1 137 127 ABERRANT DNA METHYLATION AND EXPRESSION OF SPDEF AND FOXA2 IN AIRWAY EPITHELIUM OF PATIENTS WITH COPD. BACKGROUND: GOBLET CELL METAPLASIA, A COMMON FEATURE OF CHRONIC OBSTRUCTIVE PULMONARY DISEASE (COPD), IS ASSOCIATED WITH MUCUS HYPERSECRETION WHICH CONTRIBUTES TO THE MORBIDITY AND MORTALITY AMONG PATIENTS. TRANSCRIPTION FACTORS SAM-POINTED DOMAIN-CONTAINING ETS-LIKE FACTOR (SPDEF) AND FORKHEAD BOX PROTEIN A2 (FOXA2) REGULATE GOBLET CELL DIFFERENTIATION. THIS STUDY AIMED TO (1) INVESTIGATE DNA METHYLATION AND EXPRESSION OF SPDEF AND FOXA2 DURING GOBLET CELL DIFFERENTIATION AND (2) COMPARE THIS IN AIRWAY EPITHELIAL CELLS FROM PATIENTS WITH COPD AND CONTROLS DURING MUCOCILIARY DIFFERENTIATION. METHODS: TO ASSESS DNA METHYLATION AND EXPRESSION OF SPDEF AND FOXA2 DURING GOBLET CELL DIFFERENTIATION, PRIMARY AIRWAY EPITHELIAL CELLS, ISOLATED FROM TRACHEA (NON-COPD CONTROLS) AND BRONCHIAL TISSUE (PATIENTS WITH COPD), WERE DIFFERENTIATED BY CULTURE AT THE AIR-LIQUID INTERFACE (ALI) IN THE PRESENCE OF CYTOKINE INTERLEUKIN (IL)-13 TO PROMOTE GOBLET CELL DIFFERENTIATION. RESULTS: WE FOUND THAT SPDEF EXPRESSION WAS INDUCED DURING GOBLET CELL DIFFERENTIATION, WHILE FOXA2 EXPRESSION WAS DECREASED. IMPORTANTLY, CPG NUMBER 8 IN THE SPDEF PROMOTER WAS HYPERMETHYLATED UPON DIFFERENTIATION, WHEREAS DNA METHYLATION OF FOXA2 PROMOTER WAS NOT CHANGED. IN THE ABSENCE OF IL-13, COPD-DERIVED ALI-CULTURED CELLS DISPLAYED HIGHER SPDEF EXPRESSION THAN CONTROL-DERIVED ALI CULTURES, WHEREAS NO DIFFERENCE WAS FOUND FOR FOXA2 EXPRESSION. THIS WAS ACCOMPANIED WITH HYPOMETHYLATION OF CPG NUMBER 6 IN THE SPDEF PROMOTER AND ALSO HYPOMETHYLATION OF CPG NUMBERS 10 AND 11 IN THE FOXA2 PROMOTER. CONCLUSIONS: THESE FINDINGS SUGGEST THAT ABERRANT DNA METHYLATION OF SPDEF AND FOXA2 IS ONE OF THE FACTORS UNDERLYING MUCUS HYPERSECRETION IN COPD, OPENING NEW AVENUES FOR EPIGENETIC-BASED INHIBITION OF MUCUS HYPERSECRETION. 2017 2 5910 44 TARGETED EPIGENETIC EDITING OF SPDEF REDUCES MUCUS PRODUCTION IN LUNG EPITHELIAL CELLS. AIRWAY MUCUS HYPERSECRETION CONTRIBUTES TO THE MORBIDITY AND MORTALITY IN PATIENTS WITH CHRONIC INFLAMMATORY LUNG DISEASES. REDUCING MUCUS PRODUCTION IS CRUCIAL FOR IMPROVING PATIENTS' QUALITY OF LIFE. THE TRANSCRIPTION FACTOR SAM-POINTED DOMAIN-CONTAINING ETS-LIKE FACTOR (SPDEF) PLAYS A CRITICAL ROLE IN THE REGULATION OF MUCUS PRODUCTION AND, THEREFORE, REPRESENTS A POTENTIAL THERAPEUTIC TARGET. THIS STUDY AIMS TO REDUCE LUNG EPITHELIAL MUCUS PRODUCTION BY TARGETED SILENCING SPDEF USING THE NOVEL STRATEGY, EPIGENETIC EDITING. ZINC FINGERS AND CRISPR/DCAS PLATFORMS WERE ENGINEERED TO TARGET REPRESSORS (KRAB, DNA METHYLTRANSFERASES, HISTONE METHYLTRANSFERASES) TO THE SPDEF PROMOTER. ALL CONSTRUCTS WERE ABLE TO EFFECTIVELY SUPPRESS BOTH SPDEF MRNA AND PROTEIN EXPRESSION, WHICH WAS ACCOMPANIED BY INHIBITION OF DOWNSTREAM MUCUS-RELATED GENES [ANTERIOR GRADIENT 2 (AGR2), MUCIN 5AC (MUC5AC)]. FOR THE HISTONE METHYLTRANSFERASE G9A, AND NOT ITS MUTANT OR OTHER EFFECTORS, THE OBTAINED SILENCING WAS MITOTICALLY STABLE. THESE RESULTS INDICATE EFFICIENT SPDEF SILENCING AND DOWNREGULATION OF MUCUS-RELATED GENE EXPRESSION BY EPIGENETIC EDITING, IN HUMAN LUNG EPITHELIAL CELLS. THIS OPENS AVENUES FOR EPIGENETIC EDITING AS A NOVEL THERAPEUTIC STRATEGY TO INDUCE LONG-LASTING MUCUS INHIBITION. 2017 3 348 47 ALTERED DNA METHYLATION IS ASSOCIATED WITH ABERRANT GENE EXPRESSION IN PARENCHYMAL BUT NOT AIRWAY FIBROBLASTS ISOLATED FROM INDIVIDUALS WITH COPD. BACKGROUND: CHRONIC OBSTRUCTIVE PULMONARY DISEASE (COPD) IS A HETEROGENEOUS DISEASE OF THE LUNGS THAT IS CURRENTLY THE FOURTH LEADING CAUSE OF DEATH WORLDWIDE. GENETIC FACTORS ACCOUNT FOR ONLY A SMALL AMOUNT OF COPD RISK, BUT EPIGENETIC MECHANISMS, INCLUDING DNA METHYLATION, HAVE THE POTENTIAL TO MEDIATE THE INTERACTIONS BETWEEN AN INDIVIDUAL'S GENETICS AND ENVIRONMENTAL EXPOSURE. DNA METHYLATION IS HIGHLY CELL TYPE-SPECIFIC, AND INDIVIDUAL CELL TYPE STUDIES OF DNA METHYLATION IN COPD ARE SPARSE. FIBROBLASTS ARE PRESENT WITHIN THE AIRWAY AND PARENCHYMA OF THE LUNG AND CONTRIBUTE TO THE ABERRANT DEPOSITION OF EXTRACELLULAR MATRIX IN COPD. NO ASSESSMENT OR COMPARISON OF GENOME-WIDE DNA METHYLATION PROFILES IN THE AIRWAY AND PARENCHYMAL FIBROBLASTS FROM INDIVIDUALS WITH AND WITHOUT COPD HAS BEEN UNDERTAKEN. THESE DATA PROVIDE VALUABLE INSIGHT INTO THE MOLECULAR MECHANISMS CONTRIBUTING TO COPD AND THE DIFFERING PATHOLOGIES OF SMALL AIRWAYS DISEASE AND EMPHYSEMA IN COPD. METHODS: GENOME-WIDE DNA METHYLATION WAS EVALUATED AT OVER 485,000 CPG SITES USING THE ILLUMINA INFINIUM HUMANMETHYLATION450 BEADCHIP ARRAY IN THE AIRWAY (NON-COPD N = 8, COPD N = 7) AND PARENCHYMAL FIBROBLASTS (NON-COPD N = 17, COPD N = 29) ISOLATED FROM INDIVIDUALS WITH AND WITHOUT COPD. TARGETED GENE EXPRESSION WAS ASSESSED BY QPCR IN MATCHED RNA SAMPLES. RESULTS: DIFFERENTIALLY METHYLATED DNA REGIONS WERE IDENTIFIED BETWEEN CELLS ISOLATED FROM INDIVIDUALS WITH AND WITHOUT COPD IN BOTH AIRWAY AND PARENCHYMAL FIBROBLASTS. ONLY IN PARENCHYMAL FIBROBLASTS WAS DIFFERENTIAL DNA METHYLATION ASSOCIATED WITH DIFFERENTIAL GENE EXPRESSION. A SECOND ANALYSIS OF DIFFERENTIAL DNA METHYLATION VARIABILITY IDENTIFIED 359 INDIVIDUAL DIFFERENTIALLY VARIABLE CPG SITES IN PARENCHYMAL FIBROBLASTS. NO DIFFERENTIALLY VARIABLE CPG SITES WERE IDENTIFIED IN THE AIRWAY FIBROBLASTS. FIVE DIFFERENTIALLY VARIABLE-METHYLATED CPG SITES, ASSOCIATED WITH THREE GENES, WERE SUBSEQUENTLY ASSESSED FOR GENE EXPRESSION DIFFERENCES. TWO GENES (OAT AND GRIK2) DISPLAYED SIGNIFICANTLY INCREASED GENE EXPRESSION IN CELLS ISOLATED FROM INDIVIDUALS WITH COPD. CONCLUSIONS: DIFFERENTIAL AND VARIABLE DNA METHYLATION WAS ASSOCIATED WITH COPD STATUS IN THE PARENCHYMAL FIBROBLASTS BUT NOT AIRWAY FIBROBLASTS. ABERRANT DNA METHYLATION WAS ASSOCIATED WITH ALTERED GENE EXPRESSION IMPARTING BIOLOGICAL FUNCTION TO DNA METHYLATION CHANGES. CHANGES IN DNA METHYLATION ARE THEREFORE IMPLICATED IN THE MOLECULAR MECHANISMS UNDERLYING COPD PATHOGENESIS AND MAY REPRESENT NOVEL THERAPEUTIC TARGETS. 2018 4 4899 36 OXIDATIVE STRESS MEDIATES THE APOPTOSIS AND EPIGENETIC MODIFICATION OF THE BCL-2 PROMOTER VIA DNMT1 IN A CIGARETTE SMOKE-INDUCED EMPHYSEMA MODEL. BACKGROUND: EMPHYSEMA IS A CRUCIAL PATHOLOGICAL CHARACTERISTIC OF CHRONIC OBSTRUCTIVE PULMONARY DISEASE (COPD). OXIDATIVE STRESS, APOPTOSIS AND EPIGENETIC MECHANISMS CONTRIBUTE TO THE PATHOGENESIS OF EMPHYSEMA. HOWEVER, AN ATTEMPT TO ACCURATELY IDENTIFY WHETHER THESE MECHANISMS INTERACT WITH EACH OTHER AND HOW THEY ARE TRIGGERED HAS NEVER BEEN CONDUCTED. METHOD: THE TOTAL REACTIVE OXYGEN SPECIES (ROS) LEVEL, PULMONARY APOPTOSIS AND B-CELL LYMPHOMA/LEUKEMIA-2 (BCL-2) EXPRESSION, AN APOPTOSIS REGULATOR, WERE DETECTED IN SAMPLES FROM COPD PATIENTS. BISULFITE SEQUENCING PCR (BSP) WAS CONDUCTED TO OBSERVE THE ALTERATIONS IN THE METHYLATION OF THE BCL-2 PROMOTER IN SPECIMENS. THE DYSREGULATION OF DNA METHYLTRANSFERASE ENZYME 1 (DNMT1), A VITAL DNA METHYLTRANSFERASE ENZYME, IN THE LUNGS OF PATIENTS WAS CONFIRMED THROUGH WESTERN BLOTTING. TO FIND OUT INTERACTIONS BETWEEN OXIDATIVE STRESS AND DNA METHYLATION IN EMPHYSEMA, MOUSE MODELS WERE BUILT WITH ANTIOXIDANT TREATMENT AND DNMT1 SILENCING, AND WERE EXAMINED WITH THE PULMONARY APOPTOSIS, BCL-2 AND DNMT1 LEVELS, AND EPIGENETIC ALTERATIONS OF BCL-2. RESULTS: HIGHER ROS LEVELS AND PULMONARY APOPTOSIS WERE OBSERVED IN COPD PATIENTS THAN IN HEALTHY CONTROLS. DOWNREGULATED BCL-2 EXPRESSION WITH INCREASED PROMOTER METHYLATION AND DNMT1 PROTEIN EXPRESSION WAS FOUND IN COPD PATIENTS. ANTIOXIDANT TREATMENT REDUCED THE LEVEL OF ROS, DNMT1 PROTEIN AND EMPHYSEMATOUS PROGRESSION IN THE SMOKING MODELS. FOLLOWING DNMT1 BLOCKADE, SMOKING MODELS SHOWED IMPROVED LUNG FUNCTION, PULMONARY APOPTOSIS, EMPHYSEMATOUS PROGRESSION, AND INCREASED BCL-2 PROTEIN LEVEL WITH LESS PROMOTER METHYLATION THAN EMPHYSEMA MICE. CONCLUSION: CIGARETTE-INDUCED OXIDATIVE STRESS MEDIATES PULMONARY APOPTOSIS AND HYPERMETHYLATION OF THE BCL-2 PROMOTER IN EMPHYSEMA MODELS THROUGH DNMT1. 2020 5 3767 37 INTEGRATIVE EPIGENOMIC ANALYSIS IN DIFFERENTIATED HUMAN PRIMARY BRONCHIAL EPITHELIAL CELLS EXPOSED TO CIGARETTE SMOKE. CIGARETTE SMOKE (CS) IS ONE OF THE MAJOR RISK FACTORS FOR MANY PULMONARY DISEASES, INCLUDING CHRONIC OBSTRUCTIVE PULMONARY DISEASE (COPD) AND LUNG CANCER. THE FIRST LINE OF DEFENSE FOR CS EXPOSURE IS THE BRONCHIAL EPITHELIAL CELLS. ELUCIDATION OF THE EPIGENETIC CHANGES DURING CS EXPOSURE IS KEY TO GAINING A MECHANISTIC UNDERSTANDING INTO HOW MATURE AND DIFFERENTIATED BRONCHIAL EPITHELIAL CELLS RESPOND TO CS. THEREFORE, WE PERFORMED EPIGENOMIC PROFILING IN CONJUNCTION WITH TRANSCRIPTIONAL PROFILING IN WELL-DIFFERENTIATED HUMAN BRONCHIAL EPITHELIAL (HBE) CELLS CULTURED IN AIR-LIQUID INTERFACE (ALI) EXPOSED TO THE VAPOR PHASE OF CS. THE GENOME-WIDE ENRICHMENT OF HISTONE 3 LYSINE 27 ACETYLATION WAS DETECTED BY CHROMATIN IMMUNOPRECIPITATION FOLLOWED BY NEXT GENERATION SEQUENCING (CHIP-SEQ) IN HBE CELLS AND SUGGESTED THE PLAUSIBLE BINDING OF SPECIFIC TRANSCRIPTION FACTORS RELATED TO CS EXPOSURE. ADDITIONALLY, INTERROGATION OF CHIP-SEQ DATA WITH GENE EXPRESSION PROFILING OF HBE CELLS AFTER CS EXPOSURE FOR DIFFERENT DURATIONS (3 HOURS, 2 DAYS, 4 DAYS) SUGGESTED THAT EARLIER EPIGENETIC CHANGES (3 HOURS AFTER CS EXPOSURE) MAY BE ASSOCIATED WITH LATER GENE EXPRESSION CHANGES INDUCED BY CS EXPOSURE (4 DAYS). THE INTEGRATION OF EPIGENETICS AND GENE EXPRESSION DATA REVEALED SIGNALING PATHWAYS RELATED TO CS-INDUCED EPIGENETIC CHANGES IN HBE CELLS THAT MAY IDENTIFY NOVEL REGULATORY PATHWAYS RELATED TO CS-INDUCED COPD. 2018 6 1589 42 DNA METHYLATION PROFILING IN A CIGARETTE SMOKE-EXPOSED MOUSE MODEL OF AIRWAY INFLAMMATION. PURPOSE: DNA METHYLATION, A MAJOR EPIGENETIC MODIFICATION, HAS BEEN DOCUMENTED TO PLAY AN IMPORTANT ROLE IN CHRONIC OBSTRUCTIVE PULMONARY DISEASE (COPD). IN THIS STUDY, WE AIMED TO PROFILE THE DNA METHYLATION PATTERNS IN A MOUSE MODEL OF AIRWAY INFLAMMATION INDUCED BY CIGARETTE SMOKE (CS), A FOREMOST RISK FACTOR OF COPD. MATERIAL AND METHODS: TO ESTABLISH A MODEL OF AIRWAY INFLAMMATION, WILD-TYPE MICE WERE EXPOSED TO MAINSTREAM CS OR ROOM AIR FOR 2 HOURS TWICE DAILY, 6 DAYS PER WEEK FOR CONSECUTIVE 4 WEEKS. LUNG TISSUES OF THE MICE WERE COLLECTED FOR GENOME-WIDE DNA METHYLATION ANALYSIS BY LIQUID HYBRIDIZATION CAPTURE-BASED BISULFITE SEQUENCING, WHICH WERE USED FOR INTERSECTION ANALYSIS WITH GENE EXPRESSION BY CDNA MICROARRAY TO IDENTIFY CANDIDATE METHYLATED GENES. THEN, FUNCTIONAL ENRICHMENT ANALYSES WITH PROTEIN-PROTEIN INTERACTION (PPI) NETWORK REGARDING THESE GENES WERE CONDUCTED TO EXPLORE THE POTENTIAL MECHANISMS. RESULTS: AFTER 4-WEEK CS EXPOSURE, THE LEVEL OF DNA METHYLATION ACCOMPANIED BY A SUBACUTE AIRWAY INFLAMMATION WAS MARKEDLY ENHANCED, AND 2002 DIFFERENTIALLY METHYLATED GENES (DMGS) WERE ANNOTATED, INCLUDING 565 DMGS CONTAINED METHYLATIONS IN GENE PROMOTERS, WHICH WERE USED FOR INTERSECTION WITH THE DIFFERENTIALLY EXPRESSED GENES. THEN, 135 CANDIDATE METHYLATED GENES WERE FURTHER SELECTED BY THE INTERSECTION, AMONG WHICH 58 GENES WITH FUNCTIONAL METHYLATED MODIFICATION WERE FINALLY IDENTIFIED. FURTHER ANALYSES REVEALED CANDIDATE METHYLATED GENES WERE SIGNIFICANTLY ENRICHED IN A COMPLICATED NETWORK OF SIGNALS AND PROCESSES, INCLUDING INTERLEUKINS, TOLL-LIKE RECEPTORS, T-CELLS DIFFERENTIATION, OXIDATIVE STRESS, MAST CELLS ACTIVATION, STEM CELLS PROLIFERATION, ETC., AS WELL AS THE 58 FUNCTIONAL METHYLATED GENES WERE PARTIALLY LOCATED AT KEY POSITIONS IN PPI NETWORK, ESPECIALLY CXCL1, DDX58 AND JAK3. CONCLUSION: THIS STUDY SUGGESTS CS EXPOSURE SIGNIFICANTLY ENHANCES DNA METHYLATED LEVEL, AND THE POTENTIAL FUNCTIONAL METHYLATED GENES ARE CLOSELY RELATED TO COMPLICATED INFLAMMATORY-IMMUNE RESPONSES, WHICH MAY PROVIDE SOME NEW EXPERIMENTAL EVIDENCE IN UNDERSTANDING THE EPIGENETIC MECHANISMS OF CS-INDUCED AIRWAY INFLAMMATION IN COPD. 2022 7 1551 37 DNA METHYLATION IS GLOBALLY DISRUPTED AND ASSOCIATED WITH EXPRESSION CHANGES IN CHRONIC OBSTRUCTIVE PULMONARY DISEASE SMALL AIRWAYS. DNA METHYLATION IS AN EPIGENETIC MODIFICATION THAT IS HIGHLY DISRUPTED IN RESPONSE TO CIGARETTE SMOKE AND INVOLVED IN A WIDE SPECTRUM OF MALIGNANT AND NONMALIGNANT DISEASES, BUT SURPRISINGLY NOT PREVIOUSLY ASSESSED IN SMALL AIRWAYS OF PATIENTS WITH CHRONIC OBSTRUCTIVE PULMONARY DISEASE (COPD). SMALL AIRWAYS ARE THE PRIMARY SITES OF AIRFLOW OBSTRUCTION IN COPD. WE SOUGHT TO DETERMINE WHETHER DNA METHYLATION PATTERNS ARE DISRUPTED IN SMALL AIRWAY EPITHELIA OF PATIENTS WITH COPD, AND EVALUATE WHETHER CHANGES IN GENE EXPRESSION ARE ASSOCIATED WITH THESE DISRUPTIONS. GENOME-WIDE METHYLATION AND GENE EXPRESSION ANALYSIS WERE PERFORMED ON SMALL AIRWAY EPITHELIAL DNA AND RNA OBTAINED FROM THE SAME PATIENT DURING BRONCHOSCOPY, USING ILLUMINA'S INFINIUM HM27 AND AFFYMETRIX'S GENECHIP HUMAN GENE 1.0 ST ARRAYS. TO CONTROL FOR KNOWN EFFECTS OF CIGARETTE SMOKING ON DNA METHYLATION, METHYLATION AND GENE EXPRESSION PROFILES WERE COMPARED BETWEEN FORMER SMOKERS WITH AND WITHOUT COPD MATCHED FOR AGE, PACK-YEARS, AND YEARS OF SMOKING CESSATION. OUR RESULTS INDICATE THAT ABERRANT DNA METHYLATION IS (1) A GENOME-WIDE PHENOMENON IN SMALL AIRWAYS OF PATIENTS WITH COPD, AND (2) ASSOCIATED WITH ALTERED EXPRESSION OF GENES AND PATHWAYS IMPORTANT TO COPD, SUCH AS THE NF-E2-RELATED FACTOR 2 OXIDATIVE RESPONSE PATHWAY. DNA METHYLATION IS LIKELY AN IMPORTANT MECHANISM CONTRIBUTING TO MODULATION OF GENES IMPORTANT TO COPD PATHOLOGY. BECAUSE THESE METHYLATION EVENTS MAY UNDERLIE DISEASE-SPECIFIC GENE EXPRESSION CHANGES, THEIR CHARACTERIZATION IS A CRITICAL FIRST STEP TOWARD THE DEVELOPMENT OF EPIGENETIC MARKERS AND AN OPPORTUNITY FOR DEVELOPING NOVEL EPIGENETIC THERAPEUTIC INTERVENTIONS FOR COPD. 2014 8 1632 35 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 9 1500 42 DNA METHYLATION ANALYSIS OF CD4+ T CELLS IN PATIENTS WITH PSORIASIS. PSORIASIS IS A CHRONIC INFLAMMATORY SKIN DISEASE THAT IS CHARACTERIZED BY ABERRANT CROSS-TALK BETWEEN KERATINOCYTES AND IMMUNE CELLS SUCH AS CD4+ T CELLS, RESULTING IN KERATINOCYTE HYPERPROLIFERATION IN THE EPIDERMIS. DNA METHYLATION, ONE OF SEVERAL EPIGENETIC MECHANISMS, PLAYS AN IMPORTANT ROLE IN GENE EXPRESSION WITHOUT CHANGING THE DNA SEQUENCE. SEVERAL STUDIES HAVE SUGGESTED THE INVOLVEMENT OF EPIGENETIC REGULATION IN SKIN LESIONS FROM PATIENTS WITH PSORIASIS. IN THIS STUDY, WE INVESTIGATED THE GENOME-WIDE DNA METHYLATION STATUS OF CD4+ T CELLS IN PATIENTS WITH PSORIASIS COMPARED WITH HEALTHY SUBJECTS USING METHYLATED DNA IMMUNOPRECIPITATION SEQUENCING (MEDIP-SEQ). THE RESULTS OF MEDIP-SEQ SHOWED THAT THE GLOBAL METHYLATION VALUES OF CD4+ T CELLS ARE HIGHER IN PATIENTS WITH PSORIASIS THAN IN HEALTHY CONTROLS, PARTICULARLY IN THE PROMOTER REGIONS. AMONG THE MOST HYPERMETHYLATED GENES IN THE PROMOTER REGIONS, WE SELECTED THE GENES WHOSE EXPRESSION IS SIGNIFICANTLY REDUCED IN THE CD4+ T CELLS OF PSORIASIS PATIENTS. STUDIES USING THE METHYLATION INHIBITOR 5-AZACYTIDINE IN VITRO METHYLATION ASSAYS HAVE SHOWN THAT THE DIFFERENTIAL EXPRESSION LEVELS WERE ASSOCIATED WITH THE METHYLATION STATUS OF EACH GENE. BISULFITE SEQUENCING OF THE TRANSCRIPTION START REGION OF PHOSPHATIDIC ACID PHOSPHATASE TYPE 2 DOMAIN CONTAINING 3 (PPAPDC3), ONE OF THE SELECTED GENES, SHOWED HYPERMETHYLATION IN THE CD4+ T CELLS OF PSORIASIS PATIENTS. THESE RESULTS SUGGESTED THAT THE METHYLATION STATUS, WHICH IS IDENTIFIED BY MEDIP-SEQ OF THE GENES, WAS CORRELATED WITH THE MRNA EXPRESSION LEVEL OF THE GENES. COLLECTIVELY, THE DNA METHYLATION STATUS IN CD4+ T CELLS MIGHT BE ASSOCIATED WITH THE PATHOGENESIS OF PSORIASIS. 2014 10 3497 47 IDENTIFICATION OF NOVEL EPIGENETIC ABNORMALITIES AS SPUTUM BIOMARKERS FOR LUNG CANCER RISK AMONG SMOKERS AND COPD PATIENTS. OBJECTIVES: SMOKING IS A COMMON RISK FACTOR FOR CHRONIC OBSTRUCTIVE PULMONARY DISEASE (COPD) AND LUNG CANCER. ALTHOUGH COPD PATIENTS HAVE HIGHER RISK OF LUNG CANCER COMPARED TO NON-COPD SMOKERS, THE MOLECULAR LINKS BETWEEN THESE DISEASES ARE NOT WELL-DEFINED. THIS STUDY AIMS TO IDENTIFY GENES THAT ARE DOWNREGULATED BY CIGARETTE SMOKE AND COMMONLY REPRESSED IN COPD AND LUNG CANCER. MATERIALS AND METHODS: PRIMARY HUMAN AIRWAY EPITHELIAL CELLS (HAEC) WERE EXPOSED TO CIGARETTE-SMOKE-EXTRACT (CSE) FOR 10-WEEKS AND SIGNIFICANTLY SUPPRESSED GENES WERE IDENTIFIED BY TRANSCRIPTOME ARRAY. EPIGENETIC ABNORMALITIES OF THESE GENES IN LUNG ADENOCARCINOMA (LUAD) FROM PATIENTS WITH OR WITHOUT COPD WERE DETERMINED USING GENOME-WIDE AND GENE-SPECIFIC ASSAYS AND BY IN VITRO TREATMENT OF CELL LINES WITH TRICHOSTATIN-A OR 5-AZA-2-DEOXYCYTIDINE. RESULTS: THE TEN MOST COMMONLY DOWNREGULATED GENES FOLLOWING CHRONIC CSE EXPOSURE OF HAEC AND SHOW PROMOTER HYPERMETHYLATION IN LUAD WERE SELECTED. AMONG THESE, EXPRESSION OF CCNA1, SNCA, AND ZNF549 WAS SIGNIFICANTLY REDUCED IN LUNG TISSUES FROM COPD COMPARED WITH NON-COPD CASES WHILE EXPRESSION OF CCNA1 AND SNCA WAS FURTHER DOWNREGULATED IN TUMORS WITH COPD. THE PROMOTER REGIONS OF ALL THREE GENES WERE HYPERMETHYLATED IN LUAD BUT NOT NORMAL OR COPD LUNGS. THE REDUCED EXPRESSION AND ABERRANT PROMOTER HYPERMETHYLATION OF THESE GENES IN LUAD WERE INDEPENDENTLY VALIDATED USING DATA FROM THE CANCER GENOME ATLAS PROJECT. IMPORTANTLY, SNCA AND ZNF549 METHYLATION DETECTED IN SPUTUM DNA FROM LUAD (52% AND 38%) CASES WERE MORE PREVALENT COMPARED TO CANCER-FREE SMOKERS (26% AND 15%), RESPECTIVELY (P < 0.02). CONCLUSIONS: OUR DATA SHOW THAT SUPPRESSION OF CCNA1, SNCA, AND ZNF549 IN LUNG CANCER AND COPD OCCURS WITH OR WITHOUT PROMOTER HYPERMETHYLATION, RESPECTIVELY. DETECTING METHYLATION OF THESE AND PREVIOUSLY IDENTIFIED GENES IN SPUTUM OF CANCER-FREE SMOKERS MAY SERVE AS NON-INVASIVE BIOMARKERS FOR EARLY DETECTION OF LUNG CANCER AMONG HIGH RISK SMOKERS INCLUDING COPD PATIENTS. 2020 11 5418 43 REGULATION OF DNA METHYLATION SIGNATURES ON NF-KAPPAB AND STAT3 PATHWAY GENES AND TET ACTIVITY IN CIGARETTE SMOKE EXTRACT-CHALLENGED CELLS/COPD EXACERBATION MODEL IN VITRO. BACKGROUND: CHRONIC OBSTRUCTIVE PULMONARY DISEASE (COPD) IS A GLOBAL HEALTH PROBLEM. CURRENTLY, THERE IS A LACK OF KNOWLEDGE ABOUT THE PATHOBIOLOGY OF THIS DISEASE AND AVAILABLE THERAPIES ARE INEFFECTIVE. CIGARETTE SMOKING IS THE LEADING CAUSE OF COPD; HOWEVER, NOT ALL SMOKERS DEVELOP COPD. EXACERBATIONS OF COPD CAUSED BY MICROBES ARE COMMON AND DETRIMENTAL. APPROXIMATELY 20-50% OF PATIENT EXACERBATIONS ARE CAUSED BY BACTERIAL COLONIZATION IN THE LOWER AIRWAYS. IT IS GENERALLY ACCEPTED THAT EPIGENETIC MECHANISMS, ESPECIALLY DNA METHYLATION, PLAY AN IMPORTANT ROLE DURING PROGRESSION OF COPD. THUS, WE HYPOTHESIZED THAT DNA METHYLATION PATTERNS VARY SIGNIFICANTLY FOLLOWING SMOKE EXPOSURE AND DURING EXACERBATIONS CAUSED BY BACTERIAL INFECTIONS. TO TEST OUR HYPOTHESIS, WE USED AN IN VITRO STUDY MODEL THAT MIMICS COPD EXACERBATIONS AND PERFORMED EXTENSIVE STUDIES TO UNDERSTAND THE ROLE OF CPG PROMOTER METHYLATION OF NF-KAPPAB AND STAT3-MEDIATED PATHWAY GENES. BOTH NF-KAPPAB AND STAT3 TRANSCRIPTION FACTORS PLAY CRITICAL ROLES IN ORCHESTRATING INFLAMMATORY RESPONSES DURING CIGARETTE SMOKE EXPOSURE. IN BRIEF, HUMAN LUNG ADENOCARCINOMA CELLS WITH TYPE II ALVEOLAR EPITHELIUM CHARACTERISTICS (A549) WERE CHALLENGED WITH CIGARETTE SMOKE EXTRACT (CSE) OR DMSO (CONTROL) FOLLOWED BY A 3-H CHALLENGE WITH BACTERIAL LIPOPOLYSACCHARIDE (LPS; FROM PSEUDOMONAS AERUGINOSA) PRIOR TO THE TERMINATION OF CSE EXPOSURE (COPD EXACERBATION GROUP). THE PRODUCTION OF CYTOKINES/CHEMOKINES, REGULATION OF TRANSCRIPTION FACTORS, AND DNA METHYLATION OF SPECIFIC GENES WERE THEN ASSESSED. WE ALSO STUDIED CHANGES IN THE EXPRESSION AND ACTIVITY OF TEN-ELEVEN TRANSLOCASES (TETS), THE ENZYMES RESPONSIBLE FOR DNA DEMETHYLATION, AND ASSESSED THEIR ROLE IN REGULATING DNA METHYLATION IN THE CSE-CHALLENGED GROUP. RESULTS: THERE WAS A SIGNIFICANT INCREASE IN THE RELEASE OF CYTOKINES/CHEMOKINES (IL-8, MCP-1, IL-6 AND CCL5) IN THE COPD EXACERBATION GROUP AS COMPARED TO THE CONTROL GROUP. HYPOMETHYLATION OF NF-KAPPAB-MEDIATED PATHWAY GENES CORRELATED WITH THEIR INDUCTION IN OUR COPD EXACERBATION STUDY MODEL. FURTHER, WE OBSERVED AN IMPORTANT ROLE OF TET1/2 IN REGULATING THE DNA METHYLATION OF NF-KAPPAB, STAT3, IKK, AND NIK GENES AND CYTOKINE/CHEMOKINE PRODUCTION BY A549 CELLS DURING CSE CHALLENGE. CONCLUSIONS: STUDIES TO FURTHER DEFINE THE ROLE OF TETS IN CSE-MEDIATED EPIGENETIC REGULATION MAY LEAD TO THE DEVELOPMENT OF BETTER AND MORE EFFECTIVE THERAPEUTIC INTERVENTION STRATEGIES FOR COPD. 2020 12 3983 41 LONG-TERM EXPOSURE TO CIGARETTE SMOKE EXTRACT INDUCES HYPOMETHYLATION AT THE RUNX3 AND IGF2-H19 LOCI IN IMMORTALIZED HUMAN UROTHELIAL CELLS. CIGARETTE SMOKING IS THE SINGLE MOST IMPORTANT EPIDEMIOLOGICAL RISK FACTOR FOR BLADDER CANCER BUT IT IS NOT KNOWN WHETHER EXPOSURE OF UROTHELIAL CELLS TO THE SYSTEMIC SOLUBLE CONTENTS OF CIGARETTE SMOKE IS DIRECTLY CAUSATIVE TO BLADDER CANCER AND THE ASSOCIATED EPIGENETIC CHANGES SUCH AS TUMOR SUPPRESSOR GENE HYPERMETHYLATION. WE UNDERTOOK THIS STUDY TO INVESTIGATE IF LONG-TERM TREATMENT OF HUMAN UROTHELIAL CELLS WITH CIGARETTE SMOKE EXTRACT (CSE) RESULTS IN TUMOR SUPPRESSOR GENE HYPERMETHYLATION, A PHENOTYPE THAT WAS PREVIOUSLY ASSOCIATED WITH LONG-TERM CONSTANT CSE TREATMENT OF AIRWAY EPITHELIAL CELLS. WE CHRONICALLY TREATED AN IMMORTALIZED HUMAN UROTHELIAL CELL LINE UROTSA WITH CSE USING A CYCLIC DAILY REGIMEN BUT THE CELLS WERE CULTURED IN CSE-FREE MEDIUM BETWEEN DAILY TREATMENTS. BISULFITE SEQUENCING AND REAL-TIME PCR ARRAY-BASED METHYLATION PROFILING WERE EMPLOYED TO EVALUATE METHYLATION CHANGES AT TUMOR SUPPRESSOR GENE LOCI IN THE CHRONICALLY CSE-TREATED CELLS VERSUS THE PASSAGE-MATCHED UNTREATED CONTROL CELLS. THE RUNX3 TUMOR SUPPRESSOR GENE PROMOTER WAS HYPOMETHYLATED WITH A SIGNIFICANT INCREASE IN PROPORTION OF THE COMPLETELY UNMETHYLATED HAPLOTYPE AFTER THE LONG-TERM CSE TREATMENT; WHEREAS RUNX3 PROMOTER HYPERMETHYLATION WAS PREVIOUSLY REPORTED FOR BLADDER CANCERS OF SMOKERS. HYPOMETHYLATION INDUCED BY THE LONG-TERM CSE TREATMENT WAS ALSO OBSERVED FOR THE IGF2-H19 LOCUS. THE METHYLATION STATUS AT THE PRSS8/PROSTASIN AND 16 ADDITIONAL LOCI HOWEVER, WAS UNAFFECTED BY THE CHRONIC CSE TREATMENT. TRANSIENT CSE TREATMENT OVER 1 DAILY REGIMEN RESULTED IN TRANSCRIPTIONAL DOWN-REGULATION OF RUNX3 AND H19, BUT ONLY THE H19 TRANSCRIPTION WAS DOWN-REGULATED IN THE CHRONICALLY CSE-TREATED UROTHELIAL CELLS. TRANSCRIPTION OF A KEY ENZYME IN ONE-CARBON METABOLISM, DIHYDROFOLATE REDUCTASE (DHFR) WAS GREATLY REDUCED BY THE LONG-TERM CSE TREATMENT, POTENTIALLY SERVING AS A MECHANISM FOR THE HYPOMETHYLATION PHENOTYPE VIA A REDUCED SUPPLY OF METHYL DONOR. IN CONCLUSION, CHRONIC CYCLIC CSE TREATMENT OF UROTHELIAL CELLS INDUCED HYPOMETHYLATION RATHER THAN HYPERMETHYLATION AT SPECIFIC LOCI. 2013 13 2910 31 GENE EXPRESSION PROFILING OF EPIGENETIC CHROMATIN MODIFICATION ENZYMES AND HISTONE MARKS BY CIGARETTE SMOKE: IMPLICATIONS FOR COPD AND LUNG CANCER. CHROMATIN-MODIFYING ENZYMES MEDIATE DNA METHYLATION AND HISTONE MODIFICATIONS ON RECRUITMENT TO SPECIFIC TARGET GENE LOCI IN RESPONSE TO VARIOUS STIMULI. THE KEY ENZYMES THAT REGULATE CHROMATIN ACCESSIBILITY FOR MAINTENANCE OF MODIFICATIONS IN DNA AND HISTONES, AND FOR MODULATION OF GENE EXPRESSION PATTERNS IN RESPONSE TO CIGARETTE SMOKE (CS), ARE NOT KNOWN. WE HYPOTHESIZE THAT CS EXPOSURE ALTERS THE GENE EXPRESSION PATTERNS OF CHROMATIN-MODIFYING ENZYMES, WHICH THEN AFFECTS MULTIPLE DOWNSTREAM PATHWAYS INVOLVED IN THE RESPONSE TO CS. WE HAVE, THEREFORE, ANALYZED CHROMATIN-MODIFYING ENZYME PROFILES AND VALIDATED BY QUANTITATIVE REAL-TIME PCR (QPCR). WE ALSO PERFORMED IMMUNOBLOT ANALYSIS OF TARGETED HISTONE MARKS IN C57BL/6J MICE EXPOSED TO ACUTE AND SUBCHRONIC CS, AND OF LUNGS FROM NONSMOKERS, SMOKERS, AND PATIENTS WITH CHRONIC OBSTRUCTIVE PULMONARY DISEASE (COPD). WE FOUND A SIGNIFICANT INCREASE IN EXPRESSION OF SEVERAL CHROMATIN MODIFICATION ENZYMES, INCLUDING DNA METHYLTRANSFERASES, HISTONE ACETYLTRANSFERASES, HISTONE METHYLTRANSFERASES, AND SET DOMAIN PROTEINS, HISTONE KINASES, AND UBIQUITINASES. OUR QPCR VALIDATION DATA REVEALED A SIGNIFICANT DOWNREGULATION OF DNMT1, DNMT3A, DNMT3B, HDAC2, HDAC4, HAT1, PRMT1, AND AURKB WE IDENTIFIED TARGETED CHROMATIN HISTONE MARKS (H3K56AC AND H4K12AC), WHICH ARE INDUCED BY CS. THUS CS-INDUCED GENOTOXIC STRESS DIFFERENTIALLY AFFECTS THE EXPRESSION OF EPIGENETIC MODULATORS THAT REGULATE TRANSCRIPTION OF TARGET GENES VIA DNA METHYLATION AND SITE-SPECIFIC HISTONE MODIFICATIONS. THIS MAY HAVE IMPLICATIONS IN DEVISING EPIGENETIC-BASED THERAPIES FOR COPD AND LUNG CANCER. 2016 14 1805 31 EFFECT OF SMOKING ON THE DNA METHYLATION PATTERN OF THE SOCS1 PROMOTER IN EPITHELIAL CELLS FROM THE SALIVA OF PATIENTS WITH CHRONIC PERIODONTITIS. BACKGROUND: THE AIM OF THE PRESENT STUDY WAS TO EVALUATE THE METHYLATION PATTERN IN THE SUPPRESSOR OF CYTOKINE SIGNALING 1 (SOCS1) GENE IN SMOKERS AND NON-SMOKERS WITH CHRONIC PERIODONTITIS (CP). METHODS: METHYLATION-SPECIFIC POLYMERASE CHAIN REACTION (PCR) WAS PERFORMED TO DETERMINE THE METHYLATION STATUS OF THE SOCS1 PROMOTER IN 45 SALIVA SAMPLES FROM SMOKERS AND NON-SMOKERS WITH CP. RESULTS: CELLS FROM THE SALIVA OF CP PATIENTS WHO SMOKED WERE 7.08 TIMES MORE LIKELY TO HAVE A METHYLATED SOCS1 PROMOTER THAN CELLS FROM THE SALIVA OF NON-SMOKING PATIENTS. CONCLUSIONS: SOCS1 GENE PROMOTER METHYLATION, WITH ITS POTENTIAL EFFECTS ON THE EXPRESSION OF THIS GENE, SEEMS TO BE A CONSEQUENCE OF EXPOSURE TO TOBACCO AND NOT TO PERIODONTAL DISEASE. FURTHER STUDIES ARE NEEDED TO ELUCIDATE THE RELATIONSHIP BETWEEN THE EPIGENETIC CONTROL OF IMMUNE RESPONSE GENE EXPRESSION, EXPOSURE TO ENVIRONMENTAL FACTORS, AND THE DEVELOPMENT, PROGRESSION, AND PROGNOSIS OF CP. 2019 15 3831 44 INVOLVEMENT OF INFLAMMATORY CYTOKINES AND EPIGENETIC MODIFICATION OF THE MTTFA COMPLEX IN T-HELPER CELLS OF PATIENTS' SUFFERING FROM NON-SMALL CELL LUNG CANCER AND CHRONIC OBSTRUCTIVE PULMONARY DISEASE. DYSREGULATED INFLAMMATORY RESPONSE PLAYS A CRUCIAL ROLE IN THE PATHOGENESIS OF CHRONIC OBSTRUCTIVE PULMONARY DISEASE (COPD) AND NON-SMALL CELL LUNG CANCER (NSCLC). HENCE, THE PURPOSE OF THIS RESEARCH IS TO UNCOVER THE LINK BETWEEN ALTERATIONS IN INFLAMMATORY CYTOKINE LEVELS AND DISEASE PROGRESSION IN CD4(+)T CELLS OF PATIENTS SUFFERING FROM COPD AND LUNG CANCER. WE ALSO INVESTIGATED THE EPIGENETIC REGULATION OF MTTFA TO DELINEATE THE ROLE OF OXIDATIVE STRESS-MEDIATED INFLAMMATION IN LUNG CANCER AND COPD. THE RT(2) PROFILER PCR ARRAY WAS USED TO EXAMINE THE DIFFERENTIAL EXPRESSION PATTERN OF INFLAMMATORY GENES IN CD4(+) T HELPER (TH) CELLS FROM COPD, NSCLC, AND CONTROL SUBJECTS. CANDIDATE INFLAMMATORY GENE LOCI WERE SELECTED AND THE ENRICHMENT OF TRANSCRIPTIONAL FACTOR AND HISTONE MODIFIERS WAS ANALYSED USING CHIP-QPCR. IN COMPARISON TO CONTROL SUBJECTS, A SET OF GENES (E.G., BMP2, CCL2, IL5, VEGFA, ETC.) ARE OVER-EXPRESSED WHEREAS ANOTHER SET OF GENES (E.G., AIMP1, IFNG, LTA, LTB, TNF, ETC.) ARE UNDER-EXPRESSED IN BOTH COPD AND NSCLC PATIENTS. THE INCREASED PERCENT ENRICHMENT OF INFLAMMATION-ASSOCIATED TRANSCRIPTION FACTORS INCLUDING NF-KB, CREB, HIF1, AND MYC AT THE LOCI OF INFLAMMATORY GENES WAS REVEALED BY OUR CHROMATIN IMMUNOPRECIPITATION (CHIP) DATA. H3K4ME3, H3K9ME3, H3K14AC, HDAC1, 2, 3, 6 ALL SHOWED DYSREGULATED ENRICHMENT AT THE VEGFA GENE LOCUS. ONE OF THE EPIGENETIC MODIFICATIONS, HISTONE METHYLATION, WAS FOUND TO BE ABNORMAL IN THE MTTFA COMPLEX IN COPD AND NSCLC PATIENTS IN COMPARISON TO CONTROLS. ALTHOUGH THERE IS MOUNTING EVIDENCE OF SEVERAL LINKS BETWEEN THESE DISORDERS, THERAPEUTIC OPTIONS REMAIN INADEQUATE. OUR FINDINGS CONTRIBUTE TO THE BODY OF KNOWLEDGE ABOUT THERAPEUTIC TECHNIQUES THAT USE INFLAMMATORY CYTOKINES AS A PROGNOSTIC MARKER AND HIGHLIGHT THE NEED FOR EPIGENETIC THERAPY FOR THESE DEBILITATING LUNG DISEASES. 2022 16 3079 45 GENOME-WIDE METHYLATION AND EXPRESSION ANALYSES REVEAL THE EPIGENETIC LANDSCAPE OF IMMUNE-RELATED DISEASES FOR TOBACCO SMOKING. BACKGROUND: SMOKING IS A MAJOR CAUSAL RISK FACTOR FOR LUNG CANCER, CHRONIC OBSTRUCTIVE PULMONARY DISEASE (COPD), CARDIOVASCULAR DISEASE (CVD), AND IS THE MAIN PREVENTABLE CAUSE OF DEATHS IN THE WORLD. THE COMPONENTS OF CIGARETTE SMOKE ARE INVOLVED IN IMMUNE AND INFLAMMATORY PROCESSES, WHICH MAY INCREASE THE PREVALENCE OF CIGARETTE SMOKE-RELATED DISEASES. HOWEVER, THE UNDERLYING MOLECULAR MECHANISMS LINKING SMOKING AND DISEASES HAVE NOT BEEN WELL EXPLORED. THIS STUDY WAS AIMED TO DEPICT A GLOBAL MAP OF DNA METHYLATION AND GENE EXPRESSION CHANGES INDUCED BY TOBACCO SMOKING AND TO EXPLORE THE MOLECULAR MECHANISMS BETWEEN SMOKING AND HUMAN DISEASES THROUGH WHOLE-GENOME BISULFITE SEQUENCING (WGBS) AND RNA-SEQUENCING (RNA-SEQ). RESULTS: WE PERFORMED WGBS ON 72 SAMPLES (36 SMOKERS AND 36 NONSMOKERS) AND RNA-SEQ ON 75 SAMPLES (38 SMOKERS AND 37 NONSMOKERS), AND CYTOKINE IMMUNOASSAY ON PLASMA FROM 22 MALES (9 SMOKERS AND 13 NONSMOKERS) WHO WERE RECRUITED FROM THE CITY OF JINCHENG IN CHINA. BY COMPARING THE DATA OF THE TWO GROUPS, WE DISCOVERED A GENOME-WIDE METHYLATION LANDSCAPE OF DIFFERENTIALLY METHYLATED REGIONS (DMRS) ASSOCIATED WITH SMOKING. FUNCTIONAL ENRICHMENT ANALYSES REVEALED THAT BOTH SMOKING-RELATED HYPER-DMR GENES (DMGS) AND HYPO-DMGS WERE RELATED TO SYNAPSE-RELATED PATHWAYS, WHEREAS THE HYPO-DMGS WERE SPECIFICALLY RELATED TO CANCER AND ADDICTION. THE DIFFERENTIALLY EXPRESSED GENES (DEGS) REVEALED BY RNA-SEQ ANALYSIS WERE SIGNIFICANTLY ENRICHED IN THE "IMMUNOSUPPRESSION" PATHWAY. CORRELATION ANALYSIS OF DMRS WITH THEIR CORRESPONDING GENE EXPRESSION SHOWED THAT GENES AFFECTED BY TOBACCO SMOKING WERE MOSTLY RELATED TO IMMUNE SYSTEM DISEASES. FINALLY, BY COMPARING CYTOKINE CONCENTRATIONS BETWEEN SMOKERS AND NONSMOKERS, WE FOUND THAT VASCULAR ENDOTHELIAL GROWTH FACTOR (VEGF) WAS SIGNIFICANTLY UPREGULATED IN SMOKERS. CONCLUSIONS: IN SUM, WE FOUND THAT SMOKING-INDUCED DMRS HAVE DIFFERENT DISTRIBUTION PATTERNS IN HYPERMETHYLATED AND HYPOMETHYLATED AREAS BETWEEN SMOKERS AND NONSMOKERS. WE FURTHER IDENTIFIED AND VERIFIED SMOKING-RELATED DMGS AND DEGS THROUGH MULTI-OMICS INTEGRATION ANALYSIS OF DNA METHYLOME AND TRANSCRIPTOME DATA. THESE FINDINGS PROVIDE US A COMPREHENSIVE GENOMIC MAP OF THE MOLECULAR CHANGES INDUCED BY SMOKING WHICH WOULD ENHANCE OUR UNDERSTANDING OF THE HARMS OF SMOKING AND ITS RELATIONSHIP WITH DISEASES. 2021 17 1591 34 DNA METHYLATION PROFILING IN PERIPHERAL LUNG TISSUES OF SMOKERS AND PATIENTS WITH COPD. BACKGROUND: EPIGENETICS CHANGES HAVE BEEN SHOWN TO BE AFFECTED BY CIGARETTE SMOKING. CIGARETTE SMOKE (CS)-MEDIATED DNA METHYLATION CAN POTENTIALLY AFFECT SEVERAL CELLULAR AND PATHOPHYSIOLOGICAL PROCESSES, ACUTE EXACERBATIONS, AND COMORBIDITY IN THE LUNGS OF PATIENTS WITH CHRONIC OBSTRUCTIVE PULMONARY DISEASE (COPD). WE SOUGHT TO DETERMINE WHETHER GENOME-WIDE LUNG DNA METHYLATION PROFILES OF SMOKERS AND PATIENTS WITH COPD WERE SIGNIFICANTLY DIFFERENT FROM NON-SMOKERS. WE ISOLATED DNA FROM PARENCHYMAL LUNG TISSUES OF PATIENTS INCLUDING EIGHT LIFELONG NON-SMOKERS, EIGHT CURRENT SMOKERS, AND EIGHT PATIENTS WITH COPD AND ANALYZED THE SAMPLES USING ILLUMINA'S INFINIUM HUMANMETHYLATION450 BEADCHIP. RESULTS: OUR DATA REVEALED THAT THE DIFFERENTIALLY METHYLATED GENES WERE RELATED TO TOP CANONICAL PATHWAYS (E.G., G BETA GAMMA SIGNALING, MECHANISMS OF CANCER, AND NNOS SIGNALING IN NEURONS), DISEASE AND DISORDERS (ORGANISMAL INJURY AND ABNORMALITIES, CANCER, AND RESPIRATORY DISEASE), AND MOLECULAR AND CELLULAR FUNCTIONS (CELL DEATH AND SURVIVAL, CELLULAR ASSEMBLY AND ORGANIZATION, CELLULAR FUNCTION AND MAINTENANCE) IN PATIENTS WITH COPD. THE GENOME-WIDE DNA METHYLATION ANALYSIS IDENTIFIED SUGGESTIVE GENES, SUCH AS NOS1AP, TNFAIP2, BID, GABRB1, ATXN7, AND THOC7 WITH DNA METHYLATION CHANGES IN COPD LUNG TISSUES THAT WERE FURTHER VALIDATED BY PYROSEQUENCING. PYROSEQUENCING VALIDATION CONFIRMED HYPER-METHYLATION IN SMOKERS AND PATIENTS WITH COPD AS COMPARED TO NON-SMOKERS. HOWEVER, WE DID NOT DETECT SIGNIFICANT DIFFERENCES IN DNA METHYLATION FOR TNFAIP2, ATXN7, AND THOC7 GENES IN SMOKERS AND COPD GROUPS DESPITE THE CHANGES OBSERVED IN THE GENOME-WIDE ANALYSIS. CONCLUSIONS: OUR STUDY SUGGESTS THAT DNA METHYLATION IN SUGGESTIVE GENES, SUCH AS NOS1AP, BID, AND GABRB1 MAY BE USED AS EPIGENETIC SIGNATURES IN SMOKERS AND PATIENTS WITH COPD IF THE SAME IS VALIDATED IN A LARGER COHORT. FUTURE STUDIES ARE REQUIRED TO CORRELATE DNA METHYLATION STATUS WITH TRANSCRIPTOMICS OF SELECTIVE GENES IDENTIFIED IN THIS STUDY AND ELUCIDATE THEIR ROLE AND INVOLVEMENT IN THE PROGRESSION OF COPD AND ITS EXACERBATIONS. 2017 18 2766 41 EXPRESSION, POLYMORPHISM AND METHYLATION PATTERN OF INTERLEUKIN-6 IN PERIODONTAL TISSUES. PERIODONTITIS IS CONSIDERED AN INFLAMMATORY DISORDER OF BACTERIAL ETIOLOGY THAT RESULTS IN PERIODONTAL TISSUE DESTRUCTION, AS A RESULT OF COMPLEX INTERACTIONS BETWEEN PERIODONTAL PATHOGENS, HOST AND IMMUNE RESPONSE. GENETIC AND EPIGENETIC MECHANISMS MAY MODULATE THE INDIVIDUAL RESPONSE SINCE IT IS ABLE TO INFLUENCE THE GENE EXPRESSION. THE AIM OF THIS STUDY WAS TO EVALUATE THE IMPACT OF -174 G/C POLYMORPHISM AND THE METHYLATION STATUS OF THE PROMOTER REGION OF IL-6 GENE ON THE EXPRESSION OF IL-6 IN GINGIVAL SAMPLES FROM INDIVIDUALS WITH CHRONIC PERIODONTITIS. GINGIVAL BIOPSIES WERE COLLECTED FROM 21 PATIENTS WITH CHRONIC PERIODONTITIS AND 21 CONTROLS. HISTOLOGIC SECTIONS STAINED BY HEMATOXYLIN-EOSIN WERE USED FOR HISTOPATHOLOGICAL EVALUATION. THE IL-6 GENE EXPRESSION WAS ASSESSED BY QUANTITATIVE REAL-TIME PCR. THE POLYMORPHISM IL-6 -174 C/G WAS STUDIED BY POLYMERASE CHAIN REACTION (PCR) AMPLIFICATION AND RESTRICTION ENDONUCLEASE DIGESTION (HSPII). METHYLATION-SPECIFIC POLYMERASE CHAIN REACTION WAS USED TO VERIFY THE DNA METHYLATION PATTERN. THE NUMBER OF INFLAMMATORY CELLS IN TISSUE FRAGMENTS FROM INDIVIDUALS WITH CHRONIC PERIODONTITIS WAS HIGHER THAN IN THE CONTROL GROUP AND THE INFLAMMATORY INFILTRATE WAS PREDOMINANTLY MONONUCLEAR. THE EXPRESSION OF IL-6 WAS HIGHER IN THE GROUP WITH PERIODONTITIS. IN POLYMORPHISM ASSAY, NO STATISTICAL DIFFERENCE IN THE DISTRIBUTION OF GENOTYPES AND ALLELES IN BOTH GROUPS WERE OBSERVED. THE MOST OF SAMPLES WERE PARTIALLY METHYLATED. NO DIFFERENCE WAS OBSERVED IN METHYLATION PATTERN FROM TWO DIFFERENT REGIONS OF THE IL-6 GENE AMONG GROUPS. THE HIGH EXPRESSION OF IL-6 IS AN IMPORTANT FACTOR RELATED TO CHRONIC PERIODONTITIS, BUT WAS NOT ASSOCIATED WITH METHYLATION STATUS OR THE -174 (G/C) GENETIC POLYMORPHISM, SUGGESTING THAT OTHER MECHANISMS ARE INVOLVED IN THIS GENE TRANSCRIPTION REGULATION. 2013 19 1528 34 DNA METHYLATION CHANGES IN REGIONAL LUNG MACROPHAGES ARE ASSOCIATED WITH METABOLIC DIFFERENCES. A NUMBER OF PULMONARY DISEASES OCCUR WITH UPPER LOBE PREDOMINANCE, INCLUDING CYSTIC FIBROSIS AND SMOKING-RELATED CHRONIC OBSTRUCTIVE PULMONARY DISEASE. IN THE HEALTHY LUNG, SEVERAL PHYSIOLOGIC AND METABOLIC FACTORS EXHIBIT DISPARITY WHEN COMPARING THE UPPER LOBE OF THE LUNG TO LOWER LOBE, INCLUDING DIFFERENCES IN OXYGENATION, VENTILATION, LYMPHATIC FLOW, PH, AND BLOOD FLOW. IN THIS STUDY, WE ASKED WHETHER THESE REGIONAL DIFFERENCES IN THE LUNG ARE ASSOCIATED WITH DNA METHYLATION CHANGES IN LUNG MACROPHAGES THAT COULD POTENTIALLY LEAD TO ALTERED CELL RESPONSIVENESS UPON SUBSEQUENT ENVIRONMENTAL CHALLENGE. ALL ANALYSES WERE PERFORMED USING PRIMARY LUNG MACROPHAGES COLLECTED VIA BRONCHOALVEOLAR LAVAGE FROM HEALTHY HUMAN SUBJECTS WITH NORMAL PULMONARY FUNCTION. EPIGENOME-WIDE DNA METHYLATION WAS EXAMINED VIA INFINIUM METHYLATIONEPIC (850K) ARRAY AND VALIDATED BY TARGETED NEXT-GENERATION BISULFITE SEQUENCING. WE OBSERVED 95 CPG LOCI WITH SIGNIFICANT DIFFERENTIAL METHYLATION IN LUNG MACROPHAGES, COMPARING UPPER LOBE TO LOWER LOBE (ALL FALSE DISCOVERY RATE < 0.05). SEVERAL OF THESE GENES, INCLUDING CLIP4, HSH2D, NR4A1, SNX10, AND TYK2, HAVE BEEN IMPLICATED AS PARTICIPANTS IN INFLAMMATORY/IMMUNE-RELATED BIOLOGICAL PROCESSES. FUNCTIONALLY, WE IDENTIFIED PHENOTYPIC DIFFERENCES IN OXYGEN USE, COMPARING UPPER VERSUS LOWER LUNG MACROPHAGES. OUR RESULTS SUPPORT A HYPOTHESIS THAT EPIGENETIC CHANGES, SPECIFICALLY DNA METHYLATION, AT A MULTITUDE OF GENE LOCI IN LUNG MACROPHAGES ARE ASSOCIATED WITH METABOLIC DIFFERENCES REGIONALLY IN LUNG. 2019 20 3758 41 INTEGRATED MRNA AND MICRORNA TRANSCRIPTOME PROFILING DURING DIFFERENTIATION OF HUMAN NASAL POLYP EPITHELIUM REVEALS AN ALTERED CILIOGENESIS. BACKGROUND: HUMAN ADULT BASAL STEM/PROGENITOR CELLS (BSCS) OBTAINED FROM CHRONIC RHINOSINUSITIS WITH NASAL POLYPS (CRSWNP) WHEN DIFFERENTIATED IN AN AIR-LIQUID INTERFACE (ALI) USUALLY PROVIDE A PSEUDOSTRATIFIED AIRWAY EPITHELIUM WITH SIMILAR ABNORMALITIES THAN ORIGINAL IN VIVO PHENOTYPE. HOWEVER, THE INTRINSIC MECHANISMS REGULATING THIS COMPLEX PROCESS ARE NOT WELL DEFINED AND THEIR UNDERSTANDING COULD OFFER POTENTIAL NEW THERAPIES FOR CRSWNP (INCURABLE DISEASE). METHODS: WE PERFORMED A TRANSCRIPTOME-WIDE ANALYSIS DURING IN VITRO MUCOCILIARY DIFFERENTIATION OF HUMAN ADULT BSCS FROM CRSWNP, COMPARED TO THOSE ISOLATED FROM CONTROL NASAL MUCOSA (CONTROL-NM), IN ORDER TO IDENTIFY WHICH KEY MRNA AND MICRORNAS ARE REGULATING THIS COMPLEX PROCESS IN PATHOLOGICAL AND HEALTHY CONDITIONS. RESULTS: A NUMBER OF GENES, MIRS, BIOLOGICAL PROCESSES, AND PATHWAYS WERE IDENTIFIED DURING MUCOCILIARY DIFFERENTIATION OF BOTH CRSWNP AND CONTROL-NM EPITHELIA, AND NOTABLY, WE HAVE DEMONSTRATED FOR THE FIRST TIME THAT GENETIC TRANSCRIPTIONAL PROGRAM RESPONSIBLE OF CILIOGENESIS AND CILIA FUNCTION IS SIGNIFICANTLY IMPAIRED IN CRSWNP EPITHELIUM, PRESUMABLY PRODUCED BY AN ALTERED EXPRESSION OF MICRORNAS, PARTICULARLY OF THOSE MIRS BELONGING TO MIR-34 AND MI-449 FAMILIES. CONCLUSIONS: THIS STUDY PROVIDES FOR THE FIRST TIME A NOVEL INSIGHT INTO THE MOLECULAR BASIS OF SINONASAL MUCOCILIARY DIFFERENTIATION, DEMONSTRATING THAT TRANSCRIPTOME RELATED TO CILIOGENESIS AND CILIA FUNCTION IS SIGNIFICANTLY IMPAIRED DURING DIFFERENTIATION OF CRSWNP EPITHELIUM DUE TO AN ALTERED EXPRESSION OF MICRORNAS. 2020