1 5592 123 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 2 5036 35 PHARMACOGENETICS AND PHARMACOGENOMICS IN MODERATE-TO-SEVERE PSORIASIS. PHARMACOGENETICS IS THE STUDY OF VARIATIONS IN DNA SEQUENCE RELATED TO DRUG RESPONSE. MOREOVER, THE EVOLUTION OF BIOTECHNOLOGY AND THE SEQUENCING OF HUMAN DNA HAVE ALLOWED THE CREATION OF PHARMACOGENOMICS, A BRANCH OF GENETICS THAT ANALYZES HUMAN GENES, THE RNAS AND PROTEINS ENCODED BY THEM, AND THE INTER-AND INTRA-INDIVIDUAL VARIATIONS IN EXPRESSION AND FUNCTION IN RELATION TO DRUG RESPONSE. PHARMACOGENETICS AND PHARMACOGENOMICS ARE BEING USED TO SEARCH FOR BIOMARKERS THAT CAN PREDICT RESPONSE TO SYSTEMIC TREATMENTS, INCLUDING THOSE FOR MODERATE-TO-SEVERE PSORIASIS. PSORIASIS IS A CHRONIC INFLAMMATORY DISEASE WITH AN AUTOIMMUNE CONTRIBUTION. ALTHOUGH ITS ETIOLOGY REMAINS UNKNOWN, GENETIC, EPIGENETIC, AND ENVIRONMENTAL FACTORS PLAY A ROLE IN ITS DEVELOPMENT. DIVERSE SYSTEMIC AND BIOLOGIC THERAPIES ARE USED TO TREAT MODERATE-TO-SEVERE PSORIASIS. HOWEVER, THESE TREATMENTS ARE NOT CURATIVE, AND PATIENTS EXHIBIT A WIDE RANGE OF RESPONSES TO THEM. MODERATE-TO-SEVERE PSORIASIS IS USUALLY TREATED WITH SYSTEMIC IMMUNOMODULATORS SUCH AS ACITRETIN, CICLOSPORIN, AND METHOTREXATE. ANTI-TUMOR NECROSIS FACTOR (TNF) DRUGS (ADALIMUMAB, ETANERCEPT, OR INFLIXIMAB) ARE THE FIRST-LINE TREATMENT FOR PATIENTS RESISTANT TO CONVENTIONAL SYSTEMIC THERAPIES. ALTHOUGH THESE THERAPIES ARE VERY EFFICIENT, AROUND 30-50% OF PATIENTS HAVE INADEQUATE RESPONSE. USTEKINUMAB IS A MONOCLONAL ANTIBODY THAT TARGETS INTERLEUKIN (IL)-12 AND IL-23 AND IS USED FOR MODERATE-TO-SEVERE PSORIASIS. NEW DRUGS (APREMILAST, BRODALUMAB, GUSELKUMAB, IXEKIZUMAB, AND SECUKINUMAB) HAVE RECENTLY BEEN APPROVED FOR PSORIASIS. HOWEVER, RESPONSE RATES TO SYSTEMIC TREATMENTS FOR MODERATE-TO-SEVERE PSORIASIS RANGE FROM 35 TO 80%, SO IT IS NECESSARY TO IDENTIFY NON-INVASIVE BIOMARKERS THAT COULD HELP PREDICT TREATMENT OUTCOMES OF THESE THERAPIES AND INDIVIDUALIZE CARE FOR PATIENTS WITH PSORIASIS. THESE BIOMARKERS COULD IMPROVE PATIENT QUALITY OF LIFE AND REDUCE HEALTH COSTS AND POTENTIAL SIDE EFFECTS. PHARMACOGENETIC STUDIES HAVE IDENTIFIED POTENTIAL BIOMARKERS FOR RESPONSE TO BIOLOGIC TREATMENTS FOR MODERATE-TO-SEVERE PSORIASIS. THESE BIOMARKERS NEED TO BE VALIDATED IN CLINICAL TRIALS INVOLVING LARGE COHORTS OF PATIENTS BEFORE THEY CAN BE TRANSLATED TO THE CLINIC. WE REVIEW PHARMACOGENETICS AND PHARMACOGENOMICS STUDIES FOR THE TREATMENT OF MODERATE-TO-SEVERE PLAQUE PSORIASIS. 2018 3 3514 37 IDIOPATHIC PULMONARY FIBROSIS: PATHOGENESIS AND THERAPEUTIC APPROACHES. IDIOPATHIC PULMONARY FIBROSIS (IPF), ALSO TERMED CRYPTOGENIC FIBROSING ALVEOLITIS, IS A CLINICOPATHOLOGICAL SYNDROME CHARACTERISED BY COUGH, EXERTIONAL DYSPNEOA, BASILAR CRACKLES, A RESTRICTIVE DEFECT ON PULMONARY FUNCTION TESTS, HONEYCOMBING ON HIGH-RESOLUTION, THIN-SECTION COMPUTED TOMOGRAPHIC SCANS AND THE HISTOLOGICAL DIAGNOSIS OF USUAL INTERSTITIAL PNEUMONIA ON LUNG BIOPSY. THE COURSE IS USUALLY INDOLENT BUT INEXORABLE. MOST PATIENTS DIE OF PROGRESSIVE RESPIRATORY FAILURE WITHIN 3-8 YEARS OF THE ONSET OF SYMPTOMS. CURRENT THERAPIES ARE OF UNPROVEN BENEFIT. ALTHOUGH THE PATHOGENESIS OF IPF HAS NOT BEEN ELUCIDATED, EARLY CONCEPTS FOCUSED ON LUNG INJURY LEADING TO A CYCLE OF CHRONIC ALVEOLAR INFLAMMATION EVENTUATING IN FIBROSIS AND DESTRUCTION OF THE LUNG ARCHITECTURE. ANTI-INFLAMMATORY THERAPIES EMPLOYING CORTICOSTEROIDS OR IMMUNOSUPPRESSIVE OR CYTOTOXIC AGENTS HAVE BEEN DISAPPOINTING. MORE RECENT HYPOTHESES ACKNOWLEDGE THAT SEQUENTIAL ALVEOLAR EPITHELIAL CELL INJURY IS LIKELY TO BE A KEY EVENT IN THE PATHOGENESIS OF IPF, BUT THE CARDINAL EVENT IS AN ABERRANT HOST RESPONSE TO WOUND HEALING. IN THIS CONTEXT, ABNORMAL EPITHELIAL-MESENCHYMAL INTERACTIONS, ALTERED FIBROBLAST PHENOTYPES, EXAGGERATED FIBROBLAST PROLIFERATION, AND EXCESSIVE DEPOSITION OF COLLAGEN AND EXTRACELLULAR MATRIX ARE PIVOTAL TO THE FIBROTIC PROCESS. SEVERAL CLINICAL TRIALS ARE CURRENTLY UNDERWAY OR IN THE PLANNING STAGES, AND INCLUDE DRUGS SUCH AS INTERFERON-GAMMA 1B, PIRFENIDONE, ACETYLCYSTEINE, ETANERCEPT (A TUMOR NECROSIS FACTOR-ALPHA ANTAGONIST), BOSENTAN (AN ENDOTHELIN-1 RECEPTOR ANTAGONIST) AND ZILEUTON (A 5-LYPOXYGENASE INHIBITOR). FUTURE THERAPEUTIC STRATEGIES SHOULD BE FOCUSED ON ALVEOLAR EPITHELIAL CELLS AIMED AT ENHANCING RE-EPITHELIALISATION AND ON FIBROBLASTIC/MYOFIBROBLASTIC FOCI, WHICH PLAY AN ESSENTIAL ROLE IN THE DEVELOPMENT OF IPF. STEM CELL PROGENITORS OF THE ALVEOLAR EPITHELIAL CELLS AND GENETIC AND EPIGENETIC THERAPIES ARE ATTRACTIVE FUTURE APPROACHES FOR THIS AND OTHER FIBROTIC LUNG DISORDERS. 2004 4 6471 35 TNF-ALPHA REGULATES DIABETIC MACROPHAGE FUNCTION THROUGH THE HISTONE ACETYLTRANSFERASE MOF. A CRITICAL COMPONENT OF WOUND HEALING IS THE TRANSITION FROM THE INFLAMMATORY PHASE TO THE PROLIFERATION PHASE TO INITIATE HEALING AND REMODELING OF THE WOUND. MACROPHAGES ARE CRITICAL FOR THE INITIATION AND RESOLUTION OF THE INFLAMMATORY PHASE DURING WOUND REPAIR. IN DIABETES, MACROPHAGES DISPLAY A SUSTAINED INFLAMMATORY PHENOTYPE IN LATE WOUND HEALING CHARACTERIZED BY ELEVATED PRODUCTION OF INFLAMMATORY CYTOKINES, SUCH AS TNF-ALPHA. PREVIOUS STUDIES HAVE SHOWN THAT AN ALTERED EPIGENETIC PROGRAM DIRECTS DIABETIC MACROPHAGES TOWARD A PROINFLAMMATORY PHENOTYPE, CONTRIBUTING TO A SUSTAINED INFLAMMATORY PHASE. MALES ABSENT ON THE FIRST (MOF) IS A HISTONE ACETYLTRANSFERASE (HAT) THAT HAS BEEN SHOWN BE A COACTIVATOR OF TNF-ALPHA SIGNALING AND PROMOTE NF-KAPPAB-MEDIATED GENE TRANSCRIPTION IN PROSTATE CANCER CELL LINES. BASED ON MOF'S ROLE IN TNF-ALPHA/NF-KAPPAB-MEDIATED GENE EXPRESSION, WE HYPOTHESIZED THAT MOF INFLUENCES MACROPHAGE-MEDIATED INFLAMMATION DURING WOUND REPAIR. WE USED MYELOID-SPECIFIC MOF-KNOCKOUT (LYZ2CRE MOFFL/FL) AND DIET-INDUCED OBESE (DIO) MICE TO DETERMINE THE FUNCTION OF MOF IN DIABETIC WOUND HEALING. MOF-DEFICIENT MICE EXHIBITED REDUCED INFLAMMATORY CYTOKINE GENE EXPRESSION. FURTHERMORE, WE FOUND THAT WOUND MACROPHAGES FROM DIO MICE HAD ELEVATED MOF LEVELS AND HIGHER LEVELS OF ACETYLATED HISTONE H4K16, MOF'S PRIMARY SUBSTRATE OF HAT ACTIVITY, ON THE PROMOTERS OF INFLAMMATORY GENES. WE FURTHER IDENTIFIED THAT MOF EXPRESSION COULD BE STIMULATED BY TNF-ALPHA AND THAT TREATMENT WITH ETANERCEPT, AN FDA-APPROVED TNF-ALPHA INHIBITOR, REDUCED MOF LEVELS AND IMPROVED WOUND HEALING IN DIO MICE. THIS REPORT IS THE FIRST TO OUR KNOWLEDGE TO DEFINE AN IMPORTANT ROLE FOR MOF IN REGULATING MACROPHAGE-MEDIATED INFLAMMATION IN WOUND REPAIR AND IDENTIFIES TNF-ALPHA INHIBITION AS A POTENTIAL THERAPY FOR THE TREATMENT OF CHRONIC INFLAMMATION IN DIABETIC WOUNDS. 2020 5 593 30 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 6 4756 39 NOVEL THERAPEUTIC TARGET(S) FOR PSORIATIC DISEASE. PSORIASIS AND PSORIATIC ARTHRITIS, TOGETHER KNOWN AS PSORIATIC DISEASE, IS HIGHLY PREVALENT CHRONIC RELAPSING INFLAMMATORY DISEASE AFFECTING SKIN, JOINTS OR BOTH AND IS ASSOCIATED WITH SEVERAL COMORBIDITIES SUCH AS CARDIOVASCULAR, METABOLIC, PSYCHIATRIC, RENAL DISEASE ETC. THE ETIOPATHOGENESIS OF PSORIASIS IS COMPLEX AND MAINLY DRIVEN BY ABERRANT IMMUNE RESPONSE OWING TO THE GENETIC SUSCEPTIBILITY AND VARIOUS ENVIRONMENTAL FACTORS SUCH AS TRAUMA, INFECTIONS AND DRUGS. RECENT ADVANCES IN UNDERSTANDING MOLECULAR AND CELLULAR PATHWAYS HAVE IDENTIFIED TUMOR NECROSIS FACTOR-ALPHA (TNF-ALPHA), INTERLEUKIN-17 (IL-17), IL-23, IL-22 AS MAJOR CONTRIBUTORS IN PSORIASIS PATHOGENESIS. ADVANCES IN THE KNOWLEDGE OF PATHOPHYSIOLOGY, THE INTERACTION OF AUTOINFLAMMATION AND CLINICAL PHENOTYPES HAVE LED TO THE DEVELOPMENT OF HIGHLY EFFECTIVE TARGETED THERAPEUTIC AGENTS WHICH INCLUDE TNF-ALPHA, IL-17, IL-23, IL-1 ALPHA/BETA OR IL-36 INHIBITORS OR RECEPTOR BLOCKERS, SMALL MOLECULE DRUGS LIKE PHOSPHODIESTERASE-4 INHIBITORS (APREMILAST), JANUS KINASE (JAK) INHIBITORS, RETINOIC ACID RECEPTOR-RELATED ORPHAN RECEPTOR GAMMAT (RORGAMMAT) INHIBITORS. THESE NOVEL DRUGS HAVE PROMISED THE POTENTIAL OF IMPROVED DISEASE CONTROL. IN RECENT YEARS, THE TRANSITION FROM BIOLOGICS TO BIOSIMILARS ESPECIALLY WITH TNF-ALPHA INHIBITORS HAD SIGNIFICANT IMPACT ON DECREASING HEALTH CARE COST AND INCREASING THERAPEUTIC OPTIONS TO THE PATIENTS. HOWEVER, SELECTION OF RIGHT TREATMENT FOR AN INDIVIDUAL PATIENT STILL REMAINS CHALLENGING. MOREOVER, INTERPLAY BETWEEN DIFFERENT EPIGENETIC MECHANISMS SUCH AS THE DNA METHYLATION, CHROMATIN MODIFICATIONS AND NONCODING RNA REGULATION HAS RECENTLY BEEN STARTED TO BE DECIPHERED. ENZYMES INHIBITORS INVOLVED IN EPIGENETIC PATHWAYS SUCH AS DNA METHYLTRANSFERASES AND HISTONE DEACETYLASES DEMONSTRATED TO RESTORE NORMAL EPIGENETIC PATTERNS IN CLINICAL SETTINGS AND HAVE PROVIDED THE POTENTIAL AS NOVEL THERAPEUTIC TARGETS FOR PSORIASIS. IN THIS REVIEW, WE WILL DISCUSS NOVEL BIOLOGIC AGENTS AND NEWER THERAPEUTIC APPROACHES IN TREATMENT OF PSORIATIC DISEASE. 2022 7 5041 27 PHARMACOGENETICS: CAN GENES DETERMINE TREATMENT EFFICACY AND SAFETY IN JIA? JUVENILE IDIOPATHIC ARTHRITIS (JIA) IS THE MOST COMMON CHRONIC RHEUMATIC CONDITION IN CHILDHOOD, WITH MANY CHILDREN REQUIRING IMMUNOMODULATORY THERAPIES FOR MANY YEARS FOLLOWING DIAGNOSIS. A CONSIDERABLE PROPORTION OF CHILDREN EXPERIENCE THERAPEUTIC INEFFICACY OR SUBSTANTIAL ADVERSE EFFECTS, OR BOTH, BUT A LACK OF RELIABLE CLINICAL INDICATORS AND BIOMARKERS TO PREDICT TREATMENT RESPONSE PREVENTS OPTIMIZATION OF EXISTING THERAPIES. THE IDENTIFICATION OF VALID CANDIDATE GENE VARIANTS INVOLVED IN THE PATHWAYS OF METHOTREXATE AND ETANERCEPT, THE MOST COMMONLY USED MEDICATIONS IN JIA, HAS SEEN LITTLE SUCCESS TO DATE. THE LIMITED SUCCESS OF THESE STUDIES IS POSSIBLY DUE TO THE PRESENCE OF CONFOUNDING VARIABLES IN THE STUDY POPULATIONS, THE HETEROGENEITY OF OUTCOME PARAMETERS USED TO DETERMINE TREATMENT RESPONSE AND THE SMALL NUMBER OF CANDIDATE GENE VARIANTS ANALYSED. THE FIRST GENOME-WIDE PHARMACOGENETIC STUDY IN JIA HAS IDENTIFIED GENE REGIONS OF PARTICULAR BIOLOGICAL INTEREST, BUT THESE FINDINGS REQUIRE VALIDATION. MOREOVER, EPIGENETIC MECHANISMS AS WELL AS ONTOGENY PROCESSES MIGHT BE ADDITIONAL FACTORS INFLUENCING DRUG RESPONSES. ACCESS TO LARGE, WELL-DOCUMENTED JIA COHORTS AND THE RAPID DEVELOPMENT OF ADVANCED GENOME ANALYTICS IS USHERING IN A PERSONALIZED APPROACH TO TREATMENT. THE DISCOVERY OF NEW PHARMACOGENOMIC BIOMARKERS AND SYSTEMS PATHWAYS CAN PROVIDE NEW DRUG TARGETS AND PREDICTIVE TOOLS FOR IMPROVED DRUG RESPONSE AND FEWER ADVERSE DRUG REACTIONS IN JIA. 2014 8 3201 30 HDAC2 IN PRIMARY SENSORY NEURONS CONSTITUTIVELY RESTRAINS CHRONIC PAIN BY REPRESSING ALPHA2DELTA-1 EXPRESSION AND ASSOCIATED NMDA RECEPTOR ACTIVITY. ALPHA2DELTA-1 (ENCODED BY THE CACNA2D1 GENE) IS A NEWLY DISCOVERED NMDA RECEPTOR-INTERACTING PROTEIN AND IS THE THERAPEUTIC TARGET OF GABAPENTINOIDS (E.G., GABAPENTIN AND PREGABALIN) FREQUENTLY USED FOR TREATING PATIENTS WITH NEUROPATHIC PAIN. NERVE INJURY CAUSES SUSTAINED ALPHA2DELTA-1 UPREGULATION IN THE DORSAL ROOT GANGLION (DRG), WHICH PROMOTES NMDA RECEPTOR SYNAPTIC TRAFFICKING AND ACTIVATION IN THE SPINAL DORSAL HORN, A HALLMARK OF CHRONIC NEUROPATHIC PAIN. HOWEVER, LITTLE IS KNOWN ABOUT HOW NERVE INJURY INITIATES AND MAINTAINS THE HIGH EXPRESSION LEVEL OF ALPHA2DELTA-1 TO SUSTAIN CHRONIC PAIN. HERE, WE SHOW THAT NERVE INJURY CAUSED HISTONE HYPERACETYLATION AND DIMINISHED ENRICHMENT OF HISTONE DEACETYLASE-2 (HDAC2), BUT NOT HDAC3, AT THE CACNA2D1 PROMOTER IN THE DRG. STRIKINGLY, HDAC2 KNOCKDOWN OR CONDITIONAL KNOCKOUT IN DRG NEURONS IN MALE AND FEMALE MICE CONSISTENTLY INDUCED LONG-LASTING MECHANICAL PAIN HYPERSENSITIVITY, WHICH WAS READILY REVERSED BY BLOCKING NMDA RECEPTORS, INHIBITING ALPHA2DELTA-1 WITH GABAPENTIN OR DISRUPTING THE ALPHA2DELTA-1-NMDA RECEPTOR INTERACTION AT THE SPINAL CORD LEVEL. HDAC2 DELETION IN DRG NEURONS INCREASED HISTONE ACETYLATION LEVELS AT THE CACNA2D1 PROMOTER, UPREGULATED ALPHA2DELTA-1 IN THE DRG, AND POTENTIATED ALPHA2DELTA-1-DEPENDENT NMDA RECEPTOR ACTIVITY AT PRIMARY AFFERENT CENTRAL TERMINALS IN THE SPINAL DORSAL HORN. CORRESPONDINGLY, HDAC2 KNOCKDOWN-INDUCED PAIN HYPERSENSITIVITY WAS BLUNTED IN CACNA2D1 KNOCKOUT MICE. THUS, OUR FINDINGS REVEAL THAT HDAC2 FUNCTIONS AS A PIVOTAL TRANSCRIPTIONAL REPRESSOR OF NEUROPATHIC PAIN VIA CONSTITUTIVELY SUPPRESSING ALPHA2DELTA-1 EXPRESSION AND ENSUING PRESYNAPTIC NMDA RECEPTOR ACTIVITY IN THE SPINAL CORD. HDAC2 ENRICHMENT LEVELS AT THE CACNA2D1 PROMOTER IN DRG NEURONS CONSTITUTE A UNIQUE EPIGENETIC MECHANISM THAT GOVERNS ACUTE-TO-CHRONIC PAIN TRANSITION.SIGNIFICANCE STATEMENT EXCESS ALPHA2DELTA-1 PROTEINS PRODUCED AFTER NERVE INJURY DIRECTLY INTERACT WITH GLUTAMATE NMDA RECEPTORS TO POTENTIATE SYNAPTIC NMDA RECEPTOR ACTIVITY IN THE SPINAL CORD, A PROMINENT MECHANISM OF NERVE PAIN. BECAUSE ALPHA2DELTA-1 UPREGULATION AFTER NERVE INJURY IS LONG LASTING, GABAPENTINOIDS RELIEVE PAIN SYMPTOMS ONLY TEMPORARILY. OUR STUDY DEMONSTRATES FOR THE FIRST TIME THE UNEXPECTED ROLE OF INTRINSIC HDAC2 ACTIVITY AT THE ALPHA2DELTA-1 GENE PROMOTER IN LIMITING ALPHA2DELTA-1 GENE TRANSCRIPTION, NMDA RECEPTOR-DEPENDENT SYNAPTIC PLASTICITY, AND CHRONIC PAIN DEVELOPMENT AFTER NERVE INJURY. THESE FINDINGS CHALLENGE THE PREVAILING VIEW ABOUT THE ROLE OF GENERAL HDAC ACTIVITY IN PROMOTING CHRONIC PAIN. RESTORING THE REPRESSIVE HDAC2 FUNCTION AND/OR REDUCING HISTONE ACETYLATION AT THE ALPHA2DELTA-1 GENE PROMOTER IN PRIMARY SENSORY NEURONS COULD LEAD TO LONG-LASTING RELIEF OF NERVE PAIN. 2022 9 4304 38 MICRORNA-223 PROTECTS NEURONS FROM DEGENERATION IN EXPERIMENTAL AUTOIMMUNE ENCEPHALOMYELITIS. MULTIPLE SCLEROSIS IS A CHRONIC INFLAMMATORY, DEMYELINATING, AND NEURODEGENERATIVE DISEASE AFFECTING THE BRAIN, SPINAL CORD AND OPTIC NERVES. NEURONAL DAMAGE IS TRIGGERED BY VARIOUS HARMFUL FACTORS THAT ENGAGE DIVERSE SIGNALLING CASCADES IN NEURONS; THUS, THERAPEUTIC APPROACHES TO PROTECT NEURONS WILL NEED TO FOCUS ON AGENTS THAT CAN TARGET MULTIPLE BIOLOGICAL PROCESSES. WE HAVE THEREFORE FOCUSED OUR ATTENTION ON MICRORNAS: SMALL NON-CODING RNAS THAT PRIMARILY FUNCTION AS POST-TRANSCRIPTIONAL REGULATORS THAT TARGET MESSENGER RNAS AND REPRESS THEIR TRANSLATION INTO PROTEINS. A SINGLE MICRORNA CAN TARGET MANY FUNCTIONALLY RELATED MESSENGER RNAS MAKING MICRORNAS POWERFUL EPIGENETIC REGULATORS. DYSREGULATION OF MICRORNAS HAS BEEN DESCRIBED IN MANY NEURODEGENERATIVE DISEASES INCLUDING MULTIPLE SCLEROSIS. HERE, WE REPORT THAT TWO MICRORNAS, MIR-223-3P AND MIR-27A-3P, ARE UPREGULATED IN NEURONS IN THE EXPERIMENTAL AUTOIMMUNE ENCEPHALOMYELITIS MOUSE MODEL OF CNS INFLAMMATION AND IN GREY MATTER-CONTAINING MULTIPLE SCLEROSIS LESIONS. PRIOR WORK HAS SHOWN PERIPHERAL BLOOD MONONUCLEAR CELL CONDITIONED MEDIA CAUSES SUBLETHAL DEGENERATION OF NEURONS IN CULTURE. WE FIND OVEREXPRESSION OF MIR-27A-3P OR MIR-223-3P PROTECTS DISSOCIATED CORTICAL NEURONS FROM CONDITION MEDIA MEDIATED DEGENERATION. INTRODUCTION OF MIR-223-3P IN VIVO IN MOUSE RETINAL GANGLION CELLS PROTECTS THEIR AXONS FROM DEGENERATION IN EXPERIMENTAL AUTOIMMUNE ENCEPHALOMYELITIS. IN SILICO ANALYSIS REVEALED THAT MESSENGER RNAS INVOLVED IN GLUTAMATE RECEPTOR SIGNALLING ARE ENRICHED AS MIR-27A-3P AND MIR-223-3P TARGETS. WE OBSERVE THAT ANTAGONISM OF NMDA AND AMPA TYPE GLUTAMATE RECEPTORS PROTECTS NEURONS FROM CONDITION MEDIA DEPENDENT DEGENERATION. OUR RESULTS SUGGEST THAT MIR-223-3P AND MIR-27A-3P ARE UPREGULATED IN RESPONSE TO INFLAMMATION TO MEDIATE A COMPENSATORY NEUROPROTECTIVE GENE EXPRESSION PROGRAM THAT DESENSITIZES NEURONS TO GLUTAMATE BY TARGETING MESSENGER RNAS INVOLVED IN GLUTAMATE RECEPTOR SIGNALLING. 2019 10 1105 30 COMBINED INHIBITION OF HISTONE DEACETYLASES AND BET FAMILY PROTEINS AS EPIGENETIC THERAPY FOR NERVE INJURY-INDUCED NEUROPATHIC PAIN. CURRENT TREATMENTS FOR NEUROPATHIC PAIN HAVE OFTEN MODERATE EFFICACY AND PRESENT UNWANTED EFFECTS SHOWING THE NEED TO DEVELOP EFFECTIVE THERAPIES. ACCUMULATING EVIDENCE SUGGESTS THAT HISTONE ACETYLATION PLAYS ESSENTIAL ROLES IN CHRONIC PAIN AND THE ANALGESIC ACTIVITY OF HISTONE DEACETYLASES (HDACS) INHIBITORS IS DOCUMENTED. BROMODOMAIN AND EXTRA-TERMINAL DOMAIN (BET) PROTEINS ARE EPIGENETIC READERS THAT INTERACT WITH ACETYLATED LYSINE RESIDUES ON HISTONES, BUT LITTLE IS KNOWN ABOUT THEIR IMPLICATION IN NEUROPATHIC PAIN. THUS, THE CURRENT STUDY WAS AIMED TO INVESTIGATE THE EFFECT OF THE COMBINATION OF HDAC AND BET INHIBITORS IN THE SPARED NERVE INJURY (SNI) MODEL IN MICE. INTRANASAL ADMINISTRATION OF I-BET762 (BET INHIBITOR) OR SAHA (HDAC INHIBITOR) ATTENUATED THERMAL AND MECHANICAL HYPERSENSITIVITY AND THIS ANTIALLODYNIC ACTIVITY WAS IMPROVED BY CO-ADMINISTRATION OF BOTH DRUGS. SPINAL CORD SECTIONS OF SNI MICE SHOWED AN INCREASED EXPRESSION OF HDAC1 AND BRD4 PROTEINS AND COMBINATION PRODUCED A STRONGER REDUCTION COMPARED TO EACH EPIGENETIC AGENT ALONE. SAHA AND I-BET762, ADMINISTERED ALONE OR IN COMBINATION, COUNTERACTED THE SNI-INDUCED MICROGLIA ACTIVATION BY INHIBITING THE EXPRESSION OF IBA1, CD11B, INDUCIBLE NITRIC OXIDE SYNTHASE (INOS), THE ACTIVATION OF NUCLEAR FACTOR-KAPPAB (NF-KAPPAB) AND SIGNAL TRANSDUCER AND ACTIVATOR OF TRANSCRIPTION-1 (STAT1) WITH COMPARABLE EFFICACY. CONVERSELY, THE EPIGENETIC INHIBITORS SHOWED A MODEST EFFECT ON SPINAL PROINFLAMMATORY CYTOKINES CONTENT THAT WAS SIGNIFICANTLY POTENTIATED BY THEIR COMBINATION. PRESENT RESULTS INDICATE A KEY ROLE OF ACETYLATED HISTONES AND THEIR RECRUITMENT BY BET PROTEINS ON MICROGLIA-MEDIATED SPINAL NEUROINFLAMMATION. TARGETING NEUROPATHIC PAIN WITH THE COMBINATION OF HDAC AND BET INHIBITORS MAY REPRESENT A PROMISING NEW THERAPEUTIC OPTION. 2021 11 4044 28 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 12 4582 27 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 13 2067 26 EPIGENETIC CONTROL OF MACROPHAGE SHAPE TRANSITION TOWARDS AN ATYPICAL ELONGATED PHENOTYPE BY HISTONE DEACETYLASE ACTIVITY. INFLAMMATORY CHRONIC PATHOLOGIES ARE COMPLEX PROCESSES CHARACTERIZED BY AN IMBALANCE BETWEEN THE RESOLUTION OF THE INFLAMMATORY PHASE AND THE ESTABLISHMENT OF TISSUE REPAIR. THE MAIN PLAYERS IN THESE INFLAMMATORY PATHOLOGIES ARE BONE MARROW DERIVED MONOCYTES (BMDMS). HOWEVER, HOW MONOCYTE DIFFERENTIATION IS MODULATED TO GIVE RISE TO SPECIFIC MACROPHAGE SUBPOPULATIONS (M1 OR M2) THAT MAY EITHER MAINTAIN THE CHRONIC INFLAMMATORY PROCESS OR LEAD TO WOUND HEALING IS STILL UNCLEAR. CONSIDERING THAT INHIBITORS OF HISTONE DEACETYLASE (HDAC) HAVE AN ANTI-INFLAMMATORY ACTIVITY, WE ASKED WHETHER THIS ENZYME WOULD PLAY A ROLE ON MONOCYTE DIFFERENTIATION INTO M1 OR M2 PHENOTYPE AND IN THE CELL SHAPE TRANSITION THAT FOLLOWS. WE THEN INDUCED MURINE BONE MARROW PROGENITORS INTO MONOCYTE/MACROPHAGE DIFFERENTIATION PATHWAY USING MEDIA CONTAINING GM-CSF AND THE HDAC BLOCKER, TRICHOSTATIN A (TSA). WE FOUND THAT THE PHARMACOLOGICAL INHIBITION OF HDAC ACTIVITY LED TO A SHAPE TRANSITION FROM THE TYPICAL MACROPHAGE PANCAKE-LIKE SHAPE INTO AN ELONGATED MORPHOLOGY, WHICH WAS CORRELATED TO A MIXED M1/M2 PROFILE OF CYTOKINE AND CHEMOKINE SECRETION. OUR RESULTS PRESENT, FOR THE FIRST TIME, THAT HDAC ACTIVITY ACTS AS A REGULATOR OF MACROPHAGE DIFFERENTIATION IN THE ABSENCE OF LYMPHOCYTE STIMULI. WE PROPOSE THAT HDAC ACTIVITY DOWN REGULATES MACROPHAGE PLASTICITY FAVORING THE PRO-INFLAMMATORY PHENOTYPE. 2015 14 5907 36 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 15 1160 17 CONTINUING WAR ON PAIN: A PERSONALIZED APPROACH TO THE THERAPY WITH NONSTEROIDAL ANTI-INFLAMMATORY DRUGS AND OPIOIDS. SUCCESSFUL PAIN MANAGEMENT REQUIRES THE DELIVERY OF ANALGESIA WITH MINIMAL RISK OF ADVERSE DRUG REACTIONS. NONSTEROIDAL ANTI-INFLAMMATORY DRUGS AND OPIOIDS REMAIN THE MAINSTAY OF TREATMENT FOR THE MAJORITY OF PATIENTS. UNFORTUNATELY, ALMOST 50% OF ALL PATIENTS EXPERIENCE INADEQUATE PAIN RELIEF AND SERIOUS SIDE EFFECTS. ALLELIC VARIANTS IN GENES CODING FOR TARGET PROTEINS, TRANSPORTERS AND ENZYMES, WHICH GOVERN ANALGESIC DRUGS ACTION AND THEIR FATE IN THE ORGANISM, MIGHT EXPLAIN INTER-INDIVIDUAL VARIABILITY IN PAIN SEVERITY AND IN DRUG-INDUCED PAIN RELIEF AND TOXICITIES. ADDITIONALLY, IT SEEMS THAT EPIGENETIC CHANGES CONTRIBUTE TO THE HIGHLY VARIABLE RESPONSE TO PAIN TREATMENT. THEREFORE, PHARMACOGENOMIC TESTING MIGHT BE A VALUABLE TOOL FOR PERSONALIZATION OF PAIN TREATMENT, WITH A MULTIDISCIPLINARY TEAM APPROACH INVOLVED. 2019 16 5778 30 SPINAL CORD INJURY INDUCED NEUROPATHIC PAIN: MOLECULAR TARGETS AND THERAPEUTIC APPROACHES. NEUROPATHIC PAIN, ESPECIALLY THAT RESULTING FROM SPINAL CORD INJURY, IS A TREMENDOUS CLINICAL CHALLENGE. A MYRIAD OF BIOLOGICAL CHANGES HAVE BEEN IMPLICATED IN PRODUCING THESE PAIN STATES INCLUDING CELLULAR INTERACTIONS, EXTRACELLULAR PROTEINS, ION CHANNEL EXPRESSION, AND EPIGENETIC INFLUENCES. PHYSIOLOGICAL CONSEQUENCES OF THESE CHANGES ARE VARIED AND INCLUDE FUNCTIONAL DEFICITS AND PAIN RESPONSES. DEVELOPING THERAPIES THAT EFFECTIVELY ADDRESS THE CAUSE OF THESE SYMPTOMS REQUIRE A DEEPER KNOWLEDGE OF ALTERATIONS IN THE MOLECULAR PATHWAYS. MATRIX METALLOPROTEINASES AND TISSUE INHIBITORS OF METALLOPROTEINASES ARE TWO PROMISING THERAPEUTIC TARGETS. MATRIX METALLOPROTEINASES INTERACT WITH AND INFLUENCE MANY OF THE STUDIED PAIN PATHWAYS. GENE EXPRESSION OF ION CHANNELS AND INFLAMMATORY MEDIATORS CLEARLY CONTRIBUTES TO NEUROPATHIC PAIN. LOCALIZED AND TIME DEPENDENT TARGETING OF THESE PROTEINS COULD ALLEVIATE AND EVEN PREVENT NEUROPATHIC PAIN FROM DEVELOPING. CURRENT THERAPEUTIC OPTIONS FOR NEUROPATHIC PAIN ARE LIMITED PRIMARILY TO ANALGESICS TARGETING THE OPIOID PATHWAY. THERAPIES DIRECTED AT MOLECULAR TARGETS ARE HIGHLY DESIRABLE AND IN EARLY STAGES OF DEVELOPMENT. THESE INCLUDE TRANSPLANTATION OF EXOGENOUSLY ENGINEERED CELL POPULATIONS AND TARGETED GENE MANIPULATION. THIS REVIEW DESCRIBES SPECIFIC MOLECULAR TARGETS AMENABLE TO THERAPEUTIC INTERVENTION USING CURRENTLY AVAILABLE DELIVERY SYSTEMS. 2015 17 4138 36 MECHANISMS OF MICROGLIAL ACTIVATION IN MODELS OF INFLAMMATION AND HYPOXIA: IMPLICATIONS FOR CHRONIC INTERMITTENT HYPOXIA. CHRONIC INTERMITTENT HYPOXIA (CIH) IS A HALLMARK OF SLEEP APNOEA, A CONDITION ASSOCIATED WITH DIVERSE CLINICAL DISORDERS. CIH AND SLEEP APNOEA ARE CHARACTERIZED BY INCREASED REACTIVE OXYGEN SPECIES FORMATION, PERIPHERAL AND CNS INFLAMMATION, NEURONAL DEATH AND NEUROCOGNITIVE DEFICITS. FEW STUDIES HAVE EXAMINED THE ROLE OF MICROGLIA, THE RESIDENT CNS IMMUNE CELLS, IN MODELS OF CIH. THUS, LITTLE IS KNOWN CONCERNING THEIR DIRECT CONTRIBUTIONS TO NEUROPATHOLOGY OR THE CELLULAR MECHANISMS REGULATING THEIR ACTIVITIES DURING OR FOLLOWING PATHOLOGICAL CIH. IN THIS REVIEW, WE IDENTIFY GAPS IN KNOWLEDGE REGARDING CIH-INDUCED MICROGLIAL ACTIVATION, AND PROPOSE MECHANISMS BASED ON DATA FROM RELATED MODELS OF HYPOXIA AND/OR HYPOXIA-REOXYGENATION. CIH MAY DIRECTLY AFFECT MICROGLIA, OR MAY HAVE INDIRECT EFFECTS VIA THE PERIPHERY OR OTHER CNS CELLS. PERIPHERAL INFLAMMATION MAY INDIRECTLY ACTIVATE MICROGLIA VIA ENTRY OF PRO-INFLAMMATORY MOLECULES INTO THE CNS, AND/OR ACTIVATION OF VAGAL AFFERENTS THAT TRIGGER CNS INFLAMMATION. CIH-INDUCED RELEASE OF DAMAGE-ASSOCIATED MOLECULAR PATTERNS FROM INJURED CNS CELLS MAY ALSO ACTIVATE MICROGLIA VIA INTERACTIONS WITH PATTERN RECOGNITION RECEPTORS EXPRESSED ON MICROGLIA. FOR EXAMPLE, TOLL-LIKE RECEPTORS ACTIVATE MITOGEN-ACTIVATED PROTEIN KINASE/TRANSCRIPTION FACTOR PATHWAYS REQUIRED FOR MICROGLIAL INFLAMMATORY GENE EXPRESSION. ALTHOUGH EPIGENETIC EFFECTS FROM CIH HAVE NOT YET BEEN STUDIED IN MICROGLIA, POTENTIAL EPIGENETIC MECHANISMS IN MICROGLIAL REGULATION ARE DISCUSSED, INCLUDING MICRORNAS, HISTONE MODIFICATIONS AND DNA METHYLATION. EPIGENETIC EFFECTS CAN OCCUR DURING CIH, OR LONG AFTER IT HAS ENDED. A BETTER UNDERSTANDING OF CIH EFFECTS ON MICROGLIAL ACTIVITIES MAY BE IMPORTANT TO REVERSE CIH-INDUCED NEUROPATHOLOGY IN PATIENTS WITH SLEEP DISORDERED BREATHING. 2016 18 842 30 CHEMOKINES IN CHRONIC PAIN: CELLULAR AND MOLECULAR MECHANISMS AND THERAPEUTIC POTENTIAL. CHRONIC PAIN RESULTING FROM NERVE INJURY, TISSUE INFLAMMATION, AND TUMOR INVASION OR TREATMENT, IS A MAJOR HEALTH PROBLEM IMPACTING THE QUALITY OF LIFE AND PRODUCING A SIGNIFICANT ECONOMIC AND SOCIAL BURDEN. HOWEVER, THE CURRENT ANALGESIC DRUGS INCLUDING NON-STEROIDAL ANTI-INFLAMMATORY DRUGS AND OPIOIDS ARE INADEQUATE TO RELIEVE CHRONIC PAIN DUE TO THE LACK OF EFFICACY OR SEVERE SIDE-EFFECTS. CHEMOKINES ARE A FAMILY OF SMALL SECRETED PROTEINS THAT BIND TO G PROTEIN-COUPLED RECEPTORS TO TRIGGER INTRACELLULAR SIGNALING PATHWAYS AND DIRECT CELL MIGRATION, PROLIFERATION, SURVIVAL, AND INFLAMMATION UNDER HOMEOSTATIC AND PATHOLOGICAL CONDITIONS. ACCUMULATING EVIDENCE SUPPORTS THE IMPORTANT ROLE OF CHEMOKINES AND CHEMOKINE RECEPTORS IN THE PERIPHERAL AND CENTRAL NERVOUS SYSTEM IN MEDIATING CHRONIC PAIN VIA ENHANCING NEUROINFLAMMATION. IN THIS REVIEW, WE FOCUS ON RECENT PROGRESS IN UNDERSTANDING THE COMPREHENSIVE ROLES OF CHEMOKINES AND CHEMOKINE RECEPTORS IN THE GENERATION AND MAINTENANCE OF DIFFERENT TYPES OF CHRONIC PAIN, INCLUDING NEUROPATHIC PAIN, INFLAMMATORY PAIN, CANCER PAIN, AND VISCERAL PAIN. THE CURRENT REVIEW ALSO SUMMARIZES THE UPSTREAM SIGNALING OF TRANSCRIPTIONAL AND EPIGENETIC REGULATION ON THE EXPRESSION OF CHEMOKINES AND CHEMOKINE RECEPTORS AS WELL AS THE DOWNSTREAM SIGNALING OF CHEMOKINE RECEPTORS UNDERLYING CHRONIC PAIN. AS CHRONIC ITCH AND CHRONIC PAIN SHARE SOME COMMON MECHANISMS, WE ALSO DISCUSS THE EMERGING ROLES OF CHEMOKINES AND CHEMOKINE RECEPTORS IN CHRONIC ITCH. TARGETING SPECIFIC CHEMOKINES OR CHEMOKINE RECEPTORS BY SIRNAS, BLOCKING ANTIBODIES, OR SMALL-MOLECULE ANTAGONISTS MAY OFFER NEW THERAPEUTIC POTENTIAL FOR THE MANAGEMENT OF CHRONIC PAIN. 2020 19 6687 18 VALIDATION OF THE EPIGENETIC READER BROMODOMAIN-CONTAINING PROTEIN 4 (BRD4) AS A THERAPEUTIC TARGET FOR TREATMENT OF AIRWAY REMODELING. STRUCTURAL REMODELING IS CENTRAL TO THE INITIATION AND PROGRESSION OF MANY CHRONIC LUNG DISEASES, REPRESENTING AN IMPORTANT UNMET NEED. WE EXAMINE THE EVIDENCE SUPPORTING BROMODOMAIN-CONTAINING PROTEIN 4 (BRD4) AS A VALIDATED BIOLOGICAL TARGET FOR TREATMENT OF AIRWAY REMODELING. IN EPITHELIAL CELLS AND FIBROBLASTS, BRD4 SERVES AS A SCAFFOLD FOR CHROMATIN REMODELING COMPLEXES IN ACTIVE SUPER-ENHANCERS. IN RESPONSE TO INFLAMMATORY STIMULI, BRD4 IS REPOSITIONED TO INNATE AND MESENCHYMAL GENES ACTIVATING THEIR PRODUCTION. PROOF-OF-CONCEPT STUDIES SHOW PROMISING BENEFIT OF SELECTIVE BRD4 INHIBITORS IN DISRUPTING EPITHELIAL MESENCHYMAL TRANSITION AND MYOFIBROBLAST TRANSITION IN DIVERSE MODELS OF LUNG INJURY. RECENT IDENTIFICATION OF BIOMARKERS OF BRD4 PROVIDES A BASIS FOR FURTHER DRUG DEVELOPMENT FOR APPLICATION IN VIRAL-INDUCED AIRWAY INFLAMMATION, COPD AND INTERSTITIAL LUNG DISEASES. 2020 20 2726 25 EXPERIMENTAL PHARMACOLOGICAL MANAGEMENT OF PSORIASIS. PSORIASIS IS A CHRONIC, RELAPSING, IMMUNE-MEDIATED SYSTEMIC DISEASE. ITS PATHOGENESIS IS COMPLEX AND NOT FULLY UNDERSTOOD YET. GENETIC AND EPIGENETIC FACTORS INTERACT WITH MOLECULAR PATHWAYS INVOLVING TNF-ALPHA, IL-23/IL-17 AXIS, AND PECULIAR CYTOKINES, AS IL-36 OR PHOSPHODIESTERASE 4. THIS REVIEW DISCUSSES THE MECHANISMS INVOLVED IN THE DEVELOPMENT OF THE DISEASE, AS WELL AS THE THERAPEUTIC OPTIONS PROPOSED FOLLOWING THE INVESTIGATION OF THE INFLAMMATORY PSORIATIC PATHWAYS. WE PERFORMED A COMPREHENSIVE SEARCH USING THE WORDS "PSORIASIS" AND THE NEWEST MOLECULES CURRENTLY UNDER INVESTIGATION AND APPROVAL. FROM THESE DATA, A NEW SCENARIO IN PSORIASIS IS OCCURRING TO PERSONALIZE THE THERAPIES - ESPECIALLY SYSTEMIC ONES AND THOSE USING SMALL MOLECULES - AND AVOID TOPICAL AND INJECTABLE DRUGS. WE REPORTED THE NEWEST THERAPEUTIC OPPORTUNITIES, INCLUDING THE INHIBITORS OF JANUS KINASE/TYROSINE KINASE 2, PHOSPHODIESTERASE-4 AND IL-36 RECEPTOR. TODAY, MORE THAN 20 MOLECULES ARE UNDER INVESTIGATION FOR THE TREATMENT OF CUTANEOUS PSORIASIS. MOST OF THEM ARE CONSTITUTED BY SMALL MOLECULES OR BIOLOGIC THERAPIES. THIS UNDERLINES HOW PSORIASIS NEEDS SYSTEMIC THERAPIES, DUE TO ITS COMPLEX PATHOGENESIS AND MULTISYSTEMIC INVOLVEMENT. 2021