1 1654 93 DORSAL ROOT GANGLIA COACTIVATOR-ASSOCIATED ARGININE METHYLTRANSFERASE 1 CONTRIBUTES TO PERIPHERAL NERVE INJURY-INDUCED PAIN HYPERSENSITIVITIES. NEUROPATHIC PAIN IS ASSOCIATED WITH GENE EXPRESSION CHANGES WITHIN THE DORSAL ROOT GANGLION (DRG) AFTER PERIPHERAL NERVE INJURY, WHICH INVOLVES EPIGENETIC MECHANISMS. COACTIVATOR-ASSOCIATED ARGININE METHYLTRANSFERASE 1 (CARM1), AN EPIGENETIC ACTIVATOR, REGULATES GENE TRANSCRIPTIONAL ACTIVITY BY PROTEIN POSTTRANSLATIONAL MODIFICATIONS. HOWEVER, WHETHER CARM1 PLAYS AN ESSENTIAL ROLE IN THE DEVELOPMENT AND MAINTENANCE OF NEUROPATHIC PAIN IS UNKNOWN. WE REPORT HERE THAT PERIPHERAL NERVE INJURY INDUCED THE UPREGULATION OF THE MRNA AND PROTEIN EXPRESSION OF CARM1 IN THE INJURED DRG, AND BLOCKING ITS EXPRESSION THROUGH SMALL INTERFERING RNA (SIRNA) IN THE INJURED DRG ATTENUATED THE DEVELOPMENT AND MAINTENANCE OF NEUROPATHIC PAIN. FURTHERMORE, PHARMACOLOGICAL INHIBITION OF CARM1 MITIGATED PERIPHERAL NERVE INJURY-INDUCED MECHANICAL ALLODYNIA AND THERMAL HYPERALGESIA. GIVEN THAT CARM1 INHIBITION OR KNOCKDOWN ATTENUATED THE INDUCTION AND MAINTENANCE OF NEUROPATHIC PAIN AFTER PERIPHERAL NERVE INJURY, OUR FINDINGS SUGGEST THAT CARM1 MAY SERVE AS A PROMISING THERAPEUTIC TARGET FOR NEUROPATHIC PAIN TREATMENT IN CLINICAL APPLICATIONS. 2018 2 698 39 BROMODOMAIN CONTAINING PROTEIN 4 (BRD4) REGULATES EXPRESSION OF ITS INTERACTING COACTIVATORS IN THE INNATE RESPONSE TO RESPIRATORY SYNCYTIAL VIRUS. BROMODOMAIN-CONTAINING PROTEIN 4 PLAYS A CENTRAL ROLE IN COORDINATING THE COMPLEX EPIGENETIC COMPONENT OF THE INNATE IMMUNE RESPONSE. PREVIOUS STUDIES IMPLICATED BRD4 AS A COMPONENT OF A CHROMATIN-MODIFYING COMPLEX THAT IS DYNAMICALLY RECRUITED TO A NETWORK OF PROTECTIVE CYTOKINES BY BINDING ACTIVATED TRANSCRIPTION FACTORS, POLYMERASES, AND HISTONES TO TRIGGER THEIR RAPID EXPRESSION VIA TRANSCRIPTIONAL ELONGATION. OUR PREVIOUS STUDY EXTENDED OUR UNDERSTANDING OF THE AIRWAY EPITHELIAL BRD4 INTERACTOME BY IDENTIFYING OVER 100 FUNCTIONALLY IMPORTANT COACTIVATORS AND TRANSCRIPTION FACTORS, WHOSE ASSOCIATION IS INDUCED BY RESPIRATORY SYNCYTIAL VIRUS (RSV) INFECTION. RSV IS AN ETIOLOGICAL AGENT OF RECURRENT RESPIRATORY TRACT INFECTIONS ASSOCIATED WITH EXACERBATIONS OF CHRONIC OBSTRUCTIVE PULMONARY DISEASE. USING A HIGHLY SELECTIVE SMALL-MOLECULE BRD4 INHIBITOR (ZL0454) DEVELOPED BY US, WE EXTEND THESE FINDINGS TO IDENTIFY THE GENE REGULATORY NETWORK DEPENDENT ON BRD4 BROMODOMAIN (BD) INTERACTIONS. HUMAN SMALL AIRWAY EPITHELIAL CELLS WERE INFECTED IN THE ABSENCE OR PRESENCE OF ZL0454, AND GENE EXPRESSION PROFILING WAS PERFORMED. A HIGHLY REPRODUCIBLE DATASET WAS OBTAINED WHICH INDICATED THAT BRD4 MEDIATES BOTH ACTIVATION AND REPRESSION OF RSV-INDUCIBLE GENE REGULATORY NETWORKS CONTROLLING CYTOKINE EXPRESSION, INTERFERON (IFN) PRODUCTION, AND EXTRACELLULAR MATRIX REMODELING. INDEX GENES OF FUNCTIONALLY SIGNIFICANT CLUSTERS WERE VALIDATED INDEPENDENTLY. WE DISCOVER THAT BRD4 REGULATES THE EXPRESSION OF ITS OWN GENE DURING THE INNATE IMMUNE RESPONSE. INTERESTINGLY, BRD4 ACTIVATES THE EXPRESSION OF NFKAPPAB/RELA, A COACTIVATOR THAT BINDS TO BRD4 IN A BD-DEPENDENT MANNER. WE EXTEND THIS FINDING TO SHOW THAT BRD4 ALSO REGULATES OTHER COMPONENTS OF ITS FUNCTIONAL INTERACTOME, INCLUDING THE MEDIATOR (MED) COACTIVATOR COMPLEX AND THE SWI/SNF-RELATED, MATRIX-ASSOCIATED, ACTIN-DEPENDENT REGULATOR OF CHROMATIN (SMARC) SUBUNITS. TO PROVIDE FURTHER INSIGHT INTO MECHANISMS FOR BRD4 IN RSV EXPRESSION, WE MAPPED 7,845 RSV-INDUCIBLE TN5 TRANSPOSASE PEAKS ONTO THE BRD4-DEPENDENT GENE BODIES. THESE WERE LOCATED IN PROMOTERS AND INTRONS OF CYTOSTRUCTURAL AND EXTRACELLULAR MATRIX (ECM) FORMATION GENES. THESE DATA INDICATE THAT BRD4 MEDIATES THE DYNAMIC RESPONSE OF AIRWAY EPITHELIAL CELLS TO RNA INFECTION BY MODULATING THE EXPRESSION OF ITS COACTIVATORS, CONTROLLING THE EXPRESSION OF HOST DEFENSE MECHANISMS AND REMODELING GENES THROUGH CHANGES IN PROMOTER ACCESSIBILITY. 2021 3 4906 50 P300 EXERTS AN EPIGENETIC ROLE IN CHRONIC NEUROPATHIC PAIN THROUGH ITS ACETYLTRANSFERASE ACTIVITY IN RATS FOLLOWING CHRONIC CONSTRICTION INJURY (CCI). BACKGROUND: NEUROPATHIC PAIN IS DETRIMENTAL TO HUMAN HEALTH; HOWEVER, ITS PATHOGENESIS STILL REMAINS LARGELY UNKNOWN. OVEREXPRESSION OF PAIN-ASSOCIATED GENES AND INCREASED NOCICEPTIVE SOMATO-SENSITIVITY ARE WELL OBSERVED IN NEUROPATHIC PAIN. THE IMPORTANCE OF EPIGENETIC MECHANISMS IN REGULATING THE EXPRESSION OF PRO- OR ANTI-NOCICEPTIVE GENES HAS BEEN REVEALED BY STUDIES RECENTLY, AND WE HYPOTHESIZE THAT THE TRANSCRIPTIONAL COACTIVATOR AND THE HISTONE ACETYLTRANSFERASE E1A BINDING PROTEIN P300 (P300), AS A PART OF THE EPIGENETIC MECHANISMS OF GENE REGULATION, MAY BE INVOLVED IN THE PATHOGENESIS OF NEUROPATHIC PAIN INDUCED BY CHRONIC CONSTRICTION INJURY (CCI). TO TEST THIS HYPOTHESIS, TWO DIFFERENT APPROACHES WERE USED IN THIS STUDY: (I) DOWN-REGULATING P300 WITH SPECIFIC SMALL HAIRPIN RNA (SHRNA) AND (II) CHEMICAL INHIBITION OF P300 ACETYLTRANSFERASE ACTIVITY BY A SMALL MOLECULE INHIBITOR, C646. RESULTS: USING THE CCI RAT MODEL, WE FOUND THAT THE P300 EXPRESSION WAS INCREASED IN THE LUMBAR SPINAL CORD ON DAY 14 AFTER CCI. THE TREATMENT WITH INTRATHECAL P300 SHRNA REVERSED CCI-INDUCED MECHANICAL ALLODYNIA AND THERMAL HYPERALGESIA, AND SUPPRESSED THE EXPRESSION OF CYCLOOXYGENASE-2 (COX-2), A NEUROPATHIC PAIN-ASSOCIATED FACTOR. FURTHERMORE, C646, AN INHIBITOR OF P300 ACETYLTRANSFERASE, ALSO ATTENUATED MECHANICAL ALLODYNIA AND THERMAL HYPERALGESIA, ACCOMPANIED BY A SUPPRESSED COX-2 EXPRESSION, IN THE SPINAL CORD. CONCLUSIONS: THE RESULTS SUGGEST THAT, THROUGH ITS ACETYLTRANSFERASE ACTIVITY IN THE SPINAL CORD AFTER CCI, P300 EPIGENETICALLY PLAYS AN IMPORTANT ROLE IN NEUROPATHIC PAIN. INHIBITING P300, USING INTERFERING RNA OR C646, MAY BE A PROMISING APPROACH TO THE DEVELOPMENT OF NEW NEUROPATHIC PAIN THERAPIES. 2012 4 657 45 BLOCKING THE SPINAL FBXO3/CARM1/K(+) CHANNEL EPIGENETIC SILENCING PATHWAY AS A STRATEGY FOR NEUROPATHIC PAIN RELIEF. MANY EPIGENETIC REGULATORS ARE INVOLVED IN PAIN-ASSOCIATED SPINAL PLASTICITY. COACTIVATOR-ASSOCIATED ARGININE METHYLTRANSFERASE 1 (CARM1), AN EPIGENETIC REGULATOR OF HISTONE ARGININE METHYLATION, IS A HIGHLY INTERESTING TARGET IN NEUROPLASTICITY. HOWEVER, ITS POTENTIAL CONTRIBUTION TO SPINAL PLASTICITY-ASSOCIATED NEUROPATHIC PAIN DEVELOPMENT REMAINS POORLY EXPLORED. HERE, WE REPORT THAT NERVE INJURY DECREASED THE EXPRESSION OF SPINAL CARM1 AND INDUCED ALLODYNIA. MOREOVER, DECREASING SPINAL CARM1 EXPRESSION BY FBXO3-MEDIATED CARM1 UBIQUITINATION PROMOTED H3R17ME2 DECREMENT AT THE K(+) CHANNEL PROMOTER, THEREBY CAUSING K(+) CHANNEL EPIGENETIC SILENCING AND THE DEVELOPMENT OF NEUROPATHIC PAIN. REMARKABLY, IN NAIVE RATS, DECREASING SPINAL CARM1 USING CARM1 SIRNA OR A CARM1 INHIBITOR RESULTED IN SIMILAR EPIGENETIC SIGNALING AND ALLODYNIA. FURTHERMORE, INTRATHECAL ADMINISTRATION OF BC-1215 (A NOVEL FBXO3 INHIBITOR) PREVENTED CARM1 UBIQUITINATION TO BLOCK K(+) CHANNEL GENE SILENCING AND AMELIORATE ALLODYNIA AFTER NERVE INJURY. COLLECTIVELY, THE RESULTS REVEAL THAT THIS NEWLY IDENTIFIED SPINAL FBXO3-CARM1-K(+) CHANNEL GENE FUNCTIONAL AXIS PROMOTES NEUROPATHIC PAIN. THESE FINDINGS PROVIDE ESSENTIAL INSIGHTS THAT WILL AID IN THE DEVELOPMENT OF MORE EFFICIENT AND SPECIFIC THERAPIES AGAINST NEUROPATHIC PAIN. 2021 5 1667 32 DOWNREGULATION OF PCAF BY MIR-181A/B PROVIDES FEEDBACK REGULATION TO TNF-ALPHA-INDUCED TRANSCRIPTION OF PROINFLAMMATORY GENES IN LIVER EPITHELIAL CELLS. ABERRANT CELLULAR RESPONSES TO PROINFLAMMATORY CYTOKINES, SUCH AS TNF-ALPHA, ARE PATHOGENIC FEATURES IN MOST CHRONIC INFLAMMATORY DISEASES. A VARIETY OF EXTRACELLULAR AND INTRACELLULAR FEEDBACK PATHWAYS HAS EVOLVED TO PREVENT AN INAPPROPRIATE CELLULAR REACTION TO THESE PROINFLAMMATORY CYTOKINES. IN THIS STUDY, WE REPORT THAT TNF-ALPHA TREATMENT OF HUMAN AND MOUSE CHOLANGIOCYTES AND HEPATOCYTES DOWNREGULATED EXPRESSION OF P300/CBP-ASSOCIATED FACTOR (PCAF), A COACTIVATOR AND AN ACETYLTRANSFERASE THAT PROMOTES HISTONE ACETYLATION AND GENE TRANSCRIPTION. OF THESE UPREGULATED MICRORNAS IN TNF-ALPHA-TREATED CELLS, MIR-181A/B (MIR-181A AND MIR-181B) SUPPRESSED TRANSLATION OF PCAF MRNA. FUNCTIONAL MANIPULATION OF MIR-181A/B CAUSED RECIPROCAL ALTERATIONS IN PCAF PROTEIN EXPRESSION IN CULTURED CHOLANGIOCYTES AND HEPATOCYTES. INHIBITION OF MIR-181A/B FUNCTION WITH ANTI-MIRS BLOCKED TNF-ALPHA-INDUCED SUPPRESSION OF PCAF EXPRESSION. PROMOTER RECRUITMENT OF PCAF WAS SHOWN TO BE ASSOCIATED WITH TNF-ALPHA-INDUCED TRANSCRIPTION OF INFLAMMATORY GENES. INTRIGUINGLY, PRETREATMENT OF CELLS WITH TNF-ALPHA INHIBITED TRANSCRIPTION OF INFLAMMATORY GENES IN RESPONSE TO SUBSEQUENT TNF-ALPHA STIMULATION. OVEREXPRESSION OF PCAF OR INHIBITION OF MIR-181A/B FUNCTION WITH ANTI-MIRS ATTENUATED THE INHIBITORY EFFECTS OF TNF-ALPHA PRETREATMENT ON EPITHELIAL INFLAMMATORY RESPONSE TO SUBSEQUENT TNF-ALPHA STIMULATION. DOWNREGULATION OF PCAF AND THE INHIBITORY EFFECTS OF TNF-ALPHA PRETREATMENT ON LIVER EPITHELIAL INFLAMMATORY RESPONSE WERE FURTHER CONFIRMED IN A MOUSE MODEL OF TNF-ALPHA I.P. INJECTION. THESE DATA SUGGEST THAT PCAF IS A TARGET FOR MIR-181A/B, AND DOWNREGULATION OF PCAF BY TNF-ALPHA PROVIDES NEGATIVE FEEDBACK REGULATION TO INFLAMMATORY REACTIONS IN LIVER EPITHELIAL CELLS, A PROCESS THAT MAY BE RELEVANT TO THE EPIGENETIC FINE-TUNING OF EPITHELIAL INFLAMMATORY PROCESSES IN GENERAL. 2012 6 2969 36 GENETIC AND EPIGENETIC REGULATION OF THE INNATE IMMUNE RESPONSE TO GOUT. GOUT IS A DISEASE CAUSED BY URIC ACID (UA) ACCUMULATION IN THE JOINTS, CAUSING INFLAMMATION. TWO UA FORMS - MONOSODIUM URATE (MSU) AND SOLUBLE URIC ACID (SUA) HAVE BEEN SHOWN TO INTERACT PHYSICALLY WITH INFLAMMASOMES, ESPECIALLY WITH THE NOD-LIKE RECEPTOR (NLR) FAMILY PYRIN DOMAIN CONTAINING 3 (NLRP3), ALBEIT THE ROLE OF THE IMMUNE RESPONSE TO UA IS POORLY UNDERSTOOD, GIVEN THAT ASYMPTOMATIC HYPERURICEMIA DOES ALSO EXIST. MACROPHAGE PHAGOCYTOSIS OF UA ACTIVATE NLRP3, LEAD TO CYTOKINES RELEASE, AND ULTIMATELY, LEAD TO CHEMOATTRACT NEUTROPHILS AND LYMPHOCYTES TO THE GOUT FLARE JOINT SPOT. GENETIC VARIANTS OF INFLAMMASOME GENES AND OF GENES ENCODING THEIR MOLECULAR PARTNERS MAY INFLUENCE HYPERURICEMIA AND GOUT SUSCEPTIBILITY, WHILE ALSO INFLUENCING OTHER COMORBIDITIES SUCH AS METABOLIC SYNDROME AND CARDIOVASCULAR DISEASES. IN THIS REVIEW, WE SUMMARIZE THE INFLAMMATORY RESPONSES IN ACUTE AND CHRONIC GOUT, SPECIFICALLY FOCUSING ON INNATE IMMUNE CELL MECHANISMS AND GENETIC AND EPIGENETIC CHARACTERISTICS OF PARTICIPATING MOLECULES. UNPRECEDENTLY, A NOVEL UA BINDING PROTEIN - THE NEURONAL APOPTOSIS INHIBITOR PROTEIN (NAIP) - IS SUGGESTED AS RESPONSIBLE FOR THE ASYMPTOMATIC HYPERURICEMIA PARADOX.ABBREVIATION: BETA2-INTEGRINS: LEUKOCYTE-SPECIFIC ADHESION MOLECULES; ABCG2: ATP-BINDING CASSETE FAMILY/BREAST CANCER-RESISTANT PROTEIN; ACR: AMERICAN COLLEGE OF RHEUMATOLOGY; AIM2: ABSENT IN MELANOMA 2, TYPE OF PATTERN RECOGNITION RECEPTOR; ALPK1: ALPHA-PROTEIN KINASE 1; ANGPTL2: ANGIOPOIETIN-LIKE PROTEIN 2; ASC: APOPTOSIS-ASSOCIATED SPECK-LIKE PROTEIN; BIR: BACULOVIRUS INHIBITOR OF APOPTOSIS PROTEIN REPEAT; BIRC1: BACULOVIRUS IAP REPEAT-CONTAINING PROTEIN 1; BIRC2: BACULOVIRAL IAP REPEAT-CONTAINING PROTEIN 2; C5A: COMPLEMENT ANAPHYLATOXIN; CAMP: CYCLIC ADENOSINE MONOPHOSPHATE; CARD: CASPASE ACTIVATION AND RECRUITMENT DOMAINS; CARD8: CASPASE RECRUITMENT DOMAIN-CONTAINING PROTEIN 8; CASP1: CASPASE 1; CCL3: CHEMOKINE (C-C MOTIF) LIGAND 3; CD14: CLUSTER OF DIFFERENTIATION 14; CD44: CLUSTER OF DIFFERENTIATION 44; CG05102552: DNA-METHYLATION SITE, USUALLY CYTOSINE FOLLOWED BY GUANINE NUCLEOTIDES; CONTAINS ARBITRARY IDENTIFICATION CODE; CIDEC: CELL DEATH-INDUCING DNA FRAGMENTATION FACTOR-LIKE EFFECTOR FAMILY; CKD: CHRONIC KIDNEY DISEASE; CNV: COPY NUMBER VARIATION; CPT1A: CARNITINE PALMITOYL TRANSFERASE - TYPE 1A; CXCL1: CHEMOKINE (CXC MOTIF) LIGAND 1; DAMPS: DAMAGE ASSOCIATED MOLECULAR PATTERNS; DC: DENDRITIC CELLS; DNMT(1): MAINTENANCE DNA METHYLTRANSFERASE; EQTL: EXPRESSION QUANTITATIVE TRAIT LOCI; ERK1: EXTRACELLULAR SIGNAL-REGULATED KINASE 1; ERK2: EXTRACELLULAR SIGNAL-REGULATED KINASE 2; EULAR: EUROPEAN LEAGUE AGAINST RHEUMATISM; GMCSF: GRANULOCYTE-MACROPHAGE COLONY-STIMULATING FACTOR; GWAS: GLOBAL WIDE ASSOCIATION STUDIES; H3K27ME3: TRI-METHYLATION AT THE 27TH LYSINE RESIDUE OF THE HISTONE H3 PROTEIN; H3K4ME1: MONO-METHYLATION AT THE 4TH LYSINE RESIDUE OF THE HISTONE H3 PROTEIN; H3K4ME3: TRI-METHYLATION AT THE 4TH LYSINE RESIDUE OF THE HISTONE H3 PROTEIN; HOTAIR: HUMAN GENE LOCATED BETWEEN HOXC11 AND HOXC12 ON CHROMOSOME 12; IKAPPABALPHA: CYTOPLASMATIC PROTEIN/NF-KAPPAB TRANSCRIPTION INHIBITOR; IAP: INHIBITORY APOPTOSIS PROTEIN; IFNGAMMA: INTERFERON GAMMA; IL-1BETA: INTERLEUKIN 1 BETA; IL-12: INTERLEUKIN 12; IL-17: INTERLEUKIN 17; IL18: INTERLEUKIN 18; IL1R1: INTERLEUKIN-1 RECEPTOR; IL-1RA: INTERLEUKIN-1 RECEPTOR ANTAGONIST; IL-22: INTERLEUKIN 22; IL-23: INTERLEUKIN 23; IL23R: INTERLEUKIN 23 RECEPTOR; IL-33: INTERLEUKIN 33; IL-6: INTERLEUKIN 6; IMP: INOSINE MONOPHOSPHATE; INSIG1: INSULIN-INDUCED GENE 1; JNK1: C-JUN N-TERMINAL KINASE 1; LNCRNA: LONG NON-CODING RIBONUCLEIC ACID; LRR: LEUCINE-RICH REPEATS; MIR: MATURE NON-CODING MICRORNAS MEASURING FROM 20 TO 24 NUCLEOTIDES, ANIMAL ORIGIN; MIR-1: MIR FOLLOWED BY ARBITRARY IDENTIFICATION CODE; MIR-145: MIR FOLLOWED BY ARBITRARY IDENTIFICATION CODE; MIR-146A: MIR FOLLOWED BY ARBITRARY IDENTIFICATION CODE, "A" STANDS FOR MIR FAMILY; "A" FAMILY PRESENTS SIMILAR MIR SEQUENCE TO "B" FAMILY, BUT DIFFERENT PRECURSORS; MIR-20B: MIR FOLLOWED BY ARBITRARY IDENTIFICATION CODE; "B" STANDS FOR MIR FAMILY; "B" FAMILY PRESENTS SIMILAR MIR SEQUENCE TO "A" FAMILY, BUT DIFFERENT PRECURSORS; MIR-221: MIR - FOLLOWED BY ARBITRARY IDENTIFICATION CODE; MIR-221-5P: MIR FOLLOWED BY ARBITRARY IDENTIFICATION CODE; "5P" INDICATES DIFFERENT MATURE MIRNAS GENERATED FROM THE 5' ARM OF THE PRE-MIRNA HAIRPIN; MIR-223: MIR FOLLOWED BY ARBITRARY IDENTIFICATION CODE; MIR-223-3P: MIR FOLLOWED BY ARBITRARY IDENTIFICATION CODE; "3P" INDICATES DIFFERENT MATURE MIRNAS GENERATED FROM THE 3' ARM OF THE PRE-MIRNA HAIRPIN; MIR-22-3P: MIR FOLLOWED BY ARBITRARY IDENTIFICATION CODE, "3P" INDICATES DIFFERENT MATURE MIRNAS GENERATED FROM THE 3' ARM OF THE PRE-MIRNA HAIRPIN; MLKL: MIXED LINEAGE KINASE DOMAIN-LIKE PSEUDO KINASE; MM2P: INDUCTOR OF M2-MACROPHAGE POLARIZATION; MSU: MONOSODIUM URATE; MTOR: MAMMALIAN TARGET OF RAPAMYCIN; MYD88: MYELOID DIFFERENTIATION PRIMARY RESPONSE 88; N-3-PUFAS: N-3-POLYUNSATURATED FATTY-ACIDS; NACHT: ACRONYM FOR NAIP (NEURONAL APOPTOSIS INHIBITOR PROTEIN), C2TA (MHC CLASS 2 TRANSCRIPTION ACTIVATOR), HET-E (INCOMPATIBILITY LOCUS PROTEIN FROM PODOSPORA ANSERINA) AND TP1 (TELOMERASE-ASSOCIATED PROTEIN); NAIP: NEURONAL APOPTOSIS INHIBITORY PROTEIN (HUMAN); NAIP1: NEURONAL APOPTOSIS INHIBITORY PROTEIN TYPE 1 (MURINE); NAIP5: NEURONAL APOPTOSIS INHIBITORY PROTEIN TYPE 5 (MURINE); NAIP6: NEURONAL APOPTOSIS INHIBITORY PROTEIN TYPE 6 (MURINE); NBD: NUCLEOTIDE-BINDING DOMAIN; NEK7: SMALLEST NIMA-RELATED KINASE; NET: NEUTROPHIL EXTRACELLULAR TRAPS; NF-KAPPAB: NUCLEAR FACTOR KAPPA-LIGHT-CHAIN-ENHANCER OF ACTIVATED B CELLS; NFIL3: NUCLEAR-FACTOR, INTERLEUKIN 3 REGULATED PROTEIN; NIIMA: NETWORK OF IMMUNITY IN INFECTION, MALIGNANCY, AND AUTOIMMUNITY; NLR: NOD-LIKE RECEPTOR; NLRA: NOD-LIKE RECEPTOR NLRA CONTAINING ACIDIC DOMAIN; NLRB: NOD-LIKE RECEPTOR NLRA CONTAINING BIR DOMAIN; NLRC: NOD-LIKE RECEPTOR NLRA CONTAINING CARD DOMAIN; NLRC4: NOD-LIKE RECEPTOR FAMILY CARD DOMAIN CONTAINING 4; NLRP: NOD-LIKE RECEPTOR NLRA CONTAINING PYD DOMAIN; NLRP1: NUCLEOTIDE-BINDING OLIGOMERIZATION DOMAIN, LEUCINE-RICH REPEAT, AND PYRIN DOMAIN CONTAINING 1; NLRP12: NUCLEOTIDE-BINDING OLIGOMERIZATION DOMAIN, LEUCINE-RICH REPEAT, AND PYRIN DOMAIN CONTAINING 12; NLRP3: NOD-LIKE RECEPTOR FAMILY PYRIN DOMAIN CONTAINING 3; NOD2: NUCLEOTIDE-BINDING OLIGOMERIZATION DOMAIN; NRBP1: NUCLEAR RECEPTOR-BINDING PROTEIN; NRF2: NUCLEAR FACTOR ERYTHROID 2-RELATED FACTOR 2; OR: ODDS RATIO; P2X: GROUP OF MEMBRANE ION CHANNELS ACTIVATED BY THE BINDING OF EXTRACELLULAR; P2X7: P2X PURINOCEPTOR 7 GENE; P38: MEMBER OF THE MITOGEN-ACTIVATED PROTEIN KINASE FAMILY; PAMPS: PATHOGEN ASSOCIATED MOLECULAR PATTERS; PBMC: PERIPHERAL BLOOD MONONUCLEAR CELLS; PGGT1B: GERANYLGERANYL TRANSFERASE TYPE-1 SUBUNIT BETA; PHGDH: PHOSPHOGLYCERATE DEHYDROGENASE; PI3-K: PHOSPHO-INOSITOL; PPARGAMMA: PEROXISOME PROLIFERATOR-ACTIVATED RECEPTOR GAMMA; PPARGC1B: PEROXISOME PROLIFERATIVE ACTIVATED RECEPTOR, GAMMA, COACTIVATOR 1 BETA; PR3: PROTEINASE 3 ANTIGEN; PRO-CASP1: INACTIVE PRECURSOR OF CASPASE 1; PRO-IL1BETA: INACTIVE PRECURSOR OF INTERLEUKIN 1 BETA; PRR: PATTERN RECOGNITION RECEPTORS; PYD: PYRIN DOMAIN; RAPTOR: REGULATORY ASSOCIATED PROTEIN OF MTOR COMPLEX 1; RAS: RENIN-ANGIOTENSIN SYSTEM; REDD1: REGULATED IN DNA DAMAGE AND DEVELOPMENT 1; ROS: REACTIVE OXYGEN SPECIES; RS000*G: SINGLE NUCLEAR POLYMORPHISM, "*G" IS RELATED TO SNP WHERE REPLACED NUCLEOTIDE IS GUANINE, USUALLY PRECEDED BY AN ID NUMBER; SLC2A9: SOLUTE CARRIER FAMILY 2, MEMBER 9; SLC7A11: SOLUTE CARRIER FAMILY 7, MEMBER 11; SMA: SMOOTH MUSCULAR ATROPHY; SMAC: SECOND MITOCHONDRIAL-DERIVED ACTIVATOR OF CASPASES; SNP: SINGLE NUCLEAR POLYMORPHISM; SP3: SPECIFICITY PROTEIN 3; ST2: SERUM STIMULATION-2; STK11: SERINE/THREONINE KINASE 11; SUA: SOLUBLE URIC ACID; SYK: SPLEEN TYROSINE KINASE; TAK1: TRANSFORMING GROWTH FACTOR BETA ACTIVATED KINASE; TH1: TYPE 1 HELPER T CELLS; TH17: TYPE 17 HELPER T CELLS; TH2: TYPE 2 HELPER T CELLS; TH22: TYPE 22 HELPER T CELLS; TLR: TOOL-LIKE RECEPTOR; TLR2: TOLL-LIKE RECEPTOR 2; TLR4: TOLL-LIKE RECEPTOR 4; TNFALPHA: TUMOR NECROSIS FACTOR ALPHA; TNFR1: TUMOR NECROSIS FACTOR RECEPTOR 1; TNFR2: TUMOR NECROSIS FACTOR RECEPTOR 2; UA: URIC ACID; UBAP1: UBIQUITIN ASSOCIATED PROTEIN; ULT: URATE-LOWERING THERAPY; URAT1: URATE TRANSPORTER 1; VDAC1: VOLTAGE-DEPENDENT ANION-SELECTIVE CHANNEL 1. 2023 7 6456 29 THYMOSIN BETA4 PREVENTS OXIDATIVE STRESS, INFLAMMATION, AND FIBROSIS IN ETHANOL- AND LPS-INDUCED LIVER INJURY IN MICE. THYMOSIN BETA 4 (TBETA4), AN ACTIN-SEQUESTERING PROTEIN, IS INVOLVED IN TISSUE DEVELOPMENT AND REGENERATION. IT PREVENTS INFLAMMATION AND FIBROSIS IN SEVERAL TISSUES. WE INVESTIGATED THE ROLE OF TBETA4 IN CHRONIC ETHANOL- AND ACUTE LIPOPOLYSACCHARIDE- (LPS-) INDUCED MOUSE LIVER INJURY. C57BL/6 MICE WERE FED 5% ETHANOL IN LIQUID DIET FOR 4 WEEKS PLUS BINGE ETHANOL (5 G/KG, GAVAGE) WITH OR WITHOUT LPS (2 MG/KG, INTRAPERITONEAL) FOR 6 HOURS. TBETA4 (1 MG/KG, INTRAPERITONEAL) WAS ADMINISTERED FOR 1 WEEK. WE DEMONSTRATED THAT TBETA4 PREVENTED ETHANOL- AND LPS-MEDIATED INCREASE IN LIVER INJURY MARKERS AS WELL AS CHANGES IN LIVER PATHOLOGY. IT ALSO PREVENTED ETHANOL- AND LPS-MEDIATED INCREASE IN OXIDATIVE STRESS BY DECREASING ROS AND LIPID PEROXIDATION AND INCREASING THE ANTIOXIDANTS, REDUCED GLUTATHIONE AND MANGANESE-DEPENDENT SUPEROXIDE DISMUTASE. IT ALSO PREVENTED THE ACTIVATION OF NUCLEAR FACTOR KAPPA B BY BLOCKING THE PHOSPHORYLATION OF THE INHIBITORY PROTEIN, IKAPPAB, THEREBY PREVENTED PROINFLAMMATORY CYTOKINE PRODUCTION. MOREOVER, TBETA4 PREVENTED FIBROGENESIS BY SUPPRESSING THE EPIGENETIC REPRESSOR, METHYL-CPG-BINDING PROTEIN 2, THAT COORDINATELY REVERSED THE EXPRESSION OF PEROXISOME PROLIFERATOR-ACTIVATED RECEPTOR-GAMMA AND DOWNREGULATED FIBROGENIC GENES, PLATELET-DERIVED GROWTH FACTOR-BETA RECEPTOR, ALPHA-SMOOTH MUSCLE ACTIN, COLLAGEN 1, AND FIBRONECTIN, RESULTING IN REDUCED FIBROSIS. OUR DATA SUGGEST THAT TBETA4 HAS ANTIOXIDANT, ANTI-INFLAMMATORY, AND ANTIFIBROTIC POTENTIAL DURING ALCOHOLIC LIVER INJURY. 2018 8 699 22 BROMODOMAIN PROTEIN 4 IS A KEY MOLECULAR DRIVER OF TGFBETA1-INDUCED HEPATIC STELLATE CELL ACTIVATION. LIVER FIBROSIS IS CHARACTERIZED BY THE EXCESSIVE DEPOSITION OF EXTRACELLULAR MATRIX IN LIVER. CHRONIC LIVER INJURY INDUCES THE ACTIVATION OF HEPATIC STELLATE CELL (HSCS), A KEY STEP IN LIVER FIBROGENESIS. THE ACTIVATED HSC IS THE PRIMARY SOURCE OF ECM AND CONTRIBUTES SIGNIFICANTLY TO LIVER FIBROSIS. TGFBETA1 IS THE MOST POTENT PRO-FIBROTIC CYTOKINE. BROMODOMAIN PROTEIN 4 (BRD4), AN EPIGENETIC READER OF HISTONE ACETYLATION MARKS, WAS CRUCIAL FOR PROFIBROTIC GENE EXPRESSION IN HSCS. THE PRESENT STUDY AIMED TO INVESTIGATE THE ROLES OF BRD4 IN TGFBETA1-DEPENDENT HSC ACTIVATION AND LIVER FIBROSIS, FOCUSING ON TGFBETA1-INDUCED ALTERATIONS OF THE LEVELS OF THE FIBROTIC-RELATED IMPORTANT PROTEINS IN HSCS BY EMPLOYING THE HETEROZYGOUS TGFBETA1 KNOCKOUT MICE AND BRD4 KNOCKDOWN IN VIVO AND IN VITRO. RESULTS REVEALED THAT BRD4 PROTEIN LEVEL WAS SIGNIFICANTLY UPREGULATED BY TGFBETA1 AND BRD4 KNOCKDOWN REDUCED TGFBETA1-INDUCED HSC ACTIVATION AND LIVER FIBROSIS. BRD4 WAS REQUIRED FOR THE INFLUENCES OF TGFBETA1 ON PDGFBETA RECEPTOR AND ON THE PATHWAYS OF SMAD3, STAT3, AND AKT. BRD4 ALSO MEDIATED TGFBETA1-INDUCED INCREASES IN HISTONE ACETYLTRANSFERASE P300, THE PIVOTAL PRO-INFLAMMATORY NFKB P65, AND TISSUE INHIBITOR OF METALLOPROTEINASE 1 WHEREAS BRD4 REDUCED CASPASE-3 PROTEIN LEVELS IN HSCS DURING LIVER INJURY, INDEPENDENT OF TGFBETA1. FURTHER EXPERIMENTS INDICATED THE INTERACTION BETWEEN TGFBETA1-INDUCED BRD4 AND NFKB P65 IN HSCS AND IN LIVER OF TAA-INDUCED LIVER INJURY. HUMAN CIRRHOTIC LIVERS WERE DEMONSTRATED A PARALLEL INCREASE IN THE PROTEIN LEVELS OF BRD4 AND NFKB P65 IN HSCS. THIS STUDY REVEALED THAT BRD4 WAS A KEY MOLECULAR DRIVER OF TGFBETA1-INDUCED HSC ACTIVATION AND LIVER FIBROSIS. 2023 9 1945 27 EPIGALLOCATECHIN-3-GALLATE, A HISTONE ACETYLTRANSFERASE INHIBITOR, INHIBITS EBV-INDUCED B LYMPHOCYTE TRANSFORMATION VIA SUPPRESSION OF RELA ACETYLATION. BECAUSE THE P300/CBP-MEDIATED HYPERACETYLATION OF RELA (P65) IS CRITICAL FOR NUCLEAR FACTOR-KAPPAB (NF-KAPPAB) ACTIVATION, THE ATTENUATION OF P65 ACETYLATION IS A POTENTIAL MOLECULAR TARGET FOR THE PREVENTION OF CHRONIC INFLAMMATION. DURING OUR ONGOING SCREENING STUDY TO IDENTIFY NATURAL COMPOUNDS WITH HISTONE ACETYLTRANSFERASE INHIBITOR (HATI) ACTIVITY, WE IDENTIFIED EPIGALLOCATECHIN-3-GALLATE (EGCG) AS A NOVEL HATI WITH GLOBAL SPECIFICITY FOR THE MAJORITY OF HAT ENZYMES BUT WITH NO ACTIVITY TOWARD EPIGENETIC ENZYMES INCLUDING HDAC, SIRT1, AND HMTASE. AT A DOSE OF 100 MICROMOL/L, EGCG ABROGATES P300-INDUCED P65 ACETYLATION IN VITRO AND IN VIVO, INCREASES THE LEVEL OF CYTOSOLIC IKAPPABALPHA, AND SUPPRESSES TUMOR NECROSIS FACTOR ALPHA (TNFALPHA)-INDUCED NF-KAPPAB ACTIVATION. WE ALSO SHOWED THAT EGCG PREVENTS TNFALPHA-INDUCED P65 TRANSLOCATION TO THE NUCLEUS, CONFIRMING THAT HYPERACETYLATION IS CRITICAL FOR NF-KAPPAB TRANSLOCATION AS WELL AS ACTIVITY. FURTHERMORE, EGCG TREATMENT INHIBITED THE ACETYLATION OF P65 AND THE EXPRESSION OF NF-KAPPAB TARGET GENES IN RESPONSE TO DIVERSE STIMULI. FINALLY, EGCG REDUCED THE BINDING OF P300 TO THE PROMOTER REGION OF INTERLEUKIN-6 GENE WITH AN INCREASED RECRUITMENT OF HDAC3, WHICH HIGHLIGHTS THE IMPORTANCE OF THE BALANCE BETWEEN HATS AND HISTONE DEACETYLASES IN THE NF-KAPPAB-MEDIATED INFLAMMATORY SIGNALING PATHWAY. IMPORTANTLY, EGCG AT 50 MICROMOL/L DOSE COMPLETELY BLOCKS EBV INFECTION-INDUCED CYTOKINE EXPRESSION AND SUBSEQUENTLY THE EBV-INDUCED B LYMPHOCYTE TRANSFORMATION. THESE RESULTS SHOW THE CRUCIAL ROLE OF ACETYLATION IN THE DEVELOPMENT OF INFLAMMATORY-RELATED DISEASES. 2009 10 756 29 CARM1 REGULATES SENESCENCE DURING AIRWAY EPITHELIAL CELL INJURY IN COPD PATHOGENESIS. CHRONIC OBSTRUCTIVE PULMONARY DISEASE (COPD) IS A LIFE-THREATENING LUNG DISEASE. ALTHOUGH CIGARETTE SMOKE WAS CONSIDERED THE MAIN CAUSE OF DEVELOPMENT, THE HETEROGENEOUS NATURE OF THE DISEASE LEAVES IT UNCLEAR WHETHER OTHER FACTORS CONTRIBUTE TO THE PREDISPOSITION OR IMPAIRED REGENERATION RESPONSE OBSERVED. RECENTLY, EPIGENETIC MODIFICATION HAS EMERGED TO BE A KEY PLAYER IN THE PATHOGENESIS OF COPD. THE ADDITION OF METHYL GROUPS TO ARGININE RESIDUES IN BOTH HISTONE AND NONHISTONE PROTEINS BY PROTEIN ARGININE METHYLTRANSFERASES (PRMTS) IS AN IMPORTANT POSTTRANSLATIONAL EPIGENETIC MODIFICATION EVENT REGULATING CELLULAR PROLIFERATION, DIFFERENTIATION, APOPTOSIS, AND SENESCENCE. HERE, WE HYPOTHESIZE THAT COACTIVATOR-ASSOCIATED ARGININE METHYLTRANSFERASE-1 (CARM1) REGULATES AIRWAY EPITHELIAL CELL INJURY IN COPD PATHOGENESIS BY CONTROLLING CELLULAR SENESCENCE. USING THE NAPHTHALENE (NA)-INDUCED MOUSE MODEL OF AIRWAY EPITHELIAL DAMAGE, WE DEMONSTRATE THAT LOSS OF CC10-POSITIVE CLUB CELLS IS ACCOMPANIED BY A REDUCTION IN CARM1-EXPRESSING CELLS OF THE AIRWAY EPITHELIUM. FURTHERMORE, CARM1 HAPLOINSUFFFICENT MICE SHOWED PERTURBED CLUB CELL REGENERATION FOLLOWING NA TREATMENT. IN ADDITION, CARM1 REDUCTION LED TO DECREASED NUMBERS OF ANTISENESCENT SIRTUIN 1-EXPRESSING CELLS ACCOMPANIED BY HIGHER P21, P16, AND BETA-GALACTOSIDASE-POSITIVE SENESCENT CELLS IN THE MOUSE AIRWAY FOLLOWING NA TREATMENT. IMPORTANTLY, CARM1-SILENCED HUMAN BRONCHIAL EPITHELIAL CELLS SHOWED IMPAIRED WOUND HEALING AND HIGHER BETA-GALACTOSIDASE ACTIVITY. THESE RESULTS DEMONSTRATE THAT CARM1 CONTRIBUTES TO AIRWAY REPAIR AND REGENERATION BY REGULATING AIRWAY EPITHELIAL CELL SENESCENCE. 2019 11 692 27 BRD4 PROMOTES HEPATIC STELLATE CELLS ACTIVATION AND HEPATIC FIBROSIS VIA MEDIATING P300/H3K27AC/PLK1 AXIS. HEPATIC FIBROSIS (HF) IS A REVERSIBLE WOUND-HEALING RESPONSE CHARACTERIZED BY EXCESSIVE EXTRACELLULAR MATRIX (ECM) DEPOSITION AND SECONDARY TO PERSISTENT CHRONIC INJURY. BROMODOMAIN PROTEIN 4 (BRD4) COMMONLY FUNCTIONS AS A "READER" TO REGULATE EPIGENETIC MODIFICATIONS INVOLVED IN VARIOUS BIOLOGICAL AND PATHOLOGICAL EVENTS, BUT THE MECHANISM OF HF REMAINS UNCLEAR. IN THIS STUDY, WE ESTABLISHED A CCL(4)-INDUCED HF MODEL AND SPONTANEOUS RECOVERY MODEL IN MICE AND FOUND ABERRANT BRD4 EXPRESSION, WHICH WAS CONSISTENT WITH THE RESULTS IN HUMAN HEPATIC STELLATE CELLS (HSCS)- LX2 CELLS IN VITRO. SUBSEQUENTLY, WE FOUND THAT DISTRICTION AND INHIBITION OF BRD4 RESTRAINED TGFBETA-INDUCED TRANS-DIFFERENTIATION OF LX2 CELLS INTO ACTIVATED, PROLIFERATIVE MYOFIBROBLASTS AND ACCELERATED APOPTOSIS, AND BRD4 OVEREXPRESSION BLOCKED MDI-INDUCED LX2 CELLS INACTIVATION AND PROMOTED THE PROLIFERATION AND INHIBITED APOPTOSIS OF INACTIVATED CELLS. ADDITIONALLY, ADENO-ASSOCIATED VIRUS SEROTYPE 8-LOADED SHORT HAIRPIN RNA-MEDIATED BRD4 KNOCKDOWN IN MICE SIGNIFICANTLY ATTENUATED CCL(4)-INDUCED FIBROTIC RESPONSES INCLUDING HSCS ACTIVATION AND COLLAGEN DEPOSITION. MECHANISTICALLY, BRD4 DEFICIENCY INHIBITED PLK1 EXPRESSION IN ACTIVATED LX2 CELLS, AND CHIP AND CO-IP ASSAYS REVEALED THAT BRD4 REGULATION OF PLK1 WAS DEPENDENT ON P300-MEDIATED ACETYLATION MODIFICATION FOR H3K27 ON THE PLK1 PROMOTER. IN CONCLUSION, BRD4 DEFICIENCY IN THE LIVER ALLEVIATES CCL(4)-INDUCED HF IN MICE, AND BRD4 PARTICIPATES IN THE ACTIVATION AND REVERSAL OF HSCS THROUGH POSITIVELY REGULATING THE P300/H3K27AC/PLK1 AXIS, PROVIDING A POTENTIAL INSIGHT FOR HF THERAPY. 2023 12 4506 26 MRTF-A MEDIATES LPS-INDUCED PRO-INFLAMMATORY TRANSCRIPTION BY INTERACTING WITH THE COMPASS COMPLEX. CHRONIC INFLAMMATION UNDERSCORES THE PATHOGENESIS OF A RANGE OF HUMAN DISEASES. LIPOPOLYSACCHARIDE (LPS) ELICITS STRONG PRO-INFLAMMATORY RESPONSES IN MACROPHAGES THROUGH THE TRANSCRIPTION FACTOR NF-KAPPAB. THE EPIGENETIC MECHANISM UNDERLYING LPS-INDUCED PRO-INFLAMMATORY TRANSCRIPTION IS NOT FULLY UNDERSTOOD. HEREIN, WE DESCRIBE A ROLE FOR MYOCARDIN-RELATED TRANSCRIPTION FACTOR A (MRTF-A, ALSO KNOWN AS MKL1) IN THIS PROCESS. MRTF-A OVEREXPRESSION ENHANCED NF-KAPPAB-DEPENDENT PRO-INFLAMMATORY TRANSCRIPTION, WHEREAS MRTF-A SILENCING INHIBITED THIS PROCESS. MRTF-A DEFICIENCY ALSO REDUCED THE SYNTHESIS OF PRO-INFLAMMATORY MEDIATORS IN A MOUSE MODEL OF COLITIS. LPS PROMOTED THE RECRUITMENT OF MRTF-A TO THE PROMOTERS OF PRO-INFLAMMATORY GENES IN AN NF-KAPPAB-DEPENDENT MANNER. RECIPROCALLY, MRTF-A INFLUENCED THE NUCLEAR ENRICHMENT AND TARGET BINDING OF NF-KAPPAB. MECHANISTICALLY, MRTF-A WAS NECESSARY FOR THE ACCUMULATION OF ACTIVE HISTONE MODIFICATIONS ON NF-KAPPAB TARGET PROMOTERS BY COMMUNICATING WITH THE HISTONE H3K4 METHYLTRANSFERASE COMPLEX (COMPASS). SILENCING OF INDIVIDUAL MEMBERS OF COMPASS, INCLUDING ASH2, WDR5 AND SET1 (ALSO KNOWN AS SETD1A), DOWNREGULATED THE PRODUCTION OF PRO-INFLAMMATORY MEDIATORS AND IMPAIRED THE NF-KAPPAB KINETICS. IN SUMMARY, OUR WORK HAS UNCOVERED A PREVIOUSLY UNKNOWN FUNCTION FOR MRTF-A AND PROVIDED INSIGHTS INTO THE RATIONALIZED DEVELOPMENT OF ANTI-INFLAMMATORY THERAPEUTIC STRATEGIES. 2014 13 4747 21 NOVEL MODULATORS OF HEPATOSTEATOSIS, INFLAMMATION AND FIBROGENESIS. ALCOHOLIC STEATOSIS, INSTEAD OF BEING INNOCUOUS, PLAYS A CRITICAL ROLE IN LIVER INFLAMMATION AND FIBROGENESIS. THE SEVERITY OF FATTY LIVER IS GOVERNED BY THE CONCERTED BALANCE BETWEEN LIPID TRANSPORT, SYNTHESIS, AND DEGRADATION. WHEREAS SCAVENGER RECEPTOR CLASS B, TYPE I (SR-B1) IS CRITICAL FOR REVERSE CHOLESTEROL UPTAKE BY THE LIVER, PEROXISOME PROLIFERATOR-ACTIVATED RECEPTOR-GAMMA (PPARGAMMA) COACTIVATOR-1ALPHA AND -BETA (PGC1ALPHA AND PGC1BETA) ARE CRITICAL FOR LIPID DEGRADATION AND SYNTHESIS, RESPECTIVELY. BECAUSE BETAINE IS A LIPOTROPIC AGENT, WE HAVE EVALUATED ITS EFFECTS ON ALCOHOLIC STEATOSIS. BETAINE EFFECTIVELY PREVENTED CHRONIC ALCOHOL-MEDIATED (I) IMPAIRED SR-B1 GLYCOSYLATION, PLASMA MEMBRANE LOCALIZATION, AND CONSEQUENT IMPAIRED CHOLESTEROL TRANSPORT; AND (II) UP REGULATION OF PGC-1BETA, STEROL REGULATORY ELEMENT-BINDING PROTEIN 1C AND DOWNSTREAM LIPOGENIC GENES WITH CONCOMITANT INCREASED LIVER CHOLESTEROL, TRIGLYCERIDES AND HEPATIC LIPID SCORE. SIMILARLY, BECAUSE OF ITS ANTI-INFLAMMATORY AND ANTI-FIBROTIC EFFECTS IN OTHER ORGANS, WE EVALUATED THE PROTECTIVE EFFECTS OF THYMOSIN BETA4 (TBETA4) AGAINST CARBON TETRACHLORIDE (CCL4)-INDUCED HEPATOTOXICITY IN RAT. TBETA4 PREVENTED CCL4-INDUCED (I) NECROSIS, INFLAMMATORY INFILTRATION AND UP-REGULATION OF ALPHA1(2)COLLAGEN, ALPHA-SMOOTH MUSCLE ACTIN (ALPHA-SMA), PLATELET DERIVED GROWTH FACTOR BETA (PDGF-BETA) RECEPTOR AND FIBRONECTIN MRNA EXPRESSION; (II) DOWN-REGULATION OF ADIPOGENIC GENE, PPARGAMMA AND THE UP-REGULATION OF EPIGENETIC REPRESSOR GENE, METHYL CPG BINDING PROTEIN 2 (MECP2) MRNA LEVELS, SUGGESTING THAT THE ANTI-FIBROGENIC ACTIONS OF TBETA4 INVOLVE THE PREVENTION OF TRANS-DIFFERENTIATION OF QUIESCENT HEPATIC STELLATE CELLS INTO MYO-FIBROBLASTS LARGELY BY UP-REGULATING PPARGAMMA AND BY DOWN-REGULATING MECP2 GENES. WE THEREFORE CONCLUDE THAT BETAINE AND TBETA4 CAN EFFECTIVELY PROTECT AGAINST ALCOHOLIC HEPATOSTEATOSIS AND HEPATIC FIBROGENESIS, RESPECTIVELY. 2014 14 2117 30 EPIGENETIC HISTONE METHYLATION MODULATES FIBROTIC GENE EXPRESSION. TGF-BETA1-INDUCED EXPRESSION OF EXTRACELLULAR MATRIX (ECM) GENES PLAYS A MAJOR ROLE IN THE DEVELOPMENT OF CHRONIC RENAL DISEASES SUCH AS DIABETIC NEPHROPATHY. ALTHOUGH MANY KEY TRANSCRIPTION FACTORS ARE KNOWN, MECHANISMS INVOLVING THE NUCLEAR CHROMATIN THAT MODULATE ECM GENE EXPRESSION REMAIN UNCLEAR. HERE, WE EXAMINED THE ROLE OF EPIGENETIC CHROMATIN MARKS SUCH AS HISTONE H3 LYSINE METHYLATION (H3KME) IN TGF-BETA1-INDUCED GENE EXPRESSION IN RAT MESANGIAL CELLS UNDER NORMAL AND HIGH-GLUCOSE (HG) CONDITIONS. TGF-BETA1 INCREASED THE EXPRESSION OF THE ECM-ASSOCIATED GENES CONNECTIVE TISSUE GROWTH FACTOR, COLLAGEN-ALPHA1[IOTA], AND PLASMINOGEN ACTIVATOR INHIBITOR-1. INCREASED LEVELS OF CHROMATIN MARKS ASSOCIATED WITH ACTIVE GENES (H3K4ME1, H3K4ME2, AND H3K4ME3), AND DECREASED LEVELS OF REPRESSIVE MARKS (H3K9ME2 AND H3K9ME3) AT THESE GENE PROMOTERS ACCOMPANIED THESE CHANGES IN EXPRESSION. TGF-BETA1 ALSO INCREASED EXPRESSION OF THE H3K4 METHYLTRANSFERASE SET7/9 AND RECRUITMENT TO THESE PROMOTERS. SET7/9 GENE SILENCING WITH SIRNAS SIGNIFICANTLY ATTENUATED TGF-BETA1-INDUCED ECM GENE EXPRESSION. FURTHERMORE, A TGF-BETA1 ANTIBODY NOT ONLY BLOCKED HG-INDUCED ECM GENE EXPRESSION BUT ALSO REVERSED HG-INDUCED CHANGES IN PROMOTER H3KME LEVELS AND SET7/9 OCCUPANCY. TAKEN TOGETHER, THESE RESULTS SHOW THE FUNCTIONAL ROLE OF EPIGENETIC CHROMATIN HISTONE H3KME IN TGF-BETA1-MEDIATED ECM GENE EXPRESSION IN MESANGIAL CELLS UNDER NORMAL AND HG CONDITIONS. PHARMACOLOGIC AND OTHER THERAPIES THAT REVERSE THESE MODIFICATIONS COULD HAVE POTENTIAL RENOPROTECTIVE EFFECTS FOR DIABETIC NEPHROPATHY. 2010 15 592 25 BET BROMODOMAIN PROTEINS REGULATE TRANSCRIPTIONAL REPROGRAMMING IN GENETIC DILATED CARDIOMYOPATHY. THE BROMODOMAIN AND EXTRATERMINAL (BET) FAMILY COMPRISES EPIGENETIC READER PROTEINS THAT ARE IMPORTANT REGULATORS OF INFLAMMATORY AND HYPERTROPHIC GENE EXPRESSION IN THE HEART. WE PREVIOUSLY IDENTIFIED THE ACTIVATION OF PROINFLAMMATORY GENE NETWORKS AS A KEY EARLY DRIVER OF DILATED CARDIOMYOPATHY (DCM) IN TRANSGENIC MICE EXPRESSING A MUTANT FORM OF PHOSPHOLAMBAN (PLNR9C) - A GENETIC CAUSE OF DCM IN HUMANS. WE HYPOTHESIZED THAT BETS COACTIVATE THIS INFLAMMATORY PROCESS, REPRESENTING A CRITICAL NODE IN THE PROGRESSION OF DCM. TO TEST THIS HYPOTHESIS, WE TREATED PLNR9C OR AGE-MATCHED WT MICE LONGITUDINALLY WITH THE SMALL MOLECULE BET BROMODOMAIN INHIBITOR JQ1 OR VEHICLE. BET INHIBITION ABROGATED ADVERSE CARDIAC REMODELING, REDUCED CARDIAC FIBROSIS, AND PROLONGED SURVIVAL IN PLNR9C MICE BY INHIBITING EXPRESSION OF PROINFLAMMATORY GENE NETWORKS AT ALL STAGES OF DISEASE. SPECIFICALLY, JQ1 HAD PROFOUND EFFECTS ON PROINFLAMMATORY GENE NETWORK EXPRESSION IN CARDIAC FIBROBLASTS, WHILE HAVING LITTLE EFFECT ON GENE EXPRESSION IN CARDIOMYOCYTES. CARDIAC FIBROBLAST PROLIFERATION WAS ALSO SUBSTANTIALLY REDUCED BY JQ1. MECHANISTICALLY, WE DEMONSTRATED THAT BRD4 SERVES AS A DIRECT AND ESSENTIAL REGULATOR OF NF-KAPPAB-MEDIATED PROINFLAMMATORY GENE EXPRESSION IN CARDIAC FIBROBLASTS. SUPPRESSING PROINFLAMMATORY GENE EXPRESSION VIA BET BROMODOMAIN INHIBITION COULD BE A NOVEL THERAPEUTIC STRATEGY FOR CHRONIC DCM IN HUMANS. 2020 16 5995 30 TGFBETA-INDUCED FIBROBLAST ACTIVATION REQUIRES PERSISTENT AND TARGETED HDAC-MEDIATED GENE REPRESSION. TISSUE FIBROSIS IS A CHRONIC DISEASE DRIVEN BY PERSISTENT FIBROBLAST ACTIVATION THAT HAS RECENTLY BEEN LINKED TO EPIGENETIC MODIFICATIONS. HERE, WE SCREENED A SMALL LIBRARY OF EPIGENETIC SMALL-MOLECULE MODULATORS TO IDENTIFY COMPOUNDS CAPABLE OF INHIBITING OR REVERSING TGFBETA-MEDIATED FIBROBLAST ACTIVATION. WE IDENTIFIED PRACINOSTAT, AN HDAC INHIBITOR, AS A POTENT ATTENUATOR OF LUNG FIBROBLAST ACTIVATION AND CONFIRMED ITS EFFICACY IN PATIENT-DERIVED FIBROBLASTS ISOLATED FROM FIBROTIC LUNG TISSUE. MECHANISTICALLY, WE FOUND THAT HDAC-DEPENDENT TRANSCRIPTIONAL REPRESSION WAS AN EARLY AND ESSENTIAL EVENT IN TGFBETA-MEDIATED FIBROBLAST ACTIVATION. TREATMENT OF LUNG FIBROBLASTS WITH PRACINOSTAT BROADLY ATTENUATED TGFBETA-MEDIATED EPIGENETIC REPRESSION AND PROMOTED FIBROBLAST QUIESCENCE. WE CONFIRMED A SPECIFIC ROLE FOR HDAC-DEPENDENT HISTONE DEACETYLATION IN THE PROMOTER REGION OF THE ANTI-FIBROTIC GENE PPARGC1A (PGC1ALPHA) IN RESPONSE TO TGFBETA STIMULATION. FINALLY, WE IDENTIFIED HDAC7 AS A KEY FACTOR WHOSE SIRNA-MEDIATED KNOCKDOWN ATTENUATES FIBROBLAST ACTIVATION WITHOUT ALTERING GLOBAL HISTONE ACETYLATION. TOGETHER, THESE RESULTS PROVIDE NOVEL MECHANISTIC INSIGHT INTO THE ESSENTIAL ROLE HDACS PLAY IN TGFBETA-MEDIATED FIBROBLAST ACTIVATION VIA TARGETED GENE REPRESSION. 2019 17 2425 26 EPIGENETIC SILENCING OF IRF1 DYSREGULATES TYPE III INTERFERON RESPONSES TO RESPIRATORY VIRUS INFECTION IN EPITHELIAL TO MESENCHYMAL TRANSITION. CHRONIC OXIDATIVE INJURY PRODUCED BY AIRWAY DISEASE TRIGGERS A TRANSFORMING GROWTH FACTOR-BETA (TGF-BETA)-MEDIATED EPIGENETIC REPROGRAMMING KNOWN AS THE EPITHELIAL-MESENCHYMAL TRANSITION (EMT). WE OBSERVE THAT EMT SILENCES PROTECTIVE MUCOSAL INTERFERON (IFN)-I AND III PRODUCTION ASSOCIATED WITH ENHANCED RHINOVIRUS (RV) AND RESPIRATORY SYNCYTIAL VIRUS (RSV) REPLICATION. MESENCHYMAL TRANSITIONED CELLS ARE DEFECTIVE IN INDUCIBLE INTERFERON REGULATORY FACTOR 1 (IRF1) EXPRESSION BY OCCLUDING RELA AND IRF3 ACCESS TO THE PROMOTER. IRF1 IS NECESSARY FOR THE EXPRESSION OF TYPE III IFNS (IFNLS 1 AND 2/3). INDUCED BY THE EMT, ZINC FINGER E-BOX BINDING HOMEOBOX 1 (ZEB1) BINDS AND SILENCES IRF1. ECTOPIC ZEB1 IS SUFFICIENT FOR IRF1 SILENCING, WHEREAS ZEB1 KNOCKDOWN PARTIALLY RESTORES IRF1-IFNL UPREGULATION. ZEB1 SILENCES IRF1 THROUGH THE CATALYTIC ACTIVITY OF THE ENHANCER OF ZESTE 2 POLYCOMB REPRESSIVE COMPLEX 2 SUBUNIT (EZH2), FORMING REPRESSIVE H3K27(ME3) MARKS. WE OBSERVE THAT IRF1 EXPRESSION IS MEDIATED BY ZEB1 DE-REPRESSION, AND OUR STUDY DEMONSTRATES HOW AIRWAY REMODELLING/FIBROSIS IS ASSOCIATED WITH A DEFECTIVE MUCOSAL ANTIVIRAL RESPONSE THROUGH ZEB1-INITIATED EPIGENETIC SILENCING. 2017 18 6519 30 TRANSCRIPTIONAL AND EPIGENETIC REGULATION OF INTERLEUKIN-2 GENE IN ACTIVATED T CELLS BY MORPHINE. CHRONIC MORPHINE INHIBITS INTERLEUKIN-2 (IL-2) AT BOTH THE TRANSCRIPTIONAL AND PROTEIN SYNTHESIS LEVELS. THE MOLECULAR MECHANISMS BY WHICH MORPHINE DECREASES IL-2 ARE NOT FULLY UNDERSTOOD. THE PRODUCTION OF IL-2 IS TIGHTLY REGULATED BY SEVERAL TRANSCRIPTION FACTORS THAT BIND TO THE IL-2 PROMOTER. HEREIN, WE SHOW THAT CHRONIC MORPHINE TREATMENT RESULTS IN AN INCREASE IN CAMP LEVELS WITH A CONCURRENT UP-REGULATION OF THE CAMP INDUCIBLE REPRESSOR INDUCIBLE CAMP EARLY REPRESSOR (ICER)/CAMP RESPONSE ELEMENT MODULATOR (CREM) AND DOWN-REGULATION OF P-CAMP-RESPONSE ELEMENT-BINDING PROTEIN (CREB) IN ACTIVATED T CELLS. FURTHERMORE, ICER COMPETES FOR P-CREB BINDING TO THE CAMP-RESPONSIVE ELEMENTS (CRES) SITE. THIS LEADS TO THE UNCOUPLING OF CBP/P300 THEREBY ABROGATING IL-2 TRANSCRIPTION. OVEREXPRESSION OF EITHER ANTISENSE CREM OR CREB PLASMID RESCUED MORPHINE-INDUCED INHIBITION OF IL-2 PROMOTER ACTIVITY AND PROTEIN PRODUCTION. IN ADDITION, WE ALSO FOUND THAT CHRONIC MORPHINE TREATMENT INHIBITED THE ACETYLATION AND TRIMETHYLATION OF HISTONES AND DECREASED BOTH DNA DEMETHYLATION AND ACCESSIBILITY OF THE IL-2 PROMOTER. THESE FINDINGS SUGGEST THAT CHRONIC MORPHINE TREATMENT MAY FUNCTION THROUGH BOTH TRANSCRIPTIONAL AND EPIGENETIC MECHANISMS TO INHIBIT IL-2 PRODUCTION. 2007 19 1166 46 CONTRIBUTION OF DNMT1 TO NEUROPATHIC PAIN GENESIS PARTIALLY THROUGH EPIGENETICALLY REPRESSING KCNA2 IN PRIMARY AFFERENT NEURONS. EXPRESSIONAL CHANGES OF PAIN-ASSOCIATED GENES IN PRIMARY SENSORY NEURONS OF DRG ARE CRITICAL FOR NEUROPATHIC PAIN GENESIS. DNA METHYLTRANSFERASE (DNMT)-TRIGGERED DNA METHYLATION SILENCES GENE EXPRESSION. WE SHOW HERE THAT DNMT1, A CANONICAL MAINTENANCE METHYLTRANSFERASE, ACTS AS THE DE NOVO DNMT AND IS REQUIRED FOR NEUROPATHIC PAIN GENESIS LIKELY THROUGH REPRESSING AT LEAST DRG KCNA2 GENE EXPRESSION IN MALE MICE. PERIPHERAL NERVE INJURY UPREGULATED DNMT1 EXPRESSION IN THE INJURED DRG THROUGH THE TRANSCRIPTION FACTOR CAMP RESPONSE ELEMENT BINDING PROTEIN-TRIGGERED TRANSCRIPTIONAL ACTIVATION OF DNMT1 GENE. BLOCKING THIS UPREGULATION PREVENTED NERVE INJURY-INDUCED DNA METHYLATION WITHIN THE PROMOTER AND 5'-UNTRANSLATED REGION OF KCNA2 GENE, RESCUED KCNA2 EXPRESSION AND TOTAL KV CURRENT, ATTENUATED HYPEREXCITABILITY IN THE INJURED DRG NEURONS, AND ALLEVIATED NERVE INJURY-INDUCED PAIN HYPERSENSITIVITIES. GIVEN THAT KCNA2 IS A KEY PLAYER IN NEUROPATHIC PAIN, OUR FINDINGS SUGGEST THAT DRG DNMT1 MAY BE A POTENTIAL TARGET FOR NEUROPATHIC PAIN MANAGEMENT.SIGNIFICANCE STATEMENT IN THE PRESENT STUDY, WE REPORTED THAT DNMT1, A CANONICAL DNA MAINTENANCE METHYLTRANSFERASE, IS UPREGULATED VIA THE ACTIVATION OF THE TRANSCRIPTION FACTOR CREB IN THE INJURED DRG AFTER PERIPHERAL NERVE INJURY. THIS UPREGULATION WAS RESPONSIBLE FOR NERVE INJURY-INDUCED DE NOVO DNA METHYLATION WITHIN THE PROMOTER AND 5'-UNTRANSLATED REGION OF THE KCNA2 GENE, REDUCTIONS IN KCNA2 EXPRESSION AND KV CURRENT AND INCREASES IN NEURONAL EXCITABILITY IN THE INJURED DRG. SINCE PHARMACOLOGICAL INHIBITION OR GENETIC KNOCKDOWN OF DRG DNMT1 ALLEVIATED NERVE INJURY-INDUCED PAIN HYPERSENSITIVITIES, DRG DNMT1 CONTRIBUTES TO NEUROPATHIC PAIN GENESIS PARTIALLY THROUGH REPRESSION OF DRG KCNA2 GENE EXPRESSION. 2019 20 1105 36 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