1 1475 85 DISTRIBUTION OF H3K27ME3, H3K9ME3, AND H3K4ME3 ALONG AUTOPHAGY-RELATED GENES HIGHLY EXPRESSED IN STARVED ZEBRAFISH MYOTUBES. THE ZEBRAFISH (DANIO RERIO) REMAINS THE TELEOST FISH OF CHOICE FOR BIOLOGICAL INVESTIGATIONS DUE TO THE VAST ARRAY OF MOLECULAR TOOLS AND RESOURCES AVAILABLE. TO BETTER UNDERSTAND THE EPIGENETIC REGULATION OF AUTOPHAGY, WE UTILIZED A PRIMARY MYOTUBE CULTURE SYSTEM GENERATED FROM ISOLATED MYOGENIC PRECURSOR CELLS (MPCS) FROM ZEBRAFISH GROWN UNDER STARVATION CONDITIONS USING A MEDIA DEVOID OF SERUM AND AMINO ACIDS. HERE, WE REPORT STARVATION-INDUCED REGULATION OF SEVERAL AUTOPHAGY-RELATED GENES (ATG) EXPRESSION AND PROFILE THE DISTRIBUTION OF H3K27ME3, H3K9ME3, AND H3K4ME3 MARKS ALONG LC3B, ATG4B AND P62/SQSTM1 LOCI. THESE DATA SUPPORT EPIGENETIC REGULATION OF AUTOPHAGY IN RESPONSE TO STARVATION THAT SUGGESTS A LEVEL OF REGULATION THAT CAN BE SUSTAINED FOR CHRONIC CONDITIONS VIA CHROMATIN MODIFICATION. 2017 2 4210 20 METFORMIN AND VITAMIN D MODULATE INFLAMMATION AND AUTOPHAGY DURING ADIPOSE-DERIVED STEM CELL DIFFERENTIATION. ADIPOSE-DERIVED STEM CELLS (ADSCS) CAME OUT FROM THE REGENERATIVE MEDICINE LANDSCAPE FOR THEIR ABILITY TO DIFFERENTIATE INTO SEVERAL PHENOTYPES, CONTRIBUTING TO TISSUE REGENERATION BOTH IN VITRO AND IN VIVO. DYSREGULATION IN STEM CELL RECRUITMENT AND DIFFERENTIATION DURING ADIPOGENESIS IS LINKED TO A CHRONIC LOW-GRADE INFLAMMATION AND MACROPHAGE INFILTRATION INSIDE THE ADIPOSE TISSUE, INSULIN RESISTANCE, CARDIOVASCULAR DISEASE AND OBESITY. IN THE PRESENT PAPER WE AIMED TO EVALUATE THE ROLE OF METFORMIN AND VITAMIN D, ALONE OR IN COMBINATION, IN MODULATING INFLAMMATION AND AUTOPHAGY IN ADSCS DURING ADIPOGENIC COMMITMENT. ADSCS WERE CULTURED FOR 21 DAYS IN THE PRESENCE OF A SPECIFIC ADIPOGENIC DIFFERENTIATION MEDIUM, TOGETHER WITH METFORMIN, OR VITAMIN D, OR BOTH. WE THEN ANALYZED THE EXPRESSION OF FOXO1 AND HEAT SHOCK PROTEINS (HSP) AND THE SECRETION OF PROINFLAMMATORY CYTOKINES IL-6 AND TNF-ALPHA BY ELISA. AUTOPHAGY WAS ALSO ASSESSED BY SPECIFIC WESTERN BLOT ANALYSIS OF ATG12, LC3B I, AND LC3B II EXPRESSION. OUR RESULTS SHOWED THE ABILITY OF THE CONDITIONED MEDIA TO MODULATE ADIPOGENIC DIFFERENTIATION, FINELY TUNING THE INFLAMMATORY RESPONSE AND AUTOPHAGY. WE OBSERVED A MODULATION IN HSP MRNA LEVELS, AND A SIGNIFICANT DOWNREGULATION IN CYTOKINE SECRETION. TAKEN TOGETHER, OUR FINDINGS SUGGEST THE POSSIBLE APPLICATION OF THESE MOLECULES IN CLINICAL PRACTICE TO COUNTERACT UNCONTROLLED LIPOGENESIS AND PREVENT OBESITY AND OBESITY-RELATED METABOLIC DISORDERS. 2021 3 891 26 CHRONIC EFFECTS OF CLOFIBRIC ACID IN ZEBRAFISH (DANIO RERIO): A MULTIGENERATIONAL STUDY. CLOFIBRIC ACID (CA) IS AN ACTIVE METABOLITE OF THE BLOOD LIPID LOWERING AGENT CLOFIBRATE, A PHARMACEUTICAL DESIGNED TO WORK AS AGONIST OF PEROXISOME PROLIFERATOR-ACTIVATED RECEPTOR ALPHA (PPARA). IT IS THE MOST COMMONLY REPORTED FIBRATE IN AQUATIC ENVIRONMENTS WITH LOW DEGRADATION RATE AND POTENTIAL ENVIRONMENTAL PERSISTENCE. PREVIOUS FISH EXPOSURES SHOWED THAT CA MAY IMPACT SPERMATOGENESIS, GROWTH AND THE EXPRESSION OF FAT BINDING PROTEIN GENES. HOWEVER, THERE ARE LIMITED DATA ON THE EFFECTS OF CHRONIC MULTIGENERATIONAL CA EXPOSURES. HERE, WE ASSESSED CHRONIC MULTIGENERATIONAL EFFECTS OF CA EXPOSURE USING ZEBRAFISH (DANIO RERIO) AS A TELEOST MODEL. ZEBRAFISH WERE EXPOSED THROUGH THE DIET TO CA (1 AND 10MG/G) DURING THEIR WHOLE LIFETIME. GROWTH, REPRODUCTION-RELATED PARAMETERS AND EMBRYONIC DEVELOPMENT WERE ASSESSED IN THE EXPOSED FISH (F1 GENERATION) AND THEIR OFFSPRING (F2 GENERATION), TOGETHER WITH MUSCLE TRIGLYCERIDE CONTENT AND GONAD HISTOLOGY. IN ORDER TO STUDY THE POTENTIAL UNDERLYING MECHANISMS, THE TRANSCRIPTION LEVELS OF GENES CODING FOR ENZYMES INVOLVED IN LIPID METABOLISM PATHWAYS WERE DETERMINED. THE RESULTS SHOW THAT CHRONIC LIFE-CYCLE EXPOSURE TO CA INDUCED A SIGNIFICANT REDUCTION IN GROWTH OF F1 GENERATION AND LOWERED TRIGLYCERIDE MUSCLE CONTENT (10MG/G GROUP). ALSO, AN IMPACT IN MALE GONAD DEVELOPMENT WAS OBSERVED TOGETHER WITH A DECREASE IN THE FECUNDITY (10MG/G GROUP) AND HIGHER FREQUENCY OF EMBRYO ABNORMALITIES IN THE OFFSPRING OF FISH EXPOSED TO THE LOWEST CA DOSE. THE PROFILE OF THE TARGET GENES WAS SEX- AND TISSUE-DEPENDENT. IN F1 AN UP-REGULATION OF MALE HEPATIC PPARAA, PPARB AND ACOX TRANSCRIPT LEVELS WAS OBSERVED, SUGGESTING AN ACTIVATION OF THE FATTY ACID METABOLISM (PROVIDED THAT TRANSCRIPT LEVEL CHANGE INDICATES ALSO A PROTEIN LEVEL CHANGE). INTERESTINGLY, THE F2 GENERATION, RAISED WITH CONTROL DIET, DISPLAYED A RESPONSE PATTERN DIFFERENT FROM THAT OBSERVED IN F1, SHOWING AN INCREASE IN WEIGHT IN THE DESCENDANTS OF CA EXPOSED FISH, IN COMPARISON WITH CONTROL ANIMALS, WHICH POINTS TO A MULTIGENERATIONAL EFFECT. 2015 4 2442 22 EPIGENETIC STABILITY IN THE ADULT MOUSE CORTEX UNDER CONDITIONS OF PHARMACOLOGICALLY INDUCED HISTONE ACETYLATION. HISTONE ACETYLATION IS CONSIDERED A MAJOR EPIGENETIC PROCESS THAT AFFECTS BRAIN DEVELOPMENT AND SYNAPTIC PLASTICITY, AS WELL AS LEARNING AND MEMORY. THE TRANSCRIPTIONAL EFFECTORS AND MORPHOLOGICAL CHANGES RESPONSIBLE FOR PLASTICITY AS A RESULT OF LONG-TERM MODIFICATIONS TO HISTONE ACETYLATION ARE NOT FULLY UNDERSTOOD. TO THIS END, WE PHARMACOLOGICALLY INHIBITED HISTONE DEACETYLATION USING TRICHOSTATIN A IN ADULT (6-MONTH-OLD) MICE AND FOUND SIGNIFICANT INCREASES IN THE LEVELS OF THE ACETYLATED HISTONE MARKS H3LYS9, H3LYS14 AND H4LYS12. HIGH-RESOLUTION TRANSCRIPTOME ANALYSIS OF DIVERSE BRAIN REGIONS UNCOVERED FEW DIFFERENCES IN GENE EXPRESSION BETWEEN TREATED AND CONTROL ANIMALS, NONE OF WHICH WERE PLASTICITY RELATED. INSTEAD, AFTER INCREASED HISTONE ACETYLATION, WE DETECTED A LARGE NUMBER OF NOVEL TRANSCRIPTIONALLY ACTIVE REGIONS, WHICH CORRESPOND TO LONG NON-CODING RNAS (LNCRNAS). WE ALSO SURPRISINGLY FOUND NO SIGNIFICANT CHANGES IN DENDRITIC SPINE PLASTICITY IN LAYERS 1 AND 2/3 OF THE VISUAL CORTEX USING LONG-TERM IN VIVO TWO-PHOTON IMAGING. OUR RESULTS INDICATE THAT CHRONIC PHARMACOLOGICALLY INDUCED HISTONE ACETYLATION CAN BE DECOUPLED FROM GENE EXPRESSION AND INSTEAD, MAY POTENTIALLY EXERT A POST-TRANSCRIPTIONAL EFFECT THROUGH THE DIFFERENTIAL PRODUCTION OF LNCRNAS. 2016 5 2002 20 EPIGENETIC AND POST-TRANSCRIPTIONAL REPRESSION SUPPORT METABOLIC SUPPRESSION IN CHRONICALLY HYPOXIC GOLDFISH. GOLDFISH ENTER A HYPOMETABOLIC STATE TO SURVIVE CHRONIC HYPOXIA. WE RECENTLY DESCRIBED TISSUE-SPECIFIC CONTRIBUTIONS OF MEMBRANE LIPID COMPOSITION REMODELING AND MITOCHONDRIAL FUNCTION TO METABOLIC SUPPRESSION ACROSS DIFFERENT GOLDFISH TISSUES. HOWEVER, THE MOLECULAR AND ESPECIALLY EPIGENETIC FOUNDATIONS OF HYPOXIA TOLERANCE IN GOLDFISH UNDER METABOLIC SUPPRESSION ARE NOT WELL UNDERSTOOD. HERE WE SHOW THAT COMPONENTS OF THE MOLECULAR OXYGEN-SENSING MACHINERY ARE ROBUSTLY ACTIVATED ACROSS TISSUES IRRESPECTIVE OF HYPOXIA DURATION. INDUCTION OF GENE EXPRESSION OF ENZYMES INVOLVED IN DNA METHYLATION TURNOVER AND MICRORNA BIOGENESIS SUGGEST A ROLE FOR EPIGENETIC TRANSCRIPTIONAL AND POST-TRANSCRIPTIONAL SUPPRESSION OF GENE EXPRESSION IN THE HYPOXIA-ACCLIMATED BRAIN. CONVERSELY, MECHANISTIC TARGET OF RAPAMYCIN-DEPENDENT TRANSLATIONAL MACHINERY ACTIVITY IS NOT REDUCED IN LIVER AND WHITE MUSCLE, SUGGESTING THIS PATHWAY DOES NOT CONTRIBUTE TO LOWERING CELLULAR ENERGY EXPENDITURE. FINALLY, MOLECULAR EVIDENCE SUPPORTS PREVIOUSLY REPORTED CHRONIC HYPOXIA-DEPENDENT CHANGES IN MEMBRANE CHOLESTEROL, LIPID METABOLISM AND MITOCHONDRIAL FUNCTION VIA CHANGES IN TRANSCRIPTS INVOLVED IN CHOLESTEROL BIOSYNTHESIS, BETA-OXIDATION, AND MITOCHONDRIAL FUSION IN MULTIPLE TISSUES. OVERALL, THIS STUDY SHOWS THAT CHRONIC HYPOXIA ROBUSTLY INDUCES EXPRESSION OF OXYGEN-SENSING MACHINERY ACROSS TISSUES, INDUCES REPRESSIVE TRANSCRIPTIONAL AND POST-TRANSCRIPTIONAL EPIGENETIC MARKS ESPECIALLY IN THE CHRONIC HYPOXIA-ACCLIMATED BRAIN AND SUPPORTS A ROLE FOR MEMBRANE REMODELING AND MITOCHONDRIAL FUNCTION AND DYNAMICS IN PROMOTING METABOLIC SUPPRESSION. 2022 6 4875 22 OVEREXPRESSION OF AKT1 ENHANCES ADIPOGENESIS AND LEADS TO LIPOMA FORMATION IN ZEBRAFISH. BACKGROUND: OBESITY IS A COMPLEX, MULTIFACTORIAL DISORDER INFLUENCED BY THE INTERACTION OF GENETIC, EPIGENETIC, AND ENVIRONMENTAL FACTORS. OBESITY INCREASES THE RISK OF CONTRACTING MANY CHRONIC DISEASES OR METABOLIC SYNDROME. RESEARCHERS HAVE ESTABLISHED SEVERAL MAMMALIAN MODELS OF OBESITY TO STUDY ITS UNDERLYING MECHANISM. HOWEVER, A LOWER VERTEBRATE MODEL FOR CONVENIENTLY PERFORMING DRUG SCREENING AGAINST OBESITY REMAINS ELUSIVE. THE SPECIFIC AIM OF THIS STUDY WAS TO CREATE A ZEBRAFISH OBESITY MODEL BY OVER EXPRESSING THE INSULIN SIGNALING HUB OF THE AKT1 GENE. METHODOLOGY/PRINCIPAL FINDINGS: SKIN ONCOGENIC TRANSFORMATION SCREENING SHOWS THAT A STABLE ZEBRAFISH TRANSGENIC OF TG(KRT4HSA.MYRAKT1)(CY18) DISPLAYS SEVERELY OBESE PHENOTYPES AT THE ADULT STAGE. IN TG(KRT4:HSA.MYRAKT1)(CY18), THE EXPRESSION OF EXOGENOUS HUMAN CONSTITUTIVELY ACTIVE AKT1 (MYRAKT1) CAN ACTIVATE ENDOGENOUS DOWNSTREAM TARGETS OF MTOR, GSK-3ALPHA/BETA, AND 70S6K. DURING THE EMBRYONIC TO LARVAL TRANSITORY PHASE, THE SPECIFIC OVER EXPRESSION OF MYRAKT1 IN SKIN CAN PROMOTE HYPERTROPHIC AND HYPERPLASTIC GROWTH. FROM 21 HOUR POST-FERTILIZATION (HPF) ONWARDS, MYRAKT1 TRANSGENE WAS ECTOPICALLY EXPRESSED IN SEVERAL MESENCHYMAL DERIVED TISSUES. THIS MAY BE THE RESULT OF THE INTEGRATION POSITION EFFECT. TG(KRT4:HSA.MYRAKT1)(CY18) CAUSED A RAPID INCREASE OF BODY WEIGHT, HYPERPLASTIC GROWTH OF ADIPOCYTES, ABNORMAL ACCUMULATION OF FAT TISSUES, AND BLOOD GLUCOSE INTOLERANCE AT THE ADULT STAGE. REAL-TIME RT-PCR ANALYSIS SHOWED THE MAJORITY OF KEY GENES ON REGULATING ADIPOGENESIS, ADIPOCYTOKINE, AND INFLAMMATION ARE HIGHLY UPREGULATED IN TG(KRT4:HSA.MYRAKT1)(CY18). IN CONTRAST, THE MYOGENESIS- AND SKELETOGENESIS-RELATED GENE TRANSCRIPTS ARE SIGNIFICANTLY DOWNREGULATED IN TG(KRT4:HSA.MYRAKT1)(CY18), SUGGESTING THAT EXCESS ADIPOCYTE DIFFERENTIATION OCCURS AT THE EXPENSE OF OTHER MESENCHYMAL DERIVED TISSUES. CONCLUSION/SIGNIFICANCE: COLLECTIVELY, THE FINDINGS OF THIS STUDY PROVIDE DIRECT EVIDENCE THAT AKT1 SIGNALING PLAYS AN IMPORTANT ROLE IN BALANCING NORMAL LEVELS OF FAT TISSUE IN VIVO. THE OBESE ZEBRAFISH EXAMINED IN THIS STUDY COULD BE A NEW POWERFUL MODEL TO SCREEN NOVEL DRUGS FOR THE TREATMENT OF HUMAN OBESITY. 2012 7 1117 19 COMPARATIVE AND EXPERIMENTAL STUDIES ON THE GENES ALTERED BY CHRONIC HYPOXIA IN HUMAN BRAIN MICROENDOTHELIAL CELLS. BACKGROUND : HYPOXIA INDUCIBLE FACTOR 1 ALPHA (HIF1A) IS A MASTER REGULATOR OF ACUTE HYPOXIA; HOWEVER, WITH CHRONIC HYPOXIA, HIF1A LEVELS RETURN TO THE NORMOXIC LEVELS. IMPORTANTLY, THE GENES THAT ARE INVOLVED IN THE CELL SURVIVAL AND VIABILITY UNDER CHRONIC HYPOXIA ARE NOT KNOWN. THEREFORE, WE TESTED THE HYPOTHESIS THAT CHRONIC HYPOXIA LEADS TO THE UPREGULATION OF A CORE GROUP OF GENES WITH ASSOCIATED CHANGES IN THE PROMOTER DNA METHYLATION THAT MEDIATES THE CELL SURVIVAL UNDER HYPOXIA. RESULTS : WE EXAMINED THE EFFECT OF CHRONIC HYPOXIA (3 DAYS; 0.5% OXYGEN) ON HUMAN BRAIN MICRO ENDOTHELIAL CELLS (HBMEC) VIABILITY AND APOPTOSIS. HYPOXIA CAUSED A SIGNIFICANT REDUCTION IN CELL VIABILITY AND AN INCREASE IN APOPTOSIS. NEXT, WE EXAMINED CHRONIC HYPOXIA ASSOCIATED CHANGES IN TRANSCRIPTOME AND GENOME-WIDE PROMOTER METHYLATION. THE DATA OBTAINED WAS COMPARED WITH 16 OTHER MICROARRAY STUDIES ON CHRONIC HYPOXIA. NINE GENES WERE ALTERED IN RESPONSE TO CHRONIC HYPOXIA IN ALL 17 STUDIES. INTERESTINGLY, HIF1A WAS NOT ALTERED WITH CHRONIC HYPOXIA IN ANY OF THE STUDIES. FURTHERMORE, WE COMPARED OUR DATA TO THREE OTHER STUDIES THAT IDENTIFIED HIF-RESPONSIVE GENES BY VARIOUS APPROACHES. ONLY TWO GENES WERE FOUND TO BE HIF DEPENDENT. WE SILENCED EACH OF THESE 9 GENES USING CRISPR/CAS9 SYSTEM. DOWNREGULATION OF EGLN3 SIGNIFICANTLY INCREASED THE CELL DEATH UNDER CHRONIC HYPOXIA, WHEREAS DOWNREGULATION OF ERO1L, ENO2, ADRENOMEDULLIN, AND SPAG4 REDUCED THE CELL DEATH UNDER HYPOXIA. CONCLUSIONS : WE PROVIDE A CORE GROUP OF GENES THAT REGULATES CELLULAR ACCLIMATIZATION UNDER CHRONIC HYPOXIC STRESS, AND MOST OF THEM ARE HIF INDEPENDENT. 2017 8 4742 23 NOVEL HISTONE MODIFICATIONS IN MICROGLIA DERIVED FROM A MOUSE MODEL OF CHRONIC PAIN. AS THE RESIDENT IMMUNE CELLS IN THE CENTRAL NERVOUS SYSTEM, MICROGLIA PLAY AN IMPORTANT ROLE IN THE MAINTENANCE OF ITS HOMEOSTASIS. DYSREGULATION OF MICROGLIA HAS BEEN ASSOCIATED WITH THE DEVELOPMENT AND MAINTENANCE OF CHRONIC PAIN. HOWEVER, THE RELEVANT MOLECULAR PATHWAYS REMAIN POORLY DEFINED. IN THIS STUDY, WE USED A MASS SPECTROMETRY-BASED PROTEOMIC APPROACH TO SCREEN POTENTIAL CHANGES OF HISTONE PROTEIN MODIFICATIONS IN MICROGLIA ISOLATED FROM THE BRAIN OF CONTROL AND CISPLATIN-INDUCED NEUROPATHIC PAIN ADULT C57BL/6J MALE MICE. WE IDENTIFIED SEVERAL NOVEL MICROGLIAL HISTONE MODIFICATIONS ASSOCIATED WITH PAIN, INCLUDING STATISTICALLY SIGNIFICANTLY DECREASED HISTONE H3.1 LYSINE 27 MONO-METHYLATION (H3.1K27ME1, 54.8% OF CONTROL) AND H3 LYSINE 56 TRI-METHYLATION (7.5% OF CONTROL), AS WELL AS A TREND SUGGESTING INCREASED H3 TYROSINE 41 NITRATION. WE FURTHER INVESTIGATED THE FUNCTIONAL ROLE OF H3.1K27ME1 AND FOUND THAT TREATMENT OF CULTURED MICROGLIAL CELLS FOR 4 CONSECUTIVE DAYS WITH 1-10 MUM OF NCDM-64, A POTENT AND SELECTIVE INHIBITOR OF LYSINE DEMETHYLASE 7A, AN ENZYME RESPONSIBLE FOR THE DEMETHYLATION OF H3K27ME1, DOSE-DEPENDENTLY ELEVATED ITS LEVELS WITH A GREATER THAN A TWO-FOLD INCREASE OBSERVED AT 10 MUM COMPARED TO VEHICLE-TREATED CONTROL CELLS. MOREOVER, PRETREATMENT OF MICE WITH NCDM-64 (10 OR 25 MG/KG/DAY, I.P.) PRIOR TO CISPLATIN TREATMENT PREVENTED THE DEVELOPMENT OF NEUROPATHIC PAIN IN MICE. THE IDENTIFICATION OF SPECIFIC CHROMATIN MARKS IN MICROGLIA ASSOCIATED WITH CHRONIC PAIN MAY YIELD CRITICAL INSIGHT INTO THE CONTRIBUTION OF MICROGLIA TO THE DEVELOPMENT AND MAINTENANCE OF PAIN, AND OPENS NEW AVENUES FOR THE DEVELOPMENT OF NOVEL NONOPIOID THERAPEUTICS FOR THE EFFECTIVE MANAGEMENT OF CHRONIC PAIN. 2022 9 2395 24 EPIGENETIC REPROGRAMMING IN MIST1(-/-) MICE PREDICTS THE MOLECULAR RESPONSE TO CERULEIN-INDUCED PANCREATITIS. GENE EXPRESSION IS AFFECTED BY MODIFICATIONS TO HISTONE CORE PROTEINS WITHIN CHROMATIN. CHANGES IN THESE MODIFICATIONS, OR EPIGENETIC REPROGRAMMING, CAN DICTATE CELL FATE AND PROMOTE SUSCEPTIBILITY TO DISEASE. THE GOAL OF THIS STUDY WAS TO DETERMINE THE EXTENT OF EPIGENETIC REPROGRAMMING IN RESPONSE TO CHRONIC STRESS THAT OCCURS FOLLOWING ABLATION OF MIST1 (MIST1(-/-) ), WHICH IS REPRESSED IN PANCREATIC DISEASE. CHROMATIN IMMUNOPRECIPITATION FOR TRIMETHYLATION OF LYSINE RESIDUE 4 ON HISTONE 3 (H3K4ME3) IN PURIFIED ACINAR CELLS FROM WILD TYPE AND MIST1(-/-) MICE WAS FOLLOWED BY NEXT GENERATION SEQUENCING (CHIP-SEQ) OR CHIP-QPCR. H3K4ME3-ENRICHED GENES WERE ASSESSED FOR EXPRESSION BY QRT-PCR IN PANCREATIC TISSUE BEFORE AND AFTER INDUCTION OF CERULEIN-INDUCED PANCREATITIS. WHILE MOST OF H3K4ME3-ENRICHMENT IS RESTRICTED TO TRANSCRIPTIONAL START SITES, >25% OF ENRICHMENT SITES ARE FOUND WITHIN, DOWNSTREAM OR BETWEEN ANNOTATED GENES. LESS THAN 10% OF THESE SITES WERE ALTERED IN MIST1(-/-) ACINI, WITH MOST CHANGES IN H3K4ME3 ENRICHMENT NOT REFLECTING ALTERED GENE EXPRESSION. INGENUITY PATHWAY ANALYSIS OF GENES DIFFERENTIALLY-ENRICHED FOR H3K4ME3 REVEALED AN ASSOCIATION WITH PANCREATITIS AND PANCREATIC DUCTAL ADENOCARCINOMA IN MIST1(-/-) TISSUE. MOST OF THESE GENES WERE NOT DIFFERENTIALLY EXPRESSED BUT SEVERAL WERE READILY INDUCED BY ACUTE EXPERIMENTAL PANCREATITIS, WITH SIGNIFICANTLY INCREASED EXPRESSION IN MIST1(-/-) TISSUE RELATIVE TO WILD TYPE MICE. WE SUGGEST THAT THE CHRONIC CELL STRESS OBSERVED IN THE ABSENCE OF MIST1 RESULTS IN EPIGENETIC REPROGRAMMING OF GENES INVOLVED IN PROMOTING PANCREATITIS TO A POISED STATE, THEREBY INCREASING THE SENSITIVITY TO EVENTS THAT PROMOTE DISEASE. 2014 10 5872 19 SUSTAINED TNF-ALPHA STIMULATION LEADS TO TRANSCRIPTIONAL MEMORY THAT GREATLY ENHANCES SIGNAL SENSITIVITY AND ROBUSTNESS. TRANSCRIPTIONAL MEMORY ALLOWS CERTAIN GENES TO RESPOND TO PREVIOUSLY EXPERIENCED SIGNALS MORE ROBUSTLY. HOWEVER, WHETHER AND HOW THE KEY PROINFLAMMATORY CYTOKINE TNF-ALPHA MEDIATES TRANSCRIPTIONAL MEMORY ARE POORLY UNDERSTOOD. USING HEK293F CELLS AS A MODEL SYSTEM, WE REPORT THAT SUSTAINED TNF-ALPHA STIMULATION INDUCES TRANSCRIPTIONAL MEMORY DEPENDENT ON TET ENZYMES. THE HYPOMETHYLATED STATUS OF TRANSCRIPTIONAL REGULATORY REGIONS CAN BE INHERITED, FACILITATING NF-KAPPAB BINDING AND MORE ROBUST SUBSEQUENT ACTIVATION. A HIGH INITIAL METHYLATION LEVEL AND CPG DENSITY AROUND KAPPAB SITES ARE CORRELATED WITH THE FUNCTIONAL POTENTIAL OF TRANSCRIPTIONAL MEMORY MODULES. INTERESTINGLY, THE CALCB GENE, ENCODING THE PROVEN MIGRAINE THERAPEUTIC TARGET CGRP, EXHIBITS THE BEST TRANSCRIPTIONAL MEMORY. A NEIGHBORING PRIMATE-SPECIFIC ENDOGENOUS RETROVIRUS STIMULATES MORE RAPID, MORE STRONG, AND AT LEAST 100-FOLD MORE SENSITIVE CALCB INDUCTION IN SUBSEQUENT TNF-ALPHA STIMULATION. OUR STUDY REVEALS THAT TNF-ALPHA-MEDIATED TRANSCRIPTIONAL MEMORY IS GOVERNED BY ACTIVE DNA DEMETHYLATION AND GREATLY SENSITIZES MEMORY GENES TO MUCH LOWER DOSES OF INFLAMMATORY CUES. 2020 11 1326 16 DEPLETION OF NUCLEAR HISTONE H2A VARIANTS IS ASSOCIATED WITH CHRONIC DNA DAMAGE SIGNALING UPON DRUG-EVOKED SENESCENCE OF HUMAN SOMATIC CELLS. CELLULAR SENESCENCE IS ASSOCIATED WITH GLOBAL CHROMATIN CHANGES, ALTERED GENE EXPRESSION, AND ACTIVATION OF CHRONIC DNA DAMAGE SIGNALING. THESE EVENTS ULTIMATELY LEAD TO MORPHOLOGICAL AND PHYSIOLOGICAL TRANSFORMATIONS IN PRIMARY CELLS. IN THIS STUDY, WE SHOW THAT CHRONIC DNA DAMAGE SIGNALS CAUSED BY GENOTOXIC STRESS IMPACT THE EXPRESSION OF HISTONES H2A FAMILY MEMBERS AND LEAD TO THEIR DEPLETION IN THE NUCLEI OF SENESCENT HUMAN FIBROBLASTS. OUR DATA REINFORCE THE HYPOTHESIS THAT PROGRESSIVE CHROMATIN DESTABILIZATION MAY LEAD TO THE LOSS OF EPIGENETIC INFORMATION AND IMPAIRED CELLULAR FUNCTION ASSOCIATED WITH CHRONIC DNA DAMAGE UPON DRUG-EVOKED SENESCENCE. WE PROPOSE THAT CHANGES IN THE HISTONE BIOSYNTHESIS AND CHROMATIN ASSEMBLY MAY DIRECTLY CONTRIBUTE TO CELLULAR AGING. IN ADDITION, WE ALSO OUTLINE THE METHOD THAT ALLOWS FOR QUANTITATIVE AND UNBIASED MEASUREMENT OF THESE CHANGES. 2012 12 2673 24 ETHANOL-INDUCED MODULATION OF GPR55 EXPRESSION IN HUMAN MONOCYTE-DERIVED DENDRITIC CELLS IS ACCOMPANIED BY H4K12 ACETYLATION. INFLAMMATION SUPPORTS THE PROGRESSION OF ALCOHOL-RELATED ORGAN INJURY. RECENT RESEARCH FINDINGS HAVE LINKED ETHANOL EXPOSURE TO CHANGES IN HISTONE ACETYLATION AND DEACETYLATION IN THE BRAIN AND IN PERIPHERAL TISSUES, LEADING TO ETHANOL-DEPENDENCE RELATED DAMAGE. ONE OF THE MECHANISMS THAT HAS BEEN SHOWN TO PLAY A MAJOR ROLE DURING INFLAMMATION IS THE CANNABINOID SYSTEM. PREVIOUS RESEARCH HAS DEMONSTRATED THAT ETHANOL CAN MODULATE CANNABINOID RECEPTORS' FUNCTIONS. OUR LAB HAS SHOWN THAT THE G PROTEIN-COUPLED RECEPTOR (GPR55), A NOVEL CANNABINOID RECEPTOR, IS UPREGULATED IN BINGE DRINKERS AND IN CELLS TREATED ACUTELY WITH ETHANOL. ADDITIONALLY, OUR GROUP HAS ALSO UNCOVERED THAT CHRONIC ETHANOL EXPOSURE LEADS TO AN INCREASE IN HISTONE MODIFICATIONS, SUCH AS ACETYLATION. HOWEVER, THE REGULATORY MECHANISM OF GPR55 WITHIN THE IMMUNE SYSTEM UNDER THE INFLUENCE OF ETHANOL IS POORLY UNDERSTOOD. SINCE CHANGES IN HISTONE MODIFICATIONS MIGHT LEAD TO CHANGES IN GENE EXPRESSION, WE HYPOTHESIZE THAT THE MECHANISM OF ETHANOL-INDUCED UPREGULATION OF GPR55 IS LINKED TO EPIGENETIC CHANGES ON HISTONE PROTEINS. TAKING INTO ACCOUNT PREVIOUS FINDINGS FROM OUR LAB, THE GOAL OF THE PRESENT STUDY WAS TO DETERMINE WHETHER THERE IS ANY RELEVANT ASSOCIATION BETWEEN HISTONE HYPERACETYLATION AND THE REGULATION OF THE NOVEL CANNABINOID RECEPTOR GPR55 IN MONOCYTE-DERIVED DENDRITIC CELLS (MDDCS) OF HUMAN ORIGIN TREATED ACUTELY WITH ETHANOL. THEREFORE, MONOCYTES WERE ISOLATED FROM BUFFY COATS AND ALLOWED TO DIFFERENTIATE INTO MDDCS. THE CELLS WERE TREATED WITH ETHANOL FOR 24 H, HARVESTED, FIXED, AND STAINED WITH ANTIBODIES AGAINST GPR55. AS EXPECTED, BASED ON PREVIOUS FINDINGS, CONFOCAL MICROSCOPY SHOWED THAT ETHANOL EXPOSURE INCREASES GPR55 EXPRESSION. IN ORDER TO DEMONSTRATE THE CORRELATION BETWEEN HISTONE ACETYLATION AND GPR55 EXPRESSION REGULATION, THE CELLS WERE TREATED WITH ETHANOL, HARVESTED, AND THEN THE CHROMATIN WAS EXTRACTED AND FRACTIONATED FOR CHROMATIN IMMUNOPRECIPITATION (CHIP) ASSAY, FOLLOWED BY REAL-TIME QPCR FOR THE ANALYSIS OF DNA FRAGMENTS. THE RESULTS SHOWED AN ENRICHMENT OF THE HISTONE MODIFICATION H4K12AC IN THE GPR55 GENE OF MDDCS TREATED WITH ETHANOL. FURTHERMORE, SIRNA AGAINST THE HISTONE ACETYLTRANSFERASE TIP60 (RESPONSIBLE FOR THE ACETYLATION OF H4K12) RESULTED IN A DOWNREGULATION OF GPR55. IN CONJUNCTION, THESE RESULTS INDICATE THAT IN THE PRESENCE OF ETHANOL, THE UPREGULATION OF GPR55 EXPRESSION IS ACCOMPANIED BY H4K12 ACETYLATION, WHICH MIGHT HAVE A SIGNIFICANT EFFECT IN THE ABILITY OF THIS INNATE IMMUNE SYSTEM'S CELLS TO COPE WITH CELLULAR STRESS INDUCED BY ETHANOL. HOWEVER, THE CAUSALITY OF ETHANOL REGULATION OF H4K12AC IN GPR55 EXPRESSION CHANGES STILL LACKS FURTHER ELUCIDATION; THEREFORE, ADDITIONAL EXPERIMENTAL APPROACHES TO CONFIRM A SIGNIFICANT CAUSALITY BETWEEN H4K12 ACETYLATION AND ETHANOL REGULATION OF GPR55 ARE CURRENTLY UNDERGOING IN OUR LAB. 2018 13 3658 19 INDUCTION OF ABERRANT TRIMETHYLATION OF HISTONE H3 LYSINE 27 BY INFLAMMATION IN MOUSE COLONIC EPITHELIAL CELLS. A FIELD FOR CANCERIZATION (FIELD DEFECT), WHERE GENETIC AND EPIGENETIC ALTERATIONS ARE ACCUMULATED IN NORMAL-APPEARING TISSUES, IS INVOLVED IN HUMAN CARCINOGENESIS, ESPECIALLY CANCERS ASSOCIATED WITH CHRONIC INFLAMMATION. ALTHOUGH ABERRANT DNA METHYLATION IS INVOLVED IN THE FIELD DEFECT AND INDUCED BY CHRONIC INFLAMMATION, IT IS STILL UNCLEAR FOR TRIMETHYLATION OF HISTONE H3 LYSINE 27 (H3K27ME3), WHICH IS INVOLVED IN GENE REPRESSION INDEPENDENT OF DNA METHYLATION AND FUNCTIONS AS A PRE-MARK FOR ABERRANT DNA METHYLATION. IN THIS STUDY, USING A MOUSE COLITIS MODEL INDUCED BY DEXTRAN SULFATE SODIUM (DSS), WE AIMED TO CLARIFY WHETHER ABERRANT H3K27ME3 IS INDUCED BY INFLAMMATION AND INVOLVED IN A FIELD DEFECT. CHIP-ON-CHIP ANALYSIS OF COLONIC EPITHELIAL CELLS REVEALED THAT H3K27ME3 LEVELS WERE INCREASED OR DECREASED FOR 266 GENOMIC REGIONS BY AGING, AND MORE EXTENSIVELY (23 INCREASED AND 3574 DECREASED REGIONS) BY COLITIS. SUCH INCREASE OR DECREASE OF H3K27ME3 WAS INDUCED AS EARLY AS 2 WEEKS AFTER THE INITIATION OF DSS TREATMENT, AND PERSISTED AT LEAST FOR 16 WEEKS EVEN AFTER THE INFLAMMATION DISAPPEARED. SOME OF THE ABERRANT H3K27ME3 IN COLONIC EPITHELIAL CELLS WAS CARRIED OVER INTO COLON TUMORS. FURTHERMORE, H3K27ME3 ACQUIRED AT DAPK1 BY COLITIS WAS FOLLOWED BY INCREASED DNA METHYLATION, SUPPORTING ITS FUNCTION AS A PRE-MARK FOR ABERRANT DNA METHYLATION. THESE RESULTS DEMONSTRATED THAT ABERRANT H3K27ME3 CAN BE INDUCED BY EXPOSURE TO A SPECIFIC ENVIRONMENT, SUCH AS COLITIS, AND SUGGESTED THAT ABERRANT HISTONE MODIFICATION, IN ADDITION TO ABERRANT DNA METHYLATION, IS INVOLVED IN THE FORMATION OF A FIELD DEFECT. 2012 14 4528 19 MULTIGENERATIONAL EFFECTS OF CADMIUM ON THE LIFESPAN AND FERTILITY OF DROSOPHILA MELANOGASTER. ALTHOUGH THE DAMAGE AND TOLERANCE MECHANISMS OF CD STRESS ARE KNOWN, THE DATA ON GENETIC RISK ARE LIMITED. THE AIM OF THIS STUDY WAS TO ASSESS THE CHRONIC TOXICITY OF CD, GENETIC RESPONSES, AND MULTIGENERATIONAL EFFECTS IN FIVE GENERATIONS OF DROSOPHILA MELANOGASTER. FOR EACH GENERATION, LIFESPAN AND FERTILITY WERE STATISTICALLY ANALYSED AND THE EXPRESSION OF APOPTOSIS- (P53 AND CASPASE-3) AND EPIGENESIS-RELATED (DDNMT2 AND DMBD2/3) GENES WAS EXAMINED. LIFESPAN AND FERTILITY SIGNIFICANTLY DECLINED UNDER CD STRESS AND THESE EFFECTS WERE MAINTAINED FOR TWO GENERATIONS AND ONE GENERATION, RESPECTIVELY, WHEN CD STRESS WAS REMOVED. THE EXPRESSION OF P53 AND CASPASE-3 WAS SIGNIFICANTLY UP-REGULATED AFTER EXPOSURE, SUGGESTING THAT APOPTOSIS CONTRIBUTES TO THE RESISTANCE MECHANISM. THEIR ALTERED EXPRESSION WAS RETAINED FOR TWO GENERATIONS. FURTHERMORE, HIGH EXPRESSION OF DDNMT2 AND DMBD2/3 ACCOMPANIED CD EXPOSURE, WHICH WAS PASSED ON TO THREE GENERATIONS, SUGGESTING THAT GENETIC MODIFICATIONS IN APOPTOSIS-RELATED GENES ARE CARRIED TO THE OFFSPRING THROUGH EPIGENETIC REGULATION. 2020 15 1584 14 DNA METHYLATION PROFILES OF SELECTED PRO-INFLAMMATORY CYTOKINES IN ALZHEIMER DISEASE. BY MEANS OF FUNCTIONAL GENOMICS ANALYSIS, WE RECENTLY DESCRIBED THE MRNA EXPRESSION PROFILES OF VARIOUS GENES INVOLVED IN THE NEUROINFLAMMATORY RESPONSE IN THE BRAINS OF SUBJECTS WITH LATE-ONSET ALZHEIMER DISEASE (LOAD). SOME OF THESE GENES, NAMELY INTERLEUKIN (IL)-1BETA AND IL-6, SHOWED DISTINCT EXPRESSION PROFILES WITH PEAK EXPRESSION DURING THE FIRST STAGES OF THE DISEASE AND CONTROL-LIKE LEVELS AT LATER STAGES. IL-1BETA AND IL-6 GENES ARE MODULATED BY DNA METHYLATION IN DIFFERENT CHRONIC AND DEGENERATIVE DISEASES; IT IS ALSO WELL KNOWN THAT LOAD MAY HAVE AN EPIGENETIC BASIS. INDEED, WE AND OTHERS HAVE PREVIOUSLY REPORTED GENE-SPECIFIC DNA METHYLATION ALTERATIONS IN LOAD AND IN RELATED ANIMAL MODELS. BASED ON THESE DATA, WE STUDIED THE DNA METHYLATION PROFILES, AT SINGLE CYTOSINE RESOLUTION, OF IL-1BETA AND IL-6 5'-FLANKING REGION BY BISULPHITE MODIFICATION IN THE CORTEX OF HEALTHY CONTROLS AND LOAD PATIENTS AT 2 DIFFERENT DISEASE STAGES: BRAAK I-II/A AND BRAAK V-VI/C. OUR ANALYSIS PROVIDES EVIDENCE THAT NEUROINFLAMMATION IN LOAD IS ASSOCIATED WITH (AND POSSIBLY MEDIATED BY) EPIGENETIC MODIFICATIONS. 2017 16 3527 22 IL-6 ENHANCES THE NUCLEAR TRANSLOCATION OF DNA CYTOSINE-5-METHYLTRANSFERASE 1 (DNMT1) VIA PHOSPHORYLATION OF THE NUCLEAR LOCALIZATION SEQUENCE BY THE AKT KINASE. THE EPIGENETIC PROGRAMMING OF GENOMIC DNA IS ACCOMPLISHED, IN PART, BY SEVERAL DNA CYTOSINE-5-METHYLTRANSFERASES THAT ACT BY COVALENTLY MODIFYING CYTOSINES WITH THE ADDITION OF A METHYL GROUP. THIS COVALENT MODIFICATION IS MAINTAINED BY THE DNA CYTOSINE-5-METHYLTRANSFERASE-1 ENZYME (DNMT1), WHICH IS CAPABLE OF ACTING IN CONCERT WITH OTHER SIMILAR ENZYMES TO SILENCE IMPORTANT TUMOR SUPPRESSOR GENES. IL-6 IS A MULTIFUNCTIONAL MEDIATOR OF INFLAMMATION, ACTING THROUGH SEVERAL MAJOR SIGNALING CASCADES, INCLUDING THE PHOSPHATIDYLINOSITOL-3-KINASE PATHWAY (PI-3-K), WHICH ACTIVATES PROTEIN KINASE B (AKT/PKB) DOWNSTREAM. HERE, WE SHOW THAT THE SUBCELLULAR LOCALIZATION OF DNMT1 CAN BE ALTERED BY THE ADDITION OF IL-6, INCREASING THE RATE OF NUCLEAR TRANSLOCATION OF THE ENZYME FROM THE CYTOSOLIC COMPARTMENT. THE MECHANISM OF NUCLEAR TRANSLOCATION OF DNMT1 IS GREATLY ENHANCED BY PHOSPHORYLATION OF THE DNMT1 NUCLEAR LOCALIZATION SIGNAL (NLS) BY PKB/AKT KINASE. MUTAGENIC ALTERATION OF THE TWO AKT TARGET AMINO ACIDS WITHIN THE NLS RESULTS IN A MAJOR LOSS OF DNMT1 NUCLEAR TRANSLOCATION, WHILE THE CREATION OF A "PHOSPHO-MIMIC" AMINO ACID (MUTATION TO ACIDIC RESIDUES) RESTORES THIS COMPARTMENTATION ABILITY. THESE OBSERVATIONS SUGGEST AN INTERESTING HYPOTHESIS REGARDING HOW MEDIATORS OF CHRONIC INFLAMMATION MAY DISTURB THE DELICATE BALANCE OF CELLULAR COMPARTMENTALIZATION OF IMPORTANT PROTEINS, AND REVEALS A POTENTIAL MECHANISM FOR THE INDUCTION OR ENHANCEMENT OF TUMOR GROWTH VIA ALTERATION OF THE COMPONENTS INVOLVED IN THE EPIGENETIC PROGRAMMING OF A CELL. 2007 17 2926 19 GENERATION OF AN EPIGENETIC SIGNATURE BY CHRONIC HYPOXIA IN PROSTATE CELLS. INCREASING LEVELS OF TISSUE HYPOXIA HAVE BEEN REPORTED AS A NATURAL FEATURE OF THE AGING PROSTATE GLAND AND MAY BE A RISK FACTOR FOR THE DEVELOPMENT OF PROSTATE CANCER. IN THIS STUDY, WE HAVE USED PWR-1E BENIGN PROSTATE EPITHELIAL CELLS AND AN EQUIVALENTLY AGED HYPOXIA-ADAPTED PWR-1E SUB-LINE TO IDENTIFY PHENOTYPIC AND EPIGENETIC CONSEQUENCES OF CHRONIC HYPOXIA IN PROSTATE CELLS. WE HAVE IDENTIFIED A SIGNIFICANTLY ALTERED CELLULAR PHENOTYPE IN RESPONSE TO CHRONIC HYPOXIA AS CHARACTERIZED BY INCREASED RECEPTOR-MEDIATED APOPTOTIC RESISTANCE, THE INDUCTION OF CELLULAR SENESCENCE, INCREASED INVASION AND THE INCREASED SECRETION OF IL-1 BETA, IL6, IL8 AND TNFALPHA CYTOKINES. IN ASSOCIATION WITH THESE PHENOTYPIC CHANGES AND THE ABSENCE OF HIF-1 ALPHA PROTEIN EXPRESSION, WE HAVE DEMONSTRATED SIGNIFICANT INCREASES IN GLOBAL LEVELS OF DNA METHYLATION AND H3K9 HISTONE ACETYLATION IN THESE CELLS, CONCOMITANT WITH THE INCREASED EXPRESSION OF DNA METHYLTRANSFERASE DMNT3B AND GENE-SPECIFIC CHANGES IN DNA METHYLATION AT KEY IMPRINTING LOCI. IN CONCLUSION, WE HAVE DEMONSTRATED A GENOME-WIDE ADJUSTMENT OF DNA METHYLATION AND HISTONE ACETYLATION UNDER CHRONIC HYPOXIC CONDITIONS IN THE PROSTATE. THESE EPIGENETIC SIGNATURES MAY REPRESENT AN ADDITIONAL MECHANISM TO PROMOTE AND MAINTAIN A HYPOXIC-ADAPTED CELLULAR PHENOTYPE WITH A POTENTIAL ROLE IN TUMOUR DEVELOPMENT. 2009 18 2119 20 EPIGENETIC HISTONE MODIFICATION REGULATES DEVELOPMENTAL LEAD EXPOSURE INDUCED HYPERACTIVITY IN RATS. LEAD (PB) EXPOSURE WAS COMMONLY CONSIDERED AS A HIGH ENVIRONMENTAL RISK FACTOR FOR THE DEVELOPMENT OF ATTENTION-DEFICIT/HYPERACTIVITY DISORDER (ADHD). HOWEVER, THE MOLECULAR BASIS OF THIS PATHOLOGICAL PROCESS STILL REMAINS ELUSIVE. IN LIGHT OF THE ROLE OF EPIGENETICS IN MODULATING THE NEUROLOGICAL DISEASE AND THE CAUSATIVE ENVIRONMENT, THE ALTERATIONS OF HISTONE MODIFICATIONS IN THE HIPPOCAMPUS OF RATS EXPOSED BY VARIOUS DOSES OF LEAD, ALONG WITH CONCOMITANT BEHAVIORAL DEFICITS, WERE INVESTIGATED IN THIS STUDY. ACCORDING TO THE FREE AND FORCED OPEN FIELD TEST, THERE SHOWED THAT IN A DOSAGE-DEPENDENT MANNER, LEAD EXPOSURE COULD RESULT IN THE INCREASED LOCOMOTOR ACTIVITY OF RATS, THAT IS, HYPERACTIVITY: A SUBTYPE OF ADHD. WESTERN BLOTTING ASSAYS REVEALED THAT THE LEVELS OF HISTONE ACETYLATION INCREASED SIGNIFICANTLY IN THE HIPPOCAMPUS BY CHRONIC LEAD EXPOSURE, WHILE NO DRAMATIC CHANGES WERE DETECTED IN TERMS OF EXPRESSION YIELDS OF ADHD-RELATED DOPAMINERGIC PROTEINS, INDICATING THAT HISTONE ACETYLATION PLAYS ESSENTIAL ROLES IN THIS TOXICANT-INVOLVED PATHOGENESIS. IN ADDITION, THE INCREASED LEVEL OF HISTONE ACETYLATION MIGHT BE ATTRIBUTED TO THE ENZYMATIC ACTIVITY OF P300, A TYPICAL HISTONE ACETYLTRANSFERASE, AS THE TRANSCRIPTIONAL LEVEL OF P300 WAS SIGNIFICANTLY INCREASED UPON HIGHER-DOSE PB EXPOSURE. IN SUMMARY, THIS STUDY FIRST DISCOVERED THE EPIGENETIC MECHANISM BRIDGING THE ENVIRONMENTAL INFLUENCE (PB) AND THE DISEASE ITSELF (ADHD) IN THE HISTONE MODIFICATION LEVEL, PAVING THE WAY FOR THE COMPREHENSIVE UNDERSTANDING OF ADHD'S ETIOLOGY AND IN FURTHER STEPS, ESTABLISHING THE THERAPY STRATEGY OF THIS WIDESPREAD NEUROLOGICAL DISORDER. 2014 19 3660 23 INDUCTION OF HEPATIC DIFFERENTIATION OF MOUSE BONE MARROW STROMAL STEM CELLS BY THE HISTONE DEACETYLASE INHIBITOR VPA. BONE MARROW STROMAL STEM CELLS (BMSSCS) MAY HAVE POTENTIAL TO DIFFERENTIATE IN VITRO AND IN VIVO INTO HEPATOCYTES. HERE, WE INVESTIGATED THE EFFECTS OF VALPROIC ACID (VPA) INVOLVED IN EPIGENETIC MODIFICATION, A DIRECT INHIBITOR OF HISTONE DEACETYLASE, ON HEPATIC DIFFERENTIATION OF MOUSE BMSSCS. FOLLOWING THE TREATMENT OF 2.5 MM VPA FOR 72 HRS, THE IN VITRO EXPANDED, HIGHLY PURIFIED AND FUNCTIONALLY ACTIVE MOUSE BMSSCS FROM BONE MARROW WERE EITHER EXPOSED TO SOME WELL-DEFINED CYTOKINES AND GROWTH FACTORS IN A SEQUENTIAL WAY (FIBROBLAST GROWTH FACTOR-4 [FGF-4], FOLLOWED BY HGF, AND HGF + OSM + ITS + DEXAMETHASONE, RESEMBLING THE ORDER OF SECRETION DURING LIVER EMBRYOGENESIS) OR TRANSPLANTED (CAUDAL VEIN) IN MICE SUBMITTED TO A PROTOCOL OF CHRONIC INJURY (CHRONIC I.P. INJECTION OF CCL4). ADDITIONAL EXPOSURE OF THE CELLS TO VPA CONSIDERABLY IMPROVED THE IN VITRO DIFFERENTIATION, AS DEMONSTRATED BY A MORE HOMOGENEOUS CELL POPULATION EXHIBITED EPITHELIAL MORPHOLOGY, INCREASING EXPRESSION OF HEPATIC SPECIAL GENES AND ENHANCED HEPATIC FUNCTIONS. FURTHER MORE, IN VIVO RESULTS INDICATE THAT THE PRE-TREATMENT OF VPA SIGNIFICANTLY INCREASED THE HOMING EFFICIENCY OF BMSSCS TO THE SITE OF LIVER INJURY AND, ADDITIONALLY, FOR SUPPORTING HEPATIC DIFFERENTIATION AS WELL AS IN VITRO. WE HAVE DEMONSTRATED THE USEFULNESS OF VPA IN THE TRANSDIFFERENTIATION OF BMSSCS INTO HEPATOCYTES BOTH IN VITRO AND IN VIVO, AND REGULATION OF FIBROBLAST GROWTH FACTOR RECEPTORS (FGFRS) AND C-MET GENE EXPRESSION THROUGH POST-TRANSLATIONAL MODIFICATION OF CORE HISTONES MIGHT BE THE PRIMARY INITIATING EVENT FOR THESE EFFECTS. THIS MODE COULD BE HELPFUL FOR LIVER ENGINEERING AND CLINICAL THERAPY. 2009 20 1162 20 CONTRASTING EFFECTS OF ACUTE AND CHRONIC STRESS ON THE TRANSCRIPTOME, EPIGENOME, AND IMMUNE RESPONSE OF ATLANTIC SALMON. STRESS EXPERIENCED DURING EARLY LIFE MAY HAVE LASTING EFFECTS ON THE IMMUNE SYSTEM, WITH IMPACTS ON HEALTH AND DISEASE DEPENDENT ON THE NATURE AND DURATION OF THE STRESSOR. THE EPIGENOME IS ESPECIALLY SENSITIVE TO ENVIRONMENTAL STIMULI DURING EARLY LIFE AND REPRESENTS A POTENTIAL MECHANISM THROUGH WHICH STRESS MAY CAUSE LONG-LASTING HEALTH EFFECTS. HOWEVER, THE EXTENT TO WHICH THE EPIGENOME RESPONDS DIFFERENTLY TO CHRONIC VS ACUTE STRESSORS IS UNCLEAR, ESPECIALLY FOR NON-MAMMALIAN SPECIES. WE EXAMINED THE EFFECTS OF ACUTE STRESS (COLD-SHOCK DURING EMBRYOGENESIS) AND CHRONIC STRESS (ABSENCE OF TANK ENRICHMENT DURING LARVAL-STAGE) ON GLOBAL GENE EXPRESSION (USING RNA-SEQ) AND DNA METHYLATION (USING RRBS) IN THE GILLS OF ATLANTIC SALMON (SALMO SALAR) FOUR MONTHS AFTER HATCHING. CHRONIC STRESS INDUCED PRONOUNCED TRANSCRIPTIONAL DIFFERENCES, WHILE ACUTE STRESS CAUSED FEW LASTING TRANSCRIPTIONAL EFFECTS. HOWEVER, BOTH ACUTE AND CHRONIC STRESS CAUSED LASTING AND CONTRASTING CHANGES IN THE METHYLOME. CRUCIALLY, WE FOUND THAT ACUTE STRESS ENHANCED TRANSCRIPTIONAL IMMUNE RESPONSE TO A PATHOGENIC CHALLENGE (BACTERIAL LIPOPOLYSACCHARIDE, LPS), WHILE CHRONIC STRESS SUPPRESSED IT. WE IDENTIFIED STRESS-INDUCED CHANGES IN PROMOTER AND GENE-BODY METHYLATION THAT WERE ASSOCIATED WITH ALTERED EXPRESSION FOR A SMALL PROPORTION OF IMMUNE-RELATED GENES, AND EVIDENCE OF WIDER EPIGENETIC REGULATION WITHIN SIGNALLING PATHWAYS INVOLVED IN IMMUNE RESPONSE. OUR RESULTS SUGGEST THAT STRESS CAN AFFECT IMMUNO-COMPETENCE THROUGH EPIGENETIC MECHANISMS, AND HIGHLIGHT THE MARKEDLY DIFFERENT EFFECTS OF CHRONIC LARVAL AND ACUTE EMBRYONIC STRESS. THIS KNOWLEDGE COULD BE USED TO HARNESS THE STIMULATORY EFFECTS OF ACUTE STRESS ON IMMUNITY, PAVING THE WAY FOR IMPROVED STRESS AND DISEASE MANAGEMENT THROUGH EPIGENETIC CONDITIONING. 2018