1 4484 170 MOLECULAR SIGNATURE OF CAID SYNDROME: NONCANONICAL ROLES OF SGO1 IN REGULATION OF TGF-BETA SIGNALING AND EPIGENOMICS. BACKGROUND & AIMS: A GENERALIZED HUMAN PACEMAKING SYNDROME, CHRONIC ATRIAL AND INTESTINAL DYSRHYTHMIA (CAID) (OMIM 616201), IS CAUSED BY A HOMOZYGOUS SGO1 MUTATION (K23E), LEADING TO CHRONIC INTESTINAL PSEUDO-OBSTRUCTION AND ARRHYTHMIAS. BECAUSE CAID PATIENTS DO NOT SHOW PHENOTYPES CONSISTENT WITH PERTURBATION OF KNOWN ROLES OF SGO1, WE HYPOTHESIZED THAT NONCANONICAL ROLES OF SGO1 DRIVE THE CLINICAL MANIFESTATIONS OBSERVED. METHODS: TO IDENTIFY A MOLECULAR SIGNATURE FOR CAID SYNDROME, WE ACHIEVED UNBIASED SCREENS IN CELL LINES AND GUT TISSUES FROM CAID PATIENTS VS WILD-TYPE CONTROLS. WE PERFORMED RNA SEQUENCING ALONG WITH STABLE ISOTOPE LABELING WITH AMINO ACIDS IN CELL CULTURE. IN ADDITION, WE DETERMINED THE GENOME-WIDE DNA METHYLATION AND CHROMATIN ACCESSIBILITY SIGNATURES USING REDUCED REPRESENTATIVE BISULFITE SEQUENCING AND ASSAY FOR TRANSPOSASE-ACCESSIBLE CHROMATIN WITH HIGH-THROUGHPUT SEQUENCING. FUNCTIONAL STUDIES INCLUDED PATCH-CLAMP, QUANTITATION OF TRANSFORMING GROWTH FACTOR-BETA (TGF-BETA) SIGNALING, AND IMMUNOHISTOCHEMISTRY IN CAID PATIENT GUT BIOPSY SPECIMENS. RESULTS: PROTEOME AND TRANSCRIPTOME STUDIES CONVERGE ON CELL-CYCLE REGULATION, CARDIAC CONDUCTION, AND SMOOTH MUSCLE REGULATION AS DRIVERS OF CAID SYNDROME. SPECIFICALLY, THE INWARD RECTIFIER CURRENT, AN IMPORTANT REGULATOR OF CELLULAR FUNCTION, WAS DISRUPTED. IMMUNOHISTOCHEMISTRY CONFIRMED OVEREXPRESSION OF BUDDING UNINHIBITED BY BENZIMIDAZOLES 1 (BUB1) IN PATIENTS, IMPLICATING THE TGF-BETA PATHWAY IN CAID PATHOGENESIS. CANONICAL TGF-BETA SIGNALING WAS UP-REGULATED AND UNCOUPLED FROM NONCANONICAL SIGNALING IN CAID PATIENTS. REDUCED REPRESENTATIVE BISULFITE SEQUENCING AND ASSAY FOR TRANSPOSASE-ACCESSIBLE CHROMATIN WITH HIGH-THROUGHPUT SEQUENCING EXPERIMENTS SHOWED SIGNIFICANT CHANGES OF CHROMATIN STATES IN CAID, POINTING TO EPIGENETIC REGULATION AS A POSSIBLE PATHOLOGIC MECHANISM. CONCLUSIONS: OUR FINDINGS POINT TO IMPAIRED INWARD RECTIFIER POTASSIUM CURRENT, DYSREGULATION OF CANONICAL TGF-BETA SIGNALING, AND EPIGENETIC REGULATION AS POTENTIAL DRIVERS OF INTESTINAL AND CARDIAC MANIFESTATIONS OF CAID SYNDROME. TRANSCRIPT PROFILING AND GENOMICS DATA ARE AS FOLLOWS: REPOSITORY URL: HTTPS://WWW.NCBI.NLM.NIH.GOV/GEO; SUPERSERIES GSE110612 WAS COMPOSED OF THE FOLLOWING SUBSERIES: GSE110309, GSE110576, AND GSE110601. 2019 2 5702 32 SINGLE-CELL GENOMICS FOR INVESTIGATING PATHOGENESIS OF INFLAMMATORY DISEASES. RECENT TECHNICAL ADVANCES HAVE ENABLED UNBIASED TRANSCRIPTOMIC AND EPIGENETIC ANALYSIS OF EACH CELL, KNOWN AS "SINGLE-CELL ANALYSIS". SINGLE-CELL ANALYSIS HAS A VARIETY OF TECHNICAL APPROACHES TO INVESTIGATE THE STATE OF EACH CELL, INCLUDING MRNA LEVELS (TRANSCRIPTOME), THE IMMUNE REPERTOIRE (IMMUNE REPERTOIRE ANALYSIS), CELL SURFACE PROTEINS (SURFACE PROTEOME ANALYSIS), CHROMATIN ACCESSIBILITY (EPIGENOME), AND ACCORDANCE WITH GENOME VARIANTS (EQTLS; EXPRESSION QUANTITATIVE TRAIT LOCI). AS AN EFFECTIVE TOOL FOR INVESTIGATING ROBUST IMMUNE RESPONSES IN CORONAVIRUS DISEASE 2019 (COVID-19), MANY RESEARCHERS PERFORMED SINGLE-CELL ANALYSIS TO CAPTURE THE DIVERSE, UNBIASED IMMUNE CELL ACTIVATION AND DIFFERENTIATION. DESPITE CHALLENGES ELUCIDATING THE COMPLICATED IMMUNE MICROENVIRONMENTS OF CHRONIC INFLAMMATORY DISEASES USING EXISTING EXPERIMENTAL METHODS, IT IS NOW POSSIBLE TO CAPTURE THE SIMULTANEOUS IMMUNE FEATURES OF DIFFERENT CELL TYPES ACROSS INFLAMED TISSUES USING VARIOUS SINGLE-CELL TOOLS. IN THIS REVIEW, WE INTRODUCE PATIENT-BASED AND EXPERIMENTAL MOUSE MODEL RESEARCH UTILIZING SINGLE-CELL ANALYSES IN THE FIELD OF CHRONIC INFLAMMATORY DISEASES, AS WELL AS MULTI-ORGAN ATLAS TARGETING IMMUNE CELLS. 2023 3 1019 36 CIRCRNA-MIRNA CROSS-TALK IN THE TRANSITION FROM PAROXYSMAL TO PERMANENT ATRIAL FIBRILLATION. BACKGROUND: ATRIAL FIBRILLATION (AF) IS THE MOST PREVALENT CARDIAC ARRHYTHMIA IN WESTERN COUNTRIES. THE FACTORS GOVERNING THE PROGRESSION OF AF TO A PERMANENT CHRONIC CONDITION ARE STILL NOT WELL CHARACTERIZED. AMONG EPIGENETIC FACTORS, NON-CODING RNAS (NCRNAS) SUCH AS MIRNAS AND LNCRNAS HAVE BEEN RECENTLY DESCRIBED AS IMPORTANT PLAYERS INVOLVED IN THE AF PROGRESSION. WE HYPOTHESIZE ABOUT THE EXISTENCE OF ADDITIONAL REGULATORY LAYERS IN AF INVOLVING AN INTRICATE CROSS-TALK BETWEEN DIFFERENT NCRNA SPECIES, NAMELY MIRNAS AND CIRCRNAS FOR THE ESTABLISHMENT OF A CHRONIC AF CONDITION. METHODS AND RESULTS: WE HAVE PERFORMED AN UNBIASED STUDY ANALYZING THE EXPRESSION PROFILE FOR MIRNAS AND CIRCRNAS IN LEFT-ATRIAL BIOPSIES FROM PATIENTS WITH PAROXYSMAL AND PERMANENT AF BY RNA-SEQ. THE TRANSITION FROM PAROXYSMAL TO PERMANENT AF IS CHARACTERIZED BY A PATTERN OF DOWN-REGULATED MIRNAS, CONCOMITANT TO THE APPEARANCE OF SPECIFIC CIRCRNA SPECIES. THE ANALYSIS OF THE SPONGING ACTIVITIES OF THE CIRCRNAS EXCLUSIVELY EXPRESSED IN PERMANENT AF SAMPLES, ALLOWED US TO DETERMINE THAT THEY COULD BE RESPONSIBLE FOR THE DOWNREGULATION OF SPECIFIC MIRNAS IN ESTABLISHMENT OF A PERMANENT AF CONDITION. CONCLUSION: SPONGING ACTIVITY OF CIRCRNAS SEQUESTERING SPECIFIC MIRNAS IS AN IMPORTANT FACTOR TO BE CONSIDERED FOR THE DETERMINATION OF THE MOLECULAR MECHANISMS INVOLVED IN AF PROGRESSION. 2019 4 2856 37 FROM METHYLATION TO MYELINATION: EPIGENOMIC AND TRANSCRIPTOMIC PROFILING OF CHRONIC INACTIVE DEMYELINATED MULTIPLE SCLEROSIS LESIONS. IN THE PROGRESSIVE PHASE OF MULTIPLE SCLEROSIS (MS), THE HAMPERED DIFFERENTIATION CAPACITY OF OLIGODENDROCYTE PRECURSOR CELLS (OPCS) EVENTUALLY RESULTS IN REMYELINATION FAILURE. WE HAVE PREVIOUSLY SHOWN THAT DNA METHYLATION OF ID2/ID4 IS HIGHLY INVOLVED IN OPC DIFFERENTIATION AND REMYELINATION. IN THIS STUDY, WE TOOK AN UNBIASED APPROACH BY DETERMINING GENOME-WIDE DNA METHYLATION PATTERNS WITHIN CHRONICALLY DEMYELINATED MS LESIONS AND INVESTIGATED HOW CERTAIN EPIGENETIC SIGNATURES RELATE TO OPC DIFFERENTIATION CAPACITY. WE COMPARED GENOME-WIDE DNA METHYLATION AND TRANSCRIPTIONAL PROFILES BETWEEN CHRONICALLY DEMYELINATED MS LESIONS AND MATCHED NORMAL-APPEARING WHITE MATTER (NAWM), MAKING USE OF POST-MORTEM BRAIN TISSUE (N = 9/GROUP). DNA METHYLATION DIFFERENCES THAT INVERSELY CORRELATED WITH MRNA EXPRESSION OF THEIR CORRESPONDING GENES WERE VALIDATED FOR THEIR CELL-TYPE SPECIFICITY IN LASER-CAPTURED OPCS USING PYROSEQUENCING. THE CRISPR-DCAS9-DNMT3A/TET1 SYSTEM WAS USED TO EPIGENETICALLY EDIT HUMAN-IPSC-DERIVED OLIGODENDROCYTES TO ASSESS THE EFFECT ON CELLULAR DIFFERENTIATION. OUR DATA SHOW HYPERMETHYLATION OF CPGS WITHIN GENES THAT CLUSTER IN GENE ONTOLOGIES RELATED TO MYELINATION AND AXON ENSHEATHMENT. CELL TYPE-SPECIFIC VALIDATION INDICATES A REGION-DEPENDENT HYPERMETHYLATION OF MBP, ENCODING FOR MYELIN BASIC PROTEIN, IN OPCS OBTAINED FROM WHITE MATTER LESIONS COMPARED TO NAWM-DERIVED OPCS. BY ALTERING THE DNA METHYLATION STATE OF SPECIFIC CPGS WITHIN THE PROMOTOR REGION OF MBP, USING EPIGENETIC EDITING, WE SHOW THAT CELLULAR DIFFERENTIATION AND MYELINATION CAN BE BIDIRECTIONALLY MANIPULATED USING THE CRISPR-DCAS9-DNMT3A/TET1 SYSTEM IN VITRO. OUR DATA INDICATE THAT OPCS WITHIN CHRONICALLY DEMYELINATED MS LESIONS ACQUIRE AN INHIBITORY PHENOTYPE, WHICH TRANSLATES INTO HYPERMETHYLATION OF CRUCIAL MYELINATION-RELATED GENES. ALTERING THE EPIGENETIC STATUS OF MBP CAN RESTORE THE DIFFERENTIATION CAPACITY OF OPCS AND POSSIBLY BOOST (RE)MYELINATION. 2023 5 6703 39 VERSATILE WORKFLOW FOR CELL TYPE-RESOLVED TRANSCRIPTIONAL AND EPIGENETIC PROFILES FROM CRYOPRESERVED HUMAN LUNG. COMPLEXITY OF LUNG MICROENVIRONMENT AND CHANGES IN CELLULAR COMPOSITION DURING DISEASE MAKE IT EXCEPTIONALLY HARD TO UNDERSTAND MOLECULAR MECHANISMS DRIVING DEVELOPMENT OF CHRONIC LUNG DISEASES. ALTHOUGH RECENT ADVANCES IN CELL TYPE-RESOLVED APPROACHES HOLD GREAT PROMISE FOR STUDYING COMPLEX DISEASES, THEIR IMPLEMENTATION RELIES ON LOCAL ACCESS TO FRESH TISSUE, AS TRADITIONAL TISSUE STORAGE METHODS DO NOT ALLOW VIABLE CELL ISOLATION. TO OVERCOME THESE HURDLES, WE DEVELOPED A VERSATILE WORKFLOW THAT ALLOWS STORAGE OF LUNG TISSUE WITH HIGH VIABILITY, PERMITS THOROUGH SAMPLE QUALITY CHECK BEFORE CELL ISOLATION, AND BEFITS SEQUENCING-BASED PROFILING. WE DEMONSTRATE THAT CRYOPRESERVATION ENABLES ISOLATION OF MULTIPLE CELL TYPES FROM BOTH HEALTHY AND DISEASED LUNGS. BASAL CELLS FROM CRYOPRESERVED AIRWAYS RETAIN THEIR DIFFERENTIATION ABILITY, INDICATING THAT CELLULAR IDENTITY IS NOT ALTERED BY CRYOPRESERVATION. IMPORTANTLY, USING RNA SEQUENCING AND EPIC ARRAY, WE SHOW THAT GENE EXPRESSION AND DNA METHYLATION SIGNATURES ARE PRESERVED UPON CRYOPRESERVATION, EMPHASIZING THE SUITABILITY OF OUR WORKFLOW FOR OMICS PROFILING OF LUNG CELLS. MOREOVER, WE OBTAINED HIGH-QUALITY SINGLE-CELL RNA-SEQUENCING DATA OF CELLS FROM CRYOPRESERVED HUMAN LUNGS, DEMONSTRATING THAT CRYOPRESERVATION EMPOWERS SINGLE-CELL APPROACHES. OVERALL, THANKS TO ITS SIMPLICITY, OUR WORKFLOW IS WELL SUITED FOR PROSPECTIVE TISSUE COLLECTION BY ACADEMIC COLLABORATORS AND BIOBANKS, OPENING WORLDWIDE ACCESS TO VIABLE HUMAN TISSUE. 2021 6 371 27 AN ATLAS OF THE AGING LUNG MAPPED BY SINGLE CELL TRANSCRIPTOMICS AND DEEP TISSUE PROTEOMICS. AGING PROMOTES LUNG FUNCTION DECLINE AND SUSCEPTIBILITY TO CHRONIC LUNG DISEASES, WHICH ARE THE THIRD LEADING CAUSE OF DEATH WORLDWIDE. HERE, WE USE SINGLE CELL TRANSCRIPTOMICS AND MASS SPECTROMETRY-BASED PROTEOMICS TO QUANTIFY CHANGES IN CELLULAR ACTIVITY STATES ACROSS 30 CELL TYPES AND CHART THE LUNG PROTEOME OF YOUNG AND OLD MICE. WE SHOW THAT AGING LEADS TO INCREASED TRANSCRIPTIONAL NOISE, INDICATING DEREGULATED EPIGENETIC CONTROL. WE OBSERVE CELL TYPE-SPECIFIC EFFECTS OF AGING, UNCOVERING INCREASED CHOLESTEROL BIOSYNTHESIS IN TYPE-2 PNEUMOCYTES AND LIPOFIBROBLASTS AND ALTERED RELATIVE FREQUENCY OF AIRWAY EPITHELIAL CELLS AS HALLMARKS OF LUNG AGING. PROTEOMIC PROFILING REVEALS EXTRACELLULAR MATRIX REMODELING IN OLD MICE, INCLUDING INCREASED COLLAGEN IV AND XVI AND DECREASED FRASER SYNDROME COMPLEX PROTEINS AND COLLAGEN XIV. COMPUTATIONAL INTEGRATION OF THE AGING PROTEOME WITH THE SINGLE CELL TRANSCRIPTOMES PREDICTS THE CELLULAR SOURCE OF REGULATED PROTEINS AND CREATES AN UNBIASED REFERENCE MAP OF THE AGING LUNG. 2019 7 2481 40 EPIGENETIC UPREGULATION OF LNCRNAS AT 13Q14.3 IN LEUKEMIA IS LINKED TO THE IN CIS DOWNREGULATION OF A GENE CLUSTER THAT TARGETS NF-KB. NON-CODING RNAS ARE MUCH MORE COMMON THAN PREVIOUSLY THOUGHT. HOWEVER, FOR THE VAST MAJORITY OF NON-CODING RNAS, THE CELLULAR FUNCTION REMAINS ENIGMATIC. THE TWO LONG NON-CODING RNA (LNCRNA) GENES DLEU1 AND DLEU2 MAP TO A CRITICAL REGION AT CHROMOSOMAL BAND 13Q14.3 THAT IS RECURRENTLY DELETED IN SOLID TUMORS AND HEMATOPOIETIC MALIGNANCIES LIKE CHRONIC LYMPHOCYTIC LEUKEMIA (CLL). WHILE NO POINT MUTATIONS HAVE BEEN FOUND IN THE PROTEIN CODING CANDIDATE GENES AT 13Q14.3, THEY ARE DEREGULATED IN MALIGNANT CELLS, SUGGESTING AN EPIGENETIC TUMOR SUPPRESSOR MECHANISM. WE THEREFORE CHARACTERIZED THE EPIGENETIC MAKEUP OF 13Q14.3 IN CLL CELLS AND FOUND HISTONE MODIFICATIONS BY CHROMATIN-IMMUNOPRECIPITATION (CHIP) THAT ARE ASSOCIATED WITH ACTIVATED TRANSCRIPTION AND SIGNIFICANT DNA-DEMETHYLATION AT THE TRANSCRIPTIONAL START SITES OF DLEU1 AND DLEU2 USING 5 DIFFERENT SEMI-QUANTITATIVE AND QUANTITATIVE METHODS (APRIMES, BIOCOBRA, MCIP, MASSARRAY, AND BISULFITE SEQUENCING). THESE EPIGENETIC ABERRATIONS WERE CORRELATED WITH TRANSCRIPTIONAL DEREGULATION OF THE NEIGHBORING CANDIDATE TUMOR SUPPRESSOR GENES, SUGGESTING A COREGULATION IN CIS OF THIS GENE CLUSTER. WE FOUND THAT THE 13Q14.3 GENES IN ADDITION TO THEIR PREVIOUSLY KNOWN FUNCTIONS REGULATE NF-KB ACTIVITY, WHICH WE COULD SHOW AFTER OVEREXPRESSION, SIRNA-MEDIATED KNOCKDOWN, AND DOMINANT-NEGATIVE MUTANT GENES BY USING WESTERN BLOTS WITH PREVIOUSLY UNDESCRIBED ANTIBODIES, BY A CUSTOMIZED ELISA AS WELL AS BY REPORTER ASSAYS. IN ADDITION, WE PERFORMED AN UNBIASED SCREEN OF 810 HUMAN MIRNAS AND IDENTIFIED THE MIR-15/16 FAMILY OF GENES AT 13Q14.3 AS THE STRONGEST INDUCERS OF NF-KB ACTIVITY. IN SUMMARY, THE TUMOR SUPPRESSOR MECHANISM AT 13Q14.3 IS A CLUSTER OF GENES CONTROLLED BY TWO LNCRNA GENES THAT ARE REGULATED BY DNA-METHYLATION AND HISTONE MODIFICATIONS AND WHOSE MEMBERS ALL REGULATE NF-KB. THEREFORE, THE TUMOR SUPPRESSOR MECHANISM IN 13Q14.3 UNDERLINES THE ROLE BOTH OF EPIGENETIC ABERRATIONS AND OF LNCRNA GENES IN HUMAN TUMORIGENESIS AND IS AN EXAMPLE OF COLOCALIZATION OF A FUNCTIONALLY RELATED GENE CLUSTER. 2013 8 6672 39 USE OF A MOUSE IN VITRO FERTILIZATION MODEL TO UNDERSTAND THE DEVELOPMENTAL ORIGINS OF HEALTH AND DISEASE HYPOTHESIS. THE DEVELOPMENTAL ORIGINS OF HEALTH AND DISEASE HYPOTHESIS HOLDS THAT ALTERATIONS TO HOMEOSTASIS DURING CRITICAL PERIODS OF DEVELOPMENT CAN PREDISPOSE INDIVIDUALS TO ADULT-ONSET CHRONIC DISEASES SUCH AS DIABETES AND METABOLIC SYNDROME. IT REMAINS CONTROVERSIAL WHETHER PREIMPLANTATION EMBRYO MANIPULATION, CLINICALLY USED TO TREAT PATIENTS WITH INFERTILITY, DISTURBS HOMEOSTASIS AND AFFECTS LONG-TERM GROWTH AND METABOLISM. TO ADDRESS THIS CONTROVERSY, WE HAVE ASSESSED THE EFFECTS OF IN VITRO FERTILIZATION (IVF) ON POSTNATAL PHYSIOLOGY IN MICE. WE DEMONSTRATE THAT IVF AND EMBRYO CULTURE, EVEN UNDER CONDITIONS CONSIDERED OPTIMAL FOR MOUSE EMBRYO CULTURE, ALTER POSTNATAL GROWTH TRAJECTORY, FAT ACCUMULATION, AND GLUCOSE METABOLISM IN ADULT MICE. UNBIASED METABOLIC PROFILING IN SERUM AND MICROARRAY ANALYSIS OF PANCREATIC ISLETS AND INSULIN SENSITIVE TISSUES (LIVER, SKELETAL MUSCLE, AND ADIPOSE TISSUE) REVEALED BROAD CHANGES IN METABOLIC HOMEOSTASIS, CHARACTERIZED BY SYSTEMIC OXIDATIVE STRESS AND MITOCHONDRIAL DYSFUNCTION. ADOPTING A CANDIDATE APPROACH, WE IDENTIFY THIOREDOXIN-INTERACTING PROTEIN (TXNIP), A KEY MOLECULE INVOLVED IN INTEGRATING CELLULAR NUTRITIONAL AND OXIDATIVE STATES WITH METABOLIC RESPONSE, AS A MARKER FOR PREIMPLANTATION STRESS AND DEMONSTRATE TISSUE-SPECIFIC EPIGENETIC AND TRANSCRIPTIONAL TXNIP MISREGULATION IN SELECTED ADULT TISSUES. IMPORTANTLY, DYSREGULATION OF TXNIP EXPRESSION IS ASSOCIATED WITH ENRICHMENT FOR H4 ACETYLATION AT THE TXNIP PROMOTER THAT PERSISTS FROM THE BLASTOCYST STAGE THROUGH ADULTHOOD IN ADIPOSE TISSUE. OUR DATA SUPPORT THE VULNERABILITY OF PREIMPLANTATION EMBRYOS TO ENVIRONMENTAL DISTURBANCE AND DEMONSTRATE THAT CONCEPTION BY IVF CAN REPROGRAM METABOLIC HOMEOSTASIS THROUGH METABOLIC, TRANSCRIPTIONAL, AND EPIGENETIC MECHANISMS WITH LASTING EFFECTS FOR ADULT GROWTH AND FITNESS. THIS STUDY HAS WIDE CLINICAL RELEVANCE AND UNDERSCORES THE IMPORTANCE OF CONTINUED FOLLOW-UP OF IVF-CONCEIVED OFFSPRING. 2014 9 124 37 A SYSTEMS APPROACH DELIVERS A FUNCTIONAL MICRORNA CATALOG AND EXPANDED TARGETS FOR SEIZURE SUPPRESSION IN TEMPORAL LOBE EPILEPSY. TEMPORAL LOBE EPILEPSY IS THE MOST COMMON DRUG-RESISTANT FORM OF EPILEPSY IN ADULTS. THE REORGANIZATION OF NEURAL NETWORKS AND THE GENE EXPRESSION LANDSCAPE UNDERLYING PATHOPHYSIOLOGIC NETWORK BEHAVIOR IN BRAIN STRUCTURES SUCH AS THE HIPPOCAMPUS HAS BEEN SUGGESTED TO BE CONTROLLED, IN PART, BY MICRORNAS. TO SYSTEMATICALLY ASSESS THEIR SIGNIFICANCE, WE SEQUENCED ARGONAUTE-LOADED MICRORNAS TO DEFINE FUNCTIONALLY ENGAGED MICRORNAS IN THE HIPPOCAMPUS OF THREE DIFFERENT ANIMAL MODELS IN TWO SPECIES AND AT SIX TIME POINTS BETWEEN THE INITIAL PRECIPITATING INSULT THROUGH TO THE ESTABLISHMENT OF CHRONIC EPILEPSY. WE THEN SELECTED COMMONLY UP-REGULATED MICRORNAS FOR A FUNCTIONAL IN VIVO THERAPEUTIC SCREEN USING OLIGONUCLEOTIDE INHIBITORS. ARGONAUTE SEQUENCING GENERATED 1.44 BILLION SMALL RNA READS OF WHICH UP TO 82% WERE MICRORNAS, WITH OVER 400 UNIQUE MICRORNAS DETECTED PER MODEL. APPROXIMATELY HALF OF THE DETECTED MICRORNAS WERE DYSREGULATED IN EACH EPILEPSY MODEL. WE PRIORITIZED COMMONLY UP-REGULATED MICRORNAS THAT WERE FULLY CONSERVED IN HUMANS AND DESIGNED CUSTOM ANTISENSE OLIGONUCLEOTIDES FOR THESE CANDIDATE TARGETS. ANTISEIZURE PHENOTYPES WERE OBSERVED UPON KNOCKDOWN OF MIR-10A-5P, MIR-21A-5P, AND MIR-142A-5P AND ELECTROPHYSIOLOGICAL ANALYSES INDICATED BROAD SAFETY OF THIS APPROACH. COMBINED INHIBITION OF THESE THREE MICRORNAS REDUCED SPONTANEOUS SEIZURES IN EPILEPTIC MICE. PROTEOMIC DATA, RNA SEQUENCING, AND PATHWAY ANALYSIS ON PREDICTED AND VALIDATED TARGETS OF THESE MICRORNAS IMPLICATED DEREPRESSED TGF-BETA SIGNALING AS A SHARED SEIZURE-MODIFYING MECHANISM. CORRESPONDINGLY, INHIBITION OF TGF-BETA SIGNALING OCCLUDED THE ANTISEIZURE EFFECTS OF THE ANTAGOMIRS. TOGETHER, THESE RESULTS IDENTIFY SHARED, DYSREGULATED, AND FUNCTIONALLY ACTIVE MICRORNAS DURING THE PATHOGENESIS OF EPILEPSY WHICH REPRESENT THERAPEUTIC ANTISEIZURE TARGETS. 2020 10 3064 47 GENOME-WIDE DNA METHYLATION ENCODES CARDIAC TRANSCRIPTIONAL REPROGRAMMING IN HUMAN ISCHEMIC HEART FAILURE. ISCHEMIC CARDIOMYOPATHY (ICM) IS THE CLINICAL ENDPOINT OF CORONARY HEART DISEASE AND A LEADING CAUSE OF HEART FAILURE. DESPITE GROWING DEMANDS TO DEVELOP PERSONALIZED APPROACHES TO TREAT ICM, PROGRESS IS LIMITED BY INADEQUATE KNOWLEDGE OF ITS PATHOGENESIS. SINCE EPIGENETICS HAS BEEN IMPLICATED IN THE DEVELOPMENT OF OTHER CHRONIC DISEASES, THE CURRENT STUDY WAS DESIGNED TO DETERMINE WHETHER TRANSCRIPTIONAL AND/OR EPIGENETIC CHANGES ARE SUFFICIENT TO DISTINGUISH ICM FROM OTHER ETIOLOGIES OF HEART FAILURE. SPECIFICALLY, WE HYPOTHESIZE THAT GENOME-WIDE DNA METHYLATION ENCODES TRANSCRIPTIONAL REPROGRAMMING IN ICM. RNA-SEQUENCING ANALYSIS WAS PERFORMED ON HUMAN ISCHEMIC LEFT VENTRICULAR TISSUE OBTAINED FROM PATIENTS WITH END-STAGE HEART FAILURE, WHICH ENRICHED KNOWN TARGETS OF THE POLYCOMB METHYLTRANSFERASE EZH2 COMPARED TO NON-ISCHEMIC HEARTS. COMBINED RNA SEQUENCING AND GENOME-WIDE DNA METHYLATION ANALYSIS REVEALED A ROBUST GENE EXPRESSION PATTERN CONSISTENT WITH SUPPRESSION OF OXIDATIVE METABOLISM, INDUCED ANAEROBIC GLYCOLYSIS, AND ALTERED CELLULAR REMODELING. LASTLY, KLF15 WAS IDENTIFIED AS A PUTATIVE UPSTREAM REGULATOR OF METABOLIC GENE EXPRESSION THAT WAS ITSELF REGULATED BY EZH2 IN A SET DOMAIN-DEPENDENT MANNER. OUR OBSERVATIONS THEREFORE DEFINE A NOVEL ROLE OF DNA METHYLATION IN THE METABOLIC REPROGRAMMING OF ICM. FURTHERMORE, WE IDENTIFY EZH2 AS AN EPIGENETIC REGULATOR OF KLF15 ALONG WITH DNA HYPERMETHYLATION, AND WE PROPOSE A NOVEL MECHANISM THROUGH WHICH CORONARY HEART DISEASE REPROGRAMS THE EXPRESSION OF BOTH INTERMEDIATE ENZYMES AND UPSTREAM REGULATORS OF CARDIAC METABOLISM SUCH AS KLF15. 2019 11 459 34 APPLYING SINGLE-CELL TECHNOLOGIES TO CLINICAL PATHOLOGY: PROGRESS IN NEPHROPATHOLOGY. CELLS REPRESENT THE BASIC BUILDING BLOCKS OF LIVING ORGANISMS. ACCURATE CHARACTERISATION OF CELLULAR PHENOTYPE, INTERCELLULAR SIGNALLING NETWORKS, AND THE SPATIAL ORGANISATION OF CELLS WITHIN ORGANS IS CRUCIAL TO DELIVER A BETTER UNDERSTANDING OF THE PROCESSES UNDERPINNING PHYSIOLOGY, AND THE PERTURBATIONS THAT LEAD TO DISEASE. SINGLE-CELL METHODOLOGIES HAVE INCREASED RAPIDLY IN SCALE AND SCOPE IN RECENT YEARS AND ARE SET TO GENERATE IMPORTANT INSIGHTS INTO HUMAN DISEASE. HERE, WE REVIEW CURRENT PRACTICES IN NEPHROPATHOLOGY, WHICH ARE DOMINATED BY RELATIVELY SIMPLE MORPHOLOGICAL DESCRIPTIONS OF TISSUE BIOPSIES BASED ON THEIR APPEARANCE USING LIGHT MICROSCOPY. BULK TRANSCRIPTOMICS HAVE MORE RECENTLY BEEN USED TO EXPLORE GLOMERULAR AND TUBULOINTERSTITIAL KIDNEY DISEASE, RENAL CANCER, AND THE RESPONSES TO INJURY AND ALLOIMMUNITY IN KIDNEY TRANSPLANTATION, GENERATING NOVEL DISEASE INSIGHTS AND PROGNOSTIC BIOMARKERS. THESE STUDIES SET THE STAGE FOR SINGLE-CELL TRANSCRIPTOMIC APPROACHES THAT REVEAL CELL-TYPE-SPECIFIC GENE EXPRESSION PATTERNS IN HEALTH AND DISEASE. THESE TECHNOLOGIES ALLOW GENOME-WIDE DISEASE SUSCEPTIBILITY GENES TO BE INTERPRETED WITH THE KNOWLEDGE OF THE SPECIFIC CELL POPULATIONS WITHIN ORGANS THAT EXPRESS THEM, IDENTIFYING CANDIDATE CELL TYPES FOR FURTHER STUDY. SINGLE-CELL TECHNOLOGIES ARE ALSO MOVING BEYOND ASSAYING INDIVIDUAL CELLULAR TRANSCRIPTOMES, TO MEASURING THE EPIGENETIC LANDSCAPE OF SINGLE CELLS. SINGLE-CELL ANTIGEN-RECEPTOR GENE SEQUENCING ALSO ENABLES SPECIFIC T- AND B-CELL CLONES TO BE TRACKED IN DIFFERENT TISSUES AND DISEASE STATES. IN THE COMING YEARS THESE RICH 'MULTI-OMIC' DESCRIPTIONS OF KIDNEY DISEASE WILL ENABLE HISTOPATHOLOGICAL DESCRIPTIONS TO BE COMPREHENSIVELY INTEGRATED WITH MOLECULAR PHENOTYPES, ENABLING BETTER DISEASE CLASSIFICATION AND PROGNOSTICATION AND THE APPLICATION OF PERSONALISED TREATMENT STRATEGIES. (C) 2020 THE AUTHORS. THE JOURNAL OF PATHOLOGY PUBLISHED BY JOHN WILEY & SONS LTD ON BEHALF OF PATHOLOGICAL SOCIETY OF GREAT BRITAIN AND IRELAND. 2020 12 4413 29 MOLECULAR AND CELLULAR INSIGHTS INTO THE DEVELOPMENT OF UTERINE FIBROIDS. UTERINE LEIOMYOMAS REPRESENT THE MOST COMMON BENIGN GYNECOLOGIC TUMOR. THESE HORMONE-DEPENDENT SMOOTH-MUSCLE FORMATIONS OCCUR WITH AN ESTIMATED PREVALENCE OF ~70% AMONG WOMEN OF REPRODUCTIVE AGE AND CAUSE SYMPTOMS INCLUDING PAIN, ABNORMAL UTERINE BLEEDING, INFERTILITY, AND RECURRENT ABORTION. DESPITE THE PREVALENCE AND PUBLIC HEALTH IMPACT OF UTERINE LEIOMYOMAS, AVAILABLE TREATMENTS REMAIN LIMITED. AMONG THE POTENTIAL CAUSES OF LEIOMYOMAS, EARLY HORMONAL EXPOSURE DURING PERIODS OF DEVELOPMENT MAY RESULT IN DEVELOPMENTAL REPROGRAMMING VIA EPIGENETIC CHANGES THAT PERSIST IN ADULTHOOD, LEADING TO DISEASE ONSET OR PROGRESSION. RECENT DEVELOPMENTS IN UNBIASED HIGH-THROUGHPUT SEQUENCING TECHNOLOGY ENABLE POWERFUL APPROACHES TO DETECT DRIVER MUTATIONS, YIELDING NEW INSIGHTS INTO THE GENOMIC INSTABILITY OF LEIOMYOMAS. CURRENT DATA ALSO SUGGEST THAT EACH LEIOMYOMA ORIGINATES FROM THE CLONAL EXPANSION OF A SINGLE TRANSFORMED SOMATIC STEM CELL OF THE MYOMETRIUM. IN THIS REVIEW, WE PROPOSE AN INTEGRATED CELLULAR AND MOLECULAR VIEW OF THE ORIGINS OF LEIOMYOMAS, AS WELL AS PARADIGM-SHIFTING STUDIES THAT WILL LEAD TO BETTER UNDERSTANDING AND THE FUTURE DEVELOPMENT OF NON-SURGICAL TREATMENTS FOR THESE HIGHLY FREQUENT TUMORS. 2021 13 543 38 ATRIAL FIBRILLATION IS ASSOCIATED WITH HYPERMETHYLATION IN HUMAN LEFT ATRIUM, AND TREATMENT WITH DECITABINE REDUCES ATRIAL TACHYARRHYTHMIAS IN SPONTANEOUSLY HYPERTENSIVE RATS. ATRIAL FIBRILLATION (AF) IS THE MOST COMMON CARDIAC ARRHYTHMIA. AS THE MOLECULAR MECHANISMS UNDERLYING THE PATHOLOGY ARE LARGELY UNKNOWN, THIS CARDIAC ARRHYTHMIA REMAINS DIFFICULT TO TREAT. TO IDENTIFY SPECIFIC MOLECULAR ACTORS INVOLVED IN AF, WE HAVE PERFORMED A TRANSCRIPTOMIC ANALYSIS ON LEFT ATRIUM (LA) FROM PATIENTS WITH VALVULAR HEART DISEASE WITH OR WITHOUT AF. WE SHOWED THAT 1627 GENES HAD ALTERED BASAL EXPRESSION LEVEL IN LA TISSUE OF AF PATIENTS COMPARED WITH THE CONTROL GROUP. THE SIGNIFICANTLY ENRICHED GENE ONTOLOGY BIOLOGICAL PROCESS "ANATOMICAL STRUCTURE MORPHOGENESIS" CONTAINED THE HIGHEST NUMBER OF GENES IN LINE WITH CHANGES IN STRUCTURE THAT OCCUR WHEN THE HUMAN HEART REMODELS FOLLOWING AF DEVELOPMENT (IE, LA DILATATION AND INTERSTITIAL FIBROSIS). WE THEN FOCUSED THE STUDY ON PITX2 (PAIRED-LIKE HOMEODOMAIN 2), BEING THE MOST ALTERED TRANSCRIPTION FACTOR IN LA FROM AF PATIENTS AND FROM WHICH COMPELLING EVIDENCE HAVE INDICATED THAT ITS REDUCED EXPRESSION CAN BE CONSIDERED AS A MARKER FOR THE DISEASE. IN ADDITION, ITS EXPRESSION WAS INVERSELY CORRELATED WITH LA SIZE. WE DEMONSTRATED THAT AF IS ASSOCIATED WITH PITX2 PROMOTER HYPERMETHYLATION BOTH IN HUMANS AND ARRHYTHMIC AGING SPONTANEOUSLY HYPERTENSIVE RATS. CHRONIC ADMINISTRATION OF A DNA METHYLATION INHIBITOR (IE, 5-AZA-2'-DEOXYCITIDINE) IMPROVED ECG ARRHYTHMIC PROFILES AND SUPEROXIDE DISMUTASE ACTIVITIES AND REDUCED FIBROSIS IN THE LEFT VENTRICLE OF SPONTANEOUSLY HYPERTENSIVE RATS. TAKEN TOGETHER, THESE DATA SUPPORT THE NOTION THAT AF IS ASSOCIATED WITH EPIGENETIC CHANGES IN LA AND PROVIDE A PROOF-OF-CONCEPT THAT HYPOMETHYLATING AGENTS HAVE TO BE CONSIDERED IN THE TREATMENT OF ATRIAL ARRHYTHMIAS. 2017 14 5120 26 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 15 6540 38 TRANSCRIPTIONAL, EPIGENETIC, AND FUNCTIONAL REPROGRAMMING OF MONOCYTES FROM NON-HUMAN PRIMATES FOLLOWING CHRONIC ALCOHOL DRINKING. CHRONIC HEAVY DRINKING (CHD) OF ALCOHOL IS A KNOWN RISK FACTOR FOR INCREASED SUSCEPTIBILITY TO BACTERIAL AND VIRAL INFECTION AS WELL AS IMPAIRED WOUND HEALING. EVIDENCE SUGGESTS THAT THESE DEFECTS ARE MEDIATED BY A DYSREGULATED INFLAMMATORY RESPONSE ORIGINATING FROM MYELOID CELLS, NOTABLY MONOCYTES AND MACROPHAGES, BUT THE MECHANISMS REMAIN POORLY UNDERSTOOD. OUR ABILITY TO STUDY CHD IS IMPACTED BY THE COMPLEXITIES OF HUMAN DRINKING PATTERNS AND BEHAVIOR AS WELL AS COMORBIDITIES AND CONFOUNDING RISK FACTORS FOR PATIENTS WITH ALCOHOL USE DISORDERS. TO OVERCOME THESE CHALLENGES, WE UTILIZED A TRANSLATIONAL RHESUS MACAQUE MODEL OF VOLUNTARY ETHANOL SELF-ADMINISTRATION THAT CLOSELY RECAPITULATES HUMAN DRINKING PATTERNS AND CHRONICITY. IN THIS STUDY, WE EXAMINED THE EFFECTS OF CHD ON BLOOD MONOCYTES IN CONTROL AND CHD FEMALE MACAQUES AFTER 12 MONTHS OF DAILY ETHANOL CONSUMPTION. WHILE MONOCYTES FROM CHD FEMALE MACAQUES GENERATED A HYPER-INFLAMMATORY RESPONSE TO EX VIVO LPS STIMULATION, THEIR RESPONSE TO E. COLI WAS DAMPENED. IN DEPTH SCRNA-SEQ ANALYSIS OF PURIFIED MONOCYTES REVEALED SIGNIFICANT SHIFTS IN CLASSICAL MONOCYTE SUBSETS WITH ACCUMULATION OF CELLS EXPRESSING MARKERS OF HYPOXIA (HIF1A) AND INFLAMMATION (NFKB SIGNALING PATHWAY) IN CHD MACAQUES. THE INCREASED PRESENCE OF MONOCYTE SUBSETS SKEWED TOWARDS INFLAMMATORY PHENOTYPES WAS COMPLEMENTED BY EPIGENETIC ANALYSIS, WHICH REVEALED HIGHER ACCESSIBILITY OF PROMOTER REGIONS THAT REGULATE GENES INVOLVED IN CYTOKINE SIGNALING PATHWAYS. COLLECTIVELY, DATA PRESENTED IN THIS MANUSCRIPT DEMONSTRATE THAT CHD SHIFTS CLASSICAL MONOCYTE SUBSET COMPOSITION AND PRIMES THE MONOCYTES TOWARDS A MORE HYPER-INFLAMMATORY RESPONSE TO LPS, BUT COMPROMISED PATHOGEN RESPONSE. 2021 16 5006 41 PERIPHERAL NERVE INJURY IS ACCOMPANIED BY CHRONIC TRANSCRIPTOME-WIDE CHANGES IN THE MOUSE PREFRONTAL CORTEX. BACKGROUND: PERIPHERAL NERVE INJURY CAN HAVE LONG-TERM CONSEQUENCES INCLUDING PAIN-RELATED MANIFESTATIONS, SUCH AS HYPERSENSITIVITY TO CUTANEOUS STIMULI, AS WELL AS AFFECTIVE AND COGNITIVE DISTURBANCES, SUGGESTING THE INVOLVEMENT OF SUPRASPINAL MECHANISMS. CHANGES IN BRAIN STRUCTURE AND CORTICAL FUNCTION ASSOCIATED WITH MANY CHRONIC PAIN CONDITIONS HAVE BEEN REPORTED IN THE PREFRONTAL CORTEX (PFC). THE PFC IS IMPLICATED IN PAIN-RELATED CO-MORBIDITIES SUCH AS DEPRESSION, ANXIETY AND IMPAIRED EMOTIONAL DECISION-MAKING ABILITY. WE RECENTLY REPORTED THAT THIS REGION IS SUBJECT TO SIGNIFICANT EPIGENETIC REPROGRAMMING FOLLOWING PERIPHERAL NERVE INJURY, AND NORMALIZATION OF PAIN-RELATED STRUCTURAL, FUNCTIONAL AND EPIGENETIC ABNORMALITIES IN THE PFC ARE ALL ASSOCIATED WITH EFFECTIVE PAIN REDUCTION. IN THIS STUDY, WE USED THE SPARED NERVE INJURY (SNI) MODEL OF NEUROPATHIC PAIN TO TEST THE HYPOTHESIS THAT PERIPHERAL NERVE INJURY TRIGGERS PERSISTENT LONG-LASTING CHANGES IN GENE EXPRESSION IN THE PFC, WHICH ALTER FUNCTIONAL GENE NETWORKS, THUS PROVIDING A POSSIBLE EXPLANATION FOR CHRONIC PAIN ASSOCIATED BEHAVIORS. RESULTS: SNI OR SHAM SURGERY WHERE PERFORMED IN MALE CD1 MICE AT THREE MONTHS OF AGE. SIX MONTHS AFTER INJURY, WE PERFORMED TRANSCRIPTOME-WIDE SEQUENCING (RNASEQ), WHICH REVEALED 1147 DIFFERENTIALLY REGULATED TRANSCRIPTS IN THE PFC IN NERVE-INJURED VS. CONTROL MICE. CHANGES IN GENE EXPRESSION OCCURRED ACROSS A NUMBER OF FUNCTIONAL GENE CLUSTERS ENCODING CARDINAL BIOLOGICAL PROCESSES AS REVEALED BY INGENUITY PATHWAY ANALYSIS. SIGNIFICANTLY ALTERED BIOLOGICAL PROCESSES INCLUDED NEUROLOGICAL DISEASE, SKELETAL MUSCULAR DISORDERS, BEHAVIOR, AND PSYCHOLOGICAL DISORDERS. SEVERAL OF THE CHANGES DETECTED BY RNASEQ WERE VALIDATED BY RT-QPCR AND INCLUDED TRANSCRIPTS WITH KNOWN ROLES IN CHRONIC PAIN AND/OR NEURONAL PLASTICITY INCLUDING THE NMDA RECEPTOR (GLUTAMATE RECEPTOR, IONOTROPIC, NMDA; GRIN1), NEURITE OUTGROWTH (ROUNDABOUT 3; ROBO3), GLIOSIS (GLIAL FIBRILLARY ACIDIC PROTEIN; GFAP), VESICULAR RELEASE (SYNAPTOTAGMIN 2; SYT2), AND NEURONAL EXCITABILITY (VOLTAGE-GATED SODIUM CHANNEL, TYPE I; SCN1A). CONCLUSIONS: THIS STUDY USED AN UNBIASED APPROACH TO DOCUMENT LONG-TERM ALTERATIONS IN GENE EXPRESSION IN THE BRAIN FOLLOWING PERIPHERAL NERVE INJURY. WE PROPOSE THAT THESE CHANGES ARE MAINTAINED AS A MEMORY OF AN INSULT THAT IS TEMPORALLY AND SPATIALLY DISTANT FROM THE INITIAL INJURY. 2013 17 828 43 CHARACTERIZATION OF M (6) A MODIFIERS AND RNA MODIFICATIONS IN UTERINE FIBROIDS. UTERINE LEIOMYOMA OR FIBROIDS ARE THE MOST COMMON PREVALENT NONCANCEROUS TUMORS OF THE UTERINE MUSCLE LAYER. COMMON SYMPTOMS ASSOCIATED WITH FIBROIDS INCLUDE PELVIC PAIN, HEAVY MENSTRUAL BLEEDING, ANEMIA, AND PELVIC PRESSURE. THESE TUMORS ARE A LEADING CAUSE OF GYNECOLOGICAL CARE BUT LACK LONG-TERM THERAPY AS THE ORIGIN AND DEVELOPMENT OF FIBROIDS ARE NOT WELL UNDERSTOOD. SEVERAL NEXT-GENERATION SEQUENCING TECHNOLOGIES HAVE BEEN PERFORMED TO IDENTIFY THE UNDERLYING GENETIC AND EPIGENETIC BASIS OF FIBROIDS. HOWEVER, THERE REMAINS A SYSTEMIC GAP IN OUR UNDERSTANDING OF MOLECULAR AND BIOLOGICAL PROCESS THAT DEFINE UTERINE FIBROIDS. RECENT EPITRANSCRIPTOMICS STUDIES HAVE UNRAVELED RNA MODIFICATIONS THAT ARE ASSOCIATED WITH ALL FORMS OF RNA AND ARE THOUGHT TO INFLUENCE BOTH NORMAL PHYSIOLOGICAL FUNCTIONS AND THE PROGRESSION OF DISEASES. WE QUANTIFIED RNA EXPRESSION PROFILES BY ANALYZING PUBLICLY AVAILABLE RNA-SEQ DATA FOR 15 KNOWN EPIGENETIC MEDIATORS TO IDENTIFY THEIR EXPRESSION PROFILE IN UTERINE FIBROIDS COMPARED TO MYOMETRIUM. TO VALIDATE OUR FINDINGS, WE PERFORMED RT-QPCR ON A SEPARATE COHORT OF UTERINE FIBROIDS TARGETING THESE MODIFIERS CONFIRMING OUR RNA-SEQ DATA. WE THEN EXAMINED PROTEIN PROFILES OF KEY M (6) A MODIFIERS IN FIBROIDS AND THEIR MATCHED MYOMETRIUM. IN CONCORDANCE WITH OUR RNA EXPRESSION PROFILES, NO SIGNIFICANT DIFFERENCES WERE OBSERVED IN THESE PROTEINS IN UTERINE FIBROIDS COMPARED TO MYOMETRIUM. TO DETERMINE ABUNDANCE OF RNA MODIFICATIONS, MRNA AND SMALL RNA FROM FIBROIDS AND MATCHED MYOMETRIUM WERE ANALYZED BY UHPLC MS/MS. IN ADDITION TO THE PREVALENT N6-METHYLADENOSINE (M (6) A), WE IDENTIFIED 11 OTHER KNOWN MODIFIERS BUT DID NOT IDENTIFY ANY ABERRANT EXPRESSION IN FIBROIDS. WE THEN MINED A PREVIOUSLY PUBLISHED DATASET AND IDENTIFIED DIFFERENTIAL EXPRESSION OF M (6) A MODIFIERS THAT WERE SPECIFIC TO FIBROID GENETIC SUB-TYPE. OUR ANALYSIS ALSO IDENTIFIED M (6) A CONSENSUS MOTIFS ON GENES PREVIOUSLY IDENTIFIED TO BE DYSREGULATED IN UTERINE FIBROIDS. OVERALL, USING STATE-OF-THE-ART MASS SPECTROMETRY, RNA EXPRESSION AND PROTEIN PROFILES, WE CHARACTERIZED AND IDENTIFIED DIFFERENTIALLY EXPRESSED M (6) A MODIFIERS IN RELATION TO DRIVER MUTATIONS. DESPITE THE USE OF SEVERAL DIFFERENT APPROACHES, WE IDENTIFIED LIMITED DIFFERENTIAL EXPRESSION OF RNA MODIFIERS AND ASSOCIATED MODIFICATIONS IN UTERINE FIBROIDS. HOWEVER, CONSIDERING THE HIGHLY HETEROGENOUS GENOMIC AND CELLULAR NATURE OF FIBROIDS, AND THE POSSIBLE CONTRIBUTION OF SINGLE MOLECULE M (6) A MODIFICATIONS TO FIBROID PATHOLOGY, THERE IS A NEED FOR GREATER IN-DEPTH CHARACTERIZATION OF M (6) A MARKS AND MODIFIERS IN A LARGER AND VARIED PATIENT COHORT. 2023 18 938 38 CHRONIC LYMPHOCYTIC LEUKEMIA (CLL) RISK IS MEDIATED BY MULTIPLE ENHANCER VARIANTS WITHIN CLL RISK LOCI. CHRONIC LYMPHOCYTIC LEUKEMIA (CLL) IS THE MOST COMMON ADULT LEUKEMIA IN WESTERN COUNTRIES. IT HAS A STRONG GENETIC BASIS, SHOWING A ~ 8-FOLD INCREASED RISK OF CLL IN FIRST-DEGREE RELATIVES. GENOME-WIDE ASSOCIATION STUDIES (GWAS) HAVE IDENTIFIED 41 RISK VARIANTS ACROSS 41 LOCI. HOWEVER, FOR A MAJORITY OF THE LOCI, THE FUNCTIONAL VARIANTS AND THE MECHANISMS UNDERLYING THEIR CAUSAL ROLES REMAIN UNDEFINED. HERE, WE EXAMINED THE GENETIC AND EPIGENETIC FEATURES ASSOCIATED WITH 12 INDEX VARIANTS, ALONG WITH ANY CORRELATED (R2 >/= 0.5) VARIANTS, AT THE CLL RISK LOCI LOCATED OUTSIDE OF GENE PROMOTERS. BASED ON PUBLICLY AVAILABLE CHIP-SEQ AND CHROMATIN ACCESSIBILITY DATA AS WELL AS OUR OWN CHIP-SEQ DATA FROM CLL PATIENTS, WE IDENTIFIED SIX CANDIDATE FUNCTIONAL VARIANTS AT SIX LOCI AND AT LEAST TWO CANDIDATE FUNCTIONAL VARIANTS AT EACH OF THE REMAINING SIX LOCI. THE FUNCTIONAL VARIANTS ARE PREDOMINANTLY LOCATED WITHIN ENHANCERS OR SUPER-ENHANCERS, INCLUDING BI-DIRECTIONALLY TRANSCRIBED ENHANCERS, WHICH ARE OFTEN RESTRICTED TO IMMUNE CELL TYPES. FURTHERMORE, WE FOUND THAT, AT 78% OF THE FUNCTIONAL VARIANTS, THE ALTERNATIVE ALLELES ALTERED THE TRANSCRIPTION FACTOR BINDING MOTIFS OR HISTONE MODIFICATIONS, INDICATING THE INVOLVEMENT OF THESE VARIANTS IN THE CHANGE OF LOCAL CHROMATIN STATE. FINALLY, THE ENHANCERS CARRYING FUNCTIONAL VARIANTS PHYSICALLY INTERACTED WITH GENES ENRICHED IN THE TYPE I INTERFERON SIGNALING PATHWAY, APOPTOSIS, OR TP53 NETWORK THAT ARE KNOWN TO PLAY KEY ROLES IN CLL. THESE RESULTS SUPPORT THE REGULATORY ROLES FOR INHERITED NONCODING VARIANTS IN THE PATHOGENESIS OF CLL. 2020 19 968 30 CHRONIC NICOTINE EXPOSURE SYSTEMICALLY ALTERS MICRORNA EXPRESSION PROFILES DURING POST-EMBRYONIC STAGES IN CAENORHABDITIS ELEGANS. TOBACCO SMOKING IS ASSOCIATED WITH MANY DISEASES. ADDICTION IS OF THE MOST NOTORIOUS TOBACCO-RELATED SYNDROME AND IS MAINLY ATTRIBUTED TO NICOTINE. IN THIS STUDY, WE EMPLOYED CAENORHABDITIS ELEGANS AS A BIOLOGICAL MODEL TO SYSTEMICALLY INVESTIGATE THE EFFECT OF CHRONIC NICOTINE EXPOSURE ON MICRORNA (MIRNA) EXPRESSION PROFILE AND THEIR REGULATED BIOCHEMICAL PATHWAYS. NICOTINE TREATMENT (20 MICROM AND 20 MM) WAS LIMITED TO THE POST-EMBRYONIC STAGE FROM L1 TO L4 ( APPROXIMATELY 31 H) PERIOD AFTER WHICH WORMS WERE COLLECTED FOR GENOME-WIDE MIRNA PROFILING. OUR RESULTS SHOW THAT NICOTINE SIGNIFICANTLY ALTERED THE EXPRESSION PATTERNS OF 40 MIRNAS. THE EFFECT WAS PROPORTIONAL TO THE NICOTINE DOSE AND WAS EXPECTED TO HAVE AN ADDITIVE, MORE ROBUST RESPONSE. BASED ON PATHWAY ENRICHMENT ANALYSES COUPLED WITH NICOTINE-INDUCED MIRNA PATTERNS, WE INFERRED THAT MIRNAS AS A SYSTEM MEDIATES "REGULATORY HORMESIS", MANIFESTED IN BIPHASIC BEHAVIORAL AND PHYSIOLOGICAL PHENOTYPES. WE PROPOSED A MODEL WHERE NICOTINE ADDICTION IS MEDIATED BY MIRNAS' REGULATION OF FOS-1 AND IS MAINTAINED BY EPIGENETIC FACTORS. THUS, OUR STUDY OFFERS NEW INSIGHTS FOR A BETTER UNDERSTANDING OF THE SENSITIVITY OF EARLY DEVELOPMENTAL STAGES TO NICOTINE. 2014 20 1170 40 CONTRIBUTION OF GENETICS AND EPIGENETICS TO PROGRESSION OF KIDNEY FIBROSIS. CHRONIC KIDNEY DISEASE (CKD) WHICH CAN LEAD TO END-STAGE RENAL FAILURE REMAINS A PRINCIPAL CHALLENGE IN NEPHROLOGY. WHILE MECHANISTIC STUDIES PROVIDED EXTENSIVE INSIGHTS INTO THE COMMON PATHWAYS OF FIBROGENESIS WHICH UNDERLIE THE PROGRESSION OF CKD, THESE PRE-CLINICAL STUDIES FAIL TO FULLY EXPLAIN THE VASTLY DIFFERENT PROGRESSION SLOPES OF INDIVIDUAL PATIENTS. RECENT STUDIES PROVIDE EVIDENCE THAT GENETIC POLYMORPHISMS AND EPIGENETIC VARIATIONS DETERMINE THE INDIVIDUAL SUSCEPTIBILITY OF PATIENTS TO DEVELOP CHRONIC PROGRESSIVE KIDNEY DISEASE. HERE, WE REVIEW RECENT INSIGHTS THAT WERE PROVIDED BY GENOME-WIDE ASSOCIATION STUDIES (GWASS), GENE-LINKAGE STUDIES AND EPIGENOME ANALYSIS. THE PROGRESSION OF CKD TOWARDS END-STAGE RENAL FAILURE REMAINS A PRINCIPAL UNSOLVED PROBLEM IN NEPHROLOGY AS EFFECTIVE THERAPIES AND PREDICTIVE TESTS ARE STILL NOT AVAILABLE [ 1, 2]. CHRONIC PROGRESSIVE KIDNEY DISEASE IS CAUSED BY A WIDE RANGE OF DISEASES, WITH DIABETES MELLITUS, HYPERTENSION AND PRIMARY GLOMERULOPATHIES BEING THE MOST COMMON CAUSES IN THE WESTERN WORLD [ 3]. INFECTIONS, PHYSICAL OBSTRUCTION, INTERSTITIAL NEPHRITIDES AND GENETIC CYSTIC KIDNEY DISEASES ARE ALSO COMMON CAUSES OF END-STAGE RENAL DISEASE (ESRD) [ 3]. REGARDLESS OF THE PRIMARY UNDERLYING DISEASE, CHRONICALLY INJURED KIDNEYS ARE HISTOMORPHOLOGICALLY CHARACTERIZED BY TUBULOINTERSTITIAL FIBROSIS [ 1]. IN FACT, THE EXTENT OF TUBULOINTERSTITIAL FIBROSIS IS THE BEST PREDICTOR FOR KIDNEY SURVIVAL, IRRESPECTIVE OF THE UNDERLYING DISEASE. FOR THIS REASON, FIBROSIS IS CONSIDERED THE COMMON PATHWAY OF CHRONIC PROGRESSIVE KIDNEY DISEASE [ 1]. FIBROGENESIS IS A PATHOLOGICAL SCARRING PROCESS WHICH INVOLVES ACCUMULATION OF ACTIVATED FIBROBLASTS, EXCESSIVE DEPOSITION OF EXTRACELLULAR MATRIX, FAILED REGENERATION OF TUBULAR EPITHELIUM, MICROVASCULAR RAREFACTION AND (MOSTLY STERILE) INFLAMMATION [ 4]. FIBROGENESIS DEPENDS ON A COMPLEX INTERACTION OF THE INVOLVED CELL TYPES WHICH IS ORCHESTRATED BY AN EXTENSIVE NETWORK OF GROWTH FACTORS AND SIGNALLING PATHWAYS (WHICH ARE REVIEWED EXTENSIVELY ELSEWHERE) [ 1]. IN VIEW OF THE DETAILED MECHANISTIC KNOWLEDGE OF THE PATHWAYS THAT ORCHESTRATE RENAL FIBROGENESIS, IT IS PUZZLING WHY PROGRESSION RATES OF CKD DIFFER DRAMATICALLY AMONG PATIENTS WITH IDENTICAL UNDERLYING DISEASES [ 1, 2]. THE FIBROTIC PATHWAYS ARE KNOWN, BUT THE SWITCHES THAT CONTROL THEIR INTENSITIES AND WHICH DETERMINE THE SPEED AT WHICH FIBROSIS MOVES ALONG THE PROGRESSION SLOPE ARE NOT YET UNDERSTOOD [ 1, 2]. THE CONCEPT THAT GENETIC POLYMORPHISMS ARE THE BASIS FOR INDIVIDUAL PROGRESSION RATES OF CKD IS AN OBVIOUS AND ATTRACTIVE ONE. DISTINCT SUSCEPTIBILITIES OF DIFFERENT MOUSE AND RAT STRAINS TO EXPERIMENTAL CKD ARE A STRONG TESTAMENT OF THE IMPACT OF GENETIC VARIATIONS ON RENAL FIBROGENESIS. IDENTIFICATION OF THE UNDERLYING GENETIC POLYMORPHISMS AND MECHANISTIC PROOF OF THEIR INVOLVEMENT IN THE PROGRESSION OF CKD, HOWEVER, IS AN ONGOING CHALLENGE. THERE ARE TWO BASIC APPROACHES: ONE STRATEGY IS TO PERFORM UNBIASED SCREENING TO IDENTIFY GENES WHICH ARE ASSOCIATED WITH CHRONIC PROGRESSIVE KIDNEY DISEASE AND TO THEN PROVE THEIR MECHANISTIC RELEVANCE IN EXPERIMENTAL STUDIES ('GENOTYPE TO PHENOTYPE APPROACH'). THE SECOND STRATEGY IS TO SELECTIVELY ANALYSE POLYMORPHISMS OF GENES WHICH HAVE BEEN IDENTIFIED IN MECHANISTIC STUDIES AS DRIVERS OF RENAL FIBROGENESIS WITH REGARD TO THEIR ASSOCIATION WITH CKD (PHENOTYPE TO GENOTYPE APPROACH). THE PUZZLING OBSERVATION, HOWEVER, IS THAT GENETIC ANALYSIS AND MECHANISTIC STUDIES SO FAR RARELY COMPLEMENT EACH OTHER. THE CURRENT STATE OF AFFAIRS IS REVIEWED IN MORE DETAIL BELOW. 2014