1 2425 108 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 2 1945 26 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 3 3199 30 HDAC1 INTERACTS WITH THE P50 NF-?B SUBUNIT VIA ITS NUCLEAR LOCALIZATION SEQUENCE TO CONSTRAIN INFLAMMATORY GENE EXPRESSION. THE NF-?B P50 SUBUNIT IS AN IMPORTANT REGULATOR OF INFLAMMATION, WITH RECENT EXPERIMENTAL EVIDENCE TO SUPPORT IT ALSO HAVING A TUMOR SUPPRESSOR ROLE. CLASSICALLY, P50 FUNCTIONS IN HETERODIMERIC FORM WITH THE RELA (P65) NF-?B SUBUNIT TO ACTIVATE INFLAMMATORY GENES. HOWEVER, P50 ALSO FORMS HOMODIMERS WHICH ACTIVELY REPRESS NF-?B-DEPENDENT INFLAMMATORY GENE EXPRESSION AND EXERT AN IMPORTANT BRAKE ON THE INFLAMMATORY PROCESS. THIS REPRESSIVE ACTIVITY OF P50:P50 IS THOUGHT TO BE IN PART MEDIATED BY AN INTERACTION WITH THE EPIGENETIC REPRESSOR PROTEIN HISTONE DEACETYLASE 1 (HDAC1). HOWEVER, NEITHER THE INTERACTION OF P50 WITH HDAC1 NOR THE REQUIREMENT OF HDAC1 FOR THE REPRESSIVE ACTIVITIES OF P50 HAS BEEN WELL DEFINED. HERE WE EMPLOYED IN SILICO PREDICTION WITH IN VITRO ASSAYS TO MAP SITES OF INTERACTION OF HDAC1 ON THE P50 PROTEIN. DIRECTED MUTAGENESIS OF ONE SUCH REGION RESULTED IN ALMOST COMPLETE LOSS OF HDAC1 BINDING TO P50. TRANSFECTED MUTANT P50 PROTEIN LACKING THE PUTATIVE HDAC1 DOCKING MOTIF RESULTED IN ENHANCED CYTOKINE AND CHEMOKINE EXPRESSION WHEN COMPARED WITH CELLS EXPRESSING A TRANSFECTED WILD TYPE P50. IN ADDITION, EXPRESSION OF THIS MUTANT P50 WAS ASSOCIATED WITH ENHANCED CHEMOATTRACTION OF NEUTROPHILS AND ACETYLATION OF KNOWN INFLAMMATORY GENES DEMONSTRATING THE LIKELY IMPORTANCE OF THE P50:HDAC1 INTERACTION FOR CONTROLLING INFLAMMATION. THESE NEW INSIGHTS PROVIDE AN ADVANCE ON CURRENT KNOWLEDGE OF THE MECHANISMS BY WHICH NF-?B-DEPENDENT GENE TRANSCRIPTION ARE REGULATED AND HIGHLIGHT THE POTENTIAL FOR MANIPULATION OF P50:HDAC1 INTERACTIONS TO BRING ABOUT EXPERIMENTAL MODULATION OF CHRONIC INFLAMMATION AND PATHOLOGIES ASSOCIATED WITH DYSREGULATED NEUTROPHIL ACCUMULATION AND ACTIVATION. 2018 4 3456 23 HYPOMETHYLATION OF IL1RN AND NFKB1 GENES IS LINKED TO THE DYSBALANCE IN IL1BETA/IL-1RA AXIS IN FEMALE PATIENTS WITH TYPE 2 DIABETES MELLITUS. INFLAMMATION HAS RECEIVED CONSIDERABLE ATTENTION IN THE PATHOGENESIS OF TYPE 2 DIABETES MELLITUS (T2DM). SUPPORTING THIS CONCEPT, ENHANCED EXPRESSION OF INTERLEUKIN (IL)-1BETA AND INCREASED INFILTRATION OF MACROPHAGES ARE OBSERVED IN PANCREATIC ISLETS OF PATIENTS WITH T2DM. ALTHOUGH IL-1 RECEPTOR ANTAGONIST (IL-1RA) PLAYS A MAJOR ROLE IN CONTROLLING OF IL-1BETA-MEDIATED INFLAMMATION, ITS COUNTERACTION EFFECTS AND EPIGENETIC ALTERATIONS IN T2DM ARE LESS STUDIED. THUS, WE AIMED TO ANALYZE THE DNA METHYLATION STATUS IN IL1RN, RELA (P65) AND NFKB1 (P50) GENES IN PERIPHERAL BLOOD MONONUCLEAR CELLS (PBMCS) FROM TREATED T2DM PATIENTS (N = 35) AND AGE-/SEX- MATCHED HEALTHY CONTROLS (N = 31). PRODUCTION OF IL-1BETA AND IL-1RA WAS ANALYZED IN PLASMA AND SUPERNATANTS FROM LPS-INDUCED PBMCS. IMMUNOMODULATORY EFFECTS OF IL-1BETA AND IL-1RA WERE STUDIED ON THP-1 CELLS. AVERAGE DNA METHYLATION LEVEL OF IL1RN AND NFKB1 GENE PROMOTERS WAS SIGNIFICANTLY DECREASED IN T2DM PATIENTS IN COMPARISON WITH HEALTHY CONTROLS (P< 0.05), WHICH WAS ASSOCIATED WITH THE INCREASED IL-1RA (P< 0.001) AND IL-1BETA (P = 0.039) PLASMA LEVELS IN T2DM PATIENTS. NEGATIVE ASSOCIATION BETWEEN AVERAGE METHYLATION OF IL1RN GENE AND IL-1RA PLASMA LEVELS WERE OBSERVED IN FEMALE T2DM PATIENTS. METHYLATION OF NFKB1 GENE WAS NEGATIVELY CORRELATED WITH IL-1RA LEVELS IN THE PATIENTS AND POSITIVELY WITH IL-1BETA LEVELS IN FEMALE PATIENTS. LPS-STIMULATED PBMCS FROM FEMALE PATIENTS FAILED TO RAISE IL-1BETA PRODUCTION, WHILE THE CELLS FROM HEALTHY FEMALES INCREASED IL-1BETA PRODUCTION IN COMPARISON WITH UNSTIMULATED CELLS (P< 0.001). TAKEN TOGETHER, THE FINDINGS SUGGEST THAT HYPOMETHYLATION OF IL1RN AND NFKB1 GENE PROMOTERS MAY PROMOTE THE INCREASED IL-1BETA/IL-1RA PRODUCTION AND REGULATE CHRONIC INFLAMMATION IN T2DM. FURTHER STUDIES ARE NECESSARY TO ELUCIDATE THE CAUSAL DIRECTION OF THESE ASSOCIATIONS AND POTENTIAL ROLE OF IL-1RA IN ANTI-INFLAMMATORY PROCESSES IN TREATED PATIENTS WITH T2DM. 2020 5 5064 28 PHOSPHORYLATION OF RELA/P65 PROMOTES DNMT-1 RECRUITMENT TO CHROMATIN AND REPRESSES TRANSCRIPTION OF THE TUMOR METASTASIS SUPPRESSOR GENE BRMS1. THE MAJORITY OF PATIENTS WITH LUNG CANCER PRESENT WITH METASTATIC DISEASE. CHRONIC INFLAMMATION AND SUBSEQUENT ACTIVATION OF NUCLEAR FACTOR-KAPPAB (NF-KAPPAB) HAVE BEEN ASSOCIATED WITH THE DEVELOPMENT OF CANCERS. THE RELA/P65 SUBUNIT OF NF-KAPPAB IS TYPICALLY ASSOCIATED WITH TRANSCRIPTIONAL ACTIVATION. IN THIS REPORT WE SHOW THAT RELA/P65 CAN FUNCTION AS AN ACTIVE TRANSCRIPTIONAL REPRESSOR THROUGH ENHANCED METHYLATION OF THE BRMS1 (BREAST CANCER METASTASIS SUPPRESSOR 1) METASTASIS SUPPRESSOR GENE PROMOTER VIA DIRECT RECRUITMENT OF DNMT-1 (DNA (CYTOSINE-5)-METHYLTRANSFERASE 1) TO CHROMATIN IN RESPONSE TO TUMOR NECROSIS FACTOR (TNF). TNF-MEDIATED PHOSPHORYLATION OF S276 ON RELA/P65 IS REQUIRED FOR RELA/P65-DNMT-1 INTERACTIONS, CHROMATIN LOADING OF DNMT-1 AND SUBSEQUENT BRMS1 PROMOTER METHYLATION AND TRANSCRIPTIONAL REPRESSION. THE ABILITY OF RELA/P65 TO FUNCTION AS AN ACTIVE TRANSCRIPTIONAL REPRESSOR IS PROMOTER SPECIFIC, AS THE NF-KAPPAB-REGULATED GENE CIAP2 (CELLULAR INHIBITOR OF APOPTOSIS 2) IS TRANSCRIPTIONALLY ACTIVATED WHEREAS BRMS1 IS REPRESSED UNDER IDENTICAL CONDITIONS. SMALL-MOLECULE INHIBITION OF EITHER OF THE MINIMAL INTERACTING DOMAINS BETWEEN RELA/P65-DNMT-1 AND RELA/P65-BRMS1 PROMOTER ABROGATES BRMS1 METHYLATION AND ITS TRANSCRIPTIONAL REPRESSION. THE ABILITY OF RELA/P65 TO DIRECTLY RECRUIT DNMT-1 TO CHROMATIN, RESULTING IN PROMOTER-SPECIFIC METHYLATION AND TRANSCRIPTIONAL REPRESSION OF TUMOR METASTASIS SUPPRESSOR GENE BRMS1, HIGHLIGHTS A NEW MECHANISM THROUGH WHICH NF-KAPPAB CAN REGULATE METASTATIC DISEASE, AND OFFERS A POTENTIAL TARGET FOR NEWER-GENERATION EPIGENETIC ONCOPHARMACEUTICALS. 2012 6 6085 28 THE EFFECTS OF ACARBOSE ON CHEMOKINE AND CYTOKINE PRODUCTION IN HUMAN MONOCYTIC THP-1 CELLS. BACKGROUND AND OBJECTIVES: CHRONIC INFLAMMATION INDUCED BY PROINFLAMMATORY CYTOKINES AND CHEMOKINES IS POSTULATED TO BE INVOLVED IN INSULIN RESISTANCE AND BETA-CELL DYSFUNCTION IN TYPE 2 DIABETES MELLITUS (T2DM). ACARBOSE, THE ALPHA-GLUCOSIDASE INHIBITOR, IS AN ORAL ANTIDIABETIC DRUG FOR T2DM. ACARBOSE SUPPRESSES INFLAMMATORY CYTOKINE PRODUCTION IN PATIENTS WITH T2DM, THOUGH THE UNDERLYING MECHANISMS ARE UNCLEAR. IN THE PRESENT STUDY, WE AIMED TO INVESTIGATE THE ANTI-INFLAMMATORY EFFECTS AND THE EXACT MECHANISMS OF ACARBOSE IN HUMAN MONOCYTIC THP-1 CELLS. METHODS: THP-1 CELLS WERE PRETREATED WITH ACARBOSE AND THEN STIMULATED WITH LIPOPOLYSACCHARIDE (LPS). THE LEVELS OF TH1-RELATED CHEMOKINES, INCLUDING INTERFERON-GAMMA-INDUCIBLE PROTEIN-10 (IP-10), MONOCYTE CHEMOATTRACTANT PROTEIN-1 (MCP-1), TH2-RELATED CHEMOKINE MACROPHAGE-DERIVED CHEMOKINE (MDC), AND PROINFLAMMATORY CYTOKINE TUMOR NECROSIS FACTOR-ALPHA (TNF-ALPHA), WERE DETERMINED BY ENZYME-LINKED IMMUNOSORBENT ASSAY. INTRACELLULAR SIGNALING PATHWAYS WERE EXPLORED BY WESTERN BLOT ANALYSIS AND USING A CHROMATIN IMMUNOPRECIPITATION ASSAY. RESULTS: ACARBOSE SUPPRESSED THE LEVELS OF IP-10, MCP-1, MDC, AND TNF-ALPHA AND DOWNREGULATED PHOSPHORYLATION OF P38, C-JUN N-TERMINAL KINASE (JNK), EXTRACELLULAR SIGNAL-REGULATED KINASE (ERK), AND NUCLEAR FACTOR-KAPPA B-P65 (NF-KAPPAB-P65) IN LPS-STIMULATED THP-1 CELLS. ACARBOSE SUPPRESSED LPS-INDUCED ACETYLATION OF HISTONES H3 (H3) AND H4 IN THE IP-10 AND MCP-1 PROMOTER REGIONS. THESE FINDINGS REVEALED THE SUPPRESSIVE EFFECTS OF ACARBOSE ON IP-10, MCP-1, MDC, AND TNF-ALPHA PRODUCTION IN THP-1 CELLS VIA, AT LEAST PARTIALLY, THE P38, JNK, ERK, AND NF-KAPPAB-P65 PATHWAYS, AS WELL AS THROUGH EPIGENETIC REGULATION VIA HISTONE H3 AND H4 ACETYLATION. CONCLUSION: OUR STUDY POINTS TO THE THERAPEUTIC ANTI-INFLAMMATORY POTENTIAL OF ACARBOSE. 2019 7 1966 24 EPIGENETIC ALTERATION OF PRKCDBP IN COLORECTAL CANCERS AND ITS IMPLICATION IN TUMOR CELL RESISTANCE TO TNFALPHA-INDUCED APOPTOSIS. PURPOSE: PRKCDBP IS A PUTATIVE TUMOR SUPPRESSOR IN WHICH ALTERATION HAS BEEN OBSERVED IN SEVERAL HUMAN CANCERS. WE INVESTIGATED EXPRESSION AND FUNCTION OF PRKCDBP IN COLORECTAL CELLS AND TISSUES TO EXPLORE ITS CANDIDACY AS A SUPPRESSOR IN COLORECTAL TUMORIGENESIS. EXPERIMENTAL DESIGN: EXPRESSION AND METHYLATION STATUS OF PRKCDBP AND ITS EFFECT ON TUMOR GROWTH WERE EVALUATED. TRANSCRIPTIONAL REGULATION BY NF-KAPPAB SIGNALING WAS DEFINED BY LUCIFERASE REPORTER AND CHROMATIN IMMUNOPRECIPITATION ASSAYS. RESULTS: PRKCDBP EXPRESSION WAS HARDLY DETECTABLE IN 29 OF 80 (36%) PRIMARY TUMORS AND 11 OF 19 (58%) CELL LINES, AND ITS ALTERATION CORRELATED WITH TUMOR STAGE AND GRADE. PROMOTER HYPERMETHYLATION WAS COMMONLY FOUND IN CANCERS. PRKCDBP EXPRESSION INDUCED THE G(1) CELL-CYCLE ARREST AND INCREASED CELLULAR SENSITIVITY TO VARIOUS APOPTOTIC STRESSES. PRKCDBP WAS INDUCED BY TNFALPHA, AND ITS LEVEL CORRELATED WITH TUMOR CELL SENSITIVITY TO TNFALPHA-INDUCED APOPTOSIS. PRKCDBP INDUCTION BY TNFALPHA WAS DISRUPTED BY BLOCKING NF-KAPPAB SIGNALING WHILE IT WAS ENHANCED BY RELA TRANSFECTION. THE PRKCDBP PROMOTER ACTIVITY WAS INCREASED IN RESPONSE TO TNFALPHA, AND THIS RESPONSE WAS ABOLISHED BY DISRUPTION OF A KAPPAB SITE IN THE PROMOTER. PRKCDBP DELAYED THE FORMATION AND GROWTH OF XENOGRAFT TUMORS AND IMPROVED TUMOR RESPONSE TO TNFALPHA-INDUCED APOPTOSIS. CONCLUSIONS: PRKCDBP IS A PROAPOPTOTIC TUMOR SUPPRESSOR WHICH IS COMMONLY ALTERED IN COLORECTAL CANCER BY PROMOTER HYPERMETHYLATION, AND ITS GENE TRANSCRIPTION IS DIRECTLY ACTIVATED BY NF-KAPPAB IN RESPONSE TO TNFALPHA. THIS SUGGESTS THAT PRKCDBP INACTIVATION MAY CONTRIBUTE TO TUMOR PROGRESSION BY REDUCING CELLULAR SENSITIVITY TO TNFALPHA AND OTHER STRESSES, PARTICULARLY UNDER CHRONIC INFLAMMATORY MICROENVIRONMENT. 2011 8 3890 21 KLOTHO, PHOSPHATE AND INFLAMMATION/AGEING IN CHRONIC KIDNEY DISEASE. EVIDENCE IS EMERGING FOR THE INFLAMMATORY NATURE OF MANY AGEING-ASSOCIATED DISEASES, INCLUDING ATHEROSCLEROSIS, VASCULAR CALCIFICATION, DIABETES AND CHRONIC KIDNEY DISEASE (CKD), AMONG OTHERS. AGEING ITSELF RESULTS IN CHRONIC LOW-GRADE INFLAMMATION THAT PROMOTES END-ORGAN DAMAGE. INFLAMMATORY ORGAN DAMAGE, IN TURN, MAY CONTRIBUTE TO INFLAMMATION. RECENT RESEARCH HAS IDENTIFIED THE KIDNEY-SECRETED HORMONE KLOTHO AS A CENTRAL PLAYER AT THE AGEING-INFLAMMATION INTERFACE. THUS, SYSTEMIC OR LOCAL RENAL INFLAMMATION DECREASES KIDNEY KLOTHO EXPRESSION. KLOTHO DOWN-REGULATION MAY BE INDUCED BY SPECIFIC CYTOKINES SUCH AS TUMOUR NECROSIS FACTOR-ALPHA OR TWEAK THROUGH THE CANONICAL ACTIVATION OF THE INFLAMMATORY TRANSCRIPTION FACTOR NUCLEAR FACTOR KAPPA B (NFKAPPAB) AND, SPECIFICALLY RELA. IN ADDITION, INFLAMMATORY CYTOKINES LEAD TO THE EPIGENETIC INACTIVATION OF KLOTHO TRANSCRIPTION. KLOTHO ITSELF HAS ANTIOXIDANT AND ANTI-INFLAMMATORY PROPERTIES AND THE CANONICAL NFKAPPAB COMPONENT RELA IS ONE OF ITS TARGETS. KLOTHO IS A KEY REGULATOR OF PHOSPHATE BALANCE AND A ROLE OF PHOSPHATE IN AGEING HAS BEEN SHOWN. HOWEVER, THE POTENTIAL RELATIONSHIP BETWEEN PHOSPHATE AND INFLAMMATION REQUIRES FURTHER CLARIFICATION. A CORRECT UNDERSTANDING OF THESE INTERACTIONS MAY LEAD TO THE DESIGN OF NOVEL THERAPEUTIC APPROACHES TO CKD AND CKD-RELATED INFLAMMATORY AND AGEING FEATURES AS WELL AS TO INFLAMMATION/AGEING IN GENERAL. 2012 9 6368 24 THE ROLE OF MICRORNAS IN CHRONIC PSEUDOMONAS LUNG INFECTION IN CYSTIC FIBROSIS. BACKGROUND: CYSTIC FIBROSIS (CF) IS THE MOST COMMON LIFE LIMITING GENETIC DISORDER, CHARACTERIZED BY CHRONIC RESPIRATORY FAILURE SECONDARY TO INFLAMMATION AND CHRONIC BACTERIAL LUNG INFECTION. PSEUDOMONAS AERUGINOSA LUNG INFECTION IS ASSOCIATED WITH MORE SEVERE LUNG DISEASE AND RAPID PROGRESSION OF RESPIRATORY FAILURE WHEN COMPARED TO STAPHYLOCOCCUS AUREUS INFECTION. WE HYPOTHESIZED THAT A SPECIFIC SIGNATURE OF EPIGENETIC FACTORS TARGETING SPECIFIC GENE TRANSCRIPTS CONTRIBUTES TO THE INCREASED MORBIDITY SEEN IN CF PATIENTS WITH CHRONIC PSEUDOMONAS INFECTION. METHODS: WE COLLECTED EXHALED BREATH CONDENSATE (EBC) FROM 27 SUBJECTS AND EVALUATED MIRNA SIGNATURES IN THESE SAMPLES USING COMMERCIAL PCR ARRAY. WE IDENTIFIED PREDICTED MRNA TARGETS AND ASSOCIATED SIGNALING PATHWAYS USING INGENUITY PATHWAY ANALYSIS. RESULTS: WE FOUND 11 DIFFERENTIALLY EXPRESSED MIRNAS IN EBC OF PATIENTS INFECTED WITH PSEUDOMONAS AERUGINOSA COMPARED TO EBC FROM CF PATIENTS WHO WERE NOT CHRONICALLY INFECTED WITH PSEUDOMONAS AERUGINOSA (P < 0.05). SIX OF THESE MIRNAS (HSA-MIRNA-1247, HSA-MIRNA-1276, HSA-MIRNA-449C, HSA-MIRNA-3170, HSA-MIRNA-432-5P AND HSA-MIR-548) WERE SIGNIFICANTLY DIFFERENT IN THE CF PSEUDOMONAS POSITIVE GROUP WHEN COMPARED TO BOTH THE CF PSEUDOMONAS NEGATIVE GROUP AND HEALTHY CONTROL GROUP. INGENUITY PATHWAY ANALYSIS (IPA) REVEALED ORGANISMAL INJURY AND ABNORMALITIES, REPRODUCTIVE SYSTEM DISEASE AND CANCER AS THE TOP DISEASES AND BIO FUNCTIONS ASSOCIATED WITH THESE MIRNAS. IPA ALSO DETECTED RELA, JUN, TNF, IL-10, CTNNB1, IL-13, SERPINB8, CALM1, STARD3NL, SFI1, CD55, RPS6KA4, TTC36 AND HIST1H3D AS THE TOP TARGET GENES FOR THESE MIRNAS. CONCLUSION: OUR STUDY IDENTIFIED 6 MIRNAS AS EPIGENETIC FACTORS SPECIFICALLY ASSOCIATED WITH CHRONIC PSEUDOMONAS INFECTION IN PATIENTS WITH CF. 2019 10 2784 23 EZH2 PROMOTES EXTRACELLULAR MATRIX DEGRADATION VIA NUCLEAR FACTOR-KAPPAB (NF-KAPPAB) AND P38 SIGNALING PATHWAYS IN PULPITIS. PULPITIS IS A COMPLICATED CHRONIC INFLAMMATORY PROCESS WHICH CAN BE IN A DYNAMIC BALANCE BETWEEN DAMAGE AND REPAIR. THE EXTRACELLULAR MATRIX PLAYS AN IMPORTANT REGULATORY ROLE IN WOUND HEALING AND TISSUE REPAIR. THE AIM OF THIS STUDY WAS TO EXPLORE THE ROLE OF THE EPIGENETIC MARK, ENHANCER OF ZESTE HOMOLOG 2 (EZH2) ON THE DEGRADATION OF EXTRACELLULAR MATRIX DURING PULPITIS. QUANTITATIVE POLYMERASE CHAIN REACTION WAS USED TO ASSESS THE EXPRESSION OF MATRIX METALLOPROTEINASES (MMPS) AND TYPE I COLLAGEN IN HUMAN DENTAL PULP CELLS (HDPCS) UPON EZH2 AND EI1 (EZH2 INHIBITOR) STIMULATION. THE MECHANISM OF EZH2 AFFECTING EXTRACELLULAR MATRIX WAS EXPLORED THROUGH QUANTITATIVE POLYMERASE CHAIN REACTION AND WESTERN BLOT. A RAT MODEL OF DENTAL PULP INFLAMMATION WAS ESTABLISHED, AND THE EXPRESSION OF TYPE I COLLAGEN IN DENTAL PULP UNDER EZH2 STIMULATION WAS DETECTED BY IMMUNOHISTOCHEMICAL STAINING. EZH2 UPREGULATED THE EXPRESSION OF MMP-1, MMP-3, MMP-8, AND MMP-10 AND DECREASED THE PRODUCTION OF TYPE I COLLAGEN IN HDPCS, WHILE EI1 HAD THE OPPOSITE EFFECT. EZH2 ACTIVATED THE NUCLEAR FACTOR-KAPPA B (NF-KAPPAB) AND P38 SIGNALING PATHWAYS IN HDPCS, THE INHIBITION OF WHICH REVERSED THE INDUCTION OF MMPS AND THE SUPPRESSION OF TYPE I COLLAGEN. EZH2 CAN DOWNREGULATE THE TYPE I COLLAGEN LEVELS IN AN EXPERIMENTAL MODEL OF DENTAL PULPITIS IN RATS. EZH2 PROMOTES EXTRACELLULAR MATRIX DEGRADATION VIA NUCLEAR FACTOR-KAPPAB (NF-KAPPAB) AND P38 SIGNALING PATHWAYS IN PULPITIS. EZH2 CAN DECREASE THE TYPE I COLLAGEN LEVELS IN VIVO AND IN VITRO. 2021 11 5999 26 THE ACETYLOME REGULATORS HDAC1 AND HDAC2 DIFFERENTLY MODULATE INTESTINAL EPITHELIAL CELL DEPENDENT HOMEOSTATIC RESPONSES IN EXPERIMENTAL COLITIS. HISTONE DEACETYLASES (HDAC) REMOVE ACETYL GROUPS FROM PROTEINS, INFLUENCING GLOBAL AND SPECIFIC GENE EXPRESSION. HDACS CONTROL INFLAMMATION, AS SHOWN BY HDAC INHIBITOR-DEPENDENT PROTECTION FROM DEXTRAN SULFATE SODIUM (DSS)-INDUCED MURINE COLITIS. ALTHOUGH TISSUE-SPECIFIC HDAC KNOCKOUTS SHOW REDUNDANT AND SPECIFIC FUNCTIONS, LITTLE IS KNOWN OF THEIR INTESTINAL EPITHELIAL CELL (IEC) ROLE. WE HAVE SHOWN PREVIOUSLY THAT DUAL HDAC1/HDAC2 IEC-SPECIFIC LOSS DISRUPTS CELL PROLIFERATION AND DETERMINATION, WITH DECREASED SECRETORY CELL NUMBERS AND ALTERED BARRIER FUNCTION. WE THUS INVESTIGATED HOW COMPOUND HDAC1/HDAC2 OR HDAC2 IEC-SPECIFIC DEFICIENCY ALTERS THE INFLAMMATORY RESPONSE. FLOXED HDAC1 AND HDAC2 AND VILLIN-CRE MICE WERE INTERBRED. COMPOUND HDAC1/HDAC2 IEC-DEFICIENT MICE SHOWED CHRONIC BASAL INFLAMMATION, WITH INCREASED BASAL DISEASE ACTIVITY INDEX (DAI) AND DEREGULATED REG GENE COLONIC EXPRESSION. DSS-TREATED DUAL HDAC1/HDAC2 IEC-DEFICIENT MICE DISPLAYED INCREASED DAI, HISTOLOGICAL SCORE, INTESTINAL PERMEABILITY, AND INFLAMMATORY GENE EXPRESSION. IN CONTRAST TO DOUBLE KNOCKOUTS, HDAC2 IEC-SPECIFIC LOSS DID NOT AFFECT IEC DETERMINATION AND GROWTH, NOR RESULT IN CHRONIC INFLAMMATION. HOWEVER, HDAC2 DISRUPTION PROTECTED AGAINST DSS COLITIS, AS SHOWN BY DECREASED DAI, INTESTINAL PERMEABILITY AND CASPASE-3 CLEAVAGE. HDAC2 IEC-SPECIFIC DEFICIENT MICE DISPLAYED INCREASED EXPRESSION OF IEC GENE SUBSETS, SUCH AS COLONIC ANTIMICROBIAL REG3B AND REG3G MRNAS, AND DECREASED EXPRESSION OF IMMUNE CELL FUNCTION-RELATED GENES. OUR DATA SHOW THAT HDAC1 AND HDAC2 ARE ESSENTIAL IEC HOMEOSTASIS REGULATORS. IEC-SPECIFIC HDAC1 AND HDAC2 MAY ACT AS EPIGENETIC SENSORS AND TRANSMITTERS OF ENVIRONMENTAL CUES AND REGULATE IEC-MEDIATED MUCOSAL HOMEOSTATIC AND INFLAMMATORY RESPONSES. DIFFERENT LEVELS OF IEC HDAC ACTIVITY MAY LEAD TO POSITIVE OR NEGATIVE OUTCOMES ON INTESTINAL HOMEOSTASIS DURING INFLAMMATION. 2014 12 3725 26 INHIBITION OF GLYCOGEN SYNTHASE KINASE-3 ACTIVITY LEADS TO EPIGENETIC SILENCING OF NUCLEAR FACTOR KAPPAB TARGET GENES AND INDUCTION OF APOPTOSIS IN CHRONIC LYMPHOCYTIC LEUKEMIA B CELLS. CHRONIC LYMPHOCYTIC LEUKEMIA (CLL) IS COMMONLY DEFINED AS A DISEASE OF FAILED APOPTOSIS OF B CELLS AND REMAINS AN INCURABLE DISEASE. THE MECHANISM OF RESISTANCE TO APOPTOSIS IN CLL IS COMPLEX AND INFLUENCED BY NUMEROUS FACTORS, INCLUDING NUCLEAR FACTOR KAPPAB (NFKAPPAB)-MEDIATED EXPRESSION OF ANTIAPOPTOTIC MOLECULES. RECENT EVIDENCE INDICATES THAT GLYCOGEN SYNTHASE KINASE-3BETA (GSK-3BETA) POSITIVELY REGULATES NFKAPPAB-MEDIATED GENE TRANSCRIPTION AND CELL SURVIVAL. USING MALIGNANT B CELLS COLLECTED FROM PATIENTS WITH CLL, WE FIND THAT BOTH GSK-3BETA AND NFKAPPAB ACCUMULATE IN THE NUCLEUS OF CLL B CELLS, AND PHARMACOLOGIC INHIBITION OF GSK-3 RESULTS IN DECREASED EXPRESSION OF TWO NFKAPPAB TARGET GENES BCL-2 AND XIAP AND A SUBSEQUENT INCREASE IN CLL B-CELL APOPTOSIS EX VIVO. FURTHERMORE, WE OBSERVED THAT INHIBITION OF GSK-3 LEADS TO A DECREASE IN NFKAPPAB-MEDIATED GENE TRANSCRIPTION BUT DOES NOT AFFECT THE NUCLEAR ACCUMULATION OF NFKAPPAB IN CLL B CELLS. LAST, USING CHROMATIN IMMUNOPRECIPITATION, WE SHOW THAT GSK-3 INHIBITION ABROGATES NFKAPPAB BINDING TO ITS TARGET GENE PROMOTERS (XIAP, BCL-2), IN PART THROUGH EPIGENETIC MODIFICATION OF HISTONES. OUR RESULTS ESTABLISH THAT INHIBITION OF GSK-3 ABROGATES NFKAPPAB BINDING TO ITS TARGET GENE PROMOTERS THROUGH AN EPIGENETIC MECHANISM, ENHANCES APOPTOSIS IN CLL B CELLS EX VIVO AND IDENTIFIES GSK-3 AS A POTENTIAL THERAPEUTIC TARGET IN THE TREATMENT OF CLL. 2007 13 673 26 BRAHMA-RELATED GENE 1 (BRG1) EPIGENETICALLY REGULATES CAM ACTIVATION DURING HYPOXIC PULMONARY HYPERTENSION. AIMS: ESTABLISHMENT OF AN INFLAMMATORY MILIEU FOLLOWING ELEVATED LEUKOCYTE ADHESION TO THE VASCULAR ENDOTHELIUM, WHICH IS MEDIATED BY TRANSCRIPTIONAL ACTIVATION OF CELL ADHESION MOLECULES (CAMS), CONTRIBUTES TO THE PATHOGENESIS OF CHRONIC HYPOXIA-INDUCED PULMONARY HYPERTENSION (HPH). THE EPIGENETIC SWITCH THAT DICTATES CAM TRANSACTIVATION IN RESPONSE TO HYPOXIA IN ENDOTHELIAL CELLS LEADING UP TO HPH IS NOT FULLY APPRECIATED. METHODS AND RESULTS: WE REPORT HERE THAT BRAHMA-RELATED GENE 1 (BRG1) AND BRAHMA (BRM), TWO CATALYTIC COMPONENTS OF THE MAMMALIAN CHROMATIN REMODELLING COMPLEX, WERE INDUCED IN CULTURED ENDOTHELIAL CELLS CHALLENGED WITH HYPOXIA IN VITRO AS WELL AS IN PULMONARY ARTERIES IN AN ANIMAL MODEL OF HPH. OVER-EXPRESSION OF BRG1/BRM ENHANCED, WHILE THE DEPLETION OF BRG1/BRM ATTENUATED, CAM TRANSACTIVATION AND ADHESION OF LEUKOCYTES. ENDOTHELIAL-SPECIFIC DELETION OF BRG1/BRM AMELIORATED VASCULAR INFLAMMATION AND HPH IN MICE. CHROMATIN IMMUNOPRECIPITATION (CHIP) AND RE-CHIP ASSAYS REVEALED THAT HYPOXIA UP-REGULATED THE OCCUPANCIES OF BRG1 AND BRM ON CAM PROMOTERS IN A NUCLEAR FACTOR KAPPAB (NF-KAPPAB) -DEPENDENT MANNER. FINALLY, BRG1 AND BRM ACTIVATED CAM TRANSCRIPTION BY ALTERING THE CHROMATIN STRUCTURE SURROUNDING THE CAM PROMOTERS. CONCLUSION: OUR DATA SUGGEST THAT BRG1 PROVIDES THE CRUCIAL EPIGENETIC LINK TO HYPOXIA-INDUCED CAM INDUCTION AND LEUKOCYTE ADHESION THAT ENGENDERS ENDOTHELIAL MALFUNCTION AND PATHOGENESIS OF HPH. AS SUCH, TARGETING BRG1 IN ENDOTHELIAL CELLS MAY YIELD PROMISING STRATEGIES IN THE INTERVENTION AND/OR PREVENTION OF HPH. 2013 14 6298 24 THE PROTECTIVE EFFECT OF ZEBULARINE, AN INHIBITOR OF DNA METHYLTRANSFERASE, ON RENAL TUBULOINTERSTITIAL INFLAMMATION AND FIBROSIS. RENAL FIBROSIS, THE FINAL PATHWAY OF CHRONIC KIDNEY DISEASE, IS CAUSED BY GENETIC AND EPIGENETIC MECHANISMS. ALTHOUGH DNA METHYLATION HAS DRAWN ATTENTION AS A DEVELOPING MECHANISM OF RENAL FIBROSIS, ITS CONTRIBUTION TO RENAL FIBROSIS HAS NOT BEEN CLARIFIED. TO ADDRESS THIS ISSUE, THE EFFECT OF ZEBULARINE, A DNA METHYLTRANSFERASE INHIBITOR, ON RENAL INFLAMMATION AND FIBROSIS IN THE MURINE UNILATERAL URETERAL OBSTRUCTION (UUO) MODEL WAS ANALYZED. ZEBULARINE SIGNIFICANTLY ATTENUATED RENAL TUBULOINTERSTITIAL FIBROSIS AND INFLAMMATION. ZEBULARINE DECREASED TRICHROME, ALPHA-SMOOTH MUSCLE ACTIN, COLLAGEN IV, AND TRANSFORMING GROWTH FACTOR-BETA1 STAINING BY 56.2%. 21.3%, 30.3%, AND 29.9%, RESPECTIVELY, AT 3 DAYS, AND BY 54.6%, 41.9%, 45.9%, AND 61.7%, RESPECTIVELY, AT 7 DAYS AFTER UUO. ZEBULARINE DOWNREGULATED MRNA EXPRESSION LEVELS OF MATRIX METALLOPROTEINASE (MMP)-2, MMP-9, FIBRONECTIN, AND SNAIL1 BY 48.6%. 71.4%, 31.8%, AND 42.4%, RESPECTIVELY, AT 7 DAYS AFTER UUO. ZEBULARINE ALSO SUPPRESSED THE ACTIVATION OF NUCLEAR FACTOR-KAPPAB (NF-KAPPAB) AND THE EXPRESSION OF PRO-INFLAMMATORY CYTOKINES, INCLUDING TUMOR NECROSIS FACTOR-ALPHA, INTERLEUKIN (IL)-1BETA, AND IL-6, BY 69.8%, 74.9%, AND 69.6%, RESPECTIVELY, IN OBSTRUCTED KIDNEYS. FURTHERMORE, INHIBITING DNA METHYLTRANSFERASE BUTTRESSED THE NUCLEAR EXPRESSION OF NUCLEAR FACTOR (ERYTHROID-DERIVED 2)-LIKE FACTOR 2, WHICH UPREGULATED DOWNSTREAM EFFECTORS SUCH AS CATALASE (1.838-FOLD INCREASE AT 7 DAYS, P < 0.01), SUPEROXIDE DISMUTASE 1 (1.494-FOLD INCREASE AT 7 DAYS, P < 0.05), AND NAD(P)H: QUINONE OXIDOREDUATE-1 (1.376-FOLD INCREASE AT 7 DAYS, P < 0.05) IN OBSTRUCTED KIDNEYS. COLLECTIVELY, THESE FINDINGS SUGGEST THAT INHIBITING DNA METHYLATION RESTORES THE DISRUPTED BALANCE BETWEEN PRO-INFLAMMATORY AND ANTI-INFLAMMATORY PATHWAYS TO ALLEVIATE RENAL INFLAMMATION AND FIBROSIS. THEREFORE, THESE RESULTS HIGHLIGHT THE POSSIBILITY OF DNA METHYLTRANSFERASES AS THERAPEUTIC TARGETS FOR TREATING RENAL INFLAMMATION AND FIBROSIS. 2022 15 5607 27 RSV-INDUCED H3K4 DEMETHYLASE KDM5B LEADS TO REGULATION OF DENDRITIC CELL-DERIVED INNATE CYTOKINES AND EXACERBATES PATHOGENESIS IN VIVO. RESPIRATORY SYNCYTIAL VIRUS (RSV) INFECTION CAN RESULT IN SEVERE DISEASE PARTIALLY DUE TO ITS ABILITY TO INTERFERE WITH THE INITIATION OF TH1 RESPONSES TARGETING THE PRODUCTION OF TYPE I INTERFERONS (IFN) AND PROMOTING A TH2 IMMUNE ENVIRONMENT. EPIGENETIC MODULATION OF GENE TRANSCRIPTION HAS BEEN SHOWN TO BE IMPORTANT IN REGULATING INFLAMMATORY PATHWAYS. RSV-INFECTED BONE MARROW-DERIVED DCS (BMDCS) UPREGULATED EXPRESSION OF KDM5B/JARID1B H3K4 DEMETHYLASE. KDM5B-SPECIFIC SIRNA INHIBITION IN BMDC LED TO A 10-FOLD INCREASE IN IFN-BETA AS WELL AS INCREASES IN IL-6 AND TNF-ALPHA COMPARED TO CONTROL-TRANSFECTED CELLS. THE GENERATION OF KDM5BFL/FL-CD11C-CRE+ MICE RECAPITULATED THE LATTER RESULTS DURING IN VITRO DC ACTIVATION SHOWING INNATE CYTOKINE MODULATION. IN VIVO, INFECTION OF KDM5BFL/FL-CD11C-CRE+ MICE WITH RSV RESULTED IN HIGHER PRODUCTION OF IFN-GAMMA AND REDUCED IL-4 AND IL-5 COMPARED TO LITTERMATE CONTROLS, WITH SIGNIFICANTLY DECREASED INFLAMMATION, IL-13, AND MUCUS PRODUCTION IN THE LUNGS. SENSITIZATION WITH RSV-INFECTED DCS INTO THE AIRWAYS OF NAIVE MICE LED TO AN EXACERBATED RESPONSE WHEN MICE WERE CHALLENGED WITH LIVE RSV INFECTION. WHEN KDM5B WAS BLOCKED IN DCS WITH SIRNA OR DCS FROM KDM5BFL/FL-CD11C-CRE MICE WERE USED, THE EXACERBATED RESPONSE WAS ABROGATED. IMPORTANTLY, HUMAN MONOCYTE-DERIVED DCS TREATED WITH A CHEMICAL INHIBITOR FOR KDM5B RESULTED IN INCREASED INNATE CYTOKINE LEVELS AS WELL AS ELICITED DECREASED TH2 CYTOKINES WHEN CO-CULTURED WITH RSV REACTIVATED CD4+ T CELLS. THESE RESULTS SUGGEST THAT KDM5B ACTS TO REPRESS TYPE I IFN AND OTHER INNATE CYTOKINES TO PROMOTE AN ALTERED IMMUNE RESPONSE FOLLOWING RSV INFECTION THAT CONTRIBUTES TO DEVELOPMENT OF CHRONIC DISEASE. 2015 16 5794 23 STAT1 EPIGENETICALLY REGULATES LCP2 AND TNFAIP2 BY RECRUITING EP300 TO CONTRIBUTE TO THE PATHOGENESIS OF INFLAMMATORY BOWEL DISEASE. BACKGROUND: THE AETIOLOGY OF INFLAMMATORY BOWEL DISEASE (IBD) IS RELATED TO GENETICS AND EPIGENETICS. EPIGENETIC REGULATION OF THE PATHOGENESIS OF IBD HAS NOT BEEN WELL DEFINED. HERE, WE INVESTIGATED THE ROLE OF H3K27AC EVENTS IN THE PATHOGENESIS OF IBD. BASED ON PREVIOUS CHIP-SEQ AND RNA-SEQ ASSAYS, WE STUDIED SIGNAL TRANSDUCER AND ACTIVATOR OF TRANSCRIPTION 1 (STAT1) AS A TRANSCRIPTION FACTOR (TF) AND INVESTIGATED WHETHER THE STAT1-EP300-H3K27AC AXIS CONTRIBUTES TO THE DEVELOPMENT OF IBD. WE PERFORMED CHIP-PCR TO INVESTIGATE THE INTERACTION BETWEEN STAT1 AND H3K27AC, AND CO-IP ASSAYS WERE PERFORMED TO INVESTIGATE THE CROSSTALK BETWEEN STAT1 AND EP300. RESULTS: LYMPHOCYTE CYTOSOLIC PROTEIN 2 (LCP2) AND TNF-ALPHA-INDUCIBLE PROTEIN 2 (TNFAIP2) ARE TARGET GENES OF STAT1. P-STAT1 BINDS TO THE ENHANCER LOCI OF THE TWO GENES WHERE H3K27AC IS ENRICHED, AND EP300 SUBSEQUENTLY BINDS TO REGULATE THEIR EXPRESSION. IN MICE WITH DEXTRAN SULFATE SODIUM (DSS)-INDUCED ACUTE COLITIS, AN EP300 INHIBITOR SIGNIFICANTLY INHIBITED COLITIS. CONCLUSIONS: P-STAT1 AND EP300 PROMOTE TNFAIP2 AND LCP2 EXPRESSION THROUGH AN INCREASE IN H3K27AC ENRICHMENT ON THEIR ENHANCERS AND CONTRIBUTE TO THE PATHOGENESIS OF CHRONIC INFLAMMATION. 2021 17 1690 25 DUAL ROLES OF CHROMATIN REMODELING PROTEIN BRG1 IN ANGIOTENSIN II-INDUCED ENDOTHELIAL-MESENCHYMAL TRANSITION. ENDOTHELIAL-MESENCHYMAL TRANSITION (ENDMT) IS CONSIDERED ONE OF THE PROCESSES UNDERLYING TISSUE FIBROSIS BY CONTRIBUTING TO THE POOL OF MYOFIBROBLASTS. IN THE PRESENT STUDY, WE INVESTIGATED THE EPIGENETIC MECHANISM WHEREBY ANGIOTENSIN II (ANG II) REGULATES ENDMT TO PROMOTE CARDIAC FIBROSIS FOCUSING ON THE ROLE OF CHROMATIN REMODELING PROTEIN BRG1. BRG1 KNOCKDOWN OR INHIBITION ATTENUATED ANG II-INDUCED ENDMT, AS EVIDENCED BY DOWN-REGULATION OF CDH5, AN ENDOTHELIAL MARKER, AND UP-REGULATION OF COL1A2, A MESENCHYMAL MARKER, IN CULTURED VASCULAR ENDOTHELIAL CELLS. ON THE ONE HAND, BRG1 INTERACTED WITH AND WAS RECRUITED BY SP1 TO THE SNAI2 (ENCODING SLUG) PROMOTER TO ACTIVATE SNAI2 TRANSCRIPTION IN RESPONSE TO ANG II STIMULATION. ONCE ACTIVATED, SLUG BOUND TO THE CDH5 PROMOTER TO REPRESS CDH5 TRANSCRIPTION. ON THE OTHER HAND, BRG1 INTERACTED WITH AND WAS RECRUITED BY SRF TO THE COL1A2 PROMOTER TO ACTIVATE COL1A2 TRANSCRIPTION. MECHANISTICALLY, BRG1 EVICTED HISTONES FROM THE TARGET PROMOTERS TO FACILITATE THE BINDINGS OF SP1 AND SRF. FINALLY, ENDOTHELIAL CONDITIONAL BRG1 KNOCKOUT MICE (CKO) EXHIBITED A REDUCTION IN CARDIAC FIBROSIS, COMPARED TO THE WILD TYPE (WT) LITTERMATES, IN RESPONSE TO CHRONIC ANG II INFUSION. IN CONCLUSION, OUR DATA DEMONSTRATE THAT BRG1 IS A KEY TRANSCRIPTIONAL COORDINATOR PROGRAMMING ANG II-INDUCED ENDMT TO CONTRIBUTE TO CARDIAC FIBROSIS. 2020 18 428 19 ANTI-INFLAMMATORY ACTIVITY OF MIODESIN: MODULATION OF INFLAMMATORY MARKERS AND EPIGENETIC EVIDENCE. PURPOSE: TO INVESTIGATE THE EFFECTS OF A COMBINED HERBAL MEDICINE MIODESIN ON THE INFLAMMATORY RESPONSE OF KEY CELLS INVOLVED IN THE ACUTE AND CHRONIC INFLAMMATORY PROCESSES AS WELL AS THE POSSIBLE EPIGENETIC INVOLVEMENT. METHODS: AFTER THE ESTABLISHMENT OF THE IC(50) DOSE, THE CHONDROCYTE, KERATINOCYTE, AND MACROPHAGE CELL LINES WERE PRETREATED FOR 2 HOURS WITH MIODESIN (200 MUG/ML) AND STIMULATED WITH LPS (1 MUG/ML) FOR 24 HOURS. THE SUPERNATANT WAS USED TO MEASURE THE LEVELS OF CYTOKINES (IL-1BETA, IL-6, IL-8, AND TNF-ALPHA) AND CHEMOKINES (CCL2, CCL3, AND CCL5), AND THE CELLS WERE USED TO EXTRACT THE MRNA FOR THE TRANSCRIPTION FACTOR (NF-KAPPABETA), INFLAMMATORY ENZYMES (COX-1, COX-2, PLA2, AND INOS), AND CHEMOKINES (CCL2, CCL3, AND CCL5). RESULTS: MIODESIN INHIBITED THE RELEASE OF LPS-INDUCED CYTOKINES (IL-1BETA, IL-6, IL-8, AND TNF-ALPHA; P < 0.01) AND CHEMOKINES (CCL2, CCL3, AND CCL5; P < 0.01) AND THE EXPRESSION OF THE TRANSCRIPTION FACTOR (NF-KAPPABETA; P < 0.01), INFLAMMATORY ENZYMES (COX-1, COX-2, PLA2, INOS; P < 0.01), AND CHEMOKINES (CCL2, CCL3, AND CCL5; P < 0.01). IN ADDITION, THE EVALUATION OF EPIGENETIC MECHANISM REVEALED THAT MIODESIN DID NOT INDUCE CHANGES IN DNA METHYLATION, ASSURING THE GENETIC SAFENESS OF THE COMPOUND IN TERMS OF THE INFLAMMATORY RESPONSE. CONCLUSIONS: MIODESIN PRESENTS ANTI-INFLAMMATORY PROPERTIES, INHIBITING HYPERACTIVATION OF CHONDROCYTES, KERATINOCYTES, AND MACROPHAGES, INVOLVING EPIGENETICS IN SUCH EFFECTS. 2020 19 1906 27 ENHANCER OF ZESTE HOMOLOG 2-CATALYSED H3K27 TRIMETHYLATION PLAYS A KEY ROLE IN ACUTE-ON-CHRONIC LIVER FAILURE VIA TNF-MEDIATED PATHWAY. ACUTE-ON-CHRONIC LIVER FAILURE IS MAINLY DUE TO HOST IMMUNITY SELF-DESTRUCTION. THE HISTONE H3 LYSINE 27 (H3K27) TRIMETHYLATING ENZYME, ENHANCER OF ZESTE HOMOLOG 2 (EZH2) MEDIATES EPIGENETIC SILENCING OF GENE EXPRESSION AND REGULATES IMMUNITY, ALSO INVOLVES PATHOGENESIS OF SEVERAL LIVER DISEASES. THE CURRENT STUDY WAS TO DETERMINE THE ROLE OF METHYLTRANSFERASE EZH2 AND ITS CATALYSED H3K27 TRIMETHYLATION (H3K27ME3) IN LIVER FAILURE, AND TO FURTHER INVESTIGATE THE POTENTIAL TARGET FOR LIVER FAILURE TREATMENT. EZH2 AND ITS CATALYSED H3K27ME3 WERE DETERMINED IN PERIPHERAL BLOOD MONONUCLEAR CELLS (PBMC) FROM LIVER FAILURE PATIENTS AND KUPFFER CELLS FROM EXPERIMENTAL MICE. FURTHERMORE, GSK126 (AN INHIBITOR FOR EZH2 TRIMETHYLATION FUNCTION) WAS APPLIED IN LIVER FAILURE MICE IN VIVO, AND LIPOPOLYSACCHARIDE-STIMULATED MONONUCLEAR CELLS IN VITRO. EZH2 AND H3K27ME3 WERE SIGNIFICANTLY UPREGULATED IN HUMAN PBMC FROM LIVER FAILURE PATIENTS OR MURINE KUPFFER CELLS FROM THE LIVER FAILURE ANIMALS, RESPECTIVELY. GSK126 AMELIORATED DISEASE SEVERITY IN LIVER FAILURE MICE, WHICH MAYBE ATTRIBUTE TO DOWN-REGULATE CIRCULATING AND HEPATIC PROINFLAMMATORY CYTOKINES, ESPECIALLY TNF VIA REDUCING H3K27ME3. IN-DEPTH CHROMATIN IMMUNOPRECIPITATION ANALYSIS UNRAVELLED THAT DECREASED ENRICHMENT OF H3K27ME3 ON TNF PROMOTOR, RESULTING IN TNF ELEVATION IN KUPFFER CELLS FROM LIVER FAILURE MICE. NUCLEAR FACTOR KAPPA B (NF-KAPPAB) AND PROTEIN KINASE B (AKT) SIGNALLING PATHWAYS WERE ACTIVATED UPON LIPOPOLYSACCHARIDE STIMULATION, BUT ATTENUATED BY USING GSK126, ACCOMPANIED WITH DECREASED TNF IN VITRO. IN CONCLUSION, EZH2 AND H3K27ME3 CONTRIBUTED TO THE PATHOGENESIS OF LIVER FAILURE VIA TRIGGERING TNF AND OTHER INDISPENSABLE PROINFLAMMATORY CYTOKINES. EZH2 WAS TO MODIFY H3K27ME3 ENRICHMENT, AS WELL AS, ACTIVATION OF THE DOWNSTREAM NF-KAPPAB AND AKT SIGNALLING PATHWAYS. 2018 20 5868 28 SUPPRESSIVE EFFECTS OF METFORMIN ON T-HELPER 1-RELATED CHEMOKINES EXPRESSION IN THE HUMAN MONOCYTIC LEUKEMIA CELL LINE THP-1. PURPOSE OF THE STUDY: TYPE 1 AND TYPE 2 DIABETES MELLITUS (DM) ARE CHRONIC T-CELL-MEDIATED INFLAMMATORY DISEASES. METFORMIN IS A WIDELY USED DRUG FOR TYPE 2 DM THAT REDUCES THE NEED FOR INSULIN IN TYPE 1 DM. HOWEVER, WHETHER METFORMIN HAS AN ANTI-INFLAMMATORY EFFECT FOR TREATING DM IS UNKNOWN. WE INVESTIGATED THE ANTI-INFLAMMATORY MECHANISM OF METFORMIN IN THE HUMAN MONOCYTIC LEUKEMIA CELL LINE THP-1. MATERIALS AND METHODS: THE HUMAN MONOCYTIC LEUKEMIA CELL LINE THP-1 WAS PRETREATED WITH METFORMIN AND STIMULATED WITH LIPOPOLYSACCHARIDE (LPS). THE PRODUCTION OF T-HELPER (TH)-1-RELATED CHEMOKINES INCLUDING INTERFERON-GAMMA-INDUCED PROTEIN-10 (IP-10) AND MONOCYTE CHEMOATTRACTANT PROTEIN-1 (MCP-1), TH2-RELATED CHEMOKINE MACROPHAGE-DERIVED CHEMOKINE, AND THE PROINFLAMMATORY CHEMOKINE TUMOR NECROSIS FACTOR-ALPHA WAS MEASURED USING ENZYME-LINKED IMMUNOSORBENT ASSAY. INTRACELLULAR SIGNALING PATHWAYS WERE INVESTIGATED USING WESTERN BLOT ANALYSIS AND CHROMATIN IMMUNOPRECIPITATION ASSAY. RESULTS: METFORMIN SUPPRESSED LPS-INDUCED IP-10 AND MCP-1 PRODUCTION AS WELL AS LPS-INDUCED PHOSPHORYLATION OF C-JUN N-TERMINAL KINASE (JNK), P38, EXTRACELLULAR SIGNAL-REGULATED KINASE (ERK), AND NUCLEAR FACTOR-KAPPA B (NF-KAPPAB). MOREOVER, METFORMIN SUPPRESSED LPS-INDUCED ACETYLATION OF HISTONES H3 AND H4 AT THE IP-10 PROMOTER. CONCLUSIONS: METFORMIN SUPPRESSED THE PRODUCTION OF TH1-RELATED CHEMOKINES IP-10 AND MCP-1 IN THP-1 CELLS. SUPPRESSIVE EFFECTS OF METFORMIN ON IP-10 PRODUCTION MIGHT BE ATTRIBUTED AT LEAST PARTIALLY TO THE JNK, P38, ERK, AND NF-KAPPAB PATHWAYS AS WELL AS TO EPIGENETIC REGULATION THROUGH THE ACETYLATION OF HISTONES H3 AND H4. THESE RESULTS INDICATED THE THERAPEUTIC ANTI-INFLAMMATORY POTENTIAL OF METFORMIN. 2018