1 3491 122 IDENTIFICATION OF EXPRESSED MIRNAS IN HUMAN RHEUMATOID ARTHRITIS USING COMPUTATIONAL APPROACH - DISCOVERY OF A NEW MIR-7167 FROM HUMAN. BACKGROUND: RHEUMATOID ARTHRITIS (RA) IS A CHRONIC INFLAMMATORY AND AUTOIMMUNE DISEASE LEADING TO BONES AND JOINTS DESTRUCTION. IT IS ONE OF THE MAJOR CAUSES OF LIFETIME DISABILITY AND MORTALITY AMONG HUMANS IN THE DEVELOPING AND DEVELOPED COUNTRIES. IT WAS EVIDENT THAT EPIGENETIC DYSREGULATION IS RELATED TO THE PATHOGENESIS OF RA. MICRORNAS (MIRNAS) ARE SMALL NON-CODING RNAS THAT ARE EPIGENETIC REGULATORS FOR DIVERSE BIOLOGICAL PROCESSES AND ALSO PROVIDED NOVEL MOLECULAR INSIGHTS IN THE FORMATION OF ARTHRITIS. OBJECTIVE: THE INFLUENCES OF MIRNAS IN THE ALTERATION OF GENE REGULATION DURING THE PATHOGENESIS OF ARTHRITIS WERE EXPOSED IN RECENT YEARS. METHOD: THE COMPUTATIONAL APPROACH TO IDENTIFY MIRNA THROUGH EST-BASED HOMOLOGY IS MORE POWERFUL, ECONOMICAL AND TIME-EFFICIENT. IN THIS STUDY, WE APPLIED EST-BASED HOMOLOGY SEARCH TO IDENTIFY MIRNAS RESPONSIBLE FOR THE DEVELOPMENT OF ARTHRITIS IN HUMAN BEINGS. RESULTS: OUR STUDY ON 36519 ESTS IN HUMAN RA CONDITION REVEALED THE EXPRESSION OF FOUR MIRNAS, HSA-MIR-198, HSA-MIR-4647, HAS-MIR-7167-5P AND HAS-MIR-7167-3P. THE PRESENT STUDY IS THE FIRST REPORT ABOUT HAS-MIR-7167 THAT WAS HOMOLOGOUS TO MACACA MULATTA. CONCLUSION: THE PREDICTED TARGETS OF THESE IDENTIFIED MIRNAS REVEALED MANY BIOLOGICAL FUNCTIONS IN THE PATHOGENESIS OF RA. FURTHER ELABORATED STUDIES ON THESE MIRNAS WILL HELP TO UNDERSTAND THEIR FUNCTION IN THE DEVELOPMENT OF RA AND THE USE OF MIRNAS AS THERAPEUTIC TARGETS IN THE FUTURE. 2019 2 3959 37 LONG NON-CODING RNAS TARGET PATHOGENETICALLY RELEVANT GENES AND PATHWAYS IN RHEUMATOID ARTHRITIS. RHEUMATOID ARTHRITIS (RA) IS A CHRONIC INFLAMMATORY AUTOIMMUNE DISEASE DRIVEN BY GENETIC, ENVIRONMENTAL AND EPIGENETIC FACTORS. LONG NON-CODING RNAS (LNCRNAS) ARE A KEY COMPONENT OF THE EPIGENETIC MECHANISMS AND ARE KNOWN TO BE INVOLVED IN THE DEVELOPMENT OF AUTOIMMUNE DISEASES. IN THIS WORK WE AIMED TO IDENTIFY SIGNIFICANTLY DIFFERENTIALLY EXPRESSED LNCRNAS (DE-LNCRNAS) THAT ARE FUNCTIONALLY CONNECTED TO MODULATED GENES STRICTLY ASSOCIATED WITH RA. IN TOTAL, 542,500 TRANSCRIPTS HAVE BEEN PROFILED IN PERIPHERAL BLOOD MONONUCLEAR CELLS (PBMCS) FROM FOUR PATIENTS WITH EARLY ONSET RA PRIOR ANY TREATMENT AND FOUR HEALTHY DONORS USING CLARIOM D ARRAYS. RESULTS WERE CONFIRMED BY REAL-TIME PCR IN 20 PATIENTS AND 20 CONTROLS. SIX DE-LNCRNAS TARGET EXPERIMENTALLY VALIDATED MIRNAS ABLE TO REGULATE DIFFERENTIALLY EXPRESSED GENES (DEGS) IN RA; AMONG THEM, ONLY FTX, HNRNPU-AS1 AND RP11-498C9.15 TARGETED A LARGE NUMBER OF DEGS. MOST IMPORTANTLY, RP11-498C9.15 TARGETED THE LARGEST NUMBER OF SIGNALLING PATHWAYS THAT WERE FOUND TO BE ENRICHED BY THE GLOBAL AMOUNT OF RA-DEGS AND THAT HAVE ALREADY BEEN ASSOCIATED WITH RA AND RA-SYNOVIOCYTES. MOREOVER, RP11-498C9.15 TARGETED THE MOST HIGHLY CONNECTED GENES IN THE RA INTERACTOME, THUS SUGGESTING ITS INVOLVEMENT IN CRUCIAL GENE REGULATION. THESE RESULTS INDICATE THAT, BY MODULATING BOTH MICRORNAS AND GENE EXPRESSION, RP11-498C9.15 MAY PLAY A PIVOTAL ROLE IN RA PATHOGENESIS. 2019 3 2533 37 EPIGENETICS IN AUTOIMMUNE CONNECTIVE TISSUE DISEASES. BACKGROUND. AUTOIMMUNE CONNECTIVE TISSUE DISEASES (ACTDS) ENCOMPASS A HETEROGENEOUS GROUP OF CHRONIC IMMUNE-MEDIATED INFLAMMATORY DISORDERS, PRIMARILY AFFECTING CONNECTIVE TISSUES AND CLINICALLY CHARACTERIZED BY VARIABLE MULTISYSTEM MANIFESTATIONS, FREQUENTLY OVERLAPPING. ENVIRONMENTAL FACTORS ARE THOUGHT TO PROMOTE ACTD DEVELOPMENT IN GENETIC PREDISPOSING/ENDOCRINE PERMISSIVE BACKGROUND THROUGH THE INDUCTION OF EPIGENETIC MODIFICATIONS, CONSISTING OF STABLE, HERITABLE, BUT POTENTIALLY REVERSIBLE CHANGES IN GENE EXPRESSION, OCCURRING WITHOUT ALTERATIONS OF THE DNA SEQUENCE. ACTUALLY, EPIGENETIC MECHANISMS (SUCH AS HISTONE MODIFICATIONS, DNA METHYLATION, NUCLEOSOME POSITIONING, AND RNA INTERFERENCE) LINK GENOTYPE UPSTREAM AND PHENOTYPE DOWNSTREAM, AND, IF PERSISTENTLY ABERRANT, MAY CAUSE A VARIETY OF HUMAN DISEASES, INCLUDING ACTDS. WE AIMED TO REVIEW THE RECENT ADVANCES IN THE KNOWLEDGE OF THE ACTD EPIGENETIC ALTERATIONS. METHODS: A DETAILED SEARCH OF THE AVAILABLE LITERATURE WAS PERFORMED IN THE PUBMED (U.S. NATIONAL LIBRARY OF MEDICINE) DATABASE. RESULTS: GROWING EVIDENCE UNDERLINES THE RELEVANT ROLE OF EPIGENETIC DEFECTS IN THE ACTD PATHOGENESIS, AND SPECIFIC EPIGENETIC PATTERNS CAN REPRESENT DISEASE BIOMARKERS. IN PATIENTS WITH RHEUMATOID ARTHRITIS (RA), EPIGENETIC VARIATIONS INTERACT DETERMINING THE TYPICAL "AGGRESSIVE" PHENOTYPE DISPLAYED BY RA SYNOVIAL FIBROBLASTS. EPIGENETIC MODIFICATIONS ARE INVOLVED IN THE PROFIBROTIC PROCESS THAT CHARACTERIZES SYSTEMIC SCLEROSIS. IN SYSTEMIC LUPUS ERYTHEMATOSUS AND SJOGREN'S SYNDROME, COMPLEX EPIGENETIC CHANGES ALTERING GENE EXPRESSION HAVE BEEN DEMONSTRATED. CONCLUSIONS: COMPREHENSIVE STUDIES WILL CONTRIBUTE TO FURTHER DEFINE THE ABERRANT EPIGENETIC MECHANISMS INVOLVED IN THE ACTDS ETIOPATHOGENESIS. MOREOVER, BEING EPIGENETIC CHANGES POTENTIALLY REVERSIBLE, THE IDENTIFICATION OF ACTDS EPIGENETIC BIOMARKERS WILL ALLOW THE DEVELOPMENT OF THERAPEUTIC STRATEGIES ADDRESSED TO TARGET DYSREGULATED GENES AND CORRECT ABERRANT EPIGENOMIC ALTERATIONS. 2014 4 6772 39 [ADVANCES IN EPIGENETIC MARKERS OF DERMATOMYOSITIS/POLYMYOSITIS]. IDIOPATHIC INFLAMMATORY MYOPATHY (IIM) IS A RARE GROUP OF AUTOIMMUNE DISEASES, CHARACTERIZED BY CHRONIC MUSCLE WEAKNESS, MUSCLE FATIGUE AND INFILTRATION OF SINGLE NUCLEAR CELLS IN SKELETAL MUSCLE. ITS SUBTYPES INCLUDE DERMATOMYOSITIS (DM), POLYMYOSITIS (PM), INCLUSION BODY MYOSITIS (IBM) AND IMMUNE-MEDIATED NECROTIZING MYOSITIS (IMNM), AND THE MOST COMMON SUBTYPES ARE DM AND PM. PM IS AN AUTOIMMUNE DISEASE MAINLY MANIFESTED BY MUSCLE DAMAGE. WHEN THE SKIN IS INVOLVED, IT IS CALLED DM. THE INCIDENCE OF IIM WAS RELATIVELY LOW, WHICH WAS 1.16-19 PER MILLION PEOPLE/YEAR, BUT THE MORTALITY WAS HIGH AND THE PROGNOSIS WAS POOR. THE PATHOGENESIS OF IIM IS STILL UNCLEAR. PREVIOUS STUDIES SUGGEST THAT BOTH IMMUNE AND NON-IMMUNE MECHANISMS ARE INVOLVED IN ITS PATHOGENESIS, ESPECIALLY CELLULAR AND HUMORAL IMMUNITY. IN RECENT YEARS, RESEARCHERS HAVE CONDUCTED A NUMBER OF STUDIES ON THE PATHOGENESIS OF IIM, ESPECIALLY IN THE STUDY OF DM/PM WITH THE APPLICATION OF HIGH-THROUGHPUT BIOMETRICS. EPIGENETICS IS A DISCIPLINE THAT REFERS TO THE GENETIC PHENOMENA OF DNA METHYLATION SPECTRUM, CHROMATIN STRUCTURE STATE AND GENE EXPRESSION SPECTRUM TRANSFERRED BETWEEN CELLS WITHOUT ANY CHANGES IN DNA SEQUENCE, INCLUDING DNA METHYLATION, CHROMATIN MODIFICATION AND NON-CODING RNA CHANGES. A LARGE NUMBER OF STUDIES HAVE SHOWN THAT EPIGENETIC MODIFICATION PLAYS AN IMPORTANT ROLE IN MANY DISEASES, ESPECIALLY IN CANCER. RECENT STUDIES HAVE ALSO FOUND A SERIES OF EPIGENETIC MARKERS RELATED TO THE OCCURRENCE AND DEVELOPMENT OF DM/PM, MAINLY IN THE ASPECT OF NON-CODING RNA CHANGES, SUCH AS MIR-10A, MIR-206, ETC. AND THERE HAS ALSO BEEN SOME RESEARCH ON DNA METHYLATION. HOWEVER, NO STUDIES HAVE BEEN REPORTED ON WHETHER CHROMATIN MODIFICATION IS INVOLVED IN THE PATHOGENESIS OF DM/PM. THE PATHOGENESIS OF DM/PM IS COMPLEX AND DIVERSE. WITH THE DEVELOPMENT OF RESEARCH, CERTAIN MICRORNAS (MIRNAS) AND LONG NON-CODING RNAS (LNCRNAS) MAY BECOME BIOLOGICAL MARKERS FOR THE EARLY DIAGNOSIS OF DM/PM. THEREFORE, THIS PAPER MAINLY EXPOUNDS THE RESEARCH PROGRESS OF THE BIOMARKERS OF DM/PM FROM THE ASPECT OF EPIGENETICS. 2019 5 6642 27 UNRAVELING THE PATHOGENESIS OF ASTHMA AND CHRONIC OBSTRUCTIVE PULMONARY DISEASE OVERLAP: FOCUSING ON EPIGENETIC MECHANISMS. ASTHMA AND COPD OVERLAP (ACO) IS CHARACTERIZED BY PATIENTS PRESENTING WITH PERSISTENT AIRFLOW LIMITATION AND FEATURES OF BOTH ASTHMA AND COPD. IT IS ASSOCIATED WITH A HIGHER FREQUENCY AND SEVERITY OF EXACERBATIONS, A FASTER LUNG FUNCTION DECLINE, AND A HIGHER HEALTHCARE COST. SYSTEMIC INFLAMMATION IN COPD AND ASTHMA IS DRIVEN BY TYPE 1 T HELPER (TH1) AND TH2 IMMUNE RESPONSES, RESPECTIVELY, BOTH OF WHICH MAY CONTRIBUTE TO AIRWAY REMODELING IN ACO. ACO-RELATED BIOMARKERS CAN BE CLASSIFIED INTO FOUR CATEGORIES: NEUTROPHIL-MEDIATED INFLAMMATION, TH2 CELL RESPONSES, ARACHIDONIC ACID-EICOSANOIDS PATHWAY, AND METABOLITES. GENE-ENVIRONMENT INTERACTIONS ARE KEY CONTRIBUTORS TO THE COMPLEXITY OF ACO AND ARE REGULATED BY EPIGENETIC MECHANISMS, INCLUDING DNA METHYLATION, HISTONE MODIFICATIONS, AND NON-CODING RNAS. THUS, THIS REVIEW FOCUSES ON THE LINK BETWEEN EPIGENETICS AND ACO, AND OUTLINES THE FOLLOWING: (I) INHERITING EPIGENOTYPES WITHOUT CHANGE WITH ENVIRONMENTAL STIMULI, OR EPIGENETIC CHANGES IN RESPONSE TO LONG-TERM EXPOSURE TO INHALED PARTICLES PLUS INTERMITTENT EXPOSURE TO SPECIFIC ALLERGENS; (II) EPIGENETIC MARKERS DISTINGUISHING ACO FROM COPD AND ASTHMA; (III) POTENTIAL EPIGENETIC DRUGS THAT CAN REVERSE OXIDATIVE STRESS, GLUCOCORTICOID INSENSITIVITY, AND CELL INJURY. IMPROVED UNDERSTANDING OF THE EPIGENETIC REGULATIONS HOLDS GREAT VALUE TO GIVE DEEPER INSIGHT INTO THE MECHANISMS, AND CLARIFY THEIR IMPLICATIONS FOR BIOMEDICAL RESEARCH IN ACO. 2022 6 6147 37 THE EXPRESSION OF NON-CODING RNAS AND THEIR TARGET MOLECULES IN RHEUMATOID ARTHRITIS: A MOLECULAR BASIS FOR RHEUMATOID PATHOGENESIS AND ITS POTENTIAL CLINICAL APPLICATIONS. RHEUMATOID ARTHRITIS (RA) IS A TYPICAL AUTOIMMUNE-MEDIATED RHEUMATIC DISEASE PRESENTING AS A CHRONIC SYNOVITIS IN THE JOINT. THE CHRONIC SYNOVIAL INFLAMMATION IS CHARACTERIZED BY HYPER-VASCULARITY AND EXTRAVASATION OF VARIOUS IMMUNE-RELATED CELLS TO FORM LYMPHOID AGGREGATES WHERE AN INTIMATE CROSS-TALK AMONG INNATE AND ADAPTIVE IMMUNE CELLS TAKES PLACE. THESE INTERACTIONS FACILITATE PRODUCTION OF ABUNDANT PROINFLAMMATORY CYTOKINES, CHEMOKINES AND GROWTH FACTORS FOR THE PROLIFERATION/MATURATION/DIFFERENTIATION OF B LYMPHOCYTES TO BECOME PLASMA CELLS. FINALLY, THE AUTOANTIBODIES AGAINST DENATURED IMMUNOGLOBULIN G (RHEUMATOID FACTORS), EB VIRUS NUCLEAR ANTIGENS (EBNAS) AND CITRULLINATED PROTEIN (ACPAS) ARE PRODUCED TO TRIGGER THE DEVELOPMENT OF RA. FURTHERMORE, IT IS DOCUMENTED THAT GENE MUTATIONS, ABNORMAL EPIGENETIC REGULATION OF PEPTIDYLARGININE DEIMINASE GENES 2 AND 4 (PADI2 AND PADI4), AND THEREBY THE INDUCED AUTOANTIBODIES AGAINST PAD2 AND PAD4 ARE IMPLICATED IN ACPA PRODUCTION IN RA PATIENTS. THE ABERRANT EXPRESSIONS OF NON-CODING RNAS (NCRNAS) INCLUDING MICRORNAS (MIRS) AND LONG NON-CODING RNAS (LNCRNAS) IN THE IMMUNE SYSTEM UNDOUBTEDLY DERANGE THE MRNA EXPRESSIONS OF CYTOKINES/CHEMOKINES/GROWTH FACTORS. IN THE PRESENT REVIEW, WE WILL DISCUSS IN DETAIL THE EXPRESSION OF THESE NCRNAS AND THEIR TARGET MOLECULES PARTICIPATING IN DEVELOPING RA, AND THE POTENTIAL BIOMARKERS FOR THE DISEASE, ITS DIAGNOSIS, CARDIOVASCULAR COMPLICATIONS AND THERAPEUTIC RESPONSE. FINALLY, WE PROPOSE SOME PROSPECTIVE INVESTIGATIONS FOR UNRAVELING THE CONUNDRUMS OF RHEUMATOID PATHOGENESIS. 2021 7 4012 26 LOW-DENSITY GRANULOCYTES IN SYSTEMIC AUTOIMMUNITY AND AUTOINFLAMMATION. A BODY OF EVIDENCE HAS RE-ENERGIZED THE INTEREST ON THE ROLE NEUTROPHILS IN INFLAMMATORY AND AUTOIMMUNE CONDITIONS. FOR DECADES, NEUTROPHILS HAVE BEEN CONSIDERED A HOMOGENOUS POPULATION. NEVERTHELESS, ACCUMULATING EVIDENCE SUGGESTS THAT NEUTROPHILS ARE MORE VERSATILE AND HETEROGENEOUS THAN INITIALLY CONSIDERED. THE NOTION OF NEUTROPHIL HETEROGENEITY HAS BEEN SUPPORTED BY THE IDENTIFICATION OF LOW-DENSITY GRANULOCYTES (LDGS) IN SYSTEMIC LUPUS ERYTHEMATOSUS (SLE) AND OTHER SYSTEMIC AUTOIMMUNE AND AUTOINFLAMMATORY CONDITIONS. TRANSCRIPTOMIC, EPIGENETIC, PROTEOMIC, AND FUNCTIONAL ANALYSES SUPPORT THAT LDGS ARE A DISTINCT SUBSET OF PROINFLAMMATORY NEUTROPHILS IMPLICATED IN THE PATHOGENESIS OF SLE AND OTHER AUTOIMMUNE DISEASES. IMPORTANTLY, IT REMAINS INCOMPLETELY CHARACTERIZED WHETHER LDGS DETECTED IN OTHER INFLAMMATORY/AUTOIMMUNE CONDITIONS DISPLAY THE SAME PHENOTYPE THAT THOSE PRESENT IN SLE. A SHARED FEATURE OF LDGS ACROSS DISEASES IS THEIR ASSOCIATION WITH VASCULAR DAMAGE, AN IMPORTANT CONTRIBUTOR TO MORBIDITY AND MORTALITY IN CHRONIC INFLAMMATORY CONDITIONS. ADDITIONALLY, THE LACK OF SPECIFIC MARKERS TO IDENTIFY LDGS IN CIRCULATION OR IN TISSUE, MAKES IT A CHALLENGE TO ELUCIDATE THEIR ROLE IN THE PATHOGENESIS OF INFLAMMATORY AND AUTOIMMUNE CONDITIONS. IN THIS REVIEW, WE AIM TO EXAMINE THE EVIDENCE ON THE BIOLOGY AND THE PUTATIVE PATHOGENIC ROLE OF LDGS IN SYSTEMIC AUTOIMMUNE DISEASES. 2023 8 5288 25 PROSPECTS FOR EPIGENETIC COMPOUNDS IN THE TREATMENT OF AUTOIMMUNE DISEASE. THERE IS GROWING EVIDENCE FOR A ROLE FOR EPIGENETIC MECHANISMS IN THE DEVELOPMENT OF AUTOIMMUNE DISEASES. IN MOST CASES OFAUTOIMMUNE DISEASE THE PRECISE EPIGENETIC MECHANISM INVOLVED REMAINS TO BE RESOLVED, HOWEVER DNA HYPOMETHYLATION ACCOMPANIED BY HYPOACETYLATION OFHISTONE H3/H4 IS COMMONLY OBSERVED. DUE TO THE REVERSIBLE NATURE OF EPIGENETIC MARKS THEIR MAINTENANCE ENZYMES SUCH AS DNA METHYLTRANSFERASES (DNMTS), HISTONE DEACETYLASES (HDACS) AND HISTONE LYSINE METHYLTRANSFERASES (HKMT) ARE ATTRACTIVE DRUG TARGETS. SMALL MOLECULE INHIBITORS OF HISTONE MODIFICATION AND DNA METHYLATION MAINTENANCE ARE INCREASINGLY BECOMING AVAILABLE AND WILL BE USEFUL CHEMICAL BIOLOGICAL TOOLS TO DISSECT EPIGENETIC MECHANISMS IN THESE DISEASES. HOWEVER, ALTHOUGH EPIGENETIC THERAPIES USED IN CANCER TREATMENT ARE A PROMISING STARTING POINT FOR THE EXPLORATION OF AUTOIMMUNE DISEASE TREATMENT, THERE IS A REQUIREMENT FOR MORE SPECIFIC AND LESS TOXIC AGENTS FOR THESE CHRONIC DISEASES OR FOR USE AS CHEMOPREVENTATIVE AGENTS. 2011 9 2568 33 EPIGENETICS OF ALCOHOL-RELATED LIVER DISEASES. ALCOHOL-RELATED LIVER DISEASE (ARLD) IS A PRIMARY CAUSE OF CHRONIC LIVER DISEASE IN THE UNITED STATES. DESPITE ADVANCES IN THE DIAGNOSIS AND MANAGEMENT OF ARLD, IT REMAINS A MAJOR PUBLIC HEALTH PROBLEM ASSOCIATED WITH SIGNIFICANT MORBIDITY AND MORTALITY, EMPHASISING THE NEED TO ADOPT NOVEL APPROACHES TO THE STUDY OF ARLD AND ITS COMPLICATIONS. EPIGENETIC CHANGES ARE INCREASINGLY BEING RECOGNISED AS CONTRIBUTING TO THE PATHOGENESIS OF MULTIPLE DISEASE STATES. HARNESSING THE POWER OF INNOVATIVE TECHNOLOGIES FOR THE STUDY OF EPIGENETICS (E.G., NEXT-GENERATION SEQUENCING, DNA METHYLATION ASSAYS, HISTONE MODIFICATION PROFILING AND COMPUTATIONAL TECHNIQUES LIKE MACHINE LEARNING) HAS RESULTED IN A SEISMIC SHIFT IN OUR UNDERSTANDING OF THE PATHOPHYSIOLOGY OF ARLD. KNOWLEDGE OF THESE TECHNIQUES AND ADVANCES IS OF PARAMOUNT IMPORTANCE FOR THE PRACTICING HEPATOLOGIST AND RESEARCHERS ALIKE. ACCORDINGLY, IN THIS REVIEW ARTICLE WE WILL SUMMARISE THE CURRENT KNOWLEDGE ABOUT ALCOHOL-INDUCED EPIGENETIC ALTERATIONS IN THE CONTEXT OF ARLD, INCLUDING BUT NOT LIMITED TO, DNA HYPER/HYPO METHYLATION, HISTONE MODIFICATIONS, CHANGES IN NON-CODING RNA, 3D CHROMATIN ARCHITECTURE AND ENHANCER-PROMOTER INTERACTIONS. ADDITIONALLY, WE WILL DISCUSS THE STATE-OF-THE-ART TECHNIQUES USED IN THE STUDY OF ARLD (E.G. SINGLE-CELL SEQUENCING). WE WILL ALSO HIGHLIGHT THE EPIGENETIC REGULATION OF CHEMOKINES AND THEIR PROINFLAMMATORY ROLE IN THE CONTEXT OF ARLD. LASTLY, WE WILL EXAMINE THE CLINICAL APPLICATIONS OF EPIGENETICS IN THE DIAGNOSIS AND MANAGEMENT OF ARLD. 2022 10 258 25 ADVANCES IN PATHOGENESIS AND NANOPARTICLES (NPS)-MEDIATED TREATMENT OF PSORIASIS. PSORIASIS IS A CHRONIC PAPULOSQUAMOUS SKIN DISEASE WITH AN AUTOIMMUNE PATHOGENIC TRAITS AND STRONG GENETIC PREDISPOSITION. IN THE PAST FEW DECADES, WITH THE RAPID DEVELOPMENT OF MOLECULAR BIOLOGY AND CELL BIOLOGY, THE INHERENT PATHOGENESIS OF PSORIASIS HAS BEEN GRADUALLY ELUCIDATED, IN WHICH CYTOKINE INFLAMMATORY LOOPS, CELL SIGNALING PATHWAYS, AND EPIGENETIC FACTORS SUCH AS MIRNAS HAVE BEEN DEMONSTRATED TO PLAY IMPORTANT ROLES IN REGULATING THE DEVELOPMENT AND PROGRESSION OF PSORIASIS. MORE IMPORTANTLY, UNDERSTANDING THE PATHOGENESIS OF PSORIASIS HAS PROMOTED THE DEVELOPMENT OF EFFECTIVE TREATMENT FOR PSORIASIS. IN THIS REVIEW, WE SYSTEMICALLY SUMMARIZED THE MOLECULAR MECHANISMS REGULATING THE DEVELOPMENT AND PROGRESSION PSORIASIS, INTRODUCED VARIOUS THERAPEUTICS USED FOR CLINICAL PSORIASIS THERAPY, AND HIGHLIGHTED THE RECENT ADVANCES IN NANOPARTICLES (NPS)-MEDIATED DRUG DELIVERY FOR PSORIASIS TREATMENT. 2022 11 2553 27 EPIGENETICS IN PSORIASIS: PERSPECTIVE OF DNA METHYLATION. PSORIASIS IS A CHRONIC INFLAMMATORY SKIN DISEASE CHARACTERIZED BY EXCESSIVE PROLIFERATION OF KERATINOCYTES (KCS). ONSET OF PSORIASIS IS RELATED TO GENETIC, IMMUNE AND ENVIRONMENTAL FACTORS. THE ENVIRONMENT CAN INTERACT WITH THE GENOME THROUGH EPIGENETIC MODIFICATIONS, INCLUDING DNA METHYLATION, AND THIS MODIFICATION IS INVOLVED IN THE PATHOGENESIS OF PSORIASIS. IN ADDITION TO A SKIN DISEASE, PSORIASIS IS ALSO CONSIDERED A SYSTEMIC DISEASE. WE REVIEWED THE CURRENT LITERATURE OF PSORIATIC DNA METHYLATION FOR STUDIES FROM SEVERAL ASPECTS ON THE DNA METHYLATION DISTRIBUTION PATTERNS IN DIFFERENT TISSUES/CELLS, SINGLE-NUCLEOTIDE POLYMORPHISMS, AND CANDIDATE DISEASE GENES AND IDENTIFIED TARGET GENES REGULATED BY DNA METHYLATION THAT HAVE BEEN DIRECTLY/INDIRECTLY VALIDATED. THIS REVIEW CONTRIBUTES TO A COMPREHENSIVE UNDERSTANDING OF THE IMPORTANT A ROLE THAT DNA METHYLATION PLAYS IN PSORIASIS FROM A HOLISTIC PERSPECTIVE AND WILL PROMOTE THE IMPLEMENTATION OF DNA METHYLATION IN DIAGNOSTIC AND THERAPEUTIC STRATEGIES FOR PSORIATIC PATIENTS. 2021 12 2461 31 EPIGENETIC THERAPY AS A PUTATIVE MOLECULAR TARGET TO MODULATE B CELL BIOLOGY AND BEHAVIOR IN THE CONTEXT OF IMMUNOLOGICAL DISORDERS. HISTONE DEACETYLASE- (HDAC-) DEPENDENT EPIGENETIC MECHANISMS HAVE BEEN WIDELY EXPLORED IN THE LAST DECADE IN DIFFERENT TYPES OF MALIGNANCIES IN PRECLINICAL STUDIES. THIS EFFORT LED TO THE DISCOVERY AND DEVELOPMENT OF A RANGE OF NEW HDAC INHIBITORS (IHDAC) WITH DIFFERENT CHEMICAL PROPERTIES AND SELECTIVE ABILITIES. IN FACT, HEMATOLOGICAL MALIGNANCIES WERE THE FIRST ONES TO HAVE NEW IHDACS APPROVED FOR CLINICAL USE, SUCH AS VORINOSTAT AND ROMIDEPSIN FOR CUTANEOUS T CELL LYMPHOMA AND PANOBINOSTAT FOR MULTIPLE MYELOMA. BESIDES THESE PROMISING ALREADY APPROVED IHDACS, WE HIGHLIGHT A RANGE OF STUDIES FOCUSING ON THE HDAC-DEPENDENT EPIGENETIC CONTROL OF B CELL DEVELOPMENT, BEHAVIOR, AND/OR FUNCTION. HERE, WE HIGHLIGHT 21 IHDACS WHICH HAVE BEEN STUDIED IN THE LITERATURE IN THE CONTEXT OF B CELL DEVELOPMENT AND/OR DYSFUNCTION MOSTLY FOCUSED ON B CELL LYMPHOMAGENESIS. REGARDLESS, WE HAVE IDENTIFIED 55 CLINICAL TRIALS USING 6 OUT OF 21 IHDACS TO APPROACH THEIR PUTATIVE ROLES ON B CELL MALIGNANCIES; NONE OF THEM FOCUSES ON PERITONEAL B CELL POPULATIONS. SINCE CELLS BELONGING TO THIS PECULIAR BODY COMPARTMENT, NAMED B1 CELLS, MAY CONTRIBUTE TO THE DEVELOPMENT OF AUTOIMMUNE PATHOLOGIES, SUCH AS LUPUS, A BETTER UNDERSTANDING OF THE HDAC-DEPENDENT EPIGENETIC MECHANISMS THAT CONTROL ITS BIOLOGY AND BEHAVIOR MIGHT SHED LIGHT ON IHDAC USE TO MANAGE THESE IMMUNOLOGICAL DYSFUNCTIONS. IN THIS SENSE, IHDACS MIGHT EMERGE AS A PROMISING NEW APPROACH FOR TRANSLATIONAL STUDIES IN THIS FIELD. IN THIS REVIEW, WE DISCUSS A PUTATIVE ROLE OF IHDACS IN THE MODULATION OF PERITONEAL B CELL SUBPOPULATION'S BALANCE AS WELL AS THEIR ROLE AS THERAPEUTIC AGENTS IN THE CONTEXT OF CHRONIC DISEASES MEDIATED BY PERITONEAL B CELLS. 2020 13 5508 34 RHOA/RHO-KINASES IN ASTHMA: FROM PATHOGENESIS TO THERAPEUTIC TARGETS. ASTHMA IS A CHRONIC AND HETEROGENEOUS DISEASE CHARACTERISED BY AIRWAY INFLAMMATION AND INTERMITTENT AIRWAY NARROWING. THE KEY OBSTACLE IN THE PREVENTION AND TREATMENT OF ASTHMA HAS BEEN OUR INCOMPLETE UNDERSTANDING OF ITS AETIOLOGY AND BIOLOGICAL MECHANISMS. THE RAS HOMOLOG FAMILY MEMBER A (RHOA) OF THE RHO FAMILY GTPASES HAS BEEN CONSIDERED TO BE ONE OF THE MOST PROMISING AND NOVEL THERAPEUTIC TARGETS FOR ASTHMA. IT IS WELL KNOWN THAT RHOA/RHO-KINASES PLAY AN IMPORTANT ROLE IN THE PATHOPHYSIOLOGY OF ASTHMA, INCLUDING AIRWAY SMOOTH MUSCLE CONTRACTION, AIRWAY HYPER-RESPONSIVENESS, BETA-ADRENERGIC DESENSITISATION AND AIRWAY REMODELLING. HOWEVER, RECENT ADVANCES HAVE SUGGESTED NOVEL ROLES FOR RHOA IN REGULATING ALLERGIC AIRWAY INFLAMMATION. SPECIFICALLY, RHOA HAS BEEN SHOWN TO REGULATE ALLERGIC AIRWAY INFLAMMATION THROUGH CONTROLLING TH2 OR TH17 CELL DIFFERENTIATION AND TO REGULATE AIRWAY REMODELLING THROUGH REGULATING MESENCHYMAL STEM CELL (MSC) DIFFERENTIATION. IN THIS REVIEW, WE EVALUATE THE LITERATURE REGARDING THE RECENT ADVANCES IN THE ACTIVATION OF RHOA/RHO-KINASE, CYTOKINE AND EPIGENETIC REGULATION OF RHOA/RHO-KINASE, AND THE ROLE OF RHOA/RHO-KINASE IN REGULATING MAJOR FEATURES OF ASTHMA, SUCH AS AIRWAY HYPER-RESPONSIVENESS, REMODELLING AND INFLAMMATION. WE ALSO DISCUSS THE IMPORTANCE OF THE NEWLY IDENTIFIED ROLE OF RHOA/RHO-KINASE SIGNALLING IN MSC DIFFERENTIATION AND BRONCHIAL EPITHELIAL BARRIER DYSFUNCTION. THESE FINDINGS INDICATE THE FUNCTIONAL SIGNIFICANCE OF THE RHOA/RHO-KINASE PATHWAY IN THE PATHOPHYSIOLOGY OF ASTHMA AND SUGGEST THAT RHOA/RHO-KINASE SIGNALLING MAY BE A PROMISING THERAPEUTIC TARGET FOR THE TREATMENT OF ASTHMA. 2020 14 5890 35 SYSTEMS BIOLOGY ELUCIDATES COMMON PATHOGENIC MECHANISMS BETWEEN NONALCOHOLIC AND ALCOHOLIC-FATTY LIVER DISEASE. THE ABNORMAL ACCUMULATION OF FAT IN THE LIVER IS OFTEN RELATED EITHER TO METABOLIC RISK FACTORS ASSOCIATED WITH METABOLIC SYNDROME IN THE ABSENCE OF ALCOHOL CONSUMPTION (NONALCOHOLIC FATTY LIVER DISEASE, NAFLD) OR TO CHRONIC ALCOHOL CONSUMPTION (ALCOHOLIC FATTY LIVER DISEASE, AFLD). CLINICAL AND HISTOLOGICAL STUDIES SUGGEST THAT NAFLD AND AFLD SHARE PATHOGENIC MECHANISMS. NEVERTHELESS, CURRENT DATA ARE STILL INCONCLUSIVE AS TO WHETHER THE UNDERLYING BIOLOGICAL PROCESS AND DISEASE PATHWAYS OF NAFLD AND AFLD ARE ALIKE. OUR PRIMARY AIM WAS TO INTEGRATE OMICS AND PHYSIOLOGICAL DATA TO ANSWER THE QUESTION OF WHETHER NAFLD AND AFLD SHARE MOLECULAR PROCESSES THAT LEAD TO DISEASE DEVELOPMENT. WE ALSO EXPLORED THE EXTENT TO WHICH INSULIN RESISTANCE (IR) IS A DISTINCTIVE FEATURE OF NAFLD. TO ANSWER THESE QUESTIONS, WE USED SYSTEMS BIOLOGY APPROACHES, SUCH AS GENE ENRICHMENT ANALYSIS, PROTEIN-PROTEIN INTERACTION NETWORKS, AND GENE PRIORITIZATION, BASED ON MULTI-LEVEL DATA EXTRACTED BY COMPUTATIONAL DATA MINING. WE OBSERVED THAT THE LEADING DISEASE PATHWAYS ASSOCIATED WITH NAFLD DID NOT SIGNIFICANTLY DIFFER FROM THOSE OF AFLD. HOWEVER, SYSTEMS BIOLOGY REVEALED THE IMPORTANCE OF EACH MOLECULAR PROCESS BEHIND EACH OF THE TWO DISEASES, AND DISSECTED DISTINCTIVE MOLECULAR NAFLD AND AFLD-SIGNATURES. COMPARATIVE CO-ANALYSIS OF NAFLD AND AFLD CLARIFIED THE PARTICIPATION OF NAFLD, BUT NOT AFLD, IN CARDIOVASCULAR DISEASE, AND SHOWED THAT INSULIN SIGNALING IS IMPAIRED IN FATTY LIVER REGARDLESS OF THE NOXA, BUT THE PUTATIVE REGULATORY MECHANISMS ASSOCIATED WITH NAFLD SEEM TO ENCOMPASS A COMPLEX NETWORK OF GENES AND PROTEINS, PLAUSIBLE OF EPIGENETIC MODIFICATIONS. GENE PRIORITIZATION SHOWED A CANCER-RELATED FUNCTIONAL MAP THAT SUGGESTS THAT THE FATTY TRANSFORMATION OF THE LIVER TISSUE IS REGARDLESS OF THE CAUSE, AN EMERGING MECHANISM OF UBIQUITOUS ONCOGENIC ACTIVATION. IN CONCLUSION, SIMILAR UNDERLYING DISEASE MECHANISMS LEAD TO NAFLD AND AFLD, BUT SPECIFIC ONES DEPICT A PARTICULAR DISEASE SIGNATURE THAT HAS A DIFFERENT IMPACT ON THE SYSTEMIC CONTEXT. 2013 15 4329 28 MICRORNAS: A NEW AVENUE TO UNDERSTAND, INVESTIGATE AND TREAT IMMUNOGLOBULIN A NEPHROPATHY? IGA NEPHROPATHY (IGAN) IS THE MOST COMMON CAUSE OF PRIMARY GLOMERULONEPHRITIS WORLDWIDE. UP TO 30% OF CASES DEVELOP THE PROGRESSIVE FORM OF THE DISEASE, EVENTUALLY REQUIRING RENAL REPLACEMENT THERAPY. DIAGNOSIS AND RISK STRATIFICATION RELIES ON AN INVASIVE KIDNEY BIOPSY AND MANAGEMENT OPTIONS ARE LIMITED, WITH RECURRENCE FOLLOWING RENAL TRANSPLANTATION BEING COMMON. THUS THE QUEST TO UNDERSTAND THE PATHOPHYSIOLOGY OF IGAN HAS BEEN ONE OF GREAT IMPORTANCE. MICRORNAS (MIRS) ARE SHORT NUCLEOTIDES THAT SUPPRESS GENE EXPRESSION BY HYBRIDIZING TO THE 3' UNTRANSLATED REGION OF MESSENGER RNA (MRNAS), PROMOTING MRNA DEGRADATION OR DISRUPTING TRANSLATION. FIRST DISCOVERED IN 1993, MIRS HAVE SINCE BEEN IMPLICATED IN A NUMBER OF CHRONIC CONDITIONS, INCLUDING CANCER, HEART DISEASE AND KIDNEY DISEASE. THE MOUNTING INTEREST IN THE FIELD OF MIRS HAS LED TO FASCINATING DEVELOPMENTS IN THE FIELD OF NEPHROLOGY, RANGING FROM THEIR ROLES AS BIOMARKERS FOR DISEASE TO THE DEVELOPMENT OF MIR ANTAGONISTS AS AVENUES FOR TREATMENT. THE TRANSLATIONAL POTENTIAL FOR MIRS IN IGAN IS THUS WELL GROUNDED AND MAY REPRESENT A PARADIGM SHIFT IN CURRENT APPROACHES TO THE DISEASE. THIS REVIEW AIMS TO SUMMARIZE THE LITERATURE WITH REGARD TO MIRS AND THEIR ROLES IN IGAN. 2018 16 3963 33 LONG NONCODING RNA UC.98 STABILIZES ATHEROSCLEROTIC PLAQUES BY PROMOTING THE PROLIFERATION AND ADHESIVE CAPACITY IN MURINE AORTIC ENDOTHELIAL CELLS. PATHOLOGICAL STUDIES HAVE SHOWN THAT THE VULNERABILITY OF PLAQUES AFFECTS OUTCOMES IN PATIENTS WITH ATHEROSCLEROSIS (AS), A CHRONIC INFLAMMATORY DISEASE AND COMMON CAUSE OF MORBIDITY AND MORTALITY WORLDWIDE. ALTHOUGH EMERGING TECHNOLOGIES HAVE ENABLED EARLY DIAGNOSIS OF AS WITH HIGH-RISK VULNERABLE PLAQUES, MORE ACCURATE AND NONINVASIVE DIAGNOSTIC METHODS ARE URGENTLY REQUIRED. TO THIS END, MOLECULES INVOLVED IN GENETIC OR EPIGENETIC REGULATION OF THE VULNERABILITY OF ATHEROSCLEROTIC PLAQUES HAVE BEEN EXTENSIVELY STUDIED. HERE, WE EVALUATED LONG NONCODING RNA (LNCRNA) VARIABILITY BY MICROARRAY ASSAY IN MURINE AORTIC ENDOTHELIAL CELLS (MAECS) BEARING VULNERABLE PLAQUES AND IDENTIFIED THE NOVEL FUNCTIONAL LNCRNA UC.98, WHOSE EXPRESSION PATTERN WAS ASSOCIATED WITH THE VULNERABILITY OF ATHEROSCLEROTIC PLAQUES. CONSISTENT WITH THIS, CLINICAL STATISTICS COMPARING THE PERIPHERAL BLOOD SPECIMENS FROM SETS OF PATIENTS WITH AS WITH OR WITHOUT VULNERABLE PLAQUES CONFIRMED THE LINEAR RELATIONSHIP BETWEEN THE EXPRESSION PATTERN OF UC.98 AND PLAQUE INSTABILITY. MOREOVER, MTT ASSAYS AND WESTERN BLOT ANALYSIS SHOWED THAT SILENCING OF INTRINSIC UC.98 IN MAECS NOT ONLY SUPPRESSED CELL PROLIFERATION BUT ALSO DECREASED THE EXPRESSIONS OF VASCULAR CELL ADHESION MOLECULE-1 AND INTERCELLULAR ADHESION MOLECULE-1, THEREBY INACTIVATING THE NUCLEAR FACTOR-KAPPAB PATHWAY. IN CONCLUSION, OUR RESULTS HIGHLIGHTED THE PIVOTAL ROLE OF UC.98 IN REGULATING THE VULNERABILITY OF PLAQUES DURING AS PROGRESSION AND SUGGESTED THAT UC.98 MAY BE A BIOMARKER OF THE EARLY DIAGNOSIS AND PROGNOSIS OF AS WITH VULNERABLE PLAQUES AND A POTENTIAL THERAPEUTIC TARGET FOR SLOWING AS PROGRESSION. 2020 17 6230 30 THE LONG NONCODING RNA LANDSCAPE IN HYPOXIC AND INFLAMMATORY RENAL EPITHELIAL INJURY. LONG NONCODING RNAS (LNCRNAS) ARE EMERGING AS KEY SPECIES-SPECIFIC REGULATORS OF CELLULAR AND DISEASE PROCESSES. TO IDENTIFY POTENTIAL LNCRNAS RELEVANT TO ACUTE AND CHRONIC RENAL EPITHELIAL INJURY, WE PERFORMED UNBIASED WHOLE TRANSCRIPTOME PROFILING OF HUMAN PROXIMAL TUBULAR EPITHELIAL CELLS (PTECS) IN HYPOXIC AND INFLAMMATORY CONDITIONS. RNA SEQUENCING REVEALED THAT THE PROTEIN-CODING AND NONCODING TRANSCRIPTOMIC LANDSCAPE DIFFERED BETWEEN HYPOXIA-STIMULATED AND CYTOKINE-STIMULATED HUMAN PTECS. HYPOXIA- AND INFLAMMATION-MODULATED LNCRNAS WERE PRIORITIZED FOR FOCUSED FOLLOWUP ACCORDING TO THEIR DEGREE OF INDUCTION BY THESE STRESS STIMULI, THEIR EXPRESSION IN HUMAN KIDNEY TISSUE, AND WHETHER EXPOSURE OF HUMAN PTECS TO PLASMA OF CRITICALLY ILL SEPSIS PATIENTS WITH ACUTE KIDNEY INJURY MODULATED THEIR EXPRESSION. FOR THREE LNCRNAS (MIR210HG, LINC-ATP13A4-8, AND LINC-KIAA1737-2) THAT FULFILLED OUR CRITERIA, WE VALIDATED THEIR EXPRESSION PATTERNS, EXAMINED THEIR LOCI FOR CONSERVATION AND SYNTENY, AND DEFINED THEIR ASSOCIATED EPIGENETIC MARKS. THE LNCRNA LANDSCAPE CHARACTERIZED HERE PROVIDES INSIGHTS INTO NOVEL TRANSCRIPTOMIC VARIATIONS IN THE RENAL EPITHELIAL CELL RESPONSE TO HYPOXIC AND INFLAMMATORY STRESS. 2015 18 2059 27 EPIGENETIC CONTROL OF GENE EXPRESSION IN THE LUNG. EPIGENETICS IS TRADITIONALLY DEFINED AS THE STUDY OF HERITABLE CHANGES IN GENE EXPRESSION CAUSED BY MECHANISMS OTHER THAN CHANGES IN THE UNDERLYING DNA SEQUENCE. THERE ARE THREE MAIN CLASSES OF EPIGENETIC MARKS--DNA METHYLATION, MODIFICATIONS OF HISTONE TAILS, AND NONCODING RNAS--EACH OF WHICH MAY BE INFLUENCED BY THE ENVIRONMENT, DIET, DISEASES, AND AGEING. IMPORTANTLY, EPIGENETIC MARKS HAVE BEEN SHOWN TO INFLUENCE IMMUNE CELL MATURATION AND ARE ASSOCIATED WITH THE RISK OF DEVELOPING VARIOUS FORMS OF CANCER, INCLUDING LUNG CANCER. MOREOVER, THERE IS EMERGING EVIDENCE THAT THESE EPIGENETIC MARKS AFFECT GENE EXPRESSION IN THE LUNG AND ARE ASSOCIATED WITH BENIGN LUNG DISEASES, SUCH AS ASTHMA, CHRONIC OBSTRUCTIVE PULMONARY DISEASE, AND INTERSTITIAL LUNG DISEASE. TECHNOLOGICAL ADVANCES HAVE MADE IT FEASIBLE TO STUDY EPIGENETIC MARKS IN THE LUNG, AND IT IS ANTICIPATED THAT THIS KNOWLEDGE WILL ENHANCE OUR UNDERSTANDING OF THE DYNAMIC BIOLOGY IN THE LUNG AND LEAD TO THE DEVELOPMENT OF NOVEL DIAGNOSTIC AND THERAPEUTIC APPROACHES FOR OUR PATIENTS WITH LUNG DISEASE. 2011 19 3764 36 INTEGRATIVE ANALYSIS OF DNA METHYLATION AND GENE EXPRESSION DATA IDENTIFIES EPAS1 AS A KEY REGULATOR OF COPD. CHRONIC OBSTRUCTIVE PULMONARY DISEASE (COPD) IS A COMPLEX DISEASE. GENETIC, EPIGENETIC, AND ENVIRONMENTAL FACTORS ARE KNOWN TO CONTRIBUTE TO COPD RISK AND DISEASE PROGRESSION. THEREFORE WE DEVELOPED A SYSTEMATIC APPROACH TO IDENTIFY KEY REGULATORS OF COPD THAT INTEGRATES GENOME-WIDE DNA METHYLATION, GENE EXPRESSION, AND PHENOTYPE DATA IN LUNG TISSUE FROM COPD AND CONTROL SAMPLES. OUR INTEGRATIVE ANALYSIS IDENTIFIED 126 KEY REGULATORS OF COPD. WE IDENTIFIED EPAS1 AS THE ONLY KEY REGULATOR WHOSE DOWNSTREAM GENES SIGNIFICANTLY OVERLAPPED WITH MULTIPLE GENES SETS ASSOCIATED WITH COPD DISEASE SEVERITY. EPAS1 IS DISTINCT IN COMPARISON WITH OTHER KEY REGULATORS IN TERMS OF METHYLATION PROFILE AND DOWNSTREAM TARGET GENES. GENES PREDICTED TO BE REGULATED BY EPAS1 WERE ENRICHED FOR BIOLOGICAL PROCESSES INCLUDING SIGNALING, CELL COMMUNICATIONS, AND SYSTEM DEVELOPMENT. WE CONFIRMED THAT EPAS1 PROTEIN LEVELS ARE LOWER IN HUMAN COPD LUNG TISSUE COMPARED TO NON-DISEASE CONTROLS AND THAT EPAS1 GENE EXPRESSION IS REDUCED IN MICE CHRONICALLY EXPOSED TO CIGARETTE SMOKE. AS EPAS1 DOWNSTREAM GENES WERE SIGNIFICANTLY ENRICHED FOR HYPOXIA RESPONSIVE GENES IN ENDOTHELIAL CELLS, WE TESTED EPAS1 FUNCTION IN HUMAN ENDOTHELIAL CELLS. EPAS1 KNOCKDOWN BY SIRNA IN ENDOTHELIAL CELLS IMPACTED GENES THAT SIGNIFICANTLY OVERLAPPED WITH EPAS1 DOWNSTREAM GENES IN LUNG TISSUE INCLUDING HYPOXIA RESPONSIVE GENES, AND GENES ASSOCIATED WITH EMPHYSEMA SEVERITY. OUR FIRST INTEGRATIVE ANALYSIS OF GENOME-WIDE DNA METHYLATION AND GENE EXPRESSION PROFILES ILLUSTRATES THAT NOT ONLY DOES DNA METHYLATION PLAY A 'CAUSAL' ROLE IN THE MOLECULAR PATHOPHYSIOLOGY OF COPD, BUT IT CAN BE LEVERAGED TO DIRECTLY IDENTIFY NOVEL KEY MEDIATORS OF THIS PATHOPHYSIOLOGY. 2015 20 6141 29 THE ETIOLOGY OF PEYRONIE'S DISEASE: PATHOGENESIS AND GENETIC CONTRIBUTIONS. INTRODUCTION: PEYRONIE'S DISEASE (PD) IS A CHRONIC FIBROSING CONDITION THAT CONTRIBUTES TO PENILE DEFORMITY, CURVATURE, AND PAIN. INITIAL FAMILIAL STUDIES DEMONSTRATED POTENTIAL GENETIC LINKS TO PD. SINCE THAT TIME, VERY FEW INVESTIGATIONS HAVE SIGNIFICANTLY ADVANCED THE SCIENCE IN THIS AREA. HENCE, THERE IS A LARGE OPPORTUNITY AND SIGNIFICANT NEED TO BETTER STUDY THE UNDERLYING GENOMICS AND PATHOGENESIS OF PD. AIM: TO SUMMARIZE THE CURRENT GENOMIC LITERATURE RELEVANT TO PD. METHODS: A REVIEW WAS PERFORMED OF ALL PUBMED-INDEXED LITERATURE FROM 1970-2018 RELATING TO THE PATHOPHYSIOLOGY AND GENETICS OF PD. KEY FINDINGS WERE CATEGORICALLY SUMMARIZED TO INCLUDE EPIDEMIOLOGY, RISK FACTORS, INHERITANCE PATTERNS, CHROMOSOMAL INSTABILITY, GENETIC ASSOCIATIONS, EPIGENETICS, DIFFERENTIAL GENE EXPRESSION, AND PRECLINICAL MODELS OF PD. MAIN OUTCOME MEASURES: SUMMARY OF THE CURRENT LITERATURE ON THE GENETICS OF PD. RESULTS: PD IS A COMMON CONDITION AND HAS SEVERAL KNOWN RISK FACTORS AND COMORBID DISEASE ASSOCIATIONS. ALTHOUGH MEN WITH PD ARE BELIEVED TO BE GENETICALLY PREDISPOSED, THERE ARE LIKELY SEVERAL SUBTYPES OF THE CONDITION, EACH WITH VARIED PATHOPHYSIOLOGICAL DISORDERS AND CONTRIBUTING FACTORS. AVAILABLE DATA SUGGEST THAT PD IS ASSOCIATED WITH UNDERLYING GENETIC INSTABILITY, INCLUDING DYSREGULATION OF GENES RELATING TO FIBROSIS AND CELLULAR DEGRADATION, THUS, RESULTING IN ABNORMAL PLAQUE DEVELOPMENT AND PENILE DEFORMITY. PRECLINICAL MODELS, INCLUDING CELL CULTURES AND RAT MODELS, DEMONSTRATE SEVERAL CONSISTENCIES WITH PD CLINICAL AND HISTOPATHOLOGIC CHARACTERISTICS; HOWEVER, AN IDEAL MODEL WITH SPONTANEOUS DEVELOPMENT OF PD IS LACKING. CONCLUSION: BASED ON LIMITED DATA, PD LIKELY REPRESENTS A HETEROGENEOUS CONDITION, WITH BOTH HERITABLE AND ENVIRONMENTALLY-DRIVEN EPIGENETIC FACTORS CONTRIBUTING TO ITS DEVELOPMENT AND PROGRESSION. HOWEVER, THERE REMAINS A SIGNIFICANT GAP IN THE LITERATURE ON THE UNDERLYING CAUSE AND PATHOPHYSIOLOGY OF THE CONDITION, SUGGESTING A SUBSTANTIAL NEED FOR FURTHER INVESTIGATION AND STUDY. SHARMA KL, ALOM M, TROST L. THE ETIOLOGY OF PEYRONIE'S DISEASE: PATHOGENESIS AND GENETIC CONTRIBUTIONS. SEX MED REV 2020;8:314-323. 2020