1 1943 201 EPIDERMAL GROWTH FACTOR IN HEALING DIABETIC FOOT ULCERS: FROM GENE EXPRESSION TO TISSUE HEALING AND SYSTEMIC BIOMARKER CIRCULATION. LOWER-EXTREMITY DIABETIC ULCERS ARE RESPONSIBLE FOR 80% OF ANNUAL WORLDWIDE NONTRAUMATIC AMPUTATIONS. EPIDERMAL GROWTH FACTOR (EGF) REDUCTION IS ONE OF THE MOLECULAR PILLARS OF DIABETIC ULCER CHRONICITY, THUS EGF ADMINISTRATION MAY BE CONSIDERED A TYPE OF REPLACEMENT THERAPY. TOPICAL EGF AD-MINISTRATION TO IMPROVE AND SPEED WOUND HEALING BEGAN IN 1989 ON BURN PATIENTS AS PART OF AN ACUTE-HEALING THERAPY. FURTHER CLINICAL STUDIES BASED ON TOPICALLY ADMINISTERING EGF TO DIFFERENT CHRONIC WOUNDS RESULTED IN DISAPPOINTING OUT-COMES. AN ANALYSIS OF THE LITERATURE ON UNSUCCESSFUL CLINICAL TRIALS IDENTIFI ED A LACK OF KNOWLEDGE CONCERNING: (I) MOLECULAR AND CELLULAR FOUNDATIONS OF WOUND CHRONICITY AND (II) THE PHAR-MACODYNAMIC REQUISITES GOVERNING EGF INTERACTION WITH ITS RECEPTOR TO PROMOTE CELL RESPONSE. YET, EGF INTRA- AND PERILE-SIONAL INFI LTRATION WERE SHOWN TO CIRCUMVENT THE PHARMACODY-NAMIC LIMITATIONS OF TOPICAL APPLICATION. SINCE THE FI RST STUDIES, THE FOLLOWING DECADES OF BASIC AND CLINICAL RESEARCH ON EGF THERAPY FOR PROBLEM WOUNDS HAVE SHED LIGHT ON POTENTIAL USES OF GROWTH FACTORS IN REGENERATIVE MEDICINE. EGF'S MOLECULAR AND BIOCHEMICAL EFFECTS AT BOTH LOCAL AND SYSTEMIC LEVELS ARE DIVERSE: (1) DOWNREGULATION OF GENES ENCODING INFL AMMATION MEDIATORS AND INCREASED EXPRESSION OF GENES INVOLVED IN CELL PROLIFERATION, ANGIOGENESIS AND MATRIX SECRETION; (2) EGF IN-TERVENTION POSITIVELY IMPACTS BOTH MESENCHYMAL AND EPITHELIAL CELLS, REDUCING INFL AMMATION AND STIMULATING THE RECRUITMENT OF PRECURSOR CIRCULATING CELLS THAT PROMOTE THE FORMATION OF NEW BLOOD VESSELS; (3) AT THE SUBCELLULAR LEVEL, UPREGULATION OF THE EGF RECEPTOR WITH SUBSEQUENT INTRACELLULAR TRAFFI CKING, INCLUD-ING MITOCHONDRIAL ALLOCATION ALONG WITH RESTORED MORPHOLOGY OF MULTIPLE ORGANELLES; AND (4) LOCAL EGF INFI LTRATION RESULTING IN A SYSTEMIC, ORGANISMAL REPERCUSSION, THUS CONTRIBUTING TO ATTENUATION OF CIRCULATING INFL AMMATORY AND CATABOLIC REAC-TANTS, RESTORED REDUCTION-OXIDATION BALANCE, AND DECREASED TOXIC GLYCATION PRODUCTS AND SOLUBLE APOPTOGENIC EFFECTORS. IT IS LIKELY THAT EGF TREATMENT MAY REARRANGE CRITICAL EPIGENETIC DRIVERS OF DIABETIC METABOLIC MEMORY. KEYWORDS EPIDERMAL GROWTH FACTOR, DIABETES, DIABETES COMPLICATIONS, WOUND HEALING, DIABETIC FOOT, AMPUTATION, ULCER, CUBA. 2020 2 3636 28 INCREASED DNA METHYLTRANSFERASE ACTIVITY AND DNA METHYLATION FOLLOWING EPIDERMAL GROWTH FACTOR STIMULATION IN OVARIAN CANCER CELLS. OVARIAN CANCER PROGRESSION IS CORRELATED WITH ACCUMULATION OF ABERRANT CPG ISLAND METHYLATION. IN OVARIAN CANCER, ASCITES FLUID CONTAINS NUMEROUS EPIDERMAL-GROWTH-FACTOR-RECEPTOR (EGFR) ACTIVATORS, WHICH COULD RESULT IN A TUMOR MICROENVIRONMENT OF CONSTANT EGFR ACTIVATION. SIGNALING PATHWAYS DOWNSTREAM OF EGFR, SUCH AS RAS, REGULATE DNA METHYLATION. WE HYPOTHESIZED THAT CHRONIC EGFR ACTIVATION COULD ALTER DNA METHYLATION. WE FOUND THAT EGFR ACTIVATION INCREASED DNA METHYLTRANSFERASE (DNMT) ACTIVITY ACUTELY, AS WELL AS AFTER LONG-TERM EGF TREATMENT OR EXPRESSION OF A MUTATIONALLY ACTIVATED EGFR. FURTHERMORE, THIS INCREASE IN DNMT ACTIVITY WAS DEPENDENT ON EGFR CATALYTIC ACTIVITY AND RESULTED IN INCREASED GLOBAL DNA METHYLATION. ADDITIONALLY, TREATMENT WITH THE DNMT INHIBITOR/HYPOMETHYLATING AGENT 5-AZA-2'-DEOXYCYTIDINE (AZA) INHIBITED THE EGF INDUCED INCREASE OF BOTH DNMT ACTIVITY AND GLOBAL METHYLATION. THESE DATA SUPPORT A ROLE FOR EGFR IN THE PROCESS OF ACCUMULATED DNA METHYLATION DURING OVARIAN CANCER PROGRESSION AND SUGGEST THAT EPIGENETIC THERAPY MAY BE BENEFICIAL FOR THE TREATMENT OF OVARIAN CANCER. 2012 3 473 33 ARSENIC AND URINARY BLADDER CELL PROLIFERATION. EPIDEMIOLOGIC STUDIES HAVE DEMONSTRATED THAT A CLOSE ASSOCIATION EXISTS BETWEEN THE ELEVATED LEVELS OF ARSENIC IN DRINKING WATER AND THE INCIDENCE OF CERTAIN CANCERS, INCLUDING TRANSITIONAL CELL CARCINOMAS OF THE URINARY BLADDER. WE HAVE EMPLOYED IN VITRO AND IN VIVO MODELS TO EXAMINE THE EFFECTS OF SODIUM ARSENITE ON THE URINARY BLADDER EPITHELIUM. MICE EXPOSED TO 0.01% SODIUM ARSENITE IN DRINKING WATER DEMONSTRATED HYPERPROLIFERATION OF THE BLADDER UROEPITHELIUM WITHIN 4 WEEKS AFTER INITIATING TREATMENT. THIS OCCURRED IN THE ABSENCE OF AMORPHOUS PRECIPITATES AND WAS ACCOMPANIED BY THE ACCUMULATION OF TRIVALENT ARSENITE (IAS(3+)), AND TO A LESSER EXTENT DIMETHYLARSENIC (DMA), ARSENATE (IAS(5+)), AND MONOMETHYLARSENIC (MMA) IN BLADDER TISSUE. IN CONTRAST TO THE BLADDER, URINARY SECRETION WAS PRIMARILY IN THE FORM OF DMA AND MMA. ARSENIC-INDUCED CELL PROLIFERATION IN THE BLADDER EPITHELIUM WAS CORRELATED WITH ACTIVATION OF THE MAP KINASE PATHWAY, LEADING TO EXTRACELLULAR SIGNAL-REGULATED KINASE (ERK) KINASE ACTIVITY, AP-1 ACTIVATION, AND EXPRESSION OF AP-1-ASSOCIATED GENES INVOLVED IN CELL PROLIFERATION. ACTIVATION OF THE MAP KINASE PATHWAY INVOLVED BOTH EPIDERMAL GROWTH FACTOR (EGF) RECEPTOR-DEPENDENT AND -INDEPENDENT EVENTS, THE LATTER INVOLVING SRC ACTIVATION. STUDIES SUMMARIZED IN THIS REVIEW SUGGEST THAT ARSENIC ACCUMULATES IN URINARY BLADDER EPITHELIUM CAUSING ACTIVATION OF SPECIFIC SIGNALING PATHWAYS THAT LEAD TO CHRONIC INCREASED CELL PROLIFERATION. THIS MAY PLAY A NON-EPIGENETIC ROLE IN CARCINOGENESIS BY INCREASING THE PROLIFERATION OF INITIATED CELLS OR INCREASING THE MUTATIONAL RATE. 2004 4 1632 28 DNMTS ARE INVOLVED IN TGF-BETA1-INDUCED EPITHELIAL-MESENCHYMAL TRANSITIONS IN AIRWAY EPITHELIAL CELLS. CHRONIC RHINOSINUSITIS (CRS) PATHOGENESIS IS CLOSELY RELATED TO TISSUE REMODELING, INCLUDING EPITHELIAL-MESENCHYMAL TRANSITION (EMT). EPIGENETIC MECHANISMS PLAY KEY ROLES IN EMT. DNA METHYLATION, MEDIATED BY DNA METHYLTRANSFERASES (DNMTS), IS AN EPIGENETIC MARKER THAT IS CRITICAL TO EMT. THE GOAL OF THIS STUDY WAS TO DETERMINE WHETHER DNMTS WERE INVOLVED IN TGF-BETA1-INDUCED EMT AND ELUCIDATE THE UNDERLYING MECHANISMS IN NASAL EPITHELIAL CELLS AND AIR-LIQUID INTERFACE CULTURES. GLOBAL DNA METHYLATION AND DNMT ACTIVITY WERE QUANTIFIED. DNMT EXPRESSION WAS MEASURED USING REAL-TIME PCR (QRT-PCR) IN HUMAN CRS TISSUES. MRNA AND PROTEIN LEVELS OF DNMTS, E-CADHERIN, VIMENTIN, ALPHA-SMA, AND FIBRONECTIN WERE DETERMINED USING RT-PCR AND WESTERN BLOTTING, RESPECTIVELY. DNMT1, DNMT3A, AND DNMT3B GENE EXPRESSION WERE KNOCKED DOWN USING SIRNA TRANSFECTION. MAPK PHOSPHORYLATION AND EMT-RELATED TRANSCRIPTION FACTOR LEVELS WERE DETERMINED USING WESTERN BLOTTING. SIGNALING PATHWAYS WERE ANALYZED USING SPECIFIC INHIBITORS OF MAPK. WE DEMONSTRATED THESE DATA IN PRIMARY NASAL EPITHELIAL CELLS AND AIR-LIQUID INTERFACE CULTURES. GLOBAL DNA METHYLATION, DNMT ACTIVITY, AND DNMT EXPRESSION INCREASED IN CRS TISSUES. DNMT EXPRESSION WAS POSITIVELY CORRELATED WITH LUND-MCKAY CT SCORES. TGF-BETA1 DOSE-DEPENDENTLY INDUCED DNMT EXPRESSION. FURTHER, 5-AZA INHIBITED TGF-BETA1-INDUCED DNMT, SNAIL, AND SLUG EXPRESSION RELATED TO EMT, AS WELL AS P38 AND JNK PHOSPHORYLATION IN A549 CELLS AND TGF-BETA1-INDUCED DNMT EXPRESSION AND EMT IN PRIMARY NASAL EPITHELIAL CELLS AND AIR-LIQUID INTERFACE CULTURES. TGF-BETA1-INDUCED DNMT EXPRESSION LEADS TO DNA METHYLATION AND EMT VIA P38, JNK, SNAIL, AND SLUG SIGNALING PATHWAYS. INHIBITION OF DNMT SUPPRESSED THE EMT PROCESS AND THEREFORE IS POTENTIALLY A CRS THERAPEUTIC STRATEGY. 2022 5 3276 31 HEPATOCYTE GROWTH CONTROL BY SOCS1 AND SOCS3. THE EXTRAORDINARY CAPACITY OF THE LIVER TO REGENERATE FOLLOWING INJURY IS DEPENDENT ON COORDINATED AND REGULATED ACTIONS OF CYTOKINES AND GROWTH FACTORS. WHEREAS HEPATOCYTE GROWTH FACTOR (HGF) AND EPIDERMAL GROWTH FACTOR (EGF) ARE DIRECT MITOGENS TO HEPATOCYTES, INFLAMMATORY CYTOKINES SUCH AS TNFALPHA AND IL-6 ALSO PLAY ESSENTIAL ROLES IN THE LIVER REGENERATION PROCESS. THESE CYTOKINES AND GROWTH FACTORS ACTIVATE DIFFERENT SIGNALING PATHWAYS IN A SEQUENTIAL MANNER TO ELICIT HEPATOCYTE PROLIFERATION. THE KINETICS AND MAGNITUDE OF THESE HEPATOCYTE-ACTIVATING STIMULI ARE TIGHTLY REGULATED TO ENSURE RESTORATION OF A FUNCTIONAL LIVER MASS WITHOUT CAUSING UNCONTROLLED CELL PROLIFERATION. HEPATOCYTE PROLIFERATION CAN BECOME DEREGULATED UNDER CONDITIONS OF CHRONIC INFLAMMATION, LEADING TO ACCUMULATION OF GENETIC ABERRATIONS AND EVENTUAL NEOPLASTIC TRANSFORMATION. AMONG THE CONTROL MECHANISMS THAT REGULATE HEPATOCYTE PROLIFERATION, NEGATIVE FEEDBACK INHIBITION BY THE 'SUPPRESSOR OF CYTOKINE SIGNALING (SOCS)' FAMILY PROTEINS SOCS1 AND SOCS3 PLAY CRUCIAL ROLES IN ATTENUATING CYTOKINE AND GROWTH FACTOR SIGNALING. LOSS OF SOCS1 OR SOCS3 IN THE MOUSE LIVER INCREASES THE RATE OF LIVER REGENERATION AND RENDERS HEPATOCYTES SUSCEPTIBLE TO NEOPLASTIC TRANSFORMATION. THE FREQUENT EPIGENETIC REPRESSION OF THE SOCS1 AND SOCS3 GENES IN HEPATOCELLULAR CARCINOMA HAS STIMULATED RESEARCH IN UNDERSTANDING THE GROWTH REGULATORY MECHANISMS OF SOCS1 AND SOCS3 IN HEPATOCYTES. WHEREAS SOCS3 IS IMPLICATED IN REGULATING JAK-STAT SIGNALING INDUCED BY IL-6 AND ATTENUATING EGFR SIGNALING, SOCS1 IS CRUCIAL FOR THE REGULATION OF HGF SIGNALING. THESE TWO PROTEINS ALSO MODULE THE FUNCTIONS OF CERTAIN KEY PROTEINS THAT CONTROL THE CELL CYCLE. IN THIS REVIEW, WE DISCUSS THE CURRENT UNDERSTANDING OF THE FUNCTIONS OF SOCS1 AND SOCS3 IN CONTROLLING HEPATOCYTE PROLIFERATION, AND ITS IMPLICATIONS TO LIVER HEALTH AND DISEASE. 2019 6 6614 32 ULTRAVIOLET IRRADIATION INDUCES KERATINOCYTE PROLIFERATION AND EPIDERMAL HYPERPLASIA THROUGH THE ACTIVATION OF THE EPIDERMAL GROWTH FACTOR RECEPTOR. CHRONIC EXPOSURE TO ULTRAVIOLET (UV) IRRADIATION INDUCES SKIN CANCER, IN PART, THROUGH EPIGENETIC MECHANISMS THAT RESULT IN THE DEREGULATION OF CELL PROLIFERATION. UV IRRADIATION ALSO RAPIDLY ACTIVATES THE EPIDERMAL GROWTH FACTOR RECEPTOR (EGFR). SINCE EGFR ACTIVATION IS STRONGLY MITOGENIC IN MANY CELL TYPES INCLUDING KERATINOCYTES OF THE SKIN, WE HYPOTHESIZED THAT UV-INDUCED CUTANEOUS PROLIFERATION RESULTS FROM EGFR ACTIVATION. THE ROLE OF EGFR ACTIVATION IN THE RESPONSE OF THE SKIN TO UV WAS DETERMINED USING EGFR-NULL AND EGFR-WILD-TYPE SKIN GRAFTED ONTO ATHYMIC NUDE MOUSE HOSTS, BECAUSE EGFR-NULL MICE SURVIVE ONLY A FEW DAYS AFTER BIRTH. EGFR WAS RAPIDLY ACTIVATED IN MOUSE EPIDERMIS FOLLOWING EXPOSURE TO UV, AS DETECTED BY THE PHOSPHORYLATION OF EGFR ON TYROSINE RESIDUES 992, 1045, 1068 AND 1173. UV INDUCED EPIDERMAL HYPERPLASIA IN EGFR-WILD-TYPE SKIN BETWEEN 48 AND 72 H POST-UV. HOWEVER, NO EPIDERMAL HYPERPLASIA OCCURRED IN EGFR-NULL SKIN. BASELINE CELL PROLIFERATION WAS SIMILAR IN SKIN GRAFTS OF BOTH GENOTYPES. HOWEVER, UV EXPOSURE INCREASED CELL PROLIFERATION, AS MEASURED BY KI67 IMMUNOHISTOCHEMISTRY AND PROLIFERATING CELL NUCLEAR ANTIGEN IMMUNOBLOTTING, MAXIMALLY AT 48 H TO A LEVEL MORE THAN THREE TIMES HIGHER IN WILD-TYPE COMPARED WITH EGFR-NULL SKIN. APOPTOTIC CELL DEATH, AS MEASURED BY TERMINAL DEOXYNUCLEOTIDYL TRANSFERASE BIOTIN-DUTP NICK END LABELING (TUNEL) ANALYSIS, WAS ALSO INCREASED IN UV-EXPOSED EGFR-NULL SKIN WHEN COMPARED WITH WILD-TYPE 1-2 DAYS POST-UV. THESE CHANGES IN CELLULAR HOMEOSTASIS AFTER UV WERE ACCOMPANIED BY INCREASED CYCLIN D EXPRESSION IN WILD-TYPE BUT NOT EGFR-NULL SKIN AND INCREASED EXPRESSION OF P53 AND THE CYCLIN-DEPENDENT KINASE (CDK) INHIBITOR P21WAF1 IN EGFR-NULL SKIN WHEN COMPARED WITH WILD-TYPE. COLLECTIVELY, THESE RESULTS DEMONSTRATE THAT THE UV-INDUCED ACTIVATION OF EGFR AUGMENTS KERATINOCYTE PROLIFERATION AND SUPPRESSES APOPTOSIS, LEADING TO EPIDERMAL HYPERPLASIA, ASSOCIATED WITH INCREASED G1 CYCLIN EXPRESSION AND SUPPRESSION OF CDK INHIBITOR EXPRESSION. 2006 7 699 30 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 8 1826 34 EFFECTS OF HISTONE DEACETYLASE INHIBITOR ON EXTRACELLULAR MATRIX PRODUCTION IN HUMAN NASAL POLYP ORGAN CULTURES. BACKGROUND: NASAL POLYPOSIS IS ASSOCIATED WITH A CHRONIC INFLAMMATORY CONDITION OF THE SINONASAL MUCOSA AND INVOLVES MYOFIBROBLAST DIFFERENTIATION AND EXTRACELLULAR MATRIX (ECM) ACCUMULATION. EPIGENETIC MODULATION BY HISTONE DEACETYLASE (HDAC) INHIBITORS INCLUDING TRICHOSTATIN A (TSA) HAS BEEN REPORTED TO HAVE INHIBITORY EFFECTS ON MYOFIBROBLAST DIFFERENTIATION IN LUNG AND RENAL FIBROBLASTS. THE PURPOSE OF THIS STUDY WAS TO INVESTIGATE THE INHIBITORY EFFECT OF TSA ON MYOFIBROBLAST DIFFERENTIATION AND ECM PRODUCTION IN NASAL POLYP ORGAN CULTURES. METHODS: NASAL POLYP TISSUES FROM 18 PATIENTS WERE ACQUIRED DURING ENDOSCOPIC SINUS SURGERY. AFTER ORGAN CULTURE, NASAL POLYPS WERE STIMULATED WITH TGF-BETA1 AND THEN TREATED WITH TSA. ALPHA-SMOOTH MUSCLE ACTIN (ALPHA-SMA), FIBRONECTIN, AND COLLAGEN TYPE I EXPRESSION LEVELS WERE EXAMINED BY REVERSE TRANSCRIPTION-POLYMERASE CHAIN REACTION (PCR), REAL-TIME PCR, WESTERN BLOT, AND IMMUNOFLUORESCENT STAINING. HDAC2, HDAC4, AND ACETYLATED H4 EXPRESSION LEVELS WERE ASSAYED BY WESTERN BLOT. CYTOTOXICITY WAS ANALYZED BY THE TERMINAL DEOXYNUCLEOTIDYL TRANSFERASE BIOTIN-DUTP NICK END LABELING ASSAY. RESULTS: THE EXPRESSION LEVELS OF ALPHA-SMA, FIBRONECTIN, AND COLLAGEN TYPE 1 WERE INCREASED IN NASAL POLYP AFTER TRANSFORMING GROWTH FACTOR (TGF) BETA1 TREATMENT. TSA-INHIBITED TGF-BETA1 INDUCED THESE GENE AND PROTEIN EXPRESSION LEVELS. FURTHERMORE, TSA SUPPRESSED PROTEIN EXPRESSION LEVELS OF HDAC2 AND HDAC4. HOWEVER, TSA INDUCED HYPERACETYLATION OF HISTONES H4. TREATMENT WITH TGF-BETA1 WITH OR WITHOUT TSA DID NOT HAVE CYTOTOXIC EFFECT. CONCLUSION: THESE FINDINGS PROVIDE NOVEL INSIGHTS INTO THE EPIGENETIC REGULATION IN MYOFIBROBLAST DIFFERENTIATION AND ECM PRODUCTION OF NASAL POLYP. TSA COULD BE A CANDIDATE OF A THERAPEUTIC AGENT FOR REVERSING THE TGF-BETA1-INDUCED ECM SYNTHESIS THAT LEADS TO NASAL POLYP DEVELOPMENT. 2013 9 111 38 A ROLE FOR G-PROTEIN COUPLED ESTROGEN RECEPTOR (GPER) IN ESTROGEN-INDUCED CARCINOGENESIS: DYSREGULATED GLANDULAR HOMEOSTASIS, SURVIVAL AND METASTASIS. MECHANISMS OF CARCINOGENESIS BY ESTROGEN CENTER ON ITS MITOGENIC AND GENOTOXIC POTENTIAL ON TUMOR TARGET CELLS. THESE MODELS SUGGEST THAT ESTROGEN RECEPTOR (ER) SIGNALING PROMOTES EXPANSION OF THE TRANSFORMED POPULATION AND THAT SUBSEQUENT ACCUMULATION OF SOMATIC MUTATIONS THAT DRIVE CANCER PROGRESSION OCCUR VIA METABOLIC ACTIVATION OF CATHECOL ESTROGENS OR BY EPIGENETIC MECHANISMS. RECENT FINDINGS THAT GPER IS LINKED TO OBESITY, VASCULAR PATHOLOGY AND IMMUNOSUPPRESSION, KEY EVENTS IN THE DEVELOPMENT OF METABOLIC SYNDROME AND INTRA-TISSULAR ESTROGEN SYNTHESIS, PROVIDES AN ALTERNATE VIEW OF ESTROGEN-INDUCED CARCINOGENESIS. CONSISTENT WITH THIS CONCEPT, GPER IS DIRECTLY ASSOCIATED WITH CLINICOPATHOLOGICAL INDICES THAT PREDICT CANCER PROGRESSION AND POOR SURVIVAL IN BREAST AND GYNECOLOGICAL CANCERS. MOREOVER, GPER MANIFESTS CELL BIOLOGICAL RESPONSES AND A MICROENVIRONMENT CONDUCIVE FOR TUMOR DEVELOPMENT AND CANCER PROGRESSION, REGULATING CELLULAR RESPONSES ASSOCIATED WITH GLANDULAR HOMEOSTASIS AND SURVIVAL, INVADING SURROUNDING TISSUE AND ATTRACTING A VASCULAR SUPPLY. THUS, THE CELLULAR ACTIONS ATTRIBUTED TO GPER FIT WELL WITH THE KNOWN MOLECULAR MECHANISMS OF G-PROTEIN COUPLED RECEPTORS, GPCRS, NAMELY, THEIR ABILITY TO TRANSACTIVATE INTEGRINS AND EGF RECEPTORS AND ALTER THE INTERACTION BETWEEN GLANDULAR EPITHELIA AND THEIR EXTRACELLULAR ENVIRONMENT, AFFECTING EPITHELIAL-TO-MESENCHYMAL TRANSITION (EMT) AND ALLOWING FOR TUMOR CELL SURVIVAL AND DISSEMINATION. THIS PERSPECTIVE REVIEWS THE MOLECULAR AND CELLULAR RESPONSES MANIFESTED BY GPER AND EVALUATES ITS CONTRIBUTION TO FEMALE REPRODUCTIVE CANCERS AS DISEASES THAT PROGRESS AS A RESULT OF DYSREGULATED GLANDULAR HOMEOSTASIS RESULTING IN CHRONIC INFLAMMATION AND METASTASIS. THIS REVIEW IS ORGANIZED IN SECTIONS AS FOLLOWS: I) A BRIEF SYNOPSIS OF THE CURRENT STATE OF KNOWLEDGE REGARDING ESTROGEN-INDUCED CARCINOGENESIS, II) A REVIEW OF EVIDENCE FROM CLINICAL AND ANIMAL-BASED STUDIES THAT SUPPORT A ROLE FOR GPER IN CANCER PROGRESSION, AND III) A MECHANISTIC FRAMEWORK DESCRIBING HOW GPER-MEDIATED ESTROGEN ACTION MAY INFLUENCE THE TUMOR AND ITS MICROENVIRONMENT. 2018 10 1035 32 CLASS I HISTONE DEACETYLASE INHIBITION IMPROVES PANCREATITIS OUTCOME BY LIMITING LEUKOCYTE RECRUITMENT AND ACINAR-TO-DUCTAL METAPLASIA. BACKGROUND AND PURPOSE: PANCREATITIS IS A COMMON INFLAMMATION OF THE PANCREAS WITH RISING INCIDENCE IN MANY COUNTRIES. DESPITE IMPROVEMENTS IN DIAGNOSTIC TECHNIQUES, THE DISEASE IS ASSOCIATED WITH HIGH RISK OF SEVERE MORBIDITY AND MORTALITY AND THERE IS AN URGENT NEED FOR NEW THERAPEUTIC INTERVENTIONS. IN THIS STUDY, WE EVALUATED WHETHER HISTONE DEACETYLASES (HDACS), KEY EPIGENETIC REGULATORS OF GENE TRANSCRIPTION, ARE INVOLVED IN THE DEVELOPMENT OF THE DISEASE. EXPERIMENTAL APPROACH: WE ANALYSED HDAC REGULATION DURING CERULEIN-INDUCED ACUTE, CHRONIC AND AUTOIMMUNE PANCREATITIS USING DIFFERENT TRANSGENIC MOUSE MODELS. THE FUNCTIONAL RELEVANCE OF CLASS I HDACS WAS TESTED WITH THE SELECTIVE INHIBITOR MS-275 IN VIVO UPON PANCREATITIS INDUCTION AND IN VITRO IN ACTIVATED MACROPHAGES AND PRIMARY ACINAR CELL EXPLANTS. KEY RESULTS: HDAC EXPRESSION AND ACTIVITY WERE UP-REGULATED IN A TIME-DEPENDENT MANNER FOLLOWING INDUCTION OF PANCREATITIS, WITH THE HIGHEST ABUNDANCE OBSERVED FOR CLASS I HDACS. CLASS I HDAC INHIBITION DID NOT PREVENT THE INITIAL ACINAR CELL DAMAGE. HOWEVER, IT EFFECTIVELY REDUCED THE INFILTRATION OF INFLAMMATORY CELLS, INCLUDING MACROPHAGES AND T CELLS, IN BOTH ACUTE AND CHRONIC PHASES OF THE DISEASE, AND DIRECTLY DISRUPTED MACROPHAGE ACTIVATION. IN ADDITION, MS-275 TREATMENT REDUCED DNA DAMAGE IN ACINAR CELLS AND LIMITED ACINAR DE-DIFFERENTIATION INTO ACINAR-TO-DUCTAL METAPLASIA IN A CELL-AUTONOMOUS MANNER BY IMPEDING THE EGF RECEPTOR SIGNALLING AXIS. CONCLUSIONS AND IMPLICATIONS: THESE RESULTS DEMONSTRATE THAT CLASS I HDACS ARE CRITICALLY INVOLVED IN THE DEVELOPMENT OF ACUTE AND CHRONIC FORMS OF PANCREATITIS AND SUGGEST THAT BLOCKADE OF CLASS I HDAC ISOFORMS IS A PROMISING TARGET TO IMPROVE THE OUTCOME OF THE DISEASE. 2017 11 2863 29 FUNCTION OF DNA METHYLTRANSFERASE 3A IN LEAD (PB(2+) )-INDUCED CYCLOOXYGENASE-2 GENE. LEAD IONS (PB(2+) ) ARE TOXIC INDUSTRIAL POLLUTANTS ASSOCIATED WITH CHRONIC INFLAMMATORY DISEASES IN HUMANS AND ANIMALS. PREVIOUSLY, WE FOUND THAT PB(2+) IONS INDUCE COX-2 GENE EXPRESSION VIA THE EGF RECEPTOR/NUCLEAR FACTOR-KAPPAB SIGNAL TRANSDUCTION PATHWAY IN EPIDERMOID CARCINOMA CELL LINE A431. IN THIS STUDY, TO SEE WHETHER PB(2+) IONS AFFECT COX-2 EXPRESSION BY EPIGENETIC MECHANISMS, WE LOOKED AT THE MRNAS OF DNA METHYLTRANSFERASES (DNMTS) USING REAL-TIME PCR OF TOTAL RNA FROM THESE CELLS. CELLS EXPOSED TO PB(2+) HAD LOW LEVELS OF DNMT3A MRNA, WHEREAS THE LEVELS OF DNMT1 AND DNMT3B MRNAS REMAINED UNCHANGED. PRETREATMENT OF CELLS WITH DNMT INHIBITOR 5-AZA-2'-DEOXYCYTIDINE (5 MUM) FOLLOWED BY PB(2+) (1 MUM) SIGNIFICANTLY INCREASED LEVELS OF COX-2 MRNA COMPARED WITH CELLS TREATED WITH PB(2+) ALONE. OVEREXPRESSION OF TUMOR SUPPRESSOR GENE RB CORRELATED WITH AN INCREASE IN COX-2 MRNA AND A DECREASE IN DNMT3A MRNA. CONVERSELY, OVEREXPRESSION OF TRANSCRIPTION FACTOR E2F1 CORRELATED WITH A DECREASE IN COX-2 MRNA AND AN INCREASE IN DMNT3A MRNA. PRETREATMENT WITH EGFR INHIBITORS AG1478 AND PD153035 SIGNIFICANTLY LIMITED PB(2+) -INDUCED REDUCTION IN DNMT3A MRNA. IN ADDITION, GENE KNOCKDOWN OF DNMT3A WITH SHORT HAIRPIN RNA CORRELATED WITH INCREASED COX-2 MRNA INDUCED BY PB(2+) . OUR FINDINGS SUGGEST PB(2+) IONS INDUCE COX-2 EXPRESSION INDIRECTLY BY REDUCING DNMT3A METHYLATION OF THE COX-2 PROMOTER VIA TRANSCRIPTION FACTORS RB AND E2F1. 2015 12 2302 34 EPIGENETIC REGULATION OF CANCER STEM CELL MARKER CD133 BY TRANSFORMING GROWTH FACTOR-BETA. HEPATOCELLULAR CARCINOMA (HCC) IS THE THIRD LEADING CAUSE OF CANCER MORTALITY WORLDWIDE. CD133, A TRANSMEMBRANE GLYCOPROTEIN, IS AN IMPORTANT CELL SURFACE MARKER FOR BOTH STEM CELLS AND CANCER STEM CELLS IN VARIOUS TISSUES INCLUDING LIVER. CD133 EXPRESSION HAS BEEN RECENTLY LINKED TO POOR PROGNOSIS IN HCC PATIENTS. CD133+ LIVER CANCER CELLS ARE CHARACTERIZED BY RESISTANCE TO CHEMOTHERAPY, SELF-RENEWAL, MULTILINEAGE POTENTIAL, INCREASED COLONY FORMATION, AND IN VIVO CANCER INITIATION AT LIMITED DILUTION. RECENT STUDIES DEMONSTRATE THAT CD133 EXPRESSION IS REGULATED BY DNA METHYLATION. IN THIS STUDY, WE EXPLORED THE ROLE OF TRANSFORMING GROWTH FACTOR BETA (TGFBETA), A MULTIFUNCTIONAL CYTOKINE THAT PLAYS A CRITICAL ROLE IN CHRONIC LIVER INJURY, IN THE REGULATION OF CD133 EXPRESSION. TGFBETA1 IS CAPABLE OF UP-REGULATING CD133 EXPRESSION SPECIFICALLY WITHIN THE HUH7 HCC CELL LINE IN A TIME- AND DOSE-DEPENDENT MANNER. MOST IMPORTANT, TGFBETA1-INDUCED CD133+ HUH7 CELLS DEMONSTRATE INCREASED TUMOR INITIATION IN VIVO. FORCED EXPRESSION OF INHIBITORY SMADS, INCLUDING SMAD6 AND SMAD7, ATTENUATED TGFBETA1-INDUCED CD133 EXPRESSION. WITHIN CD133- HUH7 CELLS, TGFBETA1 STIMULATION INHIBITED THE EXPRESSION OF DNA METHYLTRANSFERASES (DNMT) 1 AND DNMT3BETA, WHICH ARE CRITICAL IN THE MAINTENANCE OF REGIONAL DNA METHYLATION, AND GLOBAL DNMT ACTIVITY IN CD133- HUH7 CELLS WAS INHIBITED BY TGFBETA1. DNMT3BETA INHIBITION BY TGFBETA1 WAS PARTIALLY RESCUED WITH OVEREXPRESSION OF INHIBITORY SMADS. LASTLY, TGFBETA1 TREATMENT LED TO SIGNIFICANT DEMETHYLATION IN CD133 PROMOTER-1 IN CD133- HUH7 CELLS. CONCLUSION: TGFBETA1 IS ABLE TO REGULATE CD133 EXPRESSION THROUGH INHIBITION OF DNMT1 AND DNMT3BETA EXPRESSION AND SUBSEQUENT DEMETHYLATION OF PROMOTER-1. TGFBETA1-INDUCED CD133+ HUH7 CELLS ARE TUMORIGENIC. THE MECHANISM BY WHICH TGFBETA INDUCES CD133 EXPRESSION IS PARTIALLY DEPENDENT ON THE SMADS PATHWAY. 2010 13 1764 34 EARLY-IMMEDIATE GENE EGR1 IS ASSOCIATED WITH TGFBETA1 REGULATION OF EPIGENETIC READER BROMODOMAIN-CONTAINING PROTEIN 4 VIA THE CANONICAL SMAD3 SIGNALING IN HEPATIC STELLATE CELLS IN VITRO AND IN VIVO. UPON CHRONIC DAMAGE TO THE LIVER, MULTIPLE CYTOKINES STIMULATE HEPATIC STELLATE CELLS (HSCS), CAUSING THE ALTERATIONS OF GENE EXPRESSION PROFILES AND THUS LEADING TO HSC ACTIVATION, A KEY STEP IN LIVER FIBROGENESIS. ACTIVATED HSCS ARE THE DOMINANT CONTRIBUTORS TO LIVER FIBROSIS. BROMODOMAIN CONTAINING PROTEIN 4 (BRD4), AN IMPORTANT EPIGENETIC READER, WAS DEMONSTRATED TO CONCENTRATE ON HUNDREDS OF ENHANCERS ASSOCIATED WITH GENES INVOLVED IN MULTIPLE PROFIBROTIC PATHWAYS, THEREBY DIRECTING HSC ACTIVATION AND THE FIBROTIC RESPONSES. THE PRESENT STUDIES WERE DESIGNED TO EXAMINE THE EFFECT OF TRANSFORMING GROWTH FACTOR BETA-1 (TGFBETA1), THE MOST POTENT PRO-FIBROTIC CYTOKINE, ON BRD4 EXPRESSION IN HSCS AND, IF SO, ELUCIDATED THE UNDERLYING MECHANISMS IN VITRO AND IN VIVO. THE EXPERIMENTS EMPLOYED THE HETEROGENEOUS TGFBETA1 KNOCKOUT (TGFBETA1(+/-) ) MICE, GENE KNOCKDOWN IN VIVO, AND A MODEL OF THIOACETAMIDE (TAA)-INDUCED LIVER INJURY. THE RESULTS REVEALED THAT TGFBETA1 ENHANCED BRD4 EXPRESSION IN HSCS, WHICH WAS MEDIATED, AT LEAST, BY SMAD3 SIGNALING AND EARLY-IMMEDIATE GENE EGR1 (EARLY GROWTH RESPONSE-1). TGFBETA1-INDUCED SMAD3 SIGNALING INCREASED EGR1 EXPRESSION AND PROMOTED EGR1 BINDING TO BRD4 PROMOTER AT A SITE AROUND -111 BP, PROMOTING BRD4 EXPRESSION. EGR1 KNOCKDOWN REDUCED BRD4 EXPRESSION IN HSCS IN A MOUSE MODEL OF TAA-INDUCED LIVER INJURY AND LESSENED LIVER FIBROSIS. DOUBLE FLUORESCENCE STAINING DEMONSTRATED A STRONG INCREASE IN BRD4 EXPRESSION IN ACTIVATED HSCS IN FIBROTIC AREAS OF THE HUMAN LIVERS, PARALLELING THE UPREGULATION OF P-SMAD3 AND EGR1. THIS RESEARCH SUGGESTED NOVEL MOLECULAR EVENTS UNDERLYING THE ROLES OF THE MASTER PRO-FIBROTIC CYTOKINE TGFBETA1 IN HSC ACTIVATION AND LIVER FIBROGENESIS. 2022 14 692 26 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 15 5795 28 STAT3 INDUCTION OF MIR-146B FORMS A FEEDBACK LOOP TO INHIBIT THE NF-KAPPAB TO IL-6 SIGNALING AXIS AND STAT3-DRIVEN CANCER PHENOTYPES. INTERLEUKIN-6 (IL-6)-MEDIATED ACTIVATION OF SIGNAL TRANSDUCER AND ACTIVATOR OF TRANSCRIPTION 3 (STAT3) IS A MECHANISM BY WHICH CHRONIC INFLAMMATION CAN CONTRIBUTE TO CANCER AND IS A COMMON ONCOGENIC EVENT. WE DISCOVERED A PATHWAY, THE LOSS OF WHICH IS ASSOCIATED WITH PERSISTENT STAT3 ACTIVATION IN HUMAN CANCER. WE FOUND THAT THE GENE ENCODING THE TUMOR SUPPRESSOR MICRORNA MIR-146B IS A DIRECT STAT3 TARGET GENE, AND ITS EXPRESSION WAS INCREASED IN NORMAL BREAST EPITHELIAL CELLS BUT DECREASED IN TUMOR CELLS. METHYLATION OF THE MIR-146B PROMOTER, WHICH INHIBITED STAT3-MEDIATED INDUCTION OF EXPRESSION, WAS INCREASED IN PRIMARY BREAST CANCERS. MOREOVER, WE FOUND THAT MIR-146B INHIBITED NUCLEAR FACTOR KAPPAB (NF-KAPPAB)-DEPENDENT PRODUCTION OF IL-6, SUBSEQUENT STAT3 ACTIVATION, AND IL-6/STAT3-DRIVEN MIGRATION AND INVASION IN BREAST CANCER CELLS, THEREBY ESTABLISHING A NEGATIVE FEEDBACK LOOP. IN ADDITION, HIGHER EXPRESSION OF MIR-146B WAS POSITIVELY CORRELATED WITH PATIENT SURVIVAL IN BREAST CANCER SUBTYPES WITH INCREASED IL6 EXPRESSION AND STAT3 PHOSPHORYLATION. OUR RESULTS IDENTIFY AN EPIGENETIC MECHANISM OF CROSSTALK BETWEEN STAT3 AND NF-KAPPAB RELEVANT TO CONSTITUTIVE STAT3 ACTIVATION IN MALIGNANCY AND THE ROLE OF INFLAMMATION IN ONCOGENESIS. 2014 16 6661 32 UPREGULATION OF DNA METHYLTRANSFERASE-MEDIATED GENE SILENCING, ANCHORAGE-INDEPENDENT GROWTH, AND MIGRATION OF COLON CANCER CELLS BY INTERLEUKIN-6. INFLAMMATORY BOWEL DISEASE IS CHARACTERIZED BY CHRONIC INFLAMMATION WHICH PREDISPOSES TO COLORECTAL CANCER. THE MECHANISMS BY WHICH INFLAMMATION PROMOTES TUMORIGENESIS ARE NOT FULLY KNOWN. WE AIMED TO INVESTIGATE THE LINKS BETWEEN COLONIC INFLAMMATION AND TUMORIGENESIS VIA EPIGENETIC GENE SILENCING. COLON CANCER SPECIMENS WERE ASSESSED FOR THE EXPRESSION OF DNA METHYLTRANSFERASE-1 (DNMT-1) USING IMMUNOHISTOCHEMISTRY. COLORECTAL CARCINOMA CELL LINES WERE ASSESSED FOR DNMT1 EXPRESSION, METHYLCYTOSINE CONTENT, PROMOTER METHYLATION, GENE EXPRESSION, AND TUMORIGENESIS IN RESPONSE TO INTERLEUKIN (IL)-6. DNMT1 WAS EXPRESSED AT HIGHER LEVELS IN BOTH THE PERITUMORAL STROMA AND TUMOR IN INFLAMMATORY BOWEL DISEASE-ASSOCIATED CANCERS COMPARED WITH SPORADIC COLON CANCERS. IL-6 TREATMENT OF COLON CANCER CELLS RESULTED IN AN INCREASE IN DNMT1 EXPRESSION, INDEPENDENT OF DE NOVO GENE EXPRESSION. IL-6 INCREASED THE METHYLATION OF PROMOTER REGIONS OF GENES ASSOCIATED WITH TUMOR SUPPRESSION, ADHESION, AND APOPTOSIS RESISTANCE. EXPRESSION OF A SUBSET OF THESE GENES WAS DOWNREGULATED BY IL-6, AN EFFECT THAT WAS PREVENTED BY PREINCUBATION WITH 5-AZADEOXYCYTIDINE, A DNMT1 INHIBITOR. ANCHORAGE-INDEPENDENT GROWTH AND MIGRATION OF COLON CANCER CELLS WAS ALSO INCREASED BY IL-6 IN A 5-AZADEOXYCYTIDINE-SENSITIVE MANNER. OUR RESULTS INDICATE THAT DNMT-MEDIATED GENE SILENCING MAY PLAY A ROLE IN INFLAMMATION-ASSOCIATED COLON TUMORIGENESIS. 2010 17 2349 41 EPIGENETIC REGULATION OF MYOFIBROBLAST DIFFERENTIATION AND EXTRACELLULAR MATRIX PRODUCTION IN NASAL POLYP-DERIVED FIBROBLASTS. BACKGROUND: NASAL POLYPOSIS IS A MULTI-FACTORIAL DISEASE ASSOCIATED WITH CHRONIC INFLAMMATORY CONDITION OF THE PARANASAL SINUSES. MYOFIBROBLAST DIFFERENTIATION AND EXTRACELLULAR MATRIX (ECM) ACCUMULATION ARE INVOLVED IN THE PATHOGENESIS OF NASAL POLYPOSIS. OBJECTIVE: THE AIM OF THIS STUDY WAS TO STUDY THE EFFECT OF TRICHOSTATIN A (TSA), A HISTONE DEACETYLASE (HDAC) INHIBITOR, ON TRANSFORMING GROWTH FACTOR (TGF)-BETA1-INDUCED MYOFIBROBLAST DIFFERENTIATION AND ECM ACCUMULATION IN NASAL POLYP-DERIVED FIBROBLASTS (NPDFS). METHODS: NASAL POLYP-DERIVED FIBROBLASTS WERE ISOLATED FROM NASAL POLYPS OF PATIENTS WHO HAVE CHRONIC RHINOSINUSITIS WITH NASAL POLYP. TSA WAS TREATED IN TGF-BETA1-INDUCED NPDFS. EXPRESSION LEVELS OF HDAC2, ALPHA-SMOOTH MUSCLE ACTIN (SMA), TGF-BETA1, COLLAGEN TYPE I, ACETYLATED HISTONE H3, ACETYLATED HISTONE H4, PHOSPHORYLATED SMAD2/3 AND SMAD7 WERE DETERMINED BY RT-PCR, WESTERN BLOT AND/OR IMMUNOFLUORESCENT STAINING. THE TOTAL COLLAGEN AMOUNT PRODUCTION WAS ANALYSED BY SIRCOL SOLUBLE COLLAGEN ASSAY AND CONTRACTILE ACTIVITY WAS MEASURED BY COLLAGEN GEL CONTRACTION ASSAY. HDAC2 INHIBITION BY TSA OR HDAC2 SILENCING WAS ESTABLISHED BY RT-PCR AND WESTERN BLOT. THE EPIGENETIC EFFECT ON ALPHA-SMA GENE INACTIVATION WAS EXAMINED BY CHROMATIN IMMUNOPRECIPITATION ASSAY. PROLIFERATION WAS DETERMINED BY KI67-POSITIVE CELL STAINING AND CYTOTOXICITY WAS ASSESSED BY 3-(4,5- DIMETHYLTHIAZOL-2YL)-2,5-DIPHENYL-2H-TETRAZOLIUM BROMIDE (MTT) ASSAY. RESULTS: THE EXPRESSION LEVELS OF HDAC2, ALPHA-SMA AND TGF-BETA1 WERE INCREASED IN NASAL POLYP TISSUES COMPARED TO NORMAL INFERIOR TURBINATE TISSUES. TSA AND HDAC2 SILENCING INHIBITED EXPRESSION LEVELS ALPHA-SMA, COLLAGEN AND HDAC2. TSA INDUCED HYPERACETYLATION OF HISTONE AND SUPPRESSED OPENING OF ALPHA-SMA GENE PROMOTER IN TGF-BETA1-INDUCED NPDFS. TSA INHIBITED TGF-BETA1-INDUCED SMAD 2/3 AND RESCUED TGF-BETA1-SUPPRESSED SMAD7 SIGNALLING PATHWAY. FINALLY, TSA BLOCKED PROLIFERATION IN TGF-BETA1-INDUCED NPDFS AND HAS NO CYTOTOXIC EFFECT IN NPDFS. CONCLUSIONS AND CLINICAL RELEVANCE: THESE RESULTS SUGGEST THAT HDAC INHIBITION IS ASSOCIATED WITH MYOFIBROBLAST DIFFERENTIATION AND EXTRACELLUAR MATRIX ACCUMULATION IN NASAL POLYPOSIS. TSA MAY BE USEFUL AS AN INHIBITOR OF NASAL POLYP GROWTH, AND THUS HAS POTENTIAL TO BE USED AS A NOVEL TREATMENT OPTION FOR NASAL POLYPOSIS. 2012 18 5850 38 SUBEROYLANILIDE HYDROXAMIC ACID (SAHA) REDUCES FIBROSIS MARKERS AND DEACTIVATES HUMAN STELLATE CELLS VIA THE EPITHELIAL-MESENCHYMAL TRANSITION (EMT). HEPATIC FIBROSIS IS KNOWN AS THE ACCUMULATION OF CONNECTIVE TISSUE SECONDARY TO CHRONIC DAMAGE TO THE LIVER. EPITHELIAL-MESENCHYMAL TRANSITION (EMT) CORRESPONDING INCREASE IN LIVER FIBROGENESIS WAS SHOWN WITH IMMUNOHISTOCHEMISTRY AND PCR-BASED STUDIES. SUBEROYLANILIDE HYDROXAMIC ACID (SAHA), A SYNTHETIC COMPOUND APPROVED AS A HISTONE DEACETYLASE INHIBITOR (HDAC) BY THE FDA TO TREAT CUTANEOUS T-CELL LYMPHOMA IS UNDER INVESTIGATION FOR THE TREATMENT OF LUNG AND RENAL FIBROSIS. EXPERIMENTAL MODELING FOR HEPATIC FIBROSIS CAN BE CONSTRUCTED WITH AN LX2 CELL LINE ISOLATED FROM HUMAN HEPATIC STELLATE CELLS (HSCS). IN THIS STUDY, WE AIMED TO INVESTIGATE THE MODULATION OF SAHA IN THE PATHOGENESIS OF LIVER FIBROSIS BY DETECTING THE LEVELS OF PROTEINS; (E-CADHERIN (E-CAD), N-CADHERIN (N-CAD), VIMENTIN (VIM), AND GENES; E-CAD, N-CAD, VIM, TRANSFORMING GROWTH FACTOR-BETA (TGF-BETA), ALPHA-SMOOTH MUSCLE ACTIN (ALPHA-SMA), TYPE 1 COLLAGEN (COL1A1), TYPE 3 COLLAGEN (COL3A1)) THAT PLAY A SIGNIFICANT ROLE IN EMT WITH THE LX2 CELL LINE. WE ALSO EVALUATED THE ACTION OF SAHA WITH CELL PROLIFERATION, CLONOGENIC, AND MIGRATION ASSAY. CELL PROLIFERATION WAS PERFORMED BY FLOW CYTOMETRY. ALL THE PROTEIN LEVELS WERE DETERMINED BY WESTERN BLOT ANALYSIS, AND GENE EXPRESSION LEVELS WERE MEASURED BY REAL-TIME PCR. OUR STUDY OBSERVED THAT SAHA TREATMENT DECREASED CELL VIABILITY, COLONY FORMATION AND MIGRATION IN LX2 CELLS. WE FOUND THAT SAHA INCREASED E-CAD EXPRESSION LEVEL, WHILE IT DECREASED N-CAD, VIM, COL1A1, COL3A1, ALPHA-SMA TGF-BETA GENES EXPRESSION LEVELS. SAHA DECREASED THE LEVEL OF E-CAD, N-CAD, AND VIM PROTEIN LEVELS. WE THOUGHT THAT SAHA POSSESSES POTENT ANTIFIBROTIC AND ANTI-EMT PROPERTIES IN LX2. 2021 19 2437 27 EPIGENETIC SILENCING OF SONIC HEDGEHOG ELICITS ANTITUMOR IMMUNE RESPONSE AND SUPPRESSES TUMOR GROWTH BY INHIBITING THE HEDGEHOG SIGNALING PATHWAY IN METASTATIC SPINE TUMORS IN SPRAGUE-DAWLEY RATS. BACKGROUND: PATIENTS WITH METASTATIC SPINE TUMORS MAY SUFFER FROM PAIN OR NEUROLOGIC DEFICIT, AND THE DISEASE MAY BE DETECTED IN PATIENTS WITH A KNOWN MALIGNANCY. SONIC HEDGEHOG (SHH) HAS RECEIVED SPECIAL ATTENTION DUE TO ITS ROLE IN CANCERS. THEREFORE, THIS STUDY INVESTIGATED THE EFFECTS OF EPIGENETIC SILENCING OF SHH ON ANTITUMOR IMMUNE RESPONSE AND TUMOR GROWTH BY REGULATING THE HEDGEHOG (HH) SIGNALING PATHWAY IN METASTATIC SPINE TUMORS. METHODS: RAT MODELS OF METASTATIC SPINE TUMORS WERE SUCCESSFULLY ESTABLISHED. WE FIRST CALCULATED THE TUMOR VOLUME AND THE INHIBITION RATE OF TUMOR GROWTH TO INVESTIGATE THE EFFECT OF SHH ON TUMOR GROWTH. AFTERWARDS, IMMUNOHISTOCHEMISTRY WAS USED TO DETERMINE WHETHER PROLIFERATION WAS DELAYED BY SHH DEPLETION, AND THE 3-(4,5-DIMETHYLTHIAZOL-2-YL)-2,5-DIPHENYLTETRAZOLIUM BROMIDE ASSAY WAS CONDUCTED TO TEST THE CHANGES IN THE LYMPHOCYTE TRANSFORMATION RATE IN THE SPLEEN TRIGGERED BY SHH SILENCING. THEN, THE INFLUENCE OF SHH DEPLETION ON IMMUNE FUNCTION WAS INVESTIGATED. LATER, QUANTITATIVE REVERSE TRANSCRIPTION POLYMERASE CHAIN REACTION AND WESTERN BLOT ASSAY WERE PERFORMED TO EXPLORE THE HH SIGNALING PATHWAY-RELATED FACTORS. FINALLY, WE ADDED THE HH SIGNALING PATHWAY INHIBITOR, GDC-0449, TO CONFIRM THE ROLE OF THE PATHWAY IN TUMOR PROGRESSION. RESULTS: INITIALLY, WE OBSERVED THAT SHH DEPLETION WAS A NEGATIVE FACTOR FOR TUMOR GROWTH. AFTERWARDS, IT WAS REVEALED THAT EPIGENETIC SILENCING OF SHH SERVED AS AN INHIBITOR FACTOR FOR THE FUNCTION OF SPLEEN LYMPHOCYTE TRANSFORMATION AND INFLAMMATION WHILE PROMOTING ANTITUMOR IMMUNE FUNCTION. CONCLUSION: OUR PRELIMINARY RESULTS INDICATE THAT EPIGENETIC SILENCING OF SHH ELICITS AN ANTITUMOR IMMUNE RESPONSE AND SUPPRESSES TUMOR GROWTH BY INHIBITING THE HH SIGNALING PATHWAY IN METASTATIC SPINE TUMORS. 2018 20 1945 33 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