANY RESEARCH FINDINGS THAT SHOW NUTRACEUTICALS HAVE STRONG ANTI-INFLAMMATION, ANTIOXIDANT, ANTI-BONE RESORPTION, AND ANABOLIC PROPERTIES. FOR THE TREATMENT OF OSTEOARTHRITIS, WE EXPLORE THE POSSIBLE INVOLVEMENT OF NUTRACEUTICALS THAT TARGET THE WNT/BETA-CATENIN AND NF-KAPPAB PATHWAYS. PRACTICAL APPLICATIONS: IN KEEPING WITH THE AGING POPULATION, OSTEOARTHRITIS IS BECOMING MORE WIDESPREAD. IN THIS EXTENSIVE RESEARCH, WE STUDIED THE ROLE OF THE WNT/BETA-CATENIN AND NF-KAPPAB PATHWAY IN OA FORMATION AND PROGRESSION. NUTRACEUTICALS THAT TARGET THESE OA-RELATED SIGNALING PATHWAYS ARE A VIABLE THERAPY OPTION. WNT/BETA-CATENIN AND NF-KAPPAB SIGNALING PATHWAY ARE INHIBITED BY POLYPHENOLS, FLAVONOIDS, ALKALOIDS, AND VITAMINS FROM THE NUTRACEUTICAL CATEGORY, MAKING THEM POSSIBLE THERAPEUTIC DRUGS FOR OA THERAPY. 2022 11 6076 29 THE DYNAMICS OF NUCLEAR RECEPTORS AND NUCLEAR RECEPTOR COREGULATORS IN THE PATHOGENESIS OF ENDOMETRIOSIS. BACKGROUND: ENDOMETRIOSIS IS DEFINED AS THE COLONIZATION AND GROWTH OF ENDOMETRIAL TISSUE AT ANATOMIC SITES OUTSIDE THE UTERINE CAVITY. UP TO 15% OF REPRODUCTIVE-AGED WOMEN IN THE USA SUFFER FROM PAINFUL SYMPTOMS OF ENDOMETRIOSIS, SUCH AS INFERTILITY, PELVIC PAIN, MENSTRUAL CYCLE ABNORMALITIES AND INCREASED RISK OF CERTAIN CANCERS. HOWEVER, MANY OF THE CURRENT CLINICAL TREATMENTS FOR ENDOMETRIOSIS ARE NOT SUFFICIENTLY EFFECTIVE AND YIELD UNACCEPTABLE SIDE EFFECTS. THERE IS CLEARLY AN URGENT NEED TO IDENTIFY NEW MOLECULAR MECHANISMS THAT CRITICALLY UNDERPIN THE INITIATION AND PROGRESSION OF ENDOMETRIOSIS IN ORDER TO DEVELOP MORE SPECIFIC AND EFFECTIVE THERAPEUTICS WHICH LACK THE SIDE EFFECTS OF CURRENT THERAPIES. THE AIM OF THIS REVIEW IS TO DISCUSS HOW NUCLEAR RECEPTORS (NRS) AND THEIR COREGULATORS PROMOTE THE PROGRESSION OF ENDOMETRIOSIS. UNDERSTANDING THE PATHOGENIC MOLECULAR MECHANISMS FOR THE GENESIS AND MAINTENANCE OF ENDOMETRIOSIS AS MODULATED BY NRS AND COREGULATORS CAN REVEAL NEW THERAPEUTIC TARGETS FOR ALTERNATIVE ENDOMETRIOSIS TREATMENTS. METHODS: THIS REVIEW WAS PREPARED USING PUBLISHED GENE EXPRESSION MICROARRAY DATA SETS OBTAINED FROM PATIENTS WITH ENDOMETRIOSIS AND PUBLISHED LITERATURE ON NRS AND THEIR COREGULATORS THAT DEAL WITH ENDOMETRIOSIS PROGRESSION. USING THE ABOVE OBSERVATIONS, OUR CURRENT UNDERSTANDING OF HOW NRS AND NR COREGULATORS ARE INVOLVED IN THE PROGRESSION OF ENDOMETRIOSIS IS SUMMARIZED. RESULTS: ABERRANT LEVELS OF NRS AND NR COREGULATORS IN ECTOPIC ENDOMETRIOSIS LESIONS ARE ASSOCIATED WITH THE PROGRESSION OF ENDOMETRIOSIS. AS AN EXAMPLE, ENDOMETRIOTIC CELL-SPECIFIC ALTERATIONS IN GENE EXPRESSION ARE CORRELATED WITH A DIFFERENTIAL METHYLATION STATUS OF THE GENOME COMPARED WITH THE NORMAL ENDOMETRIUM. THESE DIFFERENTIAL EPIGENETIC REGULATIONS CAN GENERATE FAVORABLE CELL-SPECIFIC NR AND COREGULATOR MILIEUS FOR ENDOMETRIOSIS PROGRESSION. GENETIC ALTERATIONS, SUCH AS SINGLE NUCLEOTIDE POLYMORPHISMS AND INSERTION/DELETION POLYMORPHISMS OF NR AND COREGULATOR GENES, ARE FREQUENTLY DETECTED IN ECTOPIC LESIONS COMPARED WITH THE NORMAL ENDOMETRIUM. THESE GENETIC VARIATIONS IMPART NEW MOLECULAR PROPERTIES TO NRS AND COREGULATORS TO INCREASE THEIR CAPACITY TO STIMULATE PROGRESSION OF ENDOMETRIOSIS. FINALLY, POST-TRANSLATIONAL MODIFICATIONS OF NR COREGULATORS, SUCH AS PROTEOLYTIC PROCESSING, GENERATE ENDOMETRIOSIS-SPECIFIC ISOFORMS. COMPARED WITH THE UNMODIFIED COREGULATORS, THESE COREGULATOR ISOFORMS HAVE UNIQUE FUNCTIONS THAT ENHANCE THE PATHOGENESIS OF ENDOMETRIOSIS. CONCLUSIONS: EPIGENETIC/GENETIC VARIATIONS AND POSTTRANSLATIONAL MODIFICATIONS OF NRS AND COREGULATORS ALTER THEIR ORIGINAL FUNCTION SO THAT THEY BECOME POTENT 'DRIVERS' OF ENDOMETRIOSIS PROGRESSION. 2014 12 329 31 ALPHA-OXOGLUTARATE INHIBITS THE PROLIFERATION OF IMMORTALIZED NORMAL BLADDER EPITHELIAL CELLS VIA AN EPIGENETIC SWITCH INVOLVING ARID1A. INTERSTITIAL CYSTITIS (IC) IS A CHRONIC URINARY TRACT DISEASE THAT IS CHARACTERIZED BY UNPLEASANT SENSATIONS, SUCH AS PERSISTENT PELVIC PAIN, IN THE ABSENCE OF INFECTION OR OTHER IDENTIFIABLE CAUSES. WE PREVIOUSLY PERFORMED COMPREHENSIVE METABOLOMICS PROFILING OF URINE SAMPLES FROM IC PATIENTS USING NUCLEAR MAGNETIC RESONANCE AND GAS-CHROMATOGRAPHY/MASS SPECTROMETRY AND FOUND THAT URINARY ALPHA-OXOGLUTARATE (ALPHA-OG), WAS SIGNIFICANTLY ELEVATED. ALPHA-OG, A TRICARBOXYLIC ACID (TCA) CYCLE INTERMEDIATE, REPORTEDLY FUNCTIONS TO SUPPRESS THE PROLIFERATION OF IMMORTALIZED NORMAL HUMAN BLADDER EPITHELIAL CELLS. HERE, WE IDENTIFIED AT-RICH INTERACTIVE DOMAIN 1 A (ARID1A), A KEY CHROMATIN REMODELER, AS BEING HYPOMETHYLATED AND UPREGULATED BY ALPHA-OG TREATMENT. THIS WAS DONE THROUGH EPIC DNA METHYLATION PROFILING AND SUBSEQUENT BIOCHEMICAL APPROACHES, INCLUDING QUANTITATIVE RT-PCR AND WESTERN BLOT ANALYSES. FURTHERMORE, WE FOUND THAT ALPHA-OG ALMOST COMPLETELY SUPPRESSES TEN-ELEVEN TRANSLOCATION (TET) ACTIVITY, BUT DOES NOT AFFECT DNA METHYLTRANSFERASE (DNMT) ACTIVITY. ALTOGETHER, OUR STUDIES REVEAL THE POTENTIAL ROLE OF ALPHA-OG IN EPIGENETIC REMODELING THROUGH ITS EFFECTS ON ARID1A AND TET EXPRESSION IN THE BLADDER. THIS MAY PROVIDE A NEW POSSIBLE THERAPEUTIC STRATEGY IN TREATING IC. 2018 13 4337 23 MICROTUBULES AS MAJOR REGULATORS OF ENDOTHELIAL FUNCTION: IMPLICATION FOR LUNG INJURY. ENDOTHELIAL DYSFUNCTION HAS BEEN ATTRIBUTED AS ONE OF THE MAJOR COMPLICATIONS IN COVID-19 PATIENTS, A GLOBAL PANDEMIC THAT HAS ALREADY CAUSED OVER 4 MILLION DEATHS WORLDWIDE. THE DYSFUNCTION OF ENDOTHELIAL BARRIER IS CHARACTERIZED BY AN INCREASE IN ENDOTHELIAL PERMEABILITY AND INFLAMMATORY RESPONSES, AND HAS EVEN BROADER IMPLICATIONS IN THE PATHOGENESIS OF ACUTE RESPIRATORY SYNDROMES SUCH AS ARDS, SEPSIS AND CHRONIC ILLNESSES REPRESENTED BY PULMONARY ARTERIAL HYPERTENSION AND INTERSTITIAL LUNG DISEASE. THE STRUCTURAL INTEGRITY OF ENDOTHELIAL BARRIER IS MAINTAINED BY CYTOSKELETON ELEMENTS, CELL-SUBSTRATE FOCAL ADHESION AND ADHESIVE CELL JUNCTIONS. AGONIST-MEDIATED CHANGES IN ENDOTHELIAL PERMEABILITY ARE DIRECTLY ASSOCIATED WITH REORGANIZATION OF ACTOMYOSIN CYTOSKELETON LEADING TO CELL CONTRACTION AND OPENING OF INTERCELLULAR GAPS OR ENHANCEMENT OF CORTICAL ACTIN CYTOSKELETON ASSOCIATED WITH STRENGTHENING OF ENDOTHELIAL BARRIER. THE ROLE OF ACTIN CYTOSKELETON REMODELING IN ENDOTHELIAL BARRIER REGULATION HAS TAKEN THE CENTRAL STAGE, BUT THE IMPACT OF MICROTUBULES IN THIS PROCESS REMAINS LESS EXPLORED AND UNDER-APPRECIATED. THIS REVIEW WILL SUMMARIZE THE CURRENT KNOWLEDGE ON THE CROSSTALK BETWEEN MICROTUBULES DYNAMICS AND ACTIN CYTOSKELETON REMODELING, DESCRIBE THE SIGNALING MECHANISMS MEDIATING THIS CROSSTALK, DISCUSS EPIGENETIC REGULATION OF MICROTUBULES STABILITY AND ITS NEXUS WITH ENDOTHELIAL BARRIER MAINTENANCE, AND OVERVIEW A ROLE OF MICROTUBULES IN TARGETED DELIVERY OF SIGNALING MOLECULES REGULATING ENDOTHELIAL PERMEABILITY AND INFLAMMATION. 2021 14 6079 22 THE EFFECT OF CXCL12 PROCESSING ON CD34+ CELL MIGRATION IN MYELOPROLIFERATIVE NEOPLASMS. PRIMARY MYELOFIBROSIS (PMF) AND POLYCYTHEMIA VERA (PV) ARE CHRONIC MYELOPROLIFERATIVE NEOPLASMS. PMF AND, TO A LESSER DEGREE, PV ARE CHARACTERIZED BY CONSTITUTIVE MOBILIZATION OF HEMATOPOIETIC STEM CELLS (HSC) AND PROGENITOR CELLS (HPC) INTO THE PERIPHERAL BLOOD (PB). THE INTERACTION BETWEEN THE CHEMOKINE CXCL12 AND ITS RECEPTOR CXCR4 PLAYS A PIVOTAL ROLE IN DETERMINING THE TRAFFICKING OF CD34(+) CELLS BETWEEN THE BONE MARROW (BM) AND THE PB. PMF, BUT NOT PV, IS ASSOCIATED WITH DOWNREGULATION OF CXCR4 BY CD34(+) CELLS DUE TO EPIGENETIC EVENTS. BOTH PV AND PMF PATIENTS HAVE ELEVATED LEVELS OF IMMUNOREACTIVE FORMS OF CXCL12 IN THE BM AND PB. USING ELECTROSPRAY MASS SPECTROMETRY, THE PB AND BM PLASMA OF PV AND PMF PATIENTS WAS SHOWN TO CONTAIN REDUCED AMOUNTS OF INTACT CXCL12 BUT SIGNIFICANT AMOUNTS OF SEVERAL TRUNCATED FORMS OF CXCL12, WHICH ARE LACKING IN NORMAL PB AND BM PLASMA. THESE TRUNCATED FORMS OF CXCL12 ARE THE PRODUCT OF THE ACTION OF SEVERAL SERINE PROTEASES, INCLUDING DIPEPTIDYL PEPTIDASE-IV, NEUTROPHIL ELASTASE, MATRIX METALLOPROTEINASE-2 (MMP-2), MMP-9, AND CATHEPSIN G. UNLIKE CXCL12, THESE TRUNCATES EITHER LACK THE ABILITY TO ACT AS A CHEMOATTRACTANT FOR CD34(+) CELLS AND/OR ACT AS AN ANTAGONIST TO THE ACTION OF CXCL12. THESE DATA SUGGEST THAT PROTEOLYTIC DEGRADATION OF CXCL12 IS CHARACTERISTIC OF BOTH PV AND PMF AND THAT THE RESULTING TRUNCATED FORMS OF CXCL12, IN ADDITION TO THE REDUCED EXPRESSION OF CXCR4 BY CD34(+) CELLS, LEAD TO A PROFOUND MOBILIZATION OF HSC/HPC IN PMF. 2010 15 4041 27 MACROPHAGE PLASTICITY IN DUCHENNE MUSCULAR DYSTROPHY: A NEXUS OF PATHOLOGICAL REMODELLING WITH THERAPEUTIC IMPLICATIONS. DUCHENNE MUSCULAR DYSTROPHY (DMD) IS CHARACTERIZED BY CHRONIC SKELETAL MUSCLE NECROSIS, LEADING TO MUSCLE REGENERATION FAILURE AND FIBROSIS. ALTHOUGH MACROPHAGES (MPS) ARE NORMALLY ESSENTIAL FOR MUSCLE REGENERATION, DYSREGULATED MP FUNCTION PROMOTES PATHOLOGICAL MUSCLE REMODELLING. INFILTRATING MPS CAN BE PREDOMINANTLY PRO-INFLAMMATORY (M1 BIASED), ANTI-INFLAMMATORY (M2 BIASED) OR OF A MIXED PHENOTYPE AND CAN ORIGINATE FROM THE ADULT BONE MARROW (MONOCYTE DEPENDENT) OR EMBRYONIC PRECURSORS (MONOCYTE INDEPENDENT). IN MDX MICE (GENETIC MODEL OF DMD) LACKING EITHER TOLL-LIKE RECEPTOR (TLR) 2 OR TLR4, IT IS FOUND THAT MP INFILTRATION OF DYSTROPHIC MUSCLE IS SIGNIFICANTLY REDUCED AND THAT THE MP PHENOTYPE IS SHIFTED TOWARD A MORE ANTI-INFLAMMATORY PROFILE. THIS IS ACCOMPANIED BY SIGNIFICANT IMPROVEMENTS IN MUSCLE HISTOLOGY AND FORCE PRODUCTION. LACK OF THE CHEMOKINE RECEPTOR CCR2, WHICH IMPEDES MONOCYTE RELEASE FROM THE BONE MARROW, LEADS TO SIMILAR BENEFICIAL EFFECTS IN MDX MICE. EVIDENCE WAS ALSO FOUND FOR TLR4-REGULATED INDUCTION OF TRAINED INNATE IMMUNITY IN MPS CULTURED FROM THE BONE MARROW OF MDX MICE BEFORE THEIR ENTRY INTO THE MUSCLE. THESE MPS EXHIBIT EPIGENETIC AND METABOLIC ALTERATIONS, ACCOMPANIED BY NON-SPECIFIC HYPER-RESPONSIVENESS TO MULTIPLE STIMULI, WHICH IS MANIFESTED BY POTENTIATED UPREGULATION OF BOTH PRO- AND ANTI-INFLAMMATORY GENES. IN SUMMARY, EXAGGERATED RECRUITMENT OF MONOCYTE-DERIVED MPS AND SIGNS OF TRAINED INNATE IMMUNITY AT THE LEVEL OF THE BONE MARROW ARE FEATURES OF THE IMMUNOPHENOTYPE ASSOCIATED WITH DYSTROPHIC MUSCLE DISEASE. THESE PHENOMENA ARE REGULATED BY TOLL-LIKE RECEPTORS THAT BIND ENDOGENOUS DAMAGE-ASSOCIATED MOLECULAR PATTERN (DAMP) MOLECULES, SUGGESTING THAT DAMP RELEASE FROM DYSTROPHIC MUSCLES MODULATES MP PLASTICITY AT THE BONE MARROW LEVEL THROUGH TOLL-LIKE RECEPTOR-DRIVEN MECHANISMS. 2022 16 4303 40 MICRORNA-223 INHIBITS TISSUE FACTOR EXPRESSION IN VASCULAR ENDOTHELIAL CELLS. OBJECTIVE: ATHEROSCLEROSIS IS A CHRONIC INFLAMMATORY PROCESS, IN WHICH VASCULAR ENDOTHELIAL CELLS (ECS) BECOME DYSFUNCTIONAL OWING TO THE EFFECTS OF CHEMICAL SUBSTANCES, SUCH AS INFLAMMATORY FACTOR AND GROWTH FACTORS. TISSUE FACTOR (TF) EXPRESSION IS INDUCED BY THE ABOVE CHEMICAL SUBSTANCES IN ACTIVATED ECS. TF INITIATES THROMBOSIS ON DISRUPTED ATHEROSCLEROTIC PLAQUES WHICH PLAYS AN ESSENTIAL ROLE DURING THE ONSET OF ACUTE CORONARY SYNDROMES (ACS). INCREASING EVIDENCES SUGGEST THE IMPORTANT ROLE OF MICRORNAS AS EPIGENETIC REGULATORS OF ATHEROSCLEROTIC DISEASE. THE AIM OF OUR STUDY IS TO IDENTIFY IF MICRORNA-223 (MIR-223) TARGETS TF IN ECS. METHODS AND RESULTS: BIOINFORMATIC ANALYSIS SHOWED THAT TF IS A TARGET CANDIDATE OF MIR-223. WESTERN BLOTTING ANALYSIS REVEALED THAT TUMOR NECROSIS FACTOR ALPHA (TNF-ALPHA) INCREASED TF EXPRESSION IN AORTA OF C57BL/6J MICE AND CULTURED ECS (EA.HY926 CELLS AND HUVEC) AFTER 4 H TREATMENT. IN TNF-ALPHA TREATED ECS, TF MRNA WAS ALSO INCREASED MEASURED BY REAL-TIME PCR. REAL-TIME PCR RESULTS SHOWED THAT MIR-223 LEVELS WERE DOWNREGULATED IN TNF-ALPHA-TREATED AORTA OF C57BL/6J MICE AND CULTURED ECS. TRANSFECTION OF ECS WITH MIR-223 MIMIC OR MIR-223 INHIBITOR MODIFIED TF EXPRESSION BOTH IN MRNA AND PROTEIN LEVELS. LUCIFERASE ASSAYS CONFIRMED THAT MIR-223 SUPPRESSED TF EXPRESSION BY BINDING TO THE SEQUENCE OF TF 3'-UNTRANSLATED REGIONS (3'UTR). TF PROCOAGULANT ACTIVITY WAS INHIBITED BY OVEREXPRESSING MIR-223 WITH OR WITHOUT TNF-ALPHA STIMULATION. CONCLUSIONS: MIR-223-MEDIATED SUPPRESSION OF TF EXPRESSION PROVIDES A NOVEL MOLECULAR MECHANISM FOR THE REGULATION OF COAGULATION CASCADE, AND SUGGESTS A CLUE AGAINST THROMBOGENESIS DURING THE PROCESS OF ATHEROSCLEROTIC PLAQUE RUPTURE. 2014 17 5592 27 ROLE OF TUMOR NECROSIS FACTOR-ALPHA IN THE HUMAN SYSTEMIC ENDOTOXIN-INDUCED TRANSCRIPTOME. TNFALPHA HAS BEEN IMPLICATED IN THE PATHOGENESIS OF VARIOUS INFLAMMATORY DISEASES. DIFFERENT STRATEGIES TO INHIBIT TNFALPHA IN PATIENTS WITH SEPSIS AND CHRONIC INFLAMMATORY CONDITIONS HAVE SHOWN CONTRASTING OUTCOMES. ALTHOUGH TNFALPHA INHIBITORS ARE WIDELY USED IN CLINICAL PRACTICE, THE IMPACT OF TNFALPHA ANTAGONISM ON WHITE BLOOD CELL GENE EXPRESSION PROFILES DURING ACUTE INFLAMMATION IN HUMANS IN VIVO HAS NOT BEEN ASSESSED. WE HERE LEVERAGED THE ESTABLISHED MODEL OF HUMAN ENDOTOXEMIA TO EXAMINE THE EFFECT OF THE TNFALPHA ANTAGONIST, ETANERCEPT, ON THE GENOME-WIDE TRANSCRIPTIONAL RESPONSES IN CIRCULATING LEUKOCYTES INDUCED BY INTRAVENOUS LPS ADMINISTRATION IN MALE SUBJECTS. ETANERCEPT PRE-TREATMENT RESULTED IN A MARKEDLY DAMPENED TRANSCRIPTIONAL RESPONSE TO LPS. GENE CO-EXPRESSION NETWORK ANALYSIS REVEALED THIS LPS-INDUCED TRANSCRIPTOME CAN BE CATEGORIZED AS TNFALPHA RESPONSIVE AND NON-RESPONSIVE MODULES. HIGHLY SIGNIFICANT TNFALPHA RESPONSIVE MODULES INCLUDE NF-KB SIGNALING, ANTIVIRAL RESPONSES AND T-CELL MEDIATED RESPONSES. WITHIN THESE TNFALPHA RESPONSIVE MODULES WE DELINEATE FUNDAMENTAL GENES INVOLVED IN EPIGENETIC MODIFICATIONS, TRANSCRIPTIONAL INITIATION AND ELONGATION. THUS, WE PROVIDE COMPREHENSIVE INFORMATION ABOUT MOLECULAR PATHWAYS THAT MIGHT BE TARGETED BY THERAPEUTIC INTERVENTIONS THAT SEEK TO INHIBIT TNFALPHA ACTIVITY DURING HUMAN INFLAMMATORY DISEASES. 2013 18 5907 31 TARGET-BASED SMALL MOLECULE DRUG DISCOVERY TOWARDS NOVEL THERAPEUTICS FOR INFLAMMATORY BOWEL DISEASES. INFLAMMATORY BOWEL DISEASE (IBD), INCLUDING ULCERATIVE COLITIS (UC) AND CROHN'S DISEASE (CD), IS A CLASS OF SEVERE AND CHRONIC DISEASES OF THE GASTROINTESTINAL (GI) TRACT WITH RECURRENT SYMPTOMS AND SIGNIFICANT MORBIDITY. LONG-TERM PERSISTENCE OF CHRONIC INFLAMMATION IN IBD IS A MAJOR CONTRIBUTING FACTOR TO NEOPLASTIC TRANSFORMATION AND THE DEVELOPMENT OF COLITIS-ASSOCIATED COLORECTAL CANCER. CONVERSELY, PERSISTENCE OF TRANSMURAL INFLAMMATION IN CD IS ASSOCIATED WITH FORMATION OF FIBROSING STRICTURES, RESULTING IN SUBSTANTIAL MORBIDITY. THE RECENT INTRODUCTION OF BIOLOGICAL RESPONSE MODIFIERS AS IBD THERAPIES, SUCH AS ANTIBODIES NEUTRALIZING TUMOR NECROSIS FACTOR (TNF)-ALPHA, HAVE REPLACED NONSELECTIVE ANTI-INFLAMMATORY CORTICOSTEROIDS IN DISEASE MANAGEMENT. HOWEVER, A LARGE PROPORTION (~40%) OF PATIENTS WITH THE TREATMENT OF ANTI-TNF-ALPHA ANTIBODIES ARE DISCONTINUED OR WITHDRAWN FROM THERAPY BECAUSE OF (1) PRIMARY NONRESPONSE, (2) SECONDARY LOSS OF RESPONSE, (3) OPPORTUNISTIC INFECTION, OR (4) ONSET OF CANCER. THEREFORE, THE DEVELOPMENT OF NOVEL AND EFFECTIVE THERAPEUTICS TARGETING SPECIFIC SIGNALING PATHWAYS IN THE PATHOGENESIS OF IBD IS URGENTLY NEEDED. IN THIS COMPREHENSIVE REVIEW, WE SUMMARIZE THE RECENT ADVANCES IN DRUG DISCOVERY OF NEW SMALL MOLECULES IN PRECLINICAL OR CLINICAL DEVELOPMENT FOR TREATING IBD THAT TARGET BIOLOGICALLY RELEVANT PATHWAYS IN MUCOSAL INFLAMMATION. THESE INCLUDE INTRACELLULAR ENZYMES (JANUS KINASES, RECEPTOR INTERACTING PROTEIN, PHOSPHODIESTERASE 4, IKAPPAB KINASE), INTEGRINS, G PROTEIN-COUPLED RECEPTORS (S1P, CCR9, CXCR4, CB2) AND INFLAMMASOME MEDIATORS (NLRP3), ETC. WE WILL ALSO DISCUSS EMERGING EVIDENCE OF A DISTINCT MECHANISM OF ACTION, BROMODOMAIN-CONTAINING PROTEIN 4, AN EPIGENETIC REGULATOR OF PATHWAYS INVOLVED IN THE ACTIVATION, COMMUNICATION, AND TRAFFICKING OF IMMUNE CELLS. WE HIGHLIGHT THEIR CHEMOTYPES, MODE OF ACTIONS, STRUCTURE-ACTIVITY RELATIONSHIPS, CHARACTERIZATIONS, AND THEIR IN VITRO/IN VIVO ACTIVITIES AND THERAPEUTIC POTENTIAL. THE PERSPECTIVES ON THE RELEVANT CHALLENGES, NEW OPPORTUNITIES, AND FUTURE DIRECTIONS IN THIS FIELD ARE ALSO DISCUSSED. 2021 19 3864 28 JAK-STAT PATHWAY INHIBITION PARTIALLY RESTORES INTESTINAL HOMEOSTASIS IN HDAC1- AND HDAC2-INTESTINAL EPITHELIAL CELL-DEFICIENT MICE. WE HAVE PREVIOUSLY REPORTED THAT HISTONE DEACETYLASE EPIGENETIC REGULATOR HDAC1 AND HDAC2 DELETION IN INTESTINAL EPITHELIAL CELLS (IEC) DISRUPTS MUCOSAL TISSUE ARCHITECTURE AND BARRIER, CAUSING CHRONIC INFLAMMATION. IN THIS STUDY, PROTEOME AND TRANSCRIPTOME ANALYSIS REVEALED THE IMPORTANCE OF SIGNALING PATHWAYS INDUCED UPON GENETIC IEC-HDAC1 AND HDAC2 DELETION. INDEED, GENE ONTOLOGY BIOLOGICAL PROCESS ANALYSIS OF ENRICHED DEFICIENT IEC RNA AND PROTEINS IDENTIFIED COMMON PATHWAYS, INCLUDING LIPID METABOLIC AND OXIDATION-REDUCTION PROCESS, CELL ADHESION, AND ANTIGEN PROCESSING AND PRESENTATION, RELATED TO IMMUNE RESPONSES, CORRELATING WITH DYSREGULATION OF MAJOR HISTOCOMPATIBILITY COMPLEX (MHC) CLASS II GENES. TOP UPSTREAM REGULATORS INCLUDED REGULATORS ASSOCIATED WITH ENVIRONMENTAL SENSING PATHWAYS TO XENOBIOTICS, MICROBIAL AND DIET-DERIVED LIGANDS, AND ENDOGENOUS METABOLITES. PROTEOME ANALYSIS REVEALED MTOR SIGNALING IEC-SPECIFIC DEFECTS. IN ADDITION TO MTOR, THE STAT AND NOTCH PATHWAYS WERE DYSREGULATED SPECIFICALLY IN JEJUNAL IEC. TO DETERMINE THE IMPACT OF PATHWAY DYSREGULATION ON MUTANT JEJUNUM ALTERATIONS, WE TREATED MUTANT MICE WITH TOFACITINIB, A JAK INHIBITOR. TREATMENT WITH THE INHIBITOR PARTIALLY CORRECTED PROLIFERATION AND TIGHT JUNCTION DEFECTS, AS WELL AS NICHE STABILIZATION BY INCREASING PANETH CELL NUMBERS. THUS, IEC-SPECIFIC HISTONE DEACETYLASES 1 (HDAC1) AND 2 (HDAC2) SUPPORT INTESTINAL HOMEOSTASIS BY REGULATING SURVIVAL AND TRANSLATION PROCESSES, AS WELL AS DIFFERENTIATION AND METABOLIC PATHWAYS. HDAC1 AND HDAC2 MAY PLAY AN IMPORTANT ROLE IN THE REGULATION OF IEC-SPECIFIC INFLAMMATORY RESPONSES BY CONTROLLING, DIRECTLY OR INDIRECTLY, THE JAK/STAT PATHWAY. IEC-SPECIFIC JAK/STAT PATHWAY DEREGULATION MAY BE, AT LEAST IN PART, RESPONSIBLE FOR INTESTINAL HOMEOSTASIS DISRUPTION IN MUTANT MICE. 2021 20 3355 30 HISTONE EXTRACTION FROM HUMAN ARTICULAR CARTILAGE FOR THE STUDY OF EPIGENETIC REGULATION IN OSTEOARTHRITIS. OSTEOARTHRITIS (OA) IS A CHRONIC DISEASE THAT AFFECTS ARTICULAR CARTILAGE, CAUSING ITS DEGENERATION. ALTHOUGH OA IS ONE OF THE MOST PREVALENT PATHOLOGIES GLOBALLY, THERE ARE NO DEFINITIVE TREATMENTS AVAILABLE. RECENTLY, RESEARCH HAS FOCUSED ON ELUCIDATING THE COMPLEX INTERPLAY THAT TAKES PLACE BETWEEN INFLAMMATORY PROCESSES AND EPIGENETIC REGULATION, SHOWING THAT HISTONE POST-TRANSLATIONAL MODIFICATIONS (PTMS) CAN EXERT A PRONOUNCED EFFECT ON THE EXPRESSION OF OA-RELATED GENES. OA CHONDROCYTES ENHANCE THE PRODUCTION OF INTERLEUKIN 1BETA (IL-1BETA) AND INTERLEUKIN 8 (IL-8), WHICH ARE EPIGENETICALLY REGULATED. THESE CYTOKINES UPREGULATE THE SYNTHESIS OF MATRIX METALLOPROTEINASES (MMPS) AND AGGRECANASES, WHICH PROMOTE THE EXTRACELLULAR MATRIX (ECM) DESTRUCTION. THIS MOTIVATES THE STUDY OF HISTONE PTMS TO INVESTIGATE THE EPIGENETIC REGULATION OF PROINFLAMMATORY MOLECULES, BUT THE ABSENCE OF SPECIFIC PROTOCOLS TO EXTRACT HISTONES FROM HUMAN ARTICULAR CARTILAGE HAS COMPLICATED THIS TASK. THE LACK OF EFFECTIVE METHODS CAN BE EXPLAINED BY THE STRUCTURAL COMPLEXITY AND LOW CELLULARITY OF THIS TISSUE, WHICH ARE RESPONSIBLE FOR THE BIOMECHANICAL PROPERTIES THAT ALLOW THE MOVEMENT OF THE JOINT BUT ALSO COMPLICATE HISTONE ISOLATION. HERE, WE PROVIDE A HISTONE EXTRACTION PROCEDURE SPECIFICALLY ADAPTED FOR CRYOPRESERVED HUMAN ARTICULAR CARTILAGE THAT CAN BE USEFUL TO UNDERSTAND EPIGENETIC REGULATION IN OA AND ACCELERATE THE SEARCH FOR NOVEL STRATEGIES. 2022