1 6074 162 THE DYNAMIC CHROMATIN ARCHITECTURE OF THE REGENERATING LIVER. BACKGROUND & AIMS: THE ADULT LIVER IS THE MAIN DETOXIFICATION ORGAN AND ROUTINELY IS EXPOSED TO ENVIRONMENTAL INSULTS BUT RETAINS THE ABILITY TO RESTORE ITS MASS AND FUNCTION UPON TISSUE DAMAGE. HOWEVER, EXTENSIVE INJURY CAN LEAD TO LIVER FAILURE, AND CHRONIC INJURY CAUSES FIBROSIS, CIRRHOSIS, AND HEPATOCELLULAR CARCINOMA. CURRENTLY, THE TRANSCRIPTIONAL REGULATION OF ORGAN REPAIR IN THE ADULT LIVER IS INCOMPLETELY UNDERSTOOD. METHODS: WE ISOLATED NUCLEI FROM QUIESCENT AS WELL AS REPOPULATING HEPATOCYTES IN A MOUSE MODEL OF HEREDITARY TYROSINEMIA, WHICH RECAPITULATES THE INJURY AND REPOPULATION SEEN IN TOXIC LIVER INJURY IN HUMAN BEINGS. WE THEN PERFORMED THE ASSAY FOR TRANSPOSASE ACCESSIBLE CHROMATIN WITH HIGH-THROUGHPUT SEQUENCING SPECIFICALLY IN REPOPULATING HEPATOCYTES TO IDENTIFY DIFFERENTIALLY ACCESSIBLE CHROMATIN REGIONS AND NUCLEOSOME POSITIONING. IN ADDITION, WE USED MOTIF ANALYSIS TO PREDICT DIFFERENTIAL TRANSCRIPTION FACTOR OCCUPANCY AND VALIDATED THE IN SILICO RESULTS WITH CHROMATIN IMMUNOPRECIPITATION FOLLOWED BY SEQUENCING FOR HEPATOCYTE NUCLEAR FACTOR 4ALPHA (HNF4ALPHA) AND CCCTC-BINDING FACTOR (CTCF). RESULTS: CHROMATIN ACCESSIBILITY IN REPOPULATING HEPATOCYTES WAS INCREASED IN THE REGULATORY REGIONS OF GENES PROMOTING PROLIFERATION AND DECREASED IN THE REGULATORY REGIONS OF GENES INVOLVED IN METABOLISM. THE EPIGENETIC CHANGES AT PROMOTERS AND LIVER ENHANCERS CORRESPOND WITH THE REGULATION OF GENE EXPRESSION, WITH ENHANCERS OF MANY LIVER FUNCTION GENES SHOWING A LESS ACCESSIBLE STATE DURING THE REGENERATIVE PROCESS. MOREOVER, INCREASED CTCF OCCUPANCY AT PROMOTERS AND DECREASED HNF4ALPHA BINDING AT ENHANCERS IMPLICATE THESE FACTORS AS KEY DRIVERS OF THE TRANSCRIPTOMIC CHANGES IN REPLICATING HEPATOCYTES THAT ENABLE LIVER REPOPULATION. CONCLUSIONS: OUR ANALYSIS OF HEPATOCYTE-SPECIFIC EPIGENOMIC CHANGES DURING LIVER REPOPULATION IDENTIFIED CTCF AND HNF4ALPHA AS KEY REGULATORS OF HEPATOCYTE PROLIFERATION AND REGULATION OF METABOLIC PROGRAMS. THUS, LIVER REPOPULATION IN THE SETTING OF TOXIC INJURY MAKES USE OF BOTH GENERAL TRANSCRIPTION FACTORS (CTCF) FOR PROMOTER ACTIVATION, AND REDUCED BINDING BY A HEPATOCYTE-ENRICHED FACTOR (HNF4ALPHA) TO TEMPORARILY LIMIT ENHANCER ACTIVITY. ALL SEQUENCING DATA IN THIS STUDY WERE DEPOSITED TO THE GENE EXPRESSION OMNIBUS DATABASE AND CAN BE DOWNLOADED WITH ACCESSION NUMBER GSE109466. 2020 2 5165 25 PRECLINICAL RESERPINE MODELS RECAPITULATING MOTOR AND NON-MOTOR FEATURES OF PARKINSON'S DISEASE: ROLES OF EPIGENETIC UPREGULATION OF ALPHA-SYNUCLEIN AND AUTOPHAGY IMPAIRMENT. RESERPINE IS AN EFFECTIVE DRUG FOR THE CLINICAL TREATMENT OF HYPERTENSION. IT ALSO INDUCES PARKINSON'S DISEASE (PD)-LIKE SYMPTOMS IN HUMANS AND ANIMALS POSSIBLE THROUGH THE INHIBITION OF MONOAMINE VESICULAR TRANSPORTERS, THUS DECREASING THE LEVELS OF MONOAMINE NEUROTRANSMITTERS IN THE BRAIN. HOWEVER, THE PRECISE MECHANISMS REMAIN UNCLEAR. HEREIN, WE AIMED TO DEVELOP A PRECLINICAL RESERPINE MODEL RECAPITULATING THE NON-MOTOR AND MOTOR SYMPTOMS OF PD AND INVESTIGATE THE UNDERLYING POTENTIAL CELLULAR MECHANISMS. INCUBATION OF RESERPINE INDUCED APOPTOSIS, LED TO THE ACCUMULATION OF INTRACELLULAR REACTIVE OXYGEN SPECIES (ROS), LOWERED DNA METHYLATION OF ALPHA-SYNUCLEIN GENE, RESULTED IN ALPHA-SYNUCLEIN PROTEIN DEPOSITION, AND ELEVATED THE RATIO OF LC3-II/LC3-I AND P62 IN CULTURED SH-SY5Y CELLS. FEEDING RESERPINE DOSE-DEPENDENTLY SHORTENED THE LIFESPAN AND CAUSED IMPAIRMENT OF MOTOR FUNCTIONS IN MALE AND FEMALE DROSOPHILA. MOREOVER, LONG-TERM ORAL ADMINISTRATION OF RESERPINE LED TO MULTIPLE MOTOR AND NON-MOTOR SYMPTOMS, INCLUDING CONSTIPATION, PAIN HYPERSENSITIVITY, OLFACTORY IMPAIRMENT, AND DEPRESSION-LIKE BEHAVIORS IN MICE. THE MECHANISTIC STUDIES SHOWED THAT CHRONIC RESERPINE EXPOSURE CAUSED HYPOMETHYLATION OF THE ALPHA-SYNUCLEIN GENE AND UP-REGULATED ITS EXPRESSION AND ELEVATED THE RATIO OF LC3-II/LC3-I AND EXPRESSION OF P62 IN THE SUBSTANTIA NIGRA OF MICE. THUS, WE ESTABLISHED PRECLINICAL ANIMAL MODELS USING RESERPINE TO RECAPITULATE THE MOTOR AND NON-MOTOR SYMPTOMS OF PD. CHRONIC RESERPINE EXPOSURE EPIGENETICALLY ELEVATED THE LEVELS OF ALPHA-SYNUCLEIN EXPRESSION POSSIBLE BY LOWERING THE DNA METHYLATION STATUS AND INDUCING AUTOPHAGIC IMPAIRMENT IN VITRO AND IN VIVO. 2022 3 1468 33 DISTINCT EPIGENETIC PROGRAMS REGULATE CARDIAC MYOCYTE DEVELOPMENT AND DISEASE IN THE HUMAN HEART IN VIVO. EPIGENETIC MECHANISMS AND TRANSCRIPTION FACTOR NETWORKS ESSENTIAL FOR DIFFERENTIATION OF CARDIAC MYOCYTES HAVE BEEN UNCOVERED. HOWEVER, RESHAPING OF THE EPIGENOME OF THESE TERMINALLY DIFFERENTIATED CELLS DURING FETAL DEVELOPMENT, POSTNATAL MATURATION, AND IN DISEASE REMAINS UNKNOWN. HERE, WE INVESTIGATE THE DYNAMICS OF THE CARDIAC MYOCYTE EPIGENOME DURING DEVELOPMENT AND IN CHRONIC HEART FAILURE. WE FIND THAT PRENATAL DEVELOPMENT AND POSTNATAL MATURATION ARE CHARACTERIZED BY A COOPERATION OF ACTIVE CPG METHYLATION AND HISTONE MARKS AT CIS-REGULATORY AND GENIC REGIONS TO SHAPE THE CARDIAC MYOCYTE TRANSCRIPTOME. IN CONTRAST, PATHOLOGICAL GENE EXPRESSION IN TERMINAL HEART FAILURE IS ACCOMPANIED BY CHANGES IN ACTIVE HISTONE MARKS WITHOUT MAJOR ALTERATIONS IN CPG METHYLATION AND REPRESSIVE CHROMATIN MARKS. NOTABLY, CIS-REGULATORY REGIONS IN CARDIAC MYOCYTES ARE SIGNIFICANTLY ENRICHED FOR CARDIOVASCULAR DISEASE-ASSOCIATED VARIANTS. THIS STUDY UNCOVERS DISTINCT LAYERS OF EPIGENETIC REGULATION NOT ONLY DURING PRENATAL DEVELOPMENT AND POSTNATAL MATURATION BUT ALSO IN DISEASED HUMAN CARDIAC MYOCYTES. 2018 4 6540 44 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 5 3878 34 KDM6B OVEREXPRESSION ACTIVATES INNATE IMMUNE SIGNALING AND IMPAIRS HEMATOPOIESIS IN MICE. KDM6B IS AN EPIGENETIC REGULATOR THAT MEDIATES TRANSCRIPTIONAL ACTIVATION DURING DIFFERENTIATION, INCLUDING IN BONE MARROW (BM) HEMATOPOIETIC STEM AND PROGENITOR CELLS (HSPCS). OVEREXPRESSION OF KDM6B HAS BEEN REPORTED IN BM HSPCS OF PATIENTS WITH MYELODYSPLASTIC SYNDROMES (MDS) AND CHRONIC MYELOMONOCYTIC LEUKEMIA (CMML). WHETHER THE OVEREXPRESSION OF KDM6B CONTRIBUTES TO THE PATHOGENESIS OF THESE DISEASES REMAINS TO BE ELUCIDATED. TO STUDY THIS, WE GENERATED A VAV-KDM6B MOUSE MODEL, WHICH OVEREXPRESSES KDM6B IN THE HEMATOPOIETIC COMPARTMENT. KDM6B OVEREXPRESSION ALONE LED TO MILD HEMATOPOIETIC PHENOTYPE, AND CHRONIC INNATE IMMUNE STIMULATION OF VAV-KDM6B MICE WITH THE TOLL-LIKE RECEPTOR (TLR) LIGAND LIPOPOLYSACCHARIDE (LPS) RESULTED IN SIGNIFICANT HEMATOPOIETIC DEFECTS. THESE DEFECTS RECAPITULATED FEATURES OF MDS AND CMML, INCLUDING LEUKOPENIA, DYSPLASIA, AND COMPROMISED REPOPULATING FUNCTION OF BM HSPCS. TRANSCRIPTOME STUDIES INDICATED THAT KDM6B OVEREXPRESSION ALONE COULD LEAD TO ACTIVATION OF DISEASE-RELEVANT GENES SUCH AS S100A9 IN BM HSPCS, AND WHEN COMBINED WITH INNATE IMMUNE STIMULATION, KDM6B OVEREXPRESSION RESULTED IN MORE PROFOUND OVEREXPRESSION OF INNATE IMMUNE AND DISEASE-RELEVANT GENES, INDICATING THAT KDM6B WAS INVOLVED IN THE ACTIVATION OF INNATE IMMUNE SIGNALING IN BM HSPCS. FINALLY, PHARMACOLOGIC INHIBITION OF KDM6B WITH THE SMALL MOLECULE INHIBITOR GSK-J4 AMELIORATED THE INEFFECTIVE HEMATOPOIESIS OBSERVED IN VAV-KDM6B MICE. THIS EFFECT WAS ALSO OBSERVED WHEN GSK-J4 WAS APPLIED TO THE PRIMARY BM HSPCS OF PATIENTS WITH MDS BY IMPROVING THEIR REPOPULATING FUNCTION. THESE RESULTS INDICATE THAT OVEREXPRESSION OF KDM6B MEDIATES ACTIVATION OF INNATE IMMUNE SIGNALS AND HAS A ROLE IN MDS AND CMML PATHOGENESIS, AND THAT KDM6B TARGETING HAS THERAPEUTIC POTENTIAL IN THESE MYELOID DISORDERS. 2018 6 3380 29 HIV-1 INFECTION OF GENETICALLY ENGINEERED IPSC-DERIVED CENTRAL NERVOUS SYSTEM-ENGRAFTED MICROGLIA IN A HUMANIZED MOUSE MODEL. THE CENTRAL NERVOUS SYSTEM (CNS) IS A MAJOR HUMAN IMMUNODEFICIENCY VIRUS TYPE 1 RESERVOIR. MICROGLIA ARE THE PRIMARY TARGET CELL OF HIV-1 INFECTION IN THE CNS. CURRENT MODELS HAVE NOT ALLOWED THE PRECISE MOLECULAR PATHWAYS OF ACUTE AND CHRONIC CNS MICROGLIAL INFECTION TO BE TESTED WITH IN VIVO GENETIC METHODS. HERE, WE DESCRIBE A NOVEL HUMANIZED MOUSE MODEL UTILIZING HUMAN-INDUCED PLURIPOTENT STEM CELL-DERIVED MICROGLIA TO XENOGRAFT INTO MURINE HOSTS. THESE MICE ARE ADDITIONALLY ENGRAFTED WITH HUMAN PERIPHERAL BLOOD MONONUCLEAR CELLS THAT SERVED AS A MEDIUM TO ESTABLISH A PERIPHERAL INFECTION THAT THEN SPREAD TO THE CNS MICROGLIA XENOGRAFT, MODELING A TRANS-BLOOD-BRAIN BARRIER ROUTE OF ACUTE CNS HIV-1 INFECTION WITH HUMAN TARGET CELLS. THE APPROACH IS COMPATIBLE WITH IPSC GENETIC ENGINEERING, INCLUDING INSERTING TARGETED TRANSGENIC REPORTER CASSETTES TO TRACK THE XENOGRAFTED HUMAN CELLS, ENABLING THE TESTING OF NOVEL TREATMENT AND VIRAL TRACKING STRATEGIES IN A COMPARATIVELY SIMPLE AND COST-EFFECTIVE WAY VIVO MODEL FOR NEUROHIV. IMPORTANCE: OUR MOUSE MODEL IS A POWERFUL TOOL FOR INVESTIGATING THE GENETIC MECHANISMS GOVERNING CNS HIV-1 INFECTION AND LATENCY IN THE CNS AT A SINGLE-CELL LEVEL. A MAJOR ADVANTAGE OF OUR MODEL IS THAT IT USES IPSC-DERIVED MICROGLIA, WHICH ENABLES HUMAN GENETICS, INCLUDING GENE FUNCTION AND THERAPEUTIC GENE MANIPULATION, TO BE EXPLORED IN VIVO , WHICH IS MORE CHALLENGING TO STUDY WITH CURRENT HEMATOPOIETIC STEM CELL-BASED MODELS FOR NEUROHIV. OUR TRANSGENIC TRACING OF XENOGRAFTED HUMAN CELLS WILL PROVIDE A QUANTITATIVE MEDIUM TO DEVELOP NEW MOLECULAR AND EPIGENETIC STRATEGIES FOR REDUCING THE HIV-1 LATENT RESERVOIR AND TO TEST THE IMPACT OF THERAPEUTIC INFLAMMATION-TARGETING DRUG INTERVENTIONS ON CNS HIV-1 LATENCY. 2023 7 6206 39 THE INFLUENCE OF TISSUE SPATIAL GEOMETRY AND FUNCTIONAL ORGANISATION ON LIVER REGENERATION. THE ADULT LIVER EXERTS CRUCIAL FUNCTIONS, INCLUDING NUTRIENT METABOLISM AND STORAGE, BILE PRODUCTION AND DRUG DETOXIFICATION. THESE COMPLEX FUNCTIONS EXPOSE THE LIVER TO CONSTANT DAMAGE INDUCED BY TOXINS, METABOLIC INTERMEDIATES AND OXIDATIVE STRESS. HOWEVER, THE ADULT LIVER EXHIBITS AN EXCEPTIONAL REGENERATIVE POTENTIAL, WHICH ALLOWS FAST AND EFFICIENT RESTORATION OF TISSUE ARCHITECTURE AND FUNCTION BOTH AFTER TISSUE RESECTION AND TOXIC DAMAGE. TO ACCOMPLISH ITS VITAL ROLE, THE LIVER SHOWS A PECULIAR TISSUE ARCHITECTURE INTO FUNCTIONAL UNITS, WHICH FOLLOW THE GRADIENT OF OXYGEN AND NUTRIENTS WITHIN THE PARENCHYMA. MUCH LESS IS KNOWN ABOUT THE INFLUENCE OF TISSUE SPATIAL GEOMETRY AND FUNCTIONAL ORGANISATION ON ADULT LIVER REGENERATION. HERE I EXAMINE THE EXPERIMENTAL EVIDENCE IN MOUSE MODELS SHOWING THAT THE SPATIAL ORGANISATION OF THE EPITHELIAL AND MESENCHYMAL COMPARTMENTS PLAYS A KEY ROLE IN LIVER REGENERATION AND FAVOURS THE ESTABLISHMENT OF REGENERATIVE ADULT LIVER PROGENITORS FOLLOWING LIVER INJURY. I ALSO DISCUSS THE ADVANTAGES AND LIMITATIONS OF HUMAN AND MOUSE 3D HEPATIC ORGANOID SYSTEMS, WHICH RECAPITULATE KEY ASPECTS OF LIVER FUNCTION AND ARCHITECTURE, AS MODELS OF LIVER REGENERATION AND DISEASE. FINALLY, I ANALYSE THE ROLE OF THE YAP/TAZ TRANSCRIPTIONAL CO-ACTIVATORS AS A CENTRAL HUB SENSING THE EXTRA-CELLULAR MATRIX (ECM), METABOLIC AND EPIGENETIC REMODELLING THAT REGULATE LIVER REGENERATION AND PROMOTE LIVER DISEASE, SUCH AS FIBROSIS, CHRONIC LIVER DISEASE AND LIVER CANCER. TOGETHER, THE FINDINGS SUMMARISED HERE DEMONSTRATE THAT LOCAL PHYSICAL AND FUNCTIONAL CELLULAR INTERACTIONS DETERMINED BY THE LIVER PECULIAR SPATIAL GEOMETRY, PLAY A CRUCIAL ROLE IN LIVER REGENERATION, AND THAT THEIR ALTERATIONS HAVE IMPORTANT IMPLICATIONS FOR HUMAN LIVER DISEASE. 2022 8 3322 38 HISTONE ACETYLTRANSFERASE P300 INDUCES DE NOVO SUPER-ENHANCERS TO DRIVE CELLULAR SENESCENCE. ACCUMULATION OF SENESCENT CELLS DURING AGING CONTRIBUTES TO CHRONIC INFLAMMATION AND AGE-RELATED DISEASES. WHILE SENESCENCE IS ASSOCIATED WITH PROFOUND ALTERATIONS OF THE EPIGENOME, A SYSTEMATIC VIEW OF EPIGENETIC FACTORS IN REGULATING SENESCENCE IS LACKING. HERE, WE CURATED A LIBRARY OF SHORT HAIRPIN RNAS FOR TARGETED SILENCING OF ALL KNOWN EPIGENETIC PROTEINS AND PERFORMED A HIGH-THROUGHPUT SCREEN TO IDENTIFY KEY CANDIDATES WHOSE DOWNREGULATION CAN DELAY REPLICATIVE SENESCENCE OF PRIMARY HUMAN CELLS. THIS SCREEN IDENTIFIED MULTIPLE NEW PLAYERS INCLUDING THE HISTONE ACETYLTRANSFERASE P300 THAT WAS FOUND TO BE A PRIMARY DRIVER OF THE SENESCENT PHENOTYPE. P300, BUT NOT THE PARALOGOUS CBP, INDUCES A DYNAMIC HYPER-ACETYLATED CHROMATIN STATE AND PROMOTES THE FORMATION OF ACTIVE ENHANCER ELEMENTS IN THE NON-CODING GENOME, LEADING TO A SENESCENCE-SPECIFIC GENE EXPRESSION PROGRAM. OUR WORK ILLUSTRATES A CAUSAL ROLE OF HISTONE ACETYLTRANSFERASES AND ACETYLATION IN SENESCENCE AND SUGGESTS P300 AS A POTENTIAL THERAPEUTIC TARGET FOR SENESCENCE AND AGE-RELATED DISEASES. 2019 9 2113 37 EPIGENETIC HALLMARKS OF AGE-RELATED MACULAR DEGENERATION ARE RECAPITULATED IN A PHOTOSENSITIVE MOUSE MODEL. AGE-RELATED MACULAR DEGENERATION (AMD) IS A CHRONIC, MULTIFACTORIAL DISORDER AND A LEADING CAUSE OF BLINDNESS IN THE ELDERLY. CHARACTERIZED BY PROGRESSIVE PHOTORECEPTOR DEGENERATION IN THE CENTRAL RETINA, DISEASE PROGRESSION INVOLVES EPIGENETIC CHANGES IN CHROMATIN ACCESSIBILITY RESULTING FROM ENVIRONMENTAL EXPOSURES AND CHRONIC STRESS. HERE, WE REPORT THAT A PHOTOSENSITIVE MOUSE MODEL OF ACUTE STRESS-INDUCED PHOTORECEPTOR DEGENERATION RECAPITULATES THE EPIGENETIC HALLMARKS OF HUMAN AMD. GLOBAL EPIGENOMIC PROFILING WAS ACCOMPLISHED BY EMPLOYING AN ASSAY FOR TRANSPOSASE-ACCESSIBLE CHROMATIN USING SEQUENCING (ATAC-SEQ), WHICH REVEALED AN ASSOCIATION BETWEEN DECREASED CHROMATIN ACCESSIBILITY AND STRESS-INDUCED PHOTORECEPTOR CELL DEATH IN OUR MOUSE MODEL. THE EPIGENOMIC CHANGES INDUCED BY LIGHT DAMAGE INCLUDE REDUCED EUCHROMATIN AND INCREASED HETEROCHROMATIN ABUNDANCE, RESULTING IN TRANSCRIPTIONAL AND TRANSLATIONAL DYSREGULATION THAT ULTIMATELY DRIVES PHOTORECEPTOR APOPTOSIS AND AN INFLAMMATORY REACTIVE GLIOSIS IN THE RETINA. OF PARTICULAR INTEREST, PHARMACOLOGICAL INHIBITION OF HISTONE DEACETYLASE 11 (HDAC11) AND SUPPRESSOR OF VARIEGATION 3-9 HOMOLOG 2 (SUV39H2), KEY HISTONE-MODIFYING ENZYMES INVOLVED IN PROMOTING REDUCED CHROMATIN ACCESSIBILITY, AMELIORATED LIGHT DAMAGE IN OUR MOUSE MODEL, SUPPORTING A CAUSAL LINK BETWEEN DECREASED CHROMATIN ACCESSIBILITY AND PHOTORECEPTOR DEGENERATION, THEREBY ELUCIDATING A POTENTIAL NEW THERAPEUTIC STRATEGY TO COMBAT AMD. 2020 10 3289 32 HIF-1ALPHA MEDIATES TUMOR HYPOXIA TO CONFER A PERPETUAL MESENCHYMAL PHENOTYPE FOR MALIGNANT PROGRESSION. ALTHOUGH TUMOR PROGRESSION INVOLVES GENETIC AND EPIGENETIC ALTERATIONS TO NORMAL CELLULAR BIOLOGY, THE UNDERLYING MECHANISMS OF THESE CHANGES REMAIN OBSCURE. NUMEROUS STUDIES HAVE SHOWN THAT HYPOXIA-INDUCIBLE FACTOR 1ALPHA (HIF-1ALPHA) IS OVEREXPRESSED IN MANY HUMAN CANCERS AND UP-REGULATES A HOST OF HYPOXIA-RESPONSIVE GENES FOR CANCER GROWTH AND SURVIVAL. WE RECENTLY IDENTIFIED AN ALTERNATIVE MECHANISM OF HIF-1ALPHA FUNCTION THAT INDUCES GENETIC ALTERATIONS BY SUPPRESSING DNA REPAIR. HERE, WE SHOW THAT LONG-TERM HYPOXIA, WHICH MIMICS THE TUMOR MICROENVIRONMENT, DRIVES A PERPETUAL EPITHELIAL-MESENCHYMAL TRANSITION (EMT) THROUGH UP-REGULATION OF THE ZINC FINGER E-BOX BINDING HOMEOBOX PROTEIN ZEB2, WHEREAS SHORT-TERM HYPOXIA INDUCES A REVERSIBLE EMT THAT REQUIRES THE TRANSCRIPTION FACTOR TWIST1. MOREOVER, WE SHOW THAT THE PERPETUAL EMT DRIVEN BY CHRONIC HYPOXIA DEPENDS ON HIF-1ALPHA INDUCTION OF GENETIC ALTERATIONS RATHER THAN ITS CANONICAL TRANSCRIPTIONAL ACTIVATOR FUNCTION. THESE MESENCHYMAL TUMOR CELLS NOT ONLY ACQUIRE TUMORIGENICITY BUT ALSO DISPLAY CHARACTERISTICS OF ADVANCED CANCERS, INCLUDING NECROSIS, AGGRESSIVE INVASION, AND METASTASIS. HENCE, THESE RESULTS REVEAL A MECHANISM BY WHICH HIF-1ALPHA PROMOTES A PERPETUAL MESENCHYMAL PHENOTYPE, THEREBY ADVANCING TUMOR PROGRESSION. 2011 11 172 39 ABSENCE OF HDAC3 BY MATRIX STIFFNESS PROMOTES CHROMATIN REMODELING AND FIBROBLAST ACTIVATION IN IDIOPATHIC PULMONARY FIBROSIS. IDIOPATHIC PULMONARY FIBROSIS (IPF) IS A CHRONIC AND FATAL DISEASE CHARACTERIZED BY PROGRESSIVE AND IRREVERSIBLE LUNG SCARRING ASSOCIATED WITH PERSISTENT ACTIVATION OF FIBROBLASTS. EPIGENETICS COULD INTEGRATE DIVERSE MICROENVIRONMENTAL SIGNALS, SUCH AS STIFFNESS, TO DIRECT PERSISTENT FIBROBLAST ACTIVATION. HISTONE MODIFICATIONS BY DEACETYLASES (HDAC) MAY PLAY AN ESSENTIAL ROLE IN THE GENE EXPRESSION CHANGES INVOLVED IN THE PATHOLOGICAL REMODELING OF THE LUNG. PARTICULARLY, HDAC3 IS CRUCIAL FOR MAINTAINING CHROMATIN AND REGULATING GENE EXPRESSION, BUT LITTLE IS KNOWN ABOUT ITS ROLE IN IPF. IN THE STUDY, CONTROL AND IPF-DERIVED FIBROBLASTS WERE USED TO DETERMINE THE INFLUENCE OF HDAC3 ON CHROMATIN REMODELING AND GENE EXPRESSION ASSOCIATED WITH IPF SIGNATURE. ADDITIONALLY, THE CELLS WERE GROWN ON HYDROGELS TO MIMIC THE STIFFNESS OF A FIBROTIC LUNG. OUR RESULTS SHOWED A DECREASED HDAC3 IN THE NUCLEUS OF IPF FIBROBLASTS, WHICH CORRELATES WITH CHANGES IN NUCLEUS SIZE AND HETEROCHROMATIN LOSS. THE INHIBITION OF HDAC3 WITH A PHARMACOLOGICAL INHIBITOR CAUSES HYPERACETYLATION OF H3K9 AND PROVOKES AN INCREASED EXPRESSION OF COL1A1, ACTA2, AND P21. COMPARABLE RESULTS WERE FOUND IN HYDROGELS, WHERE MATRIX STIFFNESS PROMOTES THE LOSS OF NUCLEAR HDAC3 AND INCREASES THE PROFIBROTIC SIGNATURE. FINALLY, LATRUNCULIN B WAS USED TO CONFIRM THAT CHANGES BY STIFFNESS DEPEND ON THE MECHANOTRANSDUCTION SIGNALS. TOGETHER, THESE RESULTS SUGGEST THAT HDAC3 COULD BE A LINK BETWEEN EPIGENETIC MECHANISMS AND THE FIBROTIC MICROENVIRONMENT. 2023 12 1976 32 EPIGENETIC ALTERATIONS IN A MURINE MODEL FOR CHRONIC LYMPHOCYTIC LEUKEMIA. EARLY STAGES IN THE DEVELOPMENT OF CHRONIC LYMPHOCYTIC LEUKEMIA (CLL) HAVE NOT BEEN EXPLORED MAINLY DUE TO THE INABILITY TO STUDY NORMAL B-CELLS EN ROUTE TO TRANSFORMATION. IN ORDER TO DETERMINE SUCH EARLY EVENTS OF LEUKEMOGENESIS, WE HAVE USED A WELL ESTABLISHED MOUSE MODEL FOR CLL. OVER-EXPRESSION OF HUMAN TCL1, A KNOWN CLL ONCOGENE IN MURINE B-CELLS LEADS TO THE DEVELOPMENT OF MATURE CD19+/CD5+/IGM+ CLONAL LEUKEMIA WITH A DISEASE PHENOTYPE SIMILAR TO THAT SEEN IN HUMAN CLL. HEREIN, WE REVIEW OUR RECENT STUDY USING THIS TCL1-DRIVEN MOUSE MODEL FOR CLL AND CORRESPONDING HUMAN CLL SAMPLES IN A CROSS-SPECIES EPIGENOMICS APPROACH TO ADDRESS THE TIMING AND RELEVANCE OF EPIGENETIC EVENTS OCCURRING DURING LEUKEMOGENESIS. WE DEMONSTRATED THAT THE MOUSE MODEL RECAPITULATES THE EPIGENETIC EVENTS THAT HAVE BEEN REPORTED FOR HUMAN CLL, AFFIRMING THE POWER AND VALIDITY OF THIS MOUSE MODEL TO STUDY EARLY EPIGENETIC EVENTS IN CANCER PROGRESSION. EPIGENETIC ALTERATIONS ARE DETECTED AS EARLY AS THREE MONTHS AFTER BIRTH, FAR BEFORE DISEASE MANIFESTS AT ABOUT 11 MONTHS OF AGE. THESE MICE UNDERGO NFKAPPAB REPRESSOR COMPLEX MEDIATED INACTIVATION OF THE TRANSCRIPTION FACTOR FOXD3, WHOSE TARGETS BECOME ABERRANTLY METHYLATED AND SILENCED IN MOUSE AND HUMAN CLL. OVERALL, OUR DATA SUGGEST THE ACCUMULATED EPIGENETIC ALTERATIONS DURING CLL PATHOGENESIS AS A CONSEQUENCE OF GENE SILENCING THROUGH TCL1 AND NFKAPPAB REPRESSOR COMPLEX, SUGGESTING THE RELEVANCE FOR NFKAPPAB AS A THERAPEUTIC TARGET IN CLL. 2009 13 775 48 CELL TYPE-SPECIFIC WHOLE-GENOME LANDSCAPE OF DELTAFOSB BINDING IN THE NUCLEUS ACCUMBENS AFTER CHRONIC COCAINE EXPOSURE. BACKGROUND: THE ABILITY OF NEURONS TO RESPOND TO EXTERNAL STIMULI INVOLVES ADAPTATIONS OF GENE EXPRESSION. INDUCTION OF THE TRANSCRIPTION FACTOR DELTAFOSB IN THE NUCLEUS ACCUMBENS, A KEY BRAIN REWARD REGION, IS IMPORTANT FOR THE DEVELOPMENT OF DRUG ADDICTION. HOWEVER, A COMPREHENSIVE MAP OF DELTAFOSB'S GENE TARGETS HAS NOT YET BEEN GENERATED. METHODS: WE USED CUT&RUN (CLEAVAGE UNDER TARGETS AND RELEASE USING NUCLEASE) TO MAP THE GENOME-WIDE CHANGES IN DELTAFOSB BINDING IN THE 2 MAIN TYPES OF NUCLEUS ACCUMBENS NEURONS-D1 OR D2 MEDIUM SPINY NEURONS-AFTER CHRONIC COCAINE EXPOSURE. TO ANNOTATE GENOMIC REGIONS OF DELTAFOSB BINDING SITES, WE ALSO EXAMINED THE DISTRIBUTIONS OF SEVERAL HISTONE MODIFICATIONS. RESULTING DATASETS WERE LEVERAGED FOR MULTIPLE BIOINFORMATIC ANALYSES. RESULTS: THE MAJORITY OF DELTAFOSB PEAKS OCCUR OUTSIDE PROMOTER REGIONS, INCLUDING INTERGENIC REGIONS, AND ARE SURROUNDED BY EPIGENETIC MARKS INDICATIVE OF ACTIVE ENHANCERS. BRG1, THE CORE SUBUNIT OF THE SWI/SNF CHROMATIN REMODELING COMPLEX, OVERLAPS WITH DELTAFOSB PEAKS, A FINDING CONSISTENT WITH EARLIER STUDIES OF DELTAFOSB'S INTERACTING PROTEINS. CHRONIC COCAINE USE INDUCES BROAD CHANGES IN DELTAFOSB BINDING IN BOTH D1 AND D2 NUCLEUS ACCUMBENS MEDIUM SPINY NEURONS OF MALE AND FEMALE MICE. IN ADDITION, IN SILICO ANALYSES PREDICT THAT DELTAFOSB COOPERATIVELY REGULATES GENE EXPRESSION WITH HOMEOBOX AND T-BOX TRANSCRIPTION FACTORS. CONCLUSIONS: THESE NOVEL FINDINGS UNCOVER KEY ELEMENTS OF DELTAFOSB'S MOLECULAR MECHANISMS IN TRANSCRIPTIONAL REGULATION AT BASELINE AND IN RESPONSE TO CHRONIC COCAINE EXPOSURE. FURTHER CHARACTERIZATION OF DELTAFOSB'S COLLABORATIVE TRANSCRIPTIONAL AND CHROMATIN PARTNERS SPECIFICALLY IN D1 AND D2 MEDIUM SPINY NEURONS WILL REVEAL A BROADER PICTURE OF THE FUNCTION OF DELTAFOSB AND THE MOLECULAR BASIS OF DRUG ADDICTION. 2023 14 923 30 CHRONIC INFECTION DRIVES DNMT3A-LOSS-OF-FUNCTION CLONAL HEMATOPOIESIS VIA IFNGAMMA SIGNALING. AGE-RELATED CLONAL HEMATOPOIESIS (CH) IS A RISK FACTOR FOR MALIGNANCY, CARDIOVASCULAR DISEASE, AND ALL-CAUSE MORTALITY. SOMATIC MUTATIONS IN DNMT3A ARE DRIVERS OF CH, BUT DECADES MAY ELAPSE BETWEEN THE ACQUISITION OF A MUTATION AND CH, SUGGESTING THAT ENVIRONMENTAL FACTORS CONTRIBUTE TO CLONAL EXPANSION. WE TESTED WHETHER INFECTION PROVIDES SELECTIVE PRESSURE FAVORING THE EXPANSION OF DNMT3A MUTANT HEMATOPOIETIC STEM CELLS (HSCS) IN MOUSE CHIMERAS. WE CREATED DNMT3A-MOSAIC MICE BY TRANSPLANTING DNMT3A(-/-) AND WT HSCS INTO WT MICE AND OBSERVED THE SUBSTANTIAL EXPANSION OF DNMT3A(-/-) HSCS DURING CHRONIC MYCOBACTERIAL INFECTION. INJECTION OF RECOMBINANT IFNGAMMA ALONE WAS SUFFICIENT TO PHENOCOPY CH BY DNMT3A(-/-) HSCS UPON INFECTION. TRANSCRIPTIONAL AND EPIGENETIC PROFILING AND FUNCTIONAL STUDIES INDICATE REDUCED DIFFERENTIATION ASSOCIATED WITH WIDESPREAD METHYLATION ALTERATIONS, AND REDUCED SECONDARY STRESS-INDUCED APOPTOSIS ACCOUNTS FOR DNMT3A(-/-) CLONAL EXPANSION DURING INFECTION. DNMT3A MUTANT HUMAN HSCS SIMILARLY EXHIBIT DEFECTIVE IFNGAMMA-INDUCED DIFFERENTIATION. WE THUS DEMONSTRATE THAT IFNGAMMA SIGNALING INDUCED DURING CHRONIC INFECTION CAN DRIVE DNMT3A-LOSS-OF-FUNCTION CH. 2021 15 2928 28 GENERATION OF IPSCS FROM CULTURED HUMAN MALIGNANT CELLS. INDUCED PLURIPOTENT STEM CELLS (IPSCS) CAN BE GENERATED FROM VARIOUS DIFFERENTIATED CELL TYPES BY THE EXPRESSION OF A SET OF DEFINED TRANSCRIPTION FACTORS. SO FAR, IPSCS HAVE BEEN GENERATED FROM PRIMARY CELLS, BUT IT IS UNCLEAR WHETHER HUMAN CANCER CELL LINES CAN BE REPROGRAMMED. HERE WE DESCRIBE THE GENERATION AND CHARACTERIZATION OF IPSCS DERIVED FROM HUMAN CHRONIC MYELOID LEUKEMIA CELLS. WE SHOW THAT, DESPITE THE PRESENCE OF ONCOGENIC MUTATIONS, THESE CELLS ACQUIRED PLURIPOTENCY BY THE EXPRESSION OF 4 TRANSCRIPTION FACTORS AND UNDERWENT DIFFERENTIATION INTO CELL TYPES DERIVED OF ALL 3 GERM LAYERS DURING TERATOMA FORMATION. INTERESTINGLY, ALTHOUGH THE PARENTAL CELL LINE WAS STRICTLY DEPENDENT ON CONTINUOUS SIGNALING OF THE BCR-ABL ONCOGENE, ALSO TERMED ONCOGENE ADDICTION, REPROGRAMMED CELLS LOST THIS DEPENDENCY AND BECAME RESISTANT TO THE BCR-ABL INHIBITOR IMATINIB. THIS FINDING INDICATES THAT THE THERAPEUTIC AGENT IMATINIB TARGETS CELLS IN A SPECIFIC EPIGENETIC DIFFERENTIATED CELL STATE, AND THIS MAY CONTRIBUTE TO ITS INABILITY TO FULLY ERADICATE DISEASE IN CHRONIC MYELOID LEUKEMIA PATIENTS. 2010 16 3759 31 INTEGRATED SINGLE CELL ANALYSIS SHOWS CHRONIC ALCOHOL DRINKING DISRUPTS MONOCYTE DIFFERENTIATION IN THE BONE MARROW NICHE. CHRONIC ALCOHOL DRINKING REWIRES CIRCULATING MONOCYTES AND TISSUE-RESIDENT MACROPHAGES TOWARDS HEIGHTENED INFLAMMATORY STATES WITH COMPROMISED ANTI-MICROBIAL DEFENSES. AS THESE EFFECTS REMAIN CONSISTENT IN SHORT-LIVED MONOCYTES AFTER A 1-MONTH ABSTINENCE PERIOD IT IS UNCLEAR WHETHER THESE CHANGES ARE RESTRICTED TO THE PERIPHERY OR MEDIATED THROUGH ALTERATIONS IN THE PROGENITOR NICHE. TO TEST THIS HYPOTHESIS, WE PROFILED MONOCYTES/MACROPHAGES AND HEMATOPOIETIC STEM CELL PROGENITORS (HSCP) OF THE BONE MARROW COMPARTMENT FROM RHESUS MACAQUES AFTER 12 MONTHS OF ETHANOL CONSUMPTION USING A COMBINATION OF FUNCTIONAL ASSAYS AND SINGLE CELL GENOMICS. BONE MARROW-RESIDENT MONOCYTES/MACROPHAGES FROM ETHANOL-CONSUMING ANIMALS EXHIBITED HEIGHTENED INFLAMMATION. DIFFERENTIATION OF HSCP IN VITRO REVEALED SKEWING TOWARDS MONOCYTES EXPRESSING NEUTROPHIL-LIKE MARKERS WITH HEIGHTENED INFLAMMATORY RESPONSES TO BACTERIAL AGONISTS. SINGLE CELL TRANSCRIPTIONAL ANALYSIS OF HSCPS SHOWED REDUCED PROLIFERATION BUT INCREASED INFLAMMATORY MARKERS IN MATURE MYELOID PROGENITORS. WE OBSERVED TRANSCRIPTIONAL SIGNATURES ASSOCIATED WITH INCREASED OXIDATIVE AND CELLULAR STRESS AS WELL AS OXIDATIVE PHOSPHORYLATION IN IMMATURE AND MATURE MYELOID PROGENITORS. SINGLE CELL ANALYSIS OF THE CHROMATIN LANDSCAPE SHOWED ALTERED DRIVERS OF DIFFERENTIATION IN MONOCYTES AND PROGENITORS. COLLECTIVELY, THESE DATA INDICATE THAT CHRONIC ETHANOL DRINKING RESULTS IN REMODELING OF THE TRANSCRIPTIONAL AND EPIGENETIC LANDSCAPES OF THE BONE MARROW COMPARTMENT LEADING TO ALTERED FUNCTIONS IN THE PERIPHERY. 2023 17 590 31 BET BROMODOMAIN PROTEIN INHIBITION REVERSES CHIMERIC ANTIGEN RECEPTOR EXTINCTION AND REINVIGORATES EXHAUSTED T CELLS IN CHRONIC LYMPHOCYTIC LEUKEMIA. CHIMERIC ANTIGEN RECEPTOR (CAR) T CELLS HAVE INDUCED REMARKABLE ANTITUMOR RESPONSES IN B CELL MALIGNANCIES. SOME PATIENTS DO NOT RESPOND BECAUSE OF T CELL DEFICIENCIES THAT HAMPER THE EXPANSION, PERSISTENCE, AND EFFECTOR FUNCTION OF THESE CELLS. WE USED LONGITUDINAL IMMUNE PROFILING TO IDENTIFY PHENOTYPIC AND PHARMACODYNAMIC CHANGES IN CD19-DIRECTED CAR T CELLS IN PATIENTS WITH CHRONIC LYMPHOCYTIC LEUKEMIA (CLL). CAR EXPRESSION MAINTENANCE WAS ALSO INVESTIGATED BECAUSE THIS CAN AFFECT RESPONSE DURABILITY. CAR T CELL FAILURE WAS ACCOMPANIED BY PREEXISTING T CELL-INTRINSIC DEFECTS OR DYSFUNCTION ACQUIRED AFTER INFUSION. IN A SMALL SUBSET OF PATIENTS, CAR SILENCING WAS OBSERVED COINCIDENT WITH LEUKEMIA RELAPSE. USING A SMALL MOLECULE INHIBITOR, WE DEMONSTRATED THAT THE BROMODOMAIN AND EXTRA-TERMINAL (BET) FAMILY OF CHROMATIN ADAPTERS PLAYS A ROLE IN DOWNREGULATING CAR EXPRESSION. BET PROTEIN BLOCKADE ALSO AMELIORATED CAR T CELL EXHAUSTION AS MANIFESTED BY INHIBITORY RECEPTOR REDUCTION, ENHANCED METABOLIC FITNESS, INCREASED PROLIFERATIVE CAPACITY, AND ENRICHED TRANSCRIPTOMIC SIGNATURES OF T CELL REINVIGORATION. BET INHIBITION DECREASED LEVELS OF THE TET2 METHYLCYTOSINE DIOXYGENASE, AND FORCED EXPRESSION OF THE TET2 CATALYTIC DOMAIN ELIMINATED THE POTENCY-ENHANCING EFFECTS OF BET PROTEIN TARGETING IN CAR T CELLS, PROVIDING A MECHANISM LINKING BET PROTEINS AND T CELL DYSFUNCTION. THUS, MODULATING BET EPIGENETIC READERS MAY IMPROVE THE EFFICACY OF CELL-BASED IMMUNOTHERAPIES. 2021 18 2671 48 ETHANOL CONSUMPTION INDUCES NONSPECIFIC INFLAMMATION AND FUNCTIONAL DEFECTS IN ALVEOLAR MACROPHAGES. CHRONIC ALCOHOL DRINKING IS ASSOCIATED WITH INCREASED SUSCEPTIBILITY TO VIRAL AND BACTERIAL RESPIRATORY PATHOGENS. IN THIS STUDY, WE USE A RHESUS MACAQUE MODEL OF VOLUNTARY ETHANOL SELF-ADMINISTRATION TO STUDY THE EFFECTS OF LONG-TERM ALCOHOL DRINKING ON THE IMMUNOLOGICAL LANDSCAPE OF THE LUNG. WE REPORT A HEIGHTENED INFLAMMATORY STATE IN ALVEOLAR MACROPHAGES (AMS) OBTAINED FROM ETHANOL (ETOH)-DRINKING ANIMALS THAT IS ACCOMPANIED BY INCREASED CHROMATIN ACCESSIBILITY IN INTERGENIC REGIONS THAT REGULATE INFLAMMATORY GENES AND CONTAIN BINDING MOTIFS FOR TRANSCRIPTION FACTORS AP-1, IRF8, AND NFKB P-65. IN LINE WITH THESE TRANSCRIPTIONAL AND EPIGENETIC CHANGES AT THE BASAL STATE, AMS FROM ETOH-DRINKING ANIMALS GENERATE ELEVATED INFLAMMATORY MEDIATOR RESPONSES TO LIPOPOLYSACCHARIDES AND RESPIRATORY SYNCYTIAL VIRUS. HOWEVER, THE TRANSCRIPTIONAL ANALYSIS REVEALED AN INEFFICIENT INDUCTION OF INTERFERON-STIMULATED GENES WITH ETOH IN RESPONSE TO THE RESPIRATORY SYNCYTIAL VIRUS, SUGGESTING DISRUPTION OF ANTIMICROBIAL DEFENSES. CORRESPONDINGLY, AMS FROM ETOH-DRINKING ANIMALS EXHIBITED TRANSCRIPTIONAL SHIFTS INDICATIVE OF INCREASED OXIDATIVE STRESS AND OXIDATIVE PHOSPHORYLATION, WHICH WAS COUPLED WITH HIGHER CYTOSOLIC REACTIVE OXYGEN SPECIES AND MITOCHONDRIAL POTENTIAL. THIS HEIGHTENED OXIDATIVE STRESS STATE WAS ACCOMPANIED BY DECREASED ABILITY TO PHAGOCYTOSE BACTERIA. BULK RNA AND ASSAY FOR TRANSPOSASE-ACCESSIBLE CHROMATIN SEQUENCING DATA FURTHER REVEALED REDUCED EXPRESSION AND CHROMATIN ACCESSIBILITY OF LOCI ASSOCIATED WITH TISSUE REPAIR AND MAINTENANCE WITH CHRONIC ETOH DRINKING. SIMILARLY, ANALYSIS OF SINGLE-CELL RNA SEQUENCING DATA REVEALED SHIFTS IN CELL STATES FROM TISSUE MAINTENANCE TO INFLAMMATORY RESPONSES WITH ETOH. COLLECTIVELY, THESE DATA PROVIDE NOVEL INSIGHT INTO MECHANISMS BY WHICH CHRONIC ETOH DRINKING INCREASES SUSCEPTIBILITY TO INFECTION IN PATIENTS WITH ALCOHOL USE DISORDERS. 2022 19 5426 39 REGULATION OF SIRTUIN EXPRESSION IN AUTOIMMUNE NEUROINFLAMMATION: INDUCTION OF SIRT1 IN OLIGODENDROCYTE PROGENITOR CELLS. IN MULTIPLE SCLEROSIS (MS) REGENERATION OF OLIGODENDROCYTES FOLLOWING INFLAMMATORY DEMYELINATION IS LIMITED BY THE COMPROMISED ABILITY OF PROGENITORS TO REPOPULATE LESIONED AREAS AND TRANSITION TO FUNCTIONALLY COMPETENT OLIGODENDROCYTES. REGARDING UNDERLYING MECHANISMS, THE INVOLVEMENT OF EPIGENETIC PROCESSES HAS BEEN SUGGESTED, E.G. THE CONTRIBUTION OF HISTONE DEACETYLASES (HDAC) KNOWN TO REGULATE OLIGODENDROCYTE PROGENITOR CELL (OPC) DIFFERENTIATION. HOWEVER, THEIR PRECISE EXPRESSION PATTERNS, PARTICULAR OF REDOX-SENSITIVE NAD(+) HDACS, REMAINS LARGELY UNKNOWN. IN THIS STUDY, WE DETERMINED THE EXPRESSION AND ACTIVITY OF SIRTUINS, MEMBERS OF THE HDAC CLASS III FAMILY WITH A SPECIFIC FOCUS ON SIRT1, PREVIOUSLY ASSOCIATED WITH NEURODEGENERATIVE, INFLAMMATORY AND DEMYELINATING DISORDERS OF THE CENTRAL NERVOUS SYSTEM (CNS). BY INVESTIGATING MOUSE EXPERIMENTAL AUTOIMMUNE ENCEPHALOMYELITIS (EAE), A MODEL FOR MS, WE FOUND THAT TRANSCRIPTION OF SIRT1, SIRT2 AND SIRT6 WAS SIGNIFICANTLY INCREASED IN THE CNS DURING CHRONIC DISEASE STAGES. WE CONFIRMED THIS FINDING FOR SIRT1 PROTEIN EXPRESSION AND WERE ABLE TO LOCALIZE UPREGULATED SIRT1 IN NUCLEI OF NG2(+) OR PDGFRALPHA(+) OPCS IN DEMYELINATED BRAIN LESIONS. IN CULTURED MOUSE A2B5(+) OPCS BLOCKADE OF SIRT1 ACTIVITY BY THE SMALL MOLECULE COMPOUND EX527 ENHANCED MITOTIC ACTIVITY BUT DID NOT AFFECT THE CAPACITY TO DIFFERENTIATE. A SIMILAR PATTERN WAS DETECTABLE IN OPCS DERIVED FROM SIRT1-DEFICIENT ANIMALS. TAKEN TOGETHER, OUR DATA SUGGEST THAT SIRT1 INHIBITION MAY HELP TO EXPAND THE ENDOGENOUS POOL OF OPCS WITHOUT AFFECTING THEIR DIFFERENTIATION. 2019 20 5995 31 TGFBETA-INDUCED FIBROBLAST ACTIVATION REQUIRES PERSISTENT AND TARGETED HDAC-MEDIATED GENE REPRESSION. TISSUE FIBROSIS IS A CHRONIC DISEASE DRIVEN BY PERSISTENT FIBROBLAST ACTIVATION THAT HAS RECENTLY BEEN LINKED TO EPIGENETIC MODIFICATIONS. HERE, WE SCREENED A SMALL LIBRARY OF EPIGENETIC SMALL-MOLECULE MODULATORS TO IDENTIFY COMPOUNDS CAPABLE OF INHIBITING OR REVERSING TGFBETA-MEDIATED FIBROBLAST ACTIVATION. WE IDENTIFIED PRACINOSTAT, AN HDAC INHIBITOR, AS A POTENT ATTENUATOR OF LUNG FIBROBLAST ACTIVATION AND CONFIRMED ITS EFFICACY IN PATIENT-DERIVED FIBROBLASTS ISOLATED FROM FIBROTIC LUNG TISSUE. MECHANISTICALLY, WE FOUND THAT HDAC-DEPENDENT TRANSCRIPTIONAL REPRESSION WAS AN EARLY AND ESSENTIAL EVENT IN TGFBETA-MEDIATED FIBROBLAST ACTIVATION. TREATMENT OF LUNG FIBROBLASTS WITH PRACINOSTAT BROADLY ATTENUATED TGFBETA-MEDIATED EPIGENETIC REPRESSION AND PROMOTED FIBROBLAST QUIESCENCE. WE CONFIRMED A SPECIFIC ROLE FOR HDAC-DEPENDENT HISTONE DEACETYLATION IN THE PROMOTER REGION OF THE ANTI-FIBROTIC GENE PPARGC1A (PGC1ALPHA) IN RESPONSE TO TGFBETA STIMULATION. FINALLY, WE IDENTIFIED HDAC7 AS A KEY FACTOR WHOSE SIRNA-MEDIATED KNOCKDOWN ATTENUATES FIBROBLAST ACTIVATION WITHOUT ALTERING GLOBAL HISTONE ACETYLATION. TOGETHER, THESE RESULTS PROVIDE NOVEL MECHANISTIC INSIGHT INTO THE ESSENTIAL ROLE HDACS PLAY IN TGFBETA-MEDIATED FIBROBLAST ACTIVATION VIA TARGETED GENE REPRESSION. 2019