1 2406 146 EPIGENETIC RESPONSES TO RHINOVIRUS EXPOSURE IN AIRWAY EPITHELIAL CELLS ARE CORRELATED WITH KEY TRANSCRIPTIONAL PATHWAYS IN CHRONIC RHINOSINUSITIS. BACKGROUND: VIRUSES MAY DRIVE IMMUNE MECHANISMS RESPONSIBLE FOR CHRONIC RHINOSINUSITIS WITH NASAL POLYPOSIS (CRSWNP), BUT LITTLE IS KNOWN ABOUT THE UNDERLYING MOLECULAR MECHANISMS. OBJECTIVES: TO IDENTIFY EPIGENETIC AND TRANSCRIPTIONAL RESPONSES TO A COMMON UPPER RESPIRATORY PATHOGEN, RHINOVIRUS (RV), THAT ARE SPECIFIC TO PATIENTS WITH CRSWNP USING A PRIMARY SINONASAL EPITHELIAL CELL CULTURE MODEL. METHODS: AIRWAY EPITHELIAL CELLS WERE COLLECTED AT SURGERY FROM PATIENTS WITH CRSWNP (CASES) AND FROM CONTROLS WITHOUT SINUS DISEASE, CULTURED, AND THEN EXPOSED TO RV OR VEHICLE FOR 48 H. DIFFERENTIAL GENE EXPRESSION AND DNA METHYLATION (DNAM) BETWEEN CASES AND CONTROLS IN RESPONSE TO RV WERE DETERMINED USING LINEAR MIXED MODELS. WEIGHTED GENE CO-EXPRESSION ANALYSIS (WGCNA) WAS USED TO IDENTIFY (A) CO-REGULATED GENE EXPRESSION AND DNAM SIGNATURES, AND (B) GENES, PATHWAYS, AND REGULATORY MECHANISMS SPECIFIC TO CRSWNP. RESULTS: WE IDENTIFIED 5585 DIFFERENTIAL TRANSCRIPTIONAL AND 261 DNAM RESPONSES (FDR <0.10) TO RV BETWEEN CRSWNP CASES AND CONTROLS. THESE DIFFERENTIAL RESPONSES FORMED THREE CO-EXPRESSION/CO-METHYLATION MODULES THAT WERE RELATED TO CRSWNP AND THREE THAT WERE RELATED TO RV (BONFERRONI CORRECTED P < .01). MOST (95%) OF THE DIFFERENTIALLY METHYLATED CPGS (DMCS) WERE IN MODULES RELATED TO CRSWNP, WHEREAS THE DIFFERENTIALLY EXPRESSED GENES (DEGS) WERE MORE EQUALLY DISTRIBUTED BETWEEN THE CRSWNP- AND RV-RELATED MODULES. GENES IN THE CRSWNP-RELATED MODULES WERE ENRICHED IN KNOWN CRS AND/OR VIRAL RESPONSE IMMUNE PATHWAYS. CONCLUSION: RV ACTIVATES SPECIFIC EPIGENETIC PROGRAMS AND CORRELATED TRANSCRIPTIONAL NETWORKS IN THE SINONASAL EPITHELIUM OF INDIVIDUALS WITH CRSWNP. THESE NOVEL OBSERVATIONS SUGGEST EPIGENETIC SIGNATURES SPECIFIC TO PATIENTS WITH CRSWNP MODULATE RESPONSE TO VIRAL PATHOGENS AT THE MUCOSAL ENVIRONMENTAL INTERFACE. DETERMINING HOW VIRAL RESPONSE PATHWAYS ARE INVOLVED IN EPITHELIAL INFLAMMATION IN CRSWNP COULD LEAD TO THERAPEUTIC TARGETS FOR THIS BURDENSOME AIRWAY DISORDER. 2023 2 1129 39 COMPREHENSIVE ANALYSIS OF MRNA-LNCRNA CO-EXPRESSION PROFILES IN MOUSE BRAIN DURING INFECTION WITH TOXOPLASMA GONDII. TOXOPLASMA GONDII IS AN OBLIGATE INTRACELLULAR PROTOZOAN PARASITE WHICH SERIOUSLY THREATENS THE HEALTH OF DOMESTIC ANIMALS AND HUMANS. LONG NON-CODING RNAS (LNCRNAS) ARE NON-PROTEIN-CODING TRANSCRIPTS GREATER THAN 200 NUCLEOTIDES, WHICH ARE WIDELY INVOLVED IN TRANSCRIPTIONAL AND EPIGENETIC REGULATIONS. HOWEVER, LITTLE IS KNOWN ABOUT THE ROLES OF HOST LNCRNAS IN THE RESPONSE TO T. GONDII INFECTIONS. IN THIS STUDY, USING ILLUMINA SEQUENCING TECHNOLOGY, WE ANALYZED THE EXPRESSION PROFILES OF MRNAS AND LNCRNAS IN BALB/C MOUSE BRAIN FOLLOWING INFECTION BY T. GONDII PRU STRAIN (TYPE II GENOTYPE) CYSTS. THE IDENTIFIED DIFFERENTIALLY EXPRESSED (DE) RNAS WERE SUBJECTED TO BIOINFORMATICS ANALYSIS. A TOTAL OF 2,090 ANNOTATED LNCRNAS ALONG WITH 3,577 NOVEL LNCRNAS WERE IDENTIFIED. IN THE ACUTELY INFECTED MOUSE BRAIN, A TOTAL OF 330 MRNAS AND 19 LNCRNAS WERE DYS-REGULATED, WHEREAS 136 DE MRNAS AND 9 DE LNCRNAS WERE IDENTIFIED IN CHRONICALLY INFECTED MOUSE BRAIN. GO ANALYSIS REVEALED THAT THESE DE MRNAS IDENTIFIED AT ACUTE INFECTION STAGE WERE INVOLVED IN IMMUNE RESPONSE, WHEREAS DE MRNAS FOUND AT CHRONIC INFECTION STAGE WERE MOSTLY ENRICHED IN RESPONSE TO PROTOZOAN. KEGG ANALYSIS SHOWED THAT DE MRNAS WERE SIGNIFICANTLY ENRICHED IN DISEASE RELATED PATHWAYS. IN ADDITION, THE PUTATIVE MRNA-LNCRNA CO-EXPRESSION NETWORK WAS CONSTRUCTED, AND SEVERAL HUB REGULATORY RNAS WERE IDENTIFIED BASED ON THE TRANSCRIPTOME DATA. THIS STUDY FIRSTLY CHARACTERIZED THE CO-EXPRESSION PROFILE OF MRNAS AND LNCRNAS IN MOUSE BRAIN INFECTED WITH T. GONDII AND PROVIDED A FRAMEWORK FOR FURTHER STUDIES OF THE ROLES OF LNCRNAS IN HOST NEUROPATHOLOGY DURING TOXOPLASMOSIS PROGRESSION. 2023 3 3929 37 LIVER EPIGENOME CHANGES IN PATIENTS WITH HEPATOPULMONARY SYNDROME: A PILOT STUDY. THE HEPATOPULMONARY SYNDROME (HPS) IS DEFINED BY THE PRESENCE OF PULMONARY GAS EXCHANGE ABNORMALITIES DUE TO INTRAPULMONARY VASCULAR DILATATIONS IN PATIENTS WITH CHRONIC LIVER DISEASE. CHANGES IN DNA METHYLATION REFLECT THE GENOMIC VARIATION. SINCE LIVER TRANSPLANT (LT) REVERTS HPS WE HYPOTHESIZED THAT IT MAY BE ASSOCIATED WITH SPECIFIC LIVER EPIGENETIC CHANGES. THUS, THE AIM OF THIS STUDY WAS TO INVESTIGATE THE ROLE OF THE LIVER EPIGENOME IN PATIENTS WITH HPS. WE EXTRACTED DNA FROM PARAFFIN EMBEDDED LIVER TISSUE SAMPLES FROM 10 PATIENTS WITH HPS AND 10 AGE-, SEX- AND MELD (MODEL FOR END-STAGE LIVER DISEASE)-MATCHED CONTROLS. DNA METHYLATION WAS DETERMINED USING THE 850K ARRAY (ILLUMINA). WEIGHTED GENE CO-EXPRESSION NETWORK ANALYSIS (WGCNA) WAS USED TO IDENTIFY MODULES RELATED TO DEFINING PHYSIOLOGIC CHARACTERISTICS OF HPS. ONLY 12 OUT OF THE 20 LIVER BIOPSIES (7 HPS AND 5 CONTROLS) HAD SUFFICIENT QUALITY TO BE ANALYZED. NONE OF THE 802,688 DNA PROBES ANALYZED IN THE CASE CONTROL COMPARISON ACHIEVED A SIGNIFICANT FALSE DISCOVERY RATE (FDR). WGCNA IDENTIFIED 5 CO-METHYLATED GENE-MODULES ASSOCIATED TO HPS MARKERS, MAINLY RELATED TO NERVOUS AND NEUROENDOCRINE SYSTEM, APOPTOTIC PROCESSES, GUT BACTERIAL TRANSLOCATION, ANGIOGENESIS AND VASCULAR REMODELING ONTOLOGIES. TO CONCLUDE, HPS IS ASSOCIATED WITH NERVOUS/NEUROENDOCRINE SYSTEM AND VASCULAR REMODELING RELATED LIVER EPIGENETIC CHANGES. 2021 4 3070 44 GENOME-WIDE DNA METHYLATION PROFILING IN CD8 T-CELLS AND GAMMA DELTA T-CELLS OF ASIAN INDIAN PATIENTS WITH TAKAYASU ARTERITIS. BACKGROUND: TAKAYASU'S ARTERITIS (TA) IS A CHRONIC INFLAMMATORY DISEASE THAT AFFECTS AORTA AND ITS MAIN BRANCHES AT THEIR ORIGIN. GENETIC, PATHOLOGICAL AND FUNCTIONAL STUDIES HAVE SHOWN THAT CD8 AND GAMMA DELTA (GAMMA/DELTA) T-LYMPHOCYTES ARE INVOLVED IN INFLAMMATORY PROCESSES IN AFFECTED REGIONS OF ARTERIES CAUSING VASCULAR DAMAGE. THE MOLECULAR FUNCTION OF THESE LYMPHOCYTES REMAINS UNCLEAR AND CURRENTLY NO EPIGENETIC STUDIES ARE AVAILABLE IN TA. WE PRIMARILY PERFORMED GENOME WIDE METHYLATION ANALYSIS IN CD8 T CELLS AND GAMMADELTA T CELLS OF PATIENTS WITH TA AND COMPARED WITH HEALTHY CONTROLS. METHODS: WE RECRUITED 12 SUBJECTS IN EACH GROUP NAMELY TA PATIENT AND HEALTHY CONTROLS. BLOOD SAMPLES WERE COLLECTED AFTER OBTAINING INFORMED WRITTEN CONSENT. CD8 T CELLS AND GAMMADELTA T CELLS WERE SEPARATED FROM WHOLE BLOOD. DNA EXTRACTED FROM THESE CELLS AND WERE SUBJECTED TO BISULFITE TREATMENT. FINALLY, BISULFITE TREATED DNA WAS LOADED IN INFINIUM METHYLATION EPIC ARRAY. BIOINFORMATICS ANALYSIS WAS USED TO IDENTIFY DIFFERENTIAL METHYLATION REGIONS WHICH WERE THEN MAPPED TO GENES. RESULTS: INTERLEUKIN (IL)-32 AND LYMPHOTOXIN-A WERE GENES SIGNIFICANTLY HYPOMETHYLATED IN CD8 T-CELLS. ANTI-INFLAMMATORY CYTOKINE GENES, IL-10, IL-1RN AND IL-27 WERE HYPOMETHYLATED IN GAMMADELTA T CELLS OF TA PATIENTS AS COMPARED TO HEALTHY CONTROLS. GENE ENRICHMENT ANALYSIS USING GENE ONTOLOGY (GO) DATABASE AND KYOTO ENCYCLOPAEDIA OF GENES AND GENOMES (KEGG) IDENTIFIED THAT GENES INVOLVED IN T-CELL RECEPTOR SIGNALLING PATHWAYS WERE HYPOMETHYLATED IN CD8 T-CELLS AND HYPERMETHYLATED IN GAMMADELTA T CELLS OF TA PATIENTS. CONCLUSION: CD8 T-CELLS MIGHT PLAY A MAJOR ROLE IN IMMUNOPATHOGENESIS OF INFLAMMATION IN TA, WHEREAS GAMMADELTA T CELLS MAY PLAY A REGULATORY ROLE. 2022 5 3755 40 INTEGRATED BIOINFORMATICS ANALYSIS UNCOVERS CHARACTERISTIC GENES AND MOLECULAR SUBTYPING SYSTEM FOR ENDOMETRIOSIS. OBJECTIVE: ENDOMETRIOSIS IS A CHRONIC INFLAMMATORY ESTROGEN-DEPENDENT DISEASE WITH THE GROWTH OF ENDOMETRIAL TISSUES OUTSIDE THE UTERINE CAVITY. NEVERTHELESS, THE ETIOLOGY OF ENDOMETRIOSIS IS STILL UNCLEAR. INTEGRATED BIOINFORMATICS ANALYSIS WAS IMPLEMENTED TO REVEAL THE MOLECULAR MECHANISMS UNDERLYING THIS DISEASE. METHODS: A TOTAL OF FOUR GENE EXPRESSION DATASETS (GSE7305, GSE11691, GSE23339, AND GSE25628) WERE RETRIEVED FROM THE GEO, WHICH WERE MERGED INTO A META-DATASET, FOLLOWED BY THE REMOVAL OF BATCH EFFECTS VIA THE SVA PACKAGE. WEIGHTED GENE CO-EXPRESSION NETWORK ANALYSIS (WGCNA) WAS IMPLEMENTED, AND ENDOMETRIOSIS-RELATED GENES WERE SCREENED UNDER NORMAL AND ENDOMETRIOSIS CONDITIONS. THEREAFTER, CHARACTERISTIC GENES WERE DETERMINED VIA LASSO ANALYSIS. THE DIAGNOSTIC PERFORMANCE WAS ESTIMATED VIA RECEIVER OPERATING CHARACTERISTIC CURVES, AND EPIGENETIC AND POST-TRANSCRIPTIONAL MODIFICATIONS WERE ANALYZED. SMALL MOLECULAR COMPOUNDS WERE PREDICTED. UNSUPERVISED CLUSTERING ANALYSIS WAS CONDUCTED VIA NON-NEGATIVE MATRIX FACTORIZATION ALGORITHM. THE ENRICHED PATHWAYS WERE ANALYZED VIA GENE SET ENRICHMENT ANALYSIS OR GSVA. IMMUNE FEATURES WERE EVALUATED ACCORDING TO IMMUNE-CHECKPOINTS, HLA, RECEPTORS, CHEMOKINES, AND IMMUNE CELLS. RESULTS: IN TOTAL, FOUR CHARACTERISTIC GENES (BGN, AQP1, ELMO1, AND DDR2) WERE DETERMINED FOR ENDOMETRIOSIS, ALL OF WHICH EXHIBITED THE FAVORABLE EFFICACY IN DIAGNOSING ENDOMETRIOSIS. THEIR ABERRANT LEVELS WERE MODULATED BY EPIGENETIC AND POST-TRANSCRIPTIONAL MODIFICATIONS. IN TOTAL, 51 POTENTIAL DRUGS WERE PREDICTED AGAINST ENDOMETRIOSIS. THE CHARACTERISTIC GENES EXHIBITED REMARKABLE ASSOCIATIONS WITH IMMUNOLOGICAL FUNCTION. THREE SUBTYPES WERE CLASSIFIED ACROSS ENDOMETRIOSIS, WITH DIFFERENT MECHANISMS AND IMMUNE FEATURES. CONCLUSION: OUR STUDY REVEALS THE CHARACTERISTIC GENES AND NOVEL MOLECULAR SUBTYPING OF ENDOMETRIOSIS, CONTRIBUTING TO THE EARLY DIAGNOSIS AND INTERVENTION IN ENDOMETRIOSIS. 2022 6 3501 47 IDENTIFICATION OF POTENTIAL BIOMARKERS FOR SYSTEMIC LUPUS ERYTHEMATOSUS BY INTEGRATED ANALYSIS OF GENE EXPRESSION AND METHYLATION DATA. INTRODUCTION: SYSTEMIC LUPUS ERYTHEMATOSUS (SLE) IS A HETEROGENEOUS AND CHRONIC AUTOIMMUNE DISEASE. ABERRANT DNA METHYLATION OCCURS DURING VARIOUS PROCESSES OF SLE DEVELOPMENT REGULATING THE MRNA EXPRESSION OF INTERRELATED GENES. THIS STUDY AIMS TO SCREEN POTENTIAL DNA METHYLATION MARKERS FOR SLE. METHODS: GENE EXPRESSION AND METHYLATION DATASETS WERE DOWNLOADED FROM THE GENE EXPRESSION OMNIBUS (GEO) DATABASE. DIFFERENTIALLY EXPRESSED GENES (DEGS) BETWEEN SLE PATIENTS AND HEALTHY CONTROLS WERE SCREENED USING THE LIMMA R PACKAGE, AND DIFFERENTIALLY METHYLATED POSITIONS (DMPS) AND REGIONS (DMRS) WERE IDENTIFIED USING DMPFINDER AND BUMPHUNTER (MINFI). ADDITIONALLY, THE DNA METHYLATION MARKERS TO DISTINGUISH SLE PATIENTS FROM HEALTHY CONTROLS WERE EXPLORED THROUGH RECEIVER OPERATING CHARACTERISTIC (ROC) CURVES AND LOGISTIC REGRESSION ANALYSES. FINALLY, WE VALIDATED THE RESULTS OF THE BIOINFORMATIC ANALYSIS BY PYROSEQUENCING. RESULTS: IN TOTAL, 91 DEGS, 90,092 DMPS, 15 DMRS, AND 13 DMR-ASSOCIATED GENES WERE IDENTIFIED. THROUGH THE INTEGRATIVE ANALYSIS OF DEG- AND DMR-ASSOCIATED GENES, WE IDENTIFIED FIVE TYPE I INTERFERON (IFN)-RELATED GENES AS KEY EPIGENETIC-DRIVEN GENES IN SLE. GO ENRICHMENT ANALYSIS SHOWED THAT THE FIVE SLE-ASSOCIATED EPIGENETIC-DRIVEN GENES WERE MAINLY ENRICHED IN THE TYPE I IFN SIGNALING PATHWAY INVOLVED IN IMMUNE RESPONSE AND DEFENSE RESPONSE TO VIRUS. MOREOVER, WE IDENTIFIED TWO SLE-SPECIFIC DNA METHYLATION MARKERS, THREE SLE WITHOUT LUPUS NEPHRITIS (SLE-LN(-))-SPECIFIC DNA METHYLATION MARKERS, AND TWO SLE WITH LUPUS NEPHRITIS (SLE-LN(+))-SPECIFIC DNA METHYLATION MARKERS BY STEPWISE LOGISTIC REGRESSION. CONCLUSIONS: OVERALL, OUR STUDY DEMONSTRATES POTENTIAL DNA METHYLATION MARKERS OF SLE, SLE-LN(-), AND SLE-LN(+), WHICH MAY HELP THE DIAGNOSIS, BOOST THE DEVELOPMENT OF NEW EPIGENETIC THERAPY, AND CONTRIBUTE TO INDIVIDUALIZED TREATMENT. KEY POINTS * THIS STUDY IDENTIFIED FIVE TYPE I IFN-RELATED GENES AS KEY EPIGENETIC-DRIVEN GENES IN SLE, WHICH SUPPORT THE IMPORTANCE OF THE TYPE I IFN PATHWAY IN THE PATHOGENESIS OF SLE * WE IDENTIFIED NOVEL DNA METHYLATION BIOMARKERS IN SLE, SLE-LN-, AND SLE-LN+ BY A COMPREHENSIVE ANALYSIS OF BIOINFORMATICS METHODS AND EXECUTED EXPERIMENTAL VALIDATION, AND BINARY LOGISTIC REGRESSION ANALYSIS SHOWED THAT THEY HAVE EXCELLENT POTENTIAL * THESE RESULTS MAY PROVIDE NEW INSIGHTS INTO THE BIOLOGICAL MECHANISMS OF SLE, AND IDENTIFY RELIABLE BIOMARKERS FOR SLE, SLE-LN-, AND SLE-LN+, WHICH MAY CONTRIBUTE TO DIAGNOSIS AND INDIVIDUALIZED TREATMENT. 2023 7 2185 37 EPIGENETIC MECHANISMS UNDERLYING HIV-INFECTION INDUCED SUSCEPTIBILITY OF CD4+ T CELLS TO ENHANCED ACTIVATION-INDUCED FASL EXPRESSION AND CELL DEATH. BACKGROUND: CHRONIC IMMUNE ACTIVATION AND CD4 T CELL DEPLETION ARE SIGNIFICANT PATHOGENIC FEATURES OF HIV INFECTION. EXPRESSION OF FAS LIGAND (FASL), A KEY MEDIATOR OF ACTIVATION-INDUCED CELL DEATH IN T CELLS, IS ELEVATED IN PEOPLE LIVING WITH HIV-1 INFECTION (PLWH). HOWEVER, THE EPIGENETIC MECHANISMS UNDERLYING THE ENHANCED INDUCTION OF FASL EXPRESSION IN CD4 T LYMPHOCYTES IN PLWH ARE NOT COMPLETELY ELUCIDATED. HENCE, THE CURRENT WORK EXAMINED THE EFFECT OF HIV INFECTION ON FASL PROMOTER-ASSOCIATED HISTONE MODIFICATIONS AND TRANSCRIPTIONAL REGULATION IN CD4 T LYMPHOCYTES IN PLWH. METHOD: FLOW CYTOMETRIC ANALYSIS WAS PERFORMED TO EXAMINE THE FAS-FASL EXPRESSION ON TOTAL CD4 T CELLS AND NAIVE/MEMORY CD4 T CELL SUBSETS. EPIGENETIC FASL PROMOTER HISTONE MODIFICATIONS WERE INVESTIGATED BY CHROMATIN IMMUNOPRECIPITATION-QUANTITATIVE REAL-TIME POLYMERASE CHAIN REACTION ANALYSIS USING FRESHLY ISOLATED TOTAL CD4 T LYMPHOCYTES FROM HIV-1 INFECTED AND NONINFECTED INDIVIDUALS. RESULTS: ALL NAIVE/MEMORY CD4 T CELL SUBSETS FROM PLWH SHOWED MARKEDLY GREATER FREQUENCY OF FASL EXPRESSION. NOTABLY, EXAMINATION OF FUNCTIONAL OUTCOME OF FASL/FAS CO-EXPRESSION DEMONSTRATED THE PREFERENTIAL SUSCEPTIBILITY OF TCM AND TEM SUBSETS TO ACTIVATION-INDUCED APOPTOSIS. IMPORTANTLY, THESE CD4 T CELLS COLLECTIVELY DEMONSTRATED A DISTINCT FASL PROMOTER HISTONE PROFILE INVOLVING A COORDINATED CROSS-TALK BETWEEN HISTONE H3 MODIFICATIONS LEADING TO ENHANCED FASL GENE EXPRESSION. SPECIFICALLY, LEVELS OF TRANSCRIPTIONALLY PERMISSIVE HISTONE H3K4-TRIMETHYLATION (H3K4ME3) AND HISTONE H3K9-ACETYLATION (H3K9AC) WERE INCREASED, WITH A CONCOMITANT DECREASE IN THE REPRESSIVE H3K9-TRIMETHYLATION (H3K9ME3). CONCLUSION: THE PRESENT WORK DEMONSTRATES THAT EPIGENETIC MECHANISMS INVOLVING PROMOTER-HISTONE MODIFICATIONS REGULATE TRANSCRIPTIONAL COMPETENCE AND FASL EXPRESSION IN CD4 T CELLS FROM PLWH AND RENDER THEM SUSCEPTIBLE TO ACTIVATION-INDUCED CELL DEATH. 2021 8 3075 48 GENOME-WIDE EPIGENETIC STUDY OF CHRONIC RHINOSINUSITIS TISSUES REVEALS DYSREGULATED INFLAMMATORY, IMMUNOLOGIC AND REMODELING PATHWAYS. BACKGROUND: EPIGENETICS STUDIES MECHANISMS SUCH AS DNA METHYLATION, HISTONE MODIFICATIONS, NON-CODING RNAS, AND ALTERNATIVE POLYADENYLATION THAT CAN MODIFY GENE ACTIVITY WITHOUT CHANGING THE UNDERLYING DNA NUCLEOTIDE BASE-PAIR STRUCTURE. BECAUSE THESE CHANGES ARE REVERSIBLE, THEY HAVE POTENTIAL IN DEVELOPING NOVEL THERAPEUTICS. CURRENTLY, SEVEN PHARMACEUTICAL AGENTS TARGETING EPIGENETIC CHANGES ARE FDA APPROVED AND COMMERCIALLY AVAILABLE FOR TREATMENT OF CERTAIN CANCERS. HOWEVER, STUDIES INVESTIGATING EPIGENETICS IN CHRONIC RHINOSINUSITIS (CRS) HAVE NOT BEEN UNDERTAKEN PREVIOUSLY IN THE UNITED STATES. OBJECTIVES: THE GOAL OF THIS STUDY WAS TO INVESTIGATE SINONASAL DNA METHYLATION PATTERNS IN CRS VERSUS CONTROLS, TO DISCERN ENVIRONMENTALLY-INDUCED EPIGENETIC CHANGES IMPACTING CRS SUBJECTS. METHODS AND RESULTS: ETHMOIDAL SAMPLES FROM CRS AND INFERIOR TURBINATE MUCOSAL TISSUE SAMPLES FROM CONTROLS WITHOUT CRS WERE STUDIED. DNA METHYLATION WAS STUDIED BY REDUCED REPRESENTATION BISULFITE SEQUENCING. RADMETH(R) BIOSTATISTICAL PACKAGE WAS USED TO IDENTIFY DIFFERENTIALLY METHYLATED REGIONS (DMRS) BETWEEN CRS AND CONTROLS. INGENUITY PATHWAY ANALYSIS OF DMRS WAS PERFORMED TO IDENTIFY TOP UPSTREAM REGULATORS AND CANONICAL PATHWAYS. NINETY-THREE SAMPLES FROM 64 CRS SUBJECTS (36 CRSWNP; 28 CRSSNP) AND 29 CONTROLS WERE STUDIED. CRS AND CONTROL SAMPLES DIFFERED IN 13 662 CPGS SITES AND 1381 DMRS. TOP UPSTREAM REGULATORS IDENTIFIED INCLUDED: 1. CRS VERSUS CONTROLS: TGFB1, TNF, TP53, DGCR8, AND BETA-ESTRADIOL. 2. CRSWNP VERSUS CONTROLS: TGFB1, CTNNB1, LIPOPOLYSACCHARIDE, ID2, AND TCF7L2. 3. CRSSNP VERSUS CONTROLS: MYOD1, ACETONE, ID2, ST8SIA4, AND LEPR. CONCLUSIONS: DIFFERENTIAL PATTERNS OF METHYLATION WERE IDENTIFIED BETWEEN CONTROLS AND CRS, CRSWNP, AND CRSSNP. EPIGENETIC, ENVIRONMENTALLY-INDUCED CHANGES RELATED TO NOVEL, INFLAMMATORY, IMMUNOLOGIC, AND REMODELING PATHWAYS APPEAR TO AFFECT EPITHELIAL INTEGRITY, CELL PROLIFERATION, HOMEOSTASIS, VASCULAR PERMEABILITY, AND OTHER YET UNCHARACTERIZED PATHWAYS AND GENES. 2023 9 408 47 ANALYSIS OF GENE EXPRESSION AND METHYLATION DATASETS IDENTIFIED ADAMTS9, FKBP5, AND PFKBF3 AS BIOMARKERS FOR OSTEOARTHRITIS. BACKGROUND: OSTEOARTHRITIS (OA) IS A KIND OF CHRONIC OSTEOARTHROPATHY AND DEGENERATIVE JOINT DISEASE. EPIGENETIC REGULATION IN THE GENE EXPRESSION DYNAMICS HAS BECOME INCREASINGLY IMPORTANT IN OA. WE PERFORMED A COMBINED ANALYSIS OF TWO TYPES OF MICROARRAY DATASETS (GENE EXPRESSION AND DNA METHYLATION) TO IDENTIFY METHYLATION-BASED KEY BIOMARKERS TO PROVIDE A BETTER UNDERSTANDING OF MOLECULAR BIOLOGICAL MECHANISMS OF OA. METHODS: WE OBTAINED TWO EXPRESSION PROFILING DATASETS (GSE55235, GSE55457) AND ONE DNA METHYLATION PROFILING DATA SET (GSE63695) FROM THE GENE EXPRESSION OMNIBUS. FIRST, DIFFERENTIALLY EXPRESSED GENES (DEGS) BETWEEN PATIENTS WITH OA AND CONTROLS WERE IDENTIFIED USING THE LIMMA PACKAGE IN R(V3.4.4). THEN, FUNCTION ENRICHMENT ANALYSIS OF DEGS WAS PERFORMED USING A DAVID DATABASE. FOR DNA METHYLATION DATASETS, CHAMP METHYLATION ANALYSIS PACKAGE WAS USED TO IDENTIFY DIFFERENTIAL METHYLATION GENES (DMGS). FINALLY, A COMPREHENSIVE ANALYSIS OF DEGS AND DMGS WAS CONDUCTED TO IDENTIFY GENES THAT EXHIBITED DIFFERENTIAL EXPRESSION AND METHYLATION SIMULTANEOUSLY. RESULTS: WE IDENTIFIED 112 DEGS AND 2,896 DMGS IN PATIENTS WITH OA COMPARED WITH CONTROLS. FUNCTIONAL ANALYSIS OF DEGS OBTAINED THAT INFLAMMATORY RESPONSES, IMMUNE RESPONSES, AND POSITIVE REGULATION OF APOPTOSIS, TUMOR NECROSIS FACTOR (TNF) SIGNALING PATHWAY, AND OSTEOCLAST DIFFERENTIATION MAY BE INVOLVED IN THE PATHOGENESIS OF OA. CROSS-ANALYSIS REVEALED 26 GENES THAT EXHIBITED DIFFERENTIAL EXPRESSION AND METHYLATION IN OA. AMONG THEM, ADAMTS9, FKBP5, AND PFKBF3 WERE IDENTIFIED AS VALUABLE METHYLATION-BASED BIOMARKERS FOR OA. CONCLUSION: IN SUMMARY, OUR STUDY IDENTIFIED DIFFERENT MOLECULAR FEATURES BETWEEN PATIENTS WITH OA AND CONTROLS. THIS MAY PROVIDE NEW CLUES FOR CLARIFYING THE PATHOGENETIC MECHANISMS OF OA. 2019 10 972 37 CHRONIC OBSTRUCTIVE PULMONARY DISEASE IS ASSOCIATED WITH EPIGENOME-WIDE DIFFERENTIAL METHYLATION IN BAL LUNG CELLS. DNA METHYLATION PATTERNS IN CHRONIC PULMONARY OBSTRUCTIVE DISEASE (COPD) MIGHT OFFER NEW INSIGHTS INTO DISEASE PATHOGENESIS. TO ASSESS METHYLATION PROFILES IN THE MAIN COPD TARGET ORGAN, WE PERFORMED AN EPIGENOME-WIDE ASSOCIATION STUDY ON BAL CELLS. BRONCHOSCOPIES WERE PERFORMED IN 18 SUBJECTS WITH COPD AND 15 CONTROL SUBJECTS (EX- AND CURRENT SMOKERS). DNA METHYLATION WAS MEASURED USING THE ILLUMINA METHYLATIONEPIC BEADCHIP KIT, COVERING MORE THAN 850,000 CPGS. DIFFERENTIALLY METHYLATED POSITIONS (DMPS) WERE EXAMINED FOR 1) ENRICHMENT IN PATHWAYS AND FUNCTIONAL GENE RELATIONSHIPS USING THE KYOTO ENCYCLOPEDIA OF GENES AND GENOMES AND GENE ONTOLOGY, 2) ACCELERATED AGING USING HORVATH'S EPIGENETIC CLOCK, 3) CORRELATION WITH GENE EXPRESSION, AND 4) COLOCALIZATION WITH GENETIC VARIATION. WE FOUND 1,155 BONFERRONI-SIGNIFICANT (P < 6.74 X 10(-8)) DMPS ASSOCIATED WITH COPD, MANY WITH LARGE EFFECT SIZES. FUNCTIONAL ANALYSIS IDENTIFIED BIOLOGICALLY PLAUSIBLE PATHWAYS AND GENE RELATIONSHIPS, INCLUDING ENRICHMENT FOR TRANSCRIPTION FACTOR ACTIVITY. STRONG CORRELATION WAS FOUND BETWEEN DNA METHYLATION AND CHRONOLOGICAL AGE BUT NOT BETWEEN COPD AND ACCELERATED AGING. FOR 79 UNIQUE DMPS, DNA METHYLATION CORRELATED SIGNIFICANTLY WITH GENE EXPRESSION IN BAL CELLS. THIRTY-NINE PERCENT OF DMPS WERE COLOCALIZED WITH COPD-ASSOCIATED SNPS. TO THE BEST OF OUR KNOWLEDGE, THIS IS THE FIRST EPIGENOME-WIDE ASSOCIATION STUDY OF COPD ON BAL CELLS, AND OUR ANALYSES REVEALED MANY DIFFERENTIAL METHYLATION SITES. INTEGRATION WITH MRNA DATA SHOWED A STRONG FUNCTIONAL READOUT FOR RELEVANT GENES, IDENTIFYING SITES WHERE DNA METHYLATION MIGHT DIRECTLY AFFECT EXPRESSION. ALMOST HALF OF DMPS WERE COLOCATED WITH SNPS IDENTIFIED IN PREVIOUS GENOME-WIDE ASSOCIATION STUDIES OF COPD, SUGGESTING JOINT GENETIC AND EPIGENETIC PATHWAYS RELATED TO DISEASE. 2022 11 1571 50 DNA METHYLATION PATTERNS IN CD8(+) T CELLS DISCERN PSORIASIS FROM PSORIATIC ARTHRITIS AND CORRELATE WITH CUTANEOUS DISEASE ACTIVITY. BACKGROUND: PSORIASIS IS A T CELL-MEDIATED CHRONIC AUTOIMMUNE/INFLAMMATORY DISEASE. WHILE SOME PATIENTS EXPERIENCE DISEASE LIMITED TO THE SKIN (SKIN PSORIASIS), OTHERS DEVELOP JOINT INVOLVEMENT (PSORIATIC ARTHRITIS; PSA). IN THE ABSENCE OF DISEASE- AND/OR OUTCOME-SPECIFIC BIOMARKERS, AND AS ARTHRITIS CAN PRECEDE SKIN MANIFESTATIONS, DIAGNOSTIC AND THERAPEUTIC DELAYS ARE COMMON AND CONTRIBUTE TO DISEASE BURDEN AND DAMAGE ACCRUAL. OBJECTIVE: ALTERED EPIGENETIC MARKS, INCLUDING DNA METHYLATION, CONTRIBUTE TO EFFECTOR T CELL PHENOTYPES AND ALTERED CYTOKINE EXPRESSION IN AUTOIMMUNE/INFLAMMATORY DISEASES. THIS PROJECT AIMED AT THE IDENTIFICATION OF DISEASE-/OUTCOME-SPECIFIC DNA METHYLATION SIGNATURES IN CD8(+) T CELLS FROM PATIENTS WITH PSORIASIS AND PSA AS COMPARED TO HEALTHY CONTROLS. METHOD: PERIPHERAL BLOOD CD8(+) T CELLS FROM NINE HEALTHY CONTROLS, 10 PSORIASIS, AND SEVEN PSA PATIENTS WERE COLLECTED TO ANALYZE DNA METHYLATION MARKS USING ILLUMINA HUMAN METHYLATION EPIC BEADCHIPS (>850,000 CPGS PER SAMPLE). BIOINFORMATIC ANALYSIS WAS PERFORMED USING R (MINFI, LIMMA, CHAMP, AND DMRCATE PACKAGES). RESULTS: DNA METHYLATION PROFILES IN CD8(+) T CELLS DIFFERENTIATE HEALTHY CONTROLS FROM PSORIASIS PATIENTS [397 DIFFERENTIALLY METHYLATED POSITIONS (DMPS); 9 DIFFERENTIALLY METHYLATED REGIONS (DMRS) WHEN >/=CPGS PER DMR WERE CONSIDERED; 2 DMRS FOR >/=10 CPGS]. FURTHERMORE, PATIENTS WITH SKIN PSORIASIS CAN BE DISCRIMINATED FROM PSA PATIENTS [1,861 DMPS, 20 DMRS (>/=5 CPGS PER REGION), 4 DMRS (>/=10 CPGS PER REGION)]. GENE ONTOLOGY (GO) ANALYSES CONSIDERING GENES WITH >/=1 DMP IN THEIR PROMOTER DELIVERED METHYLATION DEFECTS IN SKIN PSORIASIS AND PSA PRIMARILY AFFECTING THE BMP SIGNALING PATHWAY AND ENDOPEPTIDASE REGULATOR ACTIVITY, RESPECTIVELY. GO ANALYSIS OF GENES ASSOCIATED WITH DMRS BETWEEN SKIN PSORIASIS AND PSA DEMONSTRATED AN ENRICHMENT OF GABAERGIC NEURON AND CORTEX NEURON DEVELOPMENT PATHWAYS. TREATMENT WITH CYTOKINE BLOCKERS ASSOCIATED WITH DNA METHYLATION CHANGES [2,372 DMPS; 1,907 DMPS WITHIN PROMOTERS, 7 DMRS (>/=5 CPG PER REGIONS)] AFFECTING TRANSFORMING GROWTH FACTOR BETA RECEPTOR AND TRANSMEMBRANE RECEPTOR PROTEIN SERINE/THREONINE KINASE SIGNALING PATHWAYS. LASTLY, A METHYLATION SCORE INCLUDING TNF AND IL-17 PATHWAY ASSOCIATED DMPS INVERSE CORRELATES WITH SKIN DISEASE ACTIVITY SCORES (PASI). CONCLUSION: PATIENTS WITH SKIN PSORIASIS EXHIBIT DNA METHYLATION PATTERNS IN CD8(+) T CELLS THAT ALLOW DIFFERENTIATION FROM PSA PATIENTS AND HEALTHY INDIVIDUALS, AND REFLECT CLINICAL ACTIVITY OF SKIN DISEASE. THUS, DNA METHYLATION PROFILING PROMISES POTENTIAL AS DIAGNOSTIC AND PROGNOSTIC TOOL TO BE USED FOR MOLECULAR PATIENT STRATIFICATION TOWARD INDIVIDUALIZED TREATMENT. 2021 12 5120 30 POSSIBLE EPIGENETIC REGULATORY EFFECT OF DYSREGULATED CIRCULAR RNAS IN EPILEPSY. CIRCULAR RNAS (CIRCRNAS) INVOLVE IN THE EPIGENETIC REGULATION AND ITS MAJOR MECHANISM IS THE SEQUESTRATION OF THE TARGET MICRO RNAS (MIRNAS). WE HYPOTHESIZED THAT CIRCRNAS MIGHT BE RELATED WITH THE PATHOPHYSIOLOGY OF CHRONIC EPILEPSY AND EVALUATED THE ALTERED CIRCRNA EXPRESSIONS AND THEIR POSSIBLE REGULATORY EFFECTS ON THEIR TARGET MIRNAS AND MRNAS IN A MOUSE EPILEPSY MODEL. THE CIRCRNA EXPRESSION PROFILE IN THE HIPPOCAMPUS OF THE PILOCARPINE MICE WAS ANALYZED AND COMPARED WITH CONTROL. THE CORRELATION BETWEEN THE EXPRESSION OF MIRNA BINDING SITES (MIRNA RESPONSE ELEMENTS, MRE) IN THE DYSREGULATED CIRCRNAS AND THE EXPRESSION OF THEIR TARGET MIRNAS WAS EVALUATED. AS MIRNAS ALSO INHIBIT THEIR TARGET MRNAS, CIRCRNA-MIRNA-MRNA REGULATORY NETWORK, COMPRISED OF DYSREGULATED RNAS THAT TARGETS ONE ANOTHER WERE SEARCHED. FOR THE IDENTIFIED NETWORKS, BIOINFORMATICS ANALYSES WERE PERFORMED. AS THE RESULT, FORTY-THREE CIRCRNAS WERE DYSREGULATED IN THE HIPPOCAMPUS (UP-REGULATED, 26; DOWN-REGULATED, 17). THE CHANGE IN THE EXPRESSION OF MRE IN THOSE CIRCRNAS NEGATIVELY CORRELATED WITH THE CHANGE IN THE RELEVANT TARGET MIRNA EXPRESSION (R = -0.461, P<0.001), SUPPORTING THAT CIRCRNAS INHIBIT THEIR TARGET MIRNA. 333 DYSREGULATED CIRCRNA-MIRNA-MRNA NETWORKS WERE IDENTIFIED. GENE ONTOLOGY AND PATHWAY ANALYSES DEMONSTRATED THAT THE UP-REGULATED MRNAS IN THOSE NETWORKS WERE CLOSELY RELATED TO THE MAJOR PROCESSES IN EPILEPSY. AMONG THEM, STRING ANALYSIS IDENTIFIED 37 KEY MRNAS WITH ABUNDANT (>/=4) INTERACTIONS WITH OTHER DYSREGULATED TARGET MRNAS. THE DYSREGULATION OF THE CIRCRNAS WHICH HAD MULTIPLE INTERACTIONS WITH KEY MRNAS WERE VALIDATED BY PCR. WE CONCLUDED THAT DYSREGULATED CIRCRNAS MIGHT HAVE A PATHOPHYSIOLOGIC ROLE IN CHRONIC EPILEPSY BY REGULATING MULTIPLE DISEASE RELEVANT MRNAS VIA CIRCRNA-MIRNA-MRNA INTERACTIONS. 2018 13 1718 34 DYSREGULATED LONG NON-CODING RNAS IN THE TEMPORAL LOBE EPILEPSY MOUSE MODEL. PURPOSE: TO PERFORM COMPREHENSIVE PROFILING OF LONG NON-CODING RNAS (LNCRNAS) IN TEMPORAL LOBE EPILEPSY. METHODS: WE PERFORMED EXTENSIVE PROFILING OF LNCRNAS AND MRNAS IN THE MOUSE PILOCARPINE MODEL IN SPECIFIC BRAIN REGIONS, THE HIPPOCAMPUS AND CORTEX, AND COMPARED THE RESULTS TO THOSE OF THE CONTROL MOUSE. DIFFERENTIALLY EXPRESSED LNCRNAS AND MRNAS WERE IDENTIFIED WITH A MICROARRAY ANALYSIS (ARRAYSTAR MOUSE LNCRNA EXPRESSION MICROARRAY V3.0). THEN, GENE ONTOLOGY (GO) AND PATHWAY ANALYSIS WERE PERFORMED TO INVESTIGATE THE POTENTIAL ROLES OF THE DIFFERENTIALLY EXPRESSED MRNAS IN THE PILOCARPINE MODEL. PROTEIN-PROTEIN INTERACTIONS TRANSCRIBED BY DYSREGULATED MRNAS WITH/WITHOUT CO-DYSREGULATED LNCRNAS WERE ANALYZED USING STRING V10 (HTTP://STRING-DB.ORG/). RESULTS: A TOTAL OF 22 AND 83 LNCRNAS WERE UP- AND DOWN-REGULATED (>/=2.0-FOLD, ALL P < .05), RESPECTIVELY, IN THE HIPPOCAMPUS OF THE EPILEPSY MODEL, WHILE 46 AND 659 LNCRNAS WERE UP- AND DOWN-REGULATED, RESPECTIVELY, IN THE CORTEX OF THE EPILEPSY MODEL. GO AND PATHWAY ANALYSIS REVEALED THAT THE DYSREGULATED MRNAS WERE CLOSELY ASSOCIATED WITH A PROCESS ALREADY KNOWN TO BE INVOLVED IN EPILEPTOGENESIS: ACUTE INFLAMMATION, CALCIUM ION REGULATION, EXTRACELLULAR MATRIX REMODELING, AND NEURONAL DIFFERENTIATION. AMONG THE LNCRNAS, WE IDENTIFIED 10 LNCRNAS COMMONLY DYSREGULATED WITH CORRESPONDING MRNAS IN THE CORTEX. THE STRING ANALYSIS SHOWED THAT THE DYSREGULATED MRNAS WERE INTERCONNECTED AROUND TWO CENTERS: THE MTOR PATHWAY-RELATED GENES AND REST PATHWAY-RELATED GENES. CONCLUSION: LNCRNAS WERE DYSREGULATED IN THE PILOCARPINE MOUSE MODEL ACCORDING TO THE BRAIN REGIONS OF THE HIPPOCAMPUS AND CORTEX. THE DYSREGULATED LNCRNAS WITH CO-DYSREGULATED MRNAS MIGHT BE POSSIBLE THERAPEUTIC TARGETS FOR THE EPIGENETIC REGULATION OF CHRONIC EPILEPSY. 2018 14 2418 46 EPIGENETIC SIGNATURE OF CHRONIC LOW BACK PAIN IN HUMAN T CELLS. OBJECTIVE: DETERMINE IF CHRONIC LOW BACK PAIN (LBP) IS ASSOCIATED WITH DNA METHYLATION SIGNATURES IN HUMAN T CELLS THAT WILL REVEAL NOVEL MECHANISMS AND POTENTIAL THERAPEUTIC TARGETS AND EXPLORE THE FEASIBILITY OF EPIGENETIC DIAGNOSTIC MARKERS FOR PAIN-RELATED PATHOPHYSIOLOGY. METHODS: GENOME-WIDE DNA METHYLATION ANALYSIS OF 850,000 CPG SITES IN WOMEN AND MEN WITH CHRONIC LBP AND PAIN-FREE CONTROLS WAS PERFORMED. T CELLS WERE ISOLATED (DISCOVERY COHORT, N = 32) AND USED TO IDENTIFY DIFFERENTIALLY METHYLATED CPG SITES, AND GENE ONTOLOGIES AND MOLECULAR PATHWAYS WERE IDENTIFIED. A POLYGENIC DNA METHYLATION SCORE FOR LBP WAS GENERATED IN BOTH WOMEN AND MEN. VALIDATION WAS PERFORMED IN AN INDEPENDENT COHORT (VALIDATION COHORT, N = 63) OF CHRONIC LBP AND HEALTHY CONTROLS. RESULTS: ANALYSIS WITH THE DISCOVERY COHORT REVEALED A TOTAL OF 2,496 AND 419 DIFFERENTIALLY METHYLATED CPGS IN WOMEN AND MEN, RESPECTIVELY. IN WOMEN, MOST OF THESE SITES WERE HYPOMETHYLATED AND ENRICHED IN GENES WITH FUNCTIONS IN THE EXTRACELLULAR MATRIX, IN THE IMMUNE SYSTEM (IE, CYTOKINES), OR IN EPIGENETIC PROCESSES. IN MEN, A UNIQUE CHRONIC LBP DNA METHYLATION SIGNATURE WAS IDENTIFIED CHARACTERIZED BY SIGNIFICANT ENRICHMENT FOR GENES FROM THE MAJOR HISTOCOMPATIBILITY COMPLEX. SEX-SPECIFIC POLYGENIC DNA METHYLATION SCORES WERE GENERATED TO ESTIMATE THE PAIN STATUS OF EACH INDIVIDUAL AND CONFIRMED IN THE VALIDATION COHORT USING PYROSEQUENCING. CONCLUSION: THIS STUDY REVEALS SEX-SPECIFIC DNA METHYLATION SIGNATURES IN HUMAN T CELLS THAT DISCRIMINATES CHRONIC LBP PARTICIPANTS FROM HEALTHY CONTROLS. 2021 15 5888 46 SYSTEMIC TRANSCRIPTIONAL ALTERATIONS OF INNATE AND ADAPTIVE IMMUNE SIGNALING PATHWAYS IN ATHEROSCLEROSIS, ISCHEMIA STROKE, AND MYOCARDIAL INFARCTION. BACKGROUND: TRANSCRIPTIONAL PROFILES ARE AVAILABLE FOR A VARIETY OF CARDIOVASCULAR-RELATED DISEASES. THE GOAL OF THIS STUDY WAS TO COMPARE BLOOD TRANSCRIPTIONAL PROFILES OF THE TOLL-LIKE RECEPTOR (TLR), T-CELL RECEPTOR (TCR), AND B-CELL RECEPTOR (BCR) SIGNALING PATHWAYS IN ASYMPTOMATIC ATHEROSCLEROSIS, ACUTE ISCHEMIC STROKE, AND MYOCARDIAL INFARCTION PATIENTS TO IDENTIFY COMMON MECHANISMS OF IMMUNE REGULATION AND THEIR ASSOCIATION WITH EPIGENETIC REGULATION. METHODS AND RESULTS: PERIPHERAL BLOOD GENE EXPRESSION PROFILES FROM HUMAN ATHEROSCLEROSIS-RELATED DISEASES AND HEALTHY CONTROLS WERE DOWNLOADED FROM GENE EXPRESSION OMNIBUS (GEO). GENES IN THE TLR, TCR, AND BCR PATHWAYS WERE RETRIEVED FROM THE NCBI BIOSYSTEMS DATABASE. SIGNIFICANCE OF GENE ENRICHMENT AND CONCORDANCE OF EXPRESSION CHANGES IN EACH PATHWAY WAS COMPARED BETWEEN STUDIES. GENE EXPRESSION WAS SIGNIFICANTLY CORRELATED ACROSS THE THREE DISEASE CONDITIONS (P<10(-15)) AND THE PROPORTION OF SIGNIFICANT GENES WAS HIGH (30~60%, P<0.001). HUB GENES IDENTIFIED BY WEIGHTED GENE CO-EXPRESSION NETWORK ANALYSIS (WGCNA) IN THE TCR/BCR SUB-NETWORK, INCLUDING CD81 AND TCR-CD3ZETA, WERE SIGNIFICANTLY DOWN-REGULATED AND HIGHLY CORRELATED WITH DNA (CYTOSINE-5-)-METHYLTRANSFERASE 1 (DNMT1). CONCLUSION: COMMON BIOLOGICALLY RELEVANT NETWORKS ASSOCIATED WITH IMMUNE REGULATION IN STROKE, ATHEROSCLEROSIS, AND MYOCARDIAL INFARCTION WERE DISCOVERED. GIVEN THE HIGH CORRELATION OF DNMT1 WITH THESE IMMUNE SIGNALING PATHWAYS, EPIGENETIC REGULATION MAY CONTRIBUTE TO THE COORDINATION OF INNATE AND ADAPTIVE IMMUNE RESPONSE IN ALL CVD DISEASE STATES. DOWN-REGULATION OF THE TCR-BCR AXIS IN THE ADAPTIVE IMMUNE SYSTEM OFFERS CRITICAL INFORMATION FOR THE INVESTIGATION OF THE FUNCTIONAL MECHANISMS UNDERLYING CHRONIC INFLAMMATION-INDUCED IMMUNE SUPPRESSION IN CARDIOVASCULAR DISEASE AND STROKE. 2015 16 4366 27 MIRNA-23A/CXCR4 REGULATES NEUROPATHIC PAIN VIA DIRECTLY TARGETING TXNIP/NLRP3 INFLAMMASOME AXIS. BACKGROUND: CHEMOKINE CXC RECEPTOR 4 (CXCR4) IN SPINAL GLIAL CELLS HAS BEEN IMPLICATED IN NEUROPATHIC PAIN. HOWEVER, THE REGULATORY CASCADES OF CXCR4 IN NEUROPATHIC PAIN REMAIN ELUSIVE. HERE, WE INVESTIGATED THE FUNCTIONAL REGULATORY ROLE OF MIRNAS IN THE PAIN PROCESS AND ITS INTERPLAY WITH CXCR4 AND ITS DOWNSTREAM SIGNALING. METHODS: MIRNAS AND CXCR4 AND ITS DOWNSTREAM SIGNALING MOLECULES WERE MEASURED IN THE SPINAL CORDS OF MICE WITH SCIATIC NERVE INJURY VIA PARTIAL SCIATIC NERVE LIGATION (PSNL). IMMUNOBLOTTING, IMMUNOFLUORESCENCE, IMMUNOPRECIPITATION, AND MAMMAL TWO-HYBRID AND BEHAVIORAL TESTS WERE USED TO EXPLORE THE DOWNSTREAM CXCR4-DEPENDENT SIGNALING PATHWAY. RESULTS: CXCR4 EXPRESSION INCREASED IN SPINAL GLIAL CELLS OF MICE WITH PSNL-INDUCED NEUROPATHIC PAIN. BLOCKING CXCR4 ALLEVIATED THE PAIN BEHAVIOR; CONTRARILY, OVEREXPRESSING CXCR4 INDUCED PAIN HYPERSENSITIVITY. MICRORNA-23A-3P (MIR-23A) DIRECTLY BOUNDS TO 3' UTR OF CXCR4 MRNA. PSNL-INDUCED NEUROPATHIC PAIN SIGNIFICANTLY REDUCED MRNA EXPRESSION OF MIR-23A. OVEREXPRESSION OF MIR-23A BY INTRATHECAL INJECTION OF MIR-23A MIMICS OR LENTIVIRUS REDUCED SPINAL CXCR4 AND PREVENTED PSNL-INDUCED NEUROPATHIC PAIN. IN CONTRAST, KNOCKDOWN OF MIR-23A BY INTRATHECAL INJECTION OF MIR-23A INHIBITOR OR LENTIVIRUS INDUCED PAIN-LIKE BEHAVIOR, WHICH WAS REDUCED BY CXCR4 INHIBITION. ADDITIONALLY, MIR-23A KNOCKDOWN OR CXCR4 OVEREXPRESSION IN NAIVE MICE COULD INCREASE THE THIOREDOXIN-INTERACTING PROTEIN (TXNIP), WHICH WAS ASSOCIATED WITH INDUCTION OF NOD-LIKE RECEPTOR PROTEIN 3 (NLRP3) INFLAMMASOME. INDEED, CXCR4 AND TXNIP WERE CO-EXPRESSED. THE MAMMAL TWO-HYBRID ASSAY REVEALED THE DIRECT INTERACTION BETWEEN CXCR4 AND TXNIP, WHICH WAS INCREASED IN THE SPINAL CORD OF PSNL MICE. IN PARTICULAR, INHIBITION OF TXNIP REVERSED PAIN BEHAVIOR ELICITED BY PSNL, MIR-23A KNOCKDOWN, OR CXCR4 OVEREXPRESSION. MOREOVER, MIR-23A OVEREXPRESSION OR CXCR4 KNOCKDOWN INHIBITED THE INCREASE OF TXNIP AND NLRP3 INFLAMMASOME IN PSNL MICE. CONCLUSIONS: MIR-23A, BY DIRECTLY TARGETING CXCR4, REGULATES NEUROPATHIC PAIN VIA TXNIP/NLRP3 INFLAMMASOME AXIS IN SPINAL GLIAL CELLS. EPIGENETIC INTERVENTIONS AGAINST MIR-23A, CXCR4, OR TXNIP MAY POTENTIALLY SERVE AS NOVEL THERAPEUTIC AVENUES IN TREATING PERIPHERAL NERVE INJURY-INDUCED NOCICEPTIVE HYPERSENSITIVITY. 2018 17 3460 45 HYPOMETHYLATION OF THE IL8 PROMOTER IN NASAL EPITHELIAL CELLS OF PATIENTS WITH CHRONIC RHINOSINUSITIS WITH NASAL POLYPS. BACKGROUND: IL-8 IS AN IMPORTANT CHEMOKINE IMPLICATED IN THE PATHOGENESIS OF CHRONIC RHINOSINUSITIS (CRS), BUT LITTLE IS KNOWN ABOUT EPIGENETIC REGULATION OF IL8 IN THE PATHOGENESIS OF CRS. OBJECTIVE: WE SOUGHT TO INVESTIGATE THE RELATIONSHIP BETWEEN THE DNA METHYLATION LEVEL IN THE IL8 PROXIMAL PROMOTER AND CRS IN HAN CHINESE SUBJECTS. METHODS: PATIENTS WITH CHRONIC RHINOSINUSITIS WITH NASAL POLYPS (CRSWNP; N = 187), PATIENTS WITH CHRONIC RHINOSINUSITIS WITHOUT NASAL POLYPS (CRSSNP; N = 89), AND CONTROL SUBJECTS (N = 57) WERE ENROLLED IN 2 INDEPENDENT COHORTS. PURIFIED HUMAN NASAL EPITHELIAL CELLS FROM EACH PARTICIPANT WERE ASSESSED FOR PERCENTAGE DNA METHYLATION OF CPG SITES IN THE IL8 PROXIMAL PROMOTER BY USING BISULFITE PYROSEQUENCING AND FOR FUNCTIONAL ASPECTS OF METHYLATION STATUS BY USING IN VITRO ASSAYS. RESULTS: DNA METHYLATION OF CPG SITES 1, 2, AND 3, RESPECTIVELY, IN THE IL8 PROXIMAL PROMOTER WAS SIGNIFICANTLY DECREASED IN HUMAN NASAL EPITHELIAL CELLS OF PATIENTS WITH CRSWNP COMPARED WITH THAT IN PATIENTS WITH CRSSNP (P < .001) AND CONTROL SUBJECTS (P < .001). PERCENTAGE OF DNA METHYLATION OF THE CPG3 SITE WAS CORRELATED NEGATIVELY WITH BOTH TISSUE EOSINOPHILIC CATIONIC PROTEIN (P < .01) AND MYELOPEROXIDASE (P < .05) LEVELS. IL-1BETA (P < .001) AND TNF-ALPHA (P < .01) SIGNIFICANTLY INCREASED IL8 EXPRESSION ACCOMPANIED BY A REDUCTION IN METHYLATION AT THE CPG3 SITE (P < .001). ELECTROPHORETIC MOBILITY SHIFT ASSAYS DEMONSTRATED THAT METHYLATION STATUS OF CPG3 CHANGED THE BINDING OF OCTAMER-BINDING TRANSCRIPTION FACTOR 1 AND NUCLEAR FACTOR KAPPAB. CONCLUSION: DECREASED DNA METHYLATION OF PARTICULARLY CPG SITES IN THE IL8 PROXIMAL PROMOTER MIGHT PLAY A ROLE IN THE PATHOGENESIS OF CRSWNP. 2019 18 5592 34 ROLE OF TUMOR NECROSIS FACTOR-ALPHA IN THE HUMAN SYSTEMIC ENDOTOXIN-INDUCED TRANSCRIPTOME. TNFALPHA HAS BEEN IMPLICATED IN THE PATHOGENESIS OF VARIOUS INFLAMMATORY DISEASES. DIFFERENT STRATEGIES TO INHIBIT TNFALPHA IN PATIENTS WITH SEPSIS AND CHRONIC INFLAMMATORY CONDITIONS HAVE SHOWN CONTRASTING OUTCOMES. ALTHOUGH TNFALPHA INHIBITORS ARE WIDELY USED IN CLINICAL PRACTICE, THE IMPACT OF TNFALPHA ANTAGONISM ON WHITE BLOOD CELL GENE EXPRESSION PROFILES DURING ACUTE INFLAMMATION IN HUMANS IN VIVO HAS NOT BEEN ASSESSED. WE HERE LEVERAGED THE ESTABLISHED MODEL OF HUMAN ENDOTOXEMIA TO EXAMINE THE EFFECT OF THE TNFALPHA ANTAGONIST, ETANERCEPT, ON THE GENOME-WIDE TRANSCRIPTIONAL RESPONSES IN CIRCULATING LEUKOCYTES INDUCED BY INTRAVENOUS LPS ADMINISTRATION IN MALE SUBJECTS. ETANERCEPT PRE-TREATMENT RESULTED IN A MARKEDLY DAMPENED TRANSCRIPTIONAL RESPONSE TO LPS. GENE CO-EXPRESSION NETWORK ANALYSIS REVEALED THIS LPS-INDUCED TRANSCRIPTOME CAN BE CATEGORIZED AS TNFALPHA RESPONSIVE AND NON-RESPONSIVE MODULES. HIGHLY SIGNIFICANT TNFALPHA RESPONSIVE MODULES INCLUDE NF-KB SIGNALING, ANTIVIRAL RESPONSES AND T-CELL MEDIATED RESPONSES. WITHIN THESE TNFALPHA RESPONSIVE MODULES WE DELINEATE FUNDAMENTAL GENES INVOLVED IN EPIGENETIC MODIFICATIONS, TRANSCRIPTIONAL INITIATION AND ELONGATION. THUS, WE PROVIDE COMPREHENSIVE INFORMATION ABOUT MOLECULAR PATHWAYS THAT MIGHT BE TARGETED BY THERAPEUTIC INTERVENTIONS THAT SEEK TO INHIBIT TNFALPHA ACTIVITY DURING HUMAN INFLAMMATORY DISEASES. 2013 19 3765 43 INTEGRATIVE ANALYSIS OF TRANSCRIPTOMIC AND PROTEOMIC PROFILING IN INFLAMMATORY BOWEL DISEASE COLON BIOPSIES. BACKGROUND: CROHN'S DISEASE (CD) AND ULCERATIVE COLITIS (UC) ARE INTESTINAL CHRONIC INFLAMMATORY CONDITIONS CHARACTERIZED BY ALTERED EPITHELIAL BARRIER FUNCTION AND TISSUE DAMAGE. DESPITE SIGNIFICANT EFFORTS TO UNDERSTANDING THE BIOLOGICAL MECHANISMS RESPONSIBLE FOR GUT INFLAMMATION, THE PATHOPHYSIOLOGY OF CD AND UC REMAINS POORLY UNDERSTOOD. METHODS: TO HELP ELUCIDATE THE POTENTIAL MECHANISMS RESPONSIBLE FOR GUT INFLAMMATION IN CD AND UC, TRANSCRIPTOMIC AND PROTEOMIC PROFILING OF HUMAN COLON BIOPSY SPECIMENS WAS PERFORMED. DYSREGULATED GENES AND PROTEINS IN DISEASE TISSUES COMPARED WITH NORMAL TISSUES WERE CHARACTERIZED FROM THE EXPRESSION PROFILES AND FURTHER SUBJECTED TO PATHWAY ANALYSIS TO IDENTIFY ALTERED BIOLOGICAL PROCESSES AND SIGNALING PATHWAYS. RESULTS: SAMPLE ANALYSIS SHOWED 4250 GENES WITH MATCHED PROTEIN EXPRESSION AND A WIDE RANGE OF CORRELATION OF RNA-PROTEIN ABUNDANCE ACROSS SAMPLES. PATHWAY ANALYSIS OF DYSREGULATED GENES AND PROTEINS IN CD AND UC SHOWED ALTERATIONS IN IMMUNE AND INFLAMMATORY RESPONSES, COMPLEMENT CASCADE, AND THE SUPPRESSION OF METABOLIC PROCESSES AND PPAR SIGNALING. IN CD, INCREASED T-HELPER CELL DIFFERENTIATION AND ELEVATED TOLL-LIKE RECEPTOR AND JAK/STAT SIGNALING WERE OBSERVED. INTERESTINGLY, INCREASED MAPK SIGNALING WAS ONLY OBSERVED IN UC. WEIGHTED GENE CO-EXPRESSION NETWORK ANALYSIS SUGGESTED A POSSIBLE ROLE OF EPIGENETIC REGULATION IN UC. OF NOTE, A LARGE DISCREPANCY BETWEEN REGULATION OF RNA AND PROTEIN LEVELS IN INFLAMED COLON SAMPLES WAS DETECTED FOR PREVIOUSLY IDENTIFIED BIOMARKERS INCLUDING MMP14 AND LAMP1. CONCLUSIONS: WITH THE ANALYSIS OF DYSREGULATED GENES AND PATHWAYS, THE PRESENT STUDY UNRAVELS KEY MECHANISMS CONTRIBUTING TO CD AND UC PATHOGENESIS AND EMPHASIZES THAT INTEGRATIVE ANALYSIS OF MULTI-OMICS DATA SETS CAN PROVIDE MORE INSIGHT INTO UNDERSTANDING COMPLEX DISEASE MECHANISMS. 2019 20 885 41 CHRONIC CONSTRICTION INJURY-INDUCED CHANGES IN CIRCULAR RNA EXPRESSION PROFILING OF THE DORSAL ROOT GANGLION IN A RAT MODEL OF NEUROPATHIC PAIN. BACKGROUND: THE PATHOGENESIS OF NEUROPATHIC PAIN (NP) HAS NOT BEEN FULLY ELUCIDATED. GENE CHANGES IN DORSAL ROOT GANGLIA (DRG) MAY CONTRIBUTE TO THE DEVELOPMENT OF NP. CIRCULAR RNAS (CIRCRNAS) ARE A CLASS OF ENDOGENOUS NONCODING RNAS THAT FORM COVALENTLY CLOSED LOOP STRUCTURES AND ARE CRUCIAL FOR GENETIC AND EPIGENETIC REGULATION. HOWEVER, LITTLE IS KNOWN ABOUT CIRCRNA CHANGES IN DRG NEURONS AFTER PERIPHERAL NERVE INJURY. METHODS: A SCIATIC NERVE CHRONIC CONSTRICTION INJURY (CCI) MODEL WAS ESTABLISHED TO INDUCE NEUROPATHIC PAIN. WE PERFORMED GENOME-WIDE CIRCRNA ANALYSIS OF FOUR PAIRED DORSAL ROOT GANGLION (DRG) SAMPLES (L4-L5) FROM CCI AND NEGATIVE CONTROL (NC) RATS USING NEXT-GENERATION SEQUENCING TECHNOLOGY. THE DIFFERENTIALLY EXPRESSED CIRCRNAS (DECIRCRNAS) WERE IDENTIFIED BY DIFFERENTIAL EXPRESSION ANALYSIS, AND THE EXPRESSION PROFILE OF CIRCRNAS WAS VALIDATED BY QUANTITATIVE PCR. GENE ONTOLOGY AND KYOTO ENCYCLOPEDIA OF GENES AND GENOMES ANALYSES WERE PERFORMED TO PREDICT THE FUNCTION OF DECIRCRNAS. RESULTS: A TOTAL OF 374 DECIRCRNAS WERE IDENTIFIED BETWEEN CCI AND NC RATS USING CIRCRNA HIGH-THROUGHPUT SEQUENCING. AMONG THEM, 290 WERE UPREGULATED AND 84 WERE DOWNREGULATED IN THE CCI GROUP. THE EXPRESSION LEVELS OF NINE DECIRCRNAS WERE VALIDATED BY QPCR. FUNCTIONAL ANNOTATION ANALYSIS SHOWED THAT THE DECIRCRNAS WERE MAINLY ENRICHED IN PATHWAYS AND FUNCTIONS, INCLUDING 'DOPAMINERGIC SYNAPSE,' 'RENIN SECRETION,' 'MITOGEN-ACTIVATED PROTEIN KINASE SIGNALING PATHWAY,' AND 'NEUROGENESIS.' COMPETING ENDOGENOUS RNA ANALYSIS SHOWED THAT THE TOP 50 CIRCRNAS EXHIBITED INTERACTIONS WITH FOUR PAIN-RELATED MICRORNAS (MIRNAS). CIRC:CHR2:33950934-33955969 WAS THE LARGEST NODE IN THE CIRCRNA-MIRNA INTERACTION NETWORK. CONCLUSIONS: PERIPHERAL NERVE INJURY-INDUCED NEUROPATHIC PAIN LED TO CHANGES IN THE COMPREHENSIVE EXPRESSION PROFILE OF CIRCRNAS IN THE DRG OF RATS. DECIRCRNAS MAY ADVANCE OUR UNDERSTANDING OF THE MOLECULAR MECHANISMS UNDERLYING NEUROPATHIC PAIN. 2022