1 896 127 CHRONIC EXERCISE MEDIATES EPIGENETIC SUPPRESSION OF L-TYPE CA2+ CHANNEL AND BKCA CHANNEL IN MESENTERIC ARTERIES OF HYPERTENSIVE RATS. BACKGROUND: REGULAR EXERCISE IS A LIFESTYLE INTERVENTION FOR CONTROLLING HYPERTENSION AND HAS AN IMPROVING EFFECT ON VASCULAR FUNCTION. VOLTAGE-GATED L-TYPE CA (LTCC) AND LARGE-CONDUCTANCE CA-ACTIVATED K (BKCA) CHANNELS ARE TWO PRINCIPAL MEDIATORS OF VASCULAR SMOOTH MUSCLE CELL CONTRACTILITY AND ARTERIAL TONE. THE PRESENT STUDY TESTED THE HYPOTHESIS THAT DNA METHYLATION DYNAMICS PLAYS A KEY ROLE IN EXERCISE-INDUCED REPROGRAMMING AND DOWNREGULATION OF LTCC AND BKCA CHANNEL IN MESENTERIC ARTERIES FROM SPONTANEOUSLY HYPERTENSIVE RATS (SHRS). METHODS: SHRS AND WISTAR-KYOTO (WKY) RATS WERE SUBJECTED TO EXERCISE TRAINING OR KEPT SEDENTARY, AND VASCULAR MOLECULAR AND FUNCTIONAL PROPERTIES WERE EVALUATED. RESULTS: EXERCISE INHIBITED HYPERTENSION-INDUCED UPREGULATION OF LTCC AND BKCA CHANNEL FUNCTION IN MESENTERIC ARTERIES BY REPRESSING LTCC ALPHA1C AND BKCA BETA1 SUBUNIT EXPRESSION. IN ACCORDANCE, EXERCISE TRIGGERED HYPERMETHYLATION OF ALPHA1C AND BETA1 GENE IN SHR, WITH CONCOMITANT DECREASING TET1, INCREASING DNMT1 AND DNMT3B EXPRESSION IN MESENTERIC ARTERIES, AS WELL AS ALTERING PERIPHERAL ALPHA-KG AND S-ADENOSYLMETHIONINE/ S-ADENOSYLHOMOCYSTEINE RATIO. ACTING SYNERGISTICALLY, THESE EXERCISE-INDUCED FUNCTIONAL AND MOLECULAR AMELIORATION COULD ALLOW FOR ATTENUATING HYPERTENSION-INDUCED ELEVATION IN ARTERIAL BLOOD PRESSURE. CONCLUSION: OUR RESULTS INDICATE THAT EXERCISE SUPPRESSES LTCC AND BKCA CHANNEL FUNCTION VIA HYPERMETHYLATION OF ALPHA1C AND BETA1 SUBUNITS, WHICH CONTRIBUTES TO THE RESTORATION OF MESENTERIC ARTERIAL FUNCTION AND VASODILATION DURING HYPERTENSION. 2020 2 5636 38 SERELAXIN ALLEVIATES CARDIAC FIBROSIS THROUGH INHIBITING ENDOTHELIAL-TO-MESENCHYMAL TRANSITION VIA RXFP1. RATIONALE: CARDIAC FIBROSIS IS AN INTEGRAL CONSTITUENT OF EVERY FORM OF CHRONIC HEART DISEASE, AND PERSISTENCE OF FIBROSIS REDUCES TISSUE COMPLIANCE AND ACCELERATES THE PROGRESSION TO HEART FAILURE. RELAXIN-2 IS A HUMAN HORMONE, WHICH HAS VARIOUS PHYSIOLOGICAL FUNCTIONS SUCH AS MEDIATING RENAL VASODILATION IN PREGNANCY. ITS RECOMBINANT FORM SERELAXIN HAS RECENTLY BEEN TESTED IN CLINICAL TRIALS AS A THERAPY FOR ACUTE HEART FAILURE BUT DID NOT MEET ITS PRIMARY ENDPOINTS. THE AIM OF THIS STUDY IS TO EXAMINE WHETHER SERELAXIN HAS AN ANTI-FIBROTIC EFFECT IN THE HEART AND THEREFORE COULD BE BENEFICIAL IN CHRONIC HEART FAILURE. METHODS: WE UTILIZED TWO DIFFERENT CARDIAC FIBROSIS MOUSE MODELS (ASCENDING AORTIC CONSTRICTION (AAC) AND ANGIOTENSIN II (ATII) ADMINISTRATION VIA OSMOTIC MINIPUMPS) TO ASSESS THE ANTI-FIBROTIC POTENTIAL OF SERELAXIN. HISTOLOGICAL ANALYSIS, IMMUNOFLUORESCENCE STAINING AND MOLECULAR ANALYSIS WERE PERFORMED TO ASSESS THE FIBROSIS LEVEL AND INDICATE ENDOTHELIAL CELLS WHICH ARE UNDERGOING ENDMT. IN VITRO TGFBETA1-INDUCED ENDOTHELIAL-TO-MESENCHYMAL TRANSITION (ENDMT) ASSAYS WERE PERFORMED IN HUMAN CORONARY ARTERY ENDOTHELIAL CELLS AND MOUSE CARDIAC ENDOTHELIAL CELLS (MCECS) AND WERE EXAMINED USING MOLECULAR METHODS. CHROMATIN IMMUNOPRECIPITATION-QPCR ASSAY WAS UTILIZED TO IDENTIFY THE SERELAXIN EFFECT ON CHROMATIN REMODELING IN THE RXFP1 PROMOTER REGION IN MCECS. RESULTS: OUR RESULTS DEMONSTRATE A SIGNIFICANT AND DOSE-DEPENDENT ANTI-FIBROTIC EFFECT OF SERELAXIN IN THE HEART IN BOTH MODELS. WE FURTHER SHOW THAT SERELAXIN MEDIATES THIS EFFECT, AT LEAST IN PART, THROUGH INHIBITION OF ENDMT THROUGH THE ENDOTHELIAL RELAXIN FAMILY PEPTIDE RECEPTOR 1 (RXFP1). WE FURTHER DEMONSTRATE THAT SERELAXIN ADMINISTRATION IS ABLE TO INCREASE ITS OWN RECEPTOR EXPRESSION (RXFP1) THROUGH EPIGENETIC REGULATION IN FORM OF HISTONE MODIFICATIONS BY ATTENUATING TGFBETA-PSMAD2/3 SIGNALING IN ENDOTHELIAL CELLS. CONCLUSIONS: THIS STUDY IS THE FIRST TO IDENTIFY THAT SERELAXIN INCREASES THE EXPRESSION OF ITS OWN RECEPTOR RXFP1 AND THAT THIS MEDIATES THE INHIBITION OF ENDMT AND CARDIAC FIBROSIS, SUGGESTING THAT SERELAXIN MAY HAVE A BENEFICIAL EFFECT AS ANTI-FIBROTIC THERAPY IN CHRONIC HEART FAILURE. 2020 3 3128 37 GIPC-REGULATED IGFBP-3 PROMOTES HSC MIGRATION IN VITRO AND PORTAL HYPERTENSION IN VIVO THROUGH A BETA1-INTEGRIN PATHWAY. BACKGROUND & AIMS: TRANSFORMING GROWTH FACTOR (TGF-BETA)-INDUCED ACTIVATION OF QUIESCENT HEPATIC STELLATE CELLS (HSCS) AND THEIR TRANSFORMATION TO MYOFIBROBLASTS IS A KEY EVENT IN LIVER FIBROSIS AND PORTAL HYPERTENSION. GIPC (ALSO REFERRED TO AS SYNECTIN) IS A DOWNSTREAM SIGNAL ACTIVATION MOLECULE OF TGF-BETA AND OTHER RECEPTORS. IN THIS STUDY, WE SOUGHT TO IDENTIFY NOVEL GENES TARGETED BY TGF-BETA AND GIPC AND ELUCIDATE IF AND HOW THEY MAY CONTRIBUTE TO LIVER FIBROSIS. METHODS: WE PERFORMED SEQUENTIAL MESSENGER RNA SEQUENCING ANALYSIS ON TGF-BETA-STIMULATED HSCS AND THEN ON TGF-BETA-STIMULATED HSCS IN THE PRESENCE AND ABSENCE OF GIPC ALSO REFERRED TO AS SYNECTIN (GIPC) KNOCKDOWN. INSULIN-LIKE GROWTH FACTOR BINDING PROTEIN-3 (IGFBP-3) TRANSPORT PROTEIN EMERGED AS A TOP ACTIVATION TARGET OF BOTH TGF-BETA AND GIPC. QUANTITATIVE POLYMERASE CHAIN REACTION, ENZYME-LINKED IMMUNOSORBENT ASSAY, TARGETED CHROMATIN IMMUNOPRECIPITATION, AND WESTERN BLOT ANALYSIS WERE DONE FOR FURTHER CONFIRMATION. RESULTS: IGFBP-3, AN INSULIN GROWTH FACTOR TRANSPORT PROTEIN, EMERGED AS A TOP ACTIVATION TARGET OF BOTH TGF-BETA AND GIPC, WHICH WAS CONFIRMED BY QUANTITATIVE POLYMERASE CHAIN REACTION, ENZYME-LINKED IMMUNOSORBENT ASSAY, AND WESTERN BLOT ANALYSIS. TARGETED CHROMATIN IMMUNOPRECIPITATION SHOWED THAT GIPC INCREASES THE HISTONE 3 LYSINE 27 (H3K27) ACETYLATION ACTIVATING MARK AND CONCURRENTLY DECREASES THE H3K27 INHIBITORY TRIMETHYLATION (H3K27M3) MARK, PROVIDING AN EPIGENETIC CORRELATE TO THE GENE REGULATION CHANGES. IN VIVO, GLOBAL KNOCKOUT OF IGFBP-3 MICE RESULTED IN ATTENUATION OF HSC ACTIVATION MARKERS AND ATTENUATION OF PORTAL PRESSURE IN RESPONSE TO CHRONIC LIVER INJURY MODELS. ANALYSIS OF SERUM LEVELS FROM CIRRHOTIC PATIENTS ALSO SHOWED AN IGFBP-3 INCREASE OF MORE THAN 2-FOLD COMPARED WITH HEALTHY CONTROLS. FINALLY, IN VITRO MECHANISM STUDIES SHOWED THAT IGFBP-3 PROMOTES HSC MIGRATION THROUGH INTEGRIN-DEPENDENT PHOSPHORYLATION OF PROTEIN KINASE B. CONCLUSIONS: TGF-BETA UP-REGULATES IGFBP-3 THROUGH GIPC, LEADING TO INCREASED HSC MIGRATION IN VITRO AND PROMOTES PORTAL HYPERTENSION IN VIVO. THESE STUDIES SUPPORT THE ROLE OF IGFBP-3 AS A POTENTIAL PATHOPHYSIOLOGIC TARGET OR BIOMARKER IN CHRONIC LIVER DISEASE. 2020 4 984 31 CHRONIC PSYCHOLOGICAL STRESS ALTERS GENE EXPRESSION IN RAT COLON EPITHELIAL CELLS PROMOTING CHROMATIN REMODELING, BARRIER DYSFUNCTION AND INFLAMMATION. CHRONIC STRESS IS COMMONLY ASSOCIATED WITH ENHANCED ABDOMINAL PAIN (VISCERAL HYPERSENSITIVITY), BUT THE CELLULAR MECHANISMS UNDERLYING HOW CHRONIC STRESS INDUCES VISCERAL HYPERSENSITIVITY ARE POORLY UNDERSTOOD. IN THIS STUDY, WE EXAMINED CHANGES IN GENE EXPRESSION IN COLON EPITHELIAL CELLS FROM A RAT MODEL USING RNA-SEQUENCING TO EXAMINE STRESS-INDUCED CHANGES TO THE TRANSCRIPTOME. FOLLOWING CHRONIC STRESS, THE MOST SIGNIFICANTLY UP-REGULATED GENES INCLUDED ATG16L1, COQ10B, DCAF13, NAT2, PTBP2, RRAS2, SPINK4 AND DOWN-REGULATED GENES INCLUDING ABAT, CITED2, CNNM2, DAB2IP, PLEKHM1, SCD2, AND TAB2. THE PRIMARY ALTERED BIOLOGICAL PROCESSES REVEALED BY NETWORK ENRICHMENT ANALYSIS WERE INFLAMMATION/IMMUNE RESPONSE, TISSUE MORPHOGENESIS AND DEVELOPMENT, AND NUCLEOSOME/CHROMATIN ASSEMBLY. THE MOST SIGNIFICANTLY DOWN-REGULATED PROCESS WAS THE DIGESTIVE SYSTEM DEVELOPMENT/FUNCTION, WHEREAS THE MOST SIGNIFICANTLY UP-REGULATED PROCESSES WERE INFLAMMATORY RESPONSE, ORGANISMAL INJURY, AND CHROMATIN REMODELING MEDIATED BY H3K9 METHYLATION. FURTHERMORE, A SUBPOPULATION OF STRESSED RATS DEMONSTRATED VERY SIGNIFICANTLY ALTERED GENE EXPRESSION AND TRANSCRIPT ISOFORMS, ENRICHED FOR THE DIFFERENTIAL EXPRESSION OF GENES INVOLVED IN THE INFLAMMATORY RESPONSE, INCLUDING UPREGULATION OF CYTOKINE AND CHEMOKINE RECEPTOR GENE EXPRESSION COUPLED WITH DOWNREGULATION OF EPITHELIAL ADHERENS AND TIGHT JUNCTION MRNAS. IN SUMMARY, THESE FINDINGS SUPPORT THAT CHRONIC STRESS IS ASSOCIATED WITH INCREASED LEVELS OF CYTOKINES AND CHEMOKINES, THEIR DOWNSTREAM SIGNALING PATHWAYS COUPLED TO DYSREGULATION OF INTESTINAL CELL DEVELOPMENT AND FUNCTION. EPIGENETIC REGULATION OF CHROMATIN REMODELING LIKELY PLAYS A PROMINENT ROLE IN THIS PROCESS. RESULTS ALSO SUGGEST THAT SUPER ENHANCERS PLAY A PRIMARY ROLE IN CHRONIC STRESS-ASSOCIATED INTESTINAL BARRIER DYSFUNCTION. 2022 5 3049 24 GENOME-WIDE ANALYSIS REVEALS ZINC TRANSPORTER ZIP9 REGULATED BY DNA METHYLATION PROMOTES RADIATION-INDUCED SKIN FIBROSIS VIA THE TGF-BETA SIGNALING PATHWAY. RADIATION-INDUCED SKIN FIBROSIS IS A DETRIMENTAL AND CHRONIC DISORDER THAT OCCURS AFTER RADIATION EXPOSURE. DNA METHYLATION HAS BEEN CHARACTERIZED AS AN IMPORTANT REGULATORY MECHANISM OF MULTIPLE PATHOLOGICAL PROCESSES. IN THIS STUDY, WE COMPARED THE GENOME-WIDE DNA METHYLATION STATUS IN RADIATION-INDUCED FIBROTIC SKIN AND ADJACENT NORMAL TISSUES OF RATS BY METHYLATED DNA IMMUNOPRECIPITATION SEQUENCING. RADIATION-INDUCED FIBROTIC SKIN SHOWED DIFFERENTIALLY METHYLATED REGIONS ASSOCIATED WITH 3,650 PROTEIN-CODING GENES, 72 MICRORNAS, 5,836 LONG NONCODING RNAS AND 3 PIWI-INTERACTING RNAS. BY INTEGRATING THE MRNA AND METHYLATION PROFILES, THE ZINC TRANSPORTER SLC39A9/ZIP9 WAS INVESTIGATED IN GREATER DETAIL. THE PROTEIN LEVEL OF ZIP9 WAS INCREASED IN IRRADIATED SKIN TISSUES OF HUMANS, MONKEYS, AND RATS, ESPECIALLY IN RADIOGENIC FIBROTIC SKIN TISSUES. RADIATION INDUCED THE DEMETHYLATION OF A CPG DINUCLEOTIDE IN EXON 1 OF ZIP9 THAT RESULTED IN RECRUITMENT OF THE TRANSCRIPTIONAL FACTOR SP1 AND INCREASED ZIP9 EXPRESSION. OVEREXPRESSION OF ZIP9 RESULTED IN ACTIVATION OF THE PROFIBROTIC TRANSFORMING GROWTH FACTOR-BETA SIGNALING PATHWAY THROUGH PROTEIN KINASE B IN HUMAN FIBROBLASTS. IN ADDITION, RADIATION-INDUCED SKIN FIBROSIS WAS ASSOCIATED WITH INCREASED ZINC ACCUMULATION. THE ZINC CHELATOR N,N,N',N'-TETRAKIS(2-PYRIDYLMETHYL)-1,2-ETHYLENEDIAMINE ABROGATED ZIP9-INDUCED ACTIVATION OF THE TRANSFORMING GROWTH FACTOR-BETA SIGNALING PATHWAY AND ATTENUATED RADIATION-INDUCED SKIN FIBROSIS IN A RAT MODEL. IN SUMMARY, OUR FINDINGS ILLUSTRATE EPIGENETIC REGULATION OF ZIP9 AND ITS CRITICAL ROLE IN PROMOTING RADIATION-INDUCED SKIN FIBROSIS. 2020 6 272 32 AGE-DEPENDENT DECREASE IN THE INDUCTION OF REGULATORY T CELLS IS ASSOCIATED WITH DECREASED EXPRESSION OF RALDH2 IN MESENTERIC LYMPH NODE DENDRITIC CELLS. A DECLINE IN IMMUNE FUNCTION WITH AGING HAS BEEN REPORTED. REGULATORY T CELL (TREG) INDUCTION IS KNOWN TO DECREASE WITH AGE, AND ELUCIDATING THE UNDERLYING MECHANISM IS IMPORTANT FOR PREVENTING AGE-RELATED DISEASES DUE TO AGE-RELATED CHRONIC INFLAMMATION. IN THE INTESTINE, DENDRITIC CELLS (DCS) PLAY AN IMPORTANT ROLE IN INDUCING TREGS SPECIFIC TO ORAL ANTIGENS, AND THEY EFFICIENTLY INDUCE TREGS VIA PRODUCTION OF RETINOIC ACID (RA), A VITAMIN A METABOLITE, CATALYZED BY THE ENZYME RETINALDEHYDE DEHYDROGENASE 2 (RALDH2). WE HAVE PREVIOUSLY REPORTED THAT IN THE MESENTERIC LYMPH NODE (MLN), A SECONDARY LYMPHOID TISSUE IN WHICH IMMUNE RESPONSES TO ORAL ANTIGENS ARE INDUCED, FOUR DC SUBSETS EXPRESS DIFFERENT LEVELS OF CD11B, CD103, AND PD-L1, AND WE HAVE REPORTED THAT THE CD11B(-)CD103(+)PD-L1(HIGH) SUBSET EXPRESSES THE HIGHEST LEVELS OF THE RALDH2 GENE AND INDUCES TREGS IN VITRO. WE EXAMINED TREG INDUCTION IN YOUNG AND AGED MICE USING A TREG INDUCTION MODEL BY ADMINISTERING A FOOD ANTIGEN, AND WE FOUND THAT ANTIGEN-SPECIFIC TREG INDUCTION WAS DECREASED IN AGED MICE. WE FURTHER INVESTIGATED THE MLN DCS, AND A SIGNIFICANT DECREASE IN RALDH2 GENE EXPRESSION WAS OBSERVED IN MLN DCS FROM AGED MICE. AS FACTORS, WE FOUND THAT THE PROPORTION OF THE CD11B(-)CD103(+)PD-L1(HIGH) SUBSET WAS DECREASED IN AGED MICE COMPARED WITH THAT IN YOUNG MICE AND THAT RALDH ENZYME ACTIVITY WAS DECREASED IN THE CD11B(-)CD103(+)PD-L1(HIGH) AND CD11B(+)CD103(+)PD-L1(HIGH) SUBSETS. FURTHERMORE, ANALYSIS OF THE METHYLATION OF THE RALDH2 GENE PROMOTER REGION REVEALED THAT CPG MOTIFS WERE MORE METHYLATED IN THE MLN DCS OF AGED MICE, SUGGESTING THAT RALDH2 EXPRESSION WAS SUPPRESSED BY EPIGENETIC CHANGES. FINALLY, WE FOUND THAT RA TREATMENT TENDED TO INCREASE TREG INDUCTION. THESE RESULTS SUGGEST THAT THE REGULATION OF RA PRODUCTION MAY BE INVOLVED IN THE AGE-RELATED DECREASE IN ANTIGEN-SPECIFIC TREG INDUCTION. 2020 7 3096 34 GENOMIC CHARACTERIZATION REVEALS NOVEL MECHANISMS UNDERLYING THE VALOSIN-CONTAINING PROTEIN-MEDIATED CARDIAC PROTECTION AGAINST HEART FAILURE. CHRONIC HYPERTENSION IS A KEY RISK FACTOR FOR HEART FAILURE. HOWEVER, THE UNDERLYING MOLECULAR MECHANISMS ARE NOT FULLY UNDERSTOOD. OUR PREVIOUS STUDIES FOUND THAT THE VALOSIN-CONTAINING PROTEIN (VCP), AN ATPASE-ASSOCIATED PROTEIN, WAS SIGNIFICANTLY DECREASED IN THE HYPERTENSIVE HEART TISSUES. IN THIS STUDY, WE TESTED THE HYPOTHESIS THAT RESTORATION OF VCP PROTECTED THE HEART AGAINST PRESSURE OVERLOAD-INDUCED HEART FAILURE. WITH A CARDIAC-SPECIFIC TRANSGENIC (TG) MOUSE MODEL, WE SHOWED THAT A MODERATE INCREASE OF VCP WAS ABLE TO ATTENUATE CHRONIC PRESSURE OVERLOAD-INDUCED MALADAPTIVE CARDIAC HYPERTROPHY AND DYSFUNCTION. RNA SEQUENCING AND A COMPREHENSIVE BIOINFORMATIC ANALYSIS FURTHER DEMONSTRATED THAT OVEREXPRESSION OF VCP IN THE HEART NORMALIZED THE PRESSURE OVERLOAD-STIMULATED HYPERTROPHIC SIGNALS AND REPRESSED THE STRESS-INDUCED INFLAMMATORY RESPONSE. IN ADDITION, VCP OVEREXPRESSION PROMOTED CELL SURVIVAL BY ENHANCING THE MITOCHONDRIA RESISTANCE TO THE OXIDATIVE STRESS VIA ACTIVATING THE RICTOR-MEDIATED-GENE NETWORKS. VCP WAS ALSO FOUND TO BE INVOLVED IN THE REGULATION OF THE ALTERNATIVE SPLICING AND DIFFERENTIAL ISOFORM EXPRESSION FOR SOME GENES THAT ARE RELATED TO ATP PRODUCTION AND PROTEIN SYNTHESIS BY INTERACTING WITH LONG NO-CODING RNAS AND HISTONE DEACETYLASES, INDICATING A NOVEL EPIGENETIC REGULATION OF VCP IN INTEGRATING CODING AND NONCODING GENOMIC NETWORK IN THE STRESSED HEART. IN SUMMARY, OUR STUDY DEMONSTRATED THAT THE RESCUING OF A DEFICIENT VCP IN THE HEART COULD PREVENT PRESSURE OVERLOAD-INDUCED HEART FAILURE BY RECTIFYING CARDIAC HYPERTROPHIC AND INFLAMMATORY SIGNALING AND ENHANCING THE CARDIAC RESISTANCE TO OXIDATIVE STRESS, WHICH BROUGHT IN NOVEL INSIGHTS INTO THE UNDERSTANDING OF THE MECHANISM OF VCP IN PROTECTING PATIENTS FROM HYPERTENSIVE HEART FAILURE. 2020 8 3813 22 INTRAUTERINE GROWTH RESTRICTION INHIBITS EXPRESSION OF EUKARYOTIC ELONGATION FACTOR 2 KINASE, A REGULATOR OF PROTEIN TRANSLATION. NUTRIENT DEPRIVATION SUPPRESSES PROTEIN SYNTHESIS BY BLOCKING PEPTIDE ELONGATION. TRANSCRIPTIONAL UPREGULATION AND ACTIVATION OF EUKARYOTIC ELONGATION FACTOR 2 KINASE (EEF2K) BLOCKS PEPTIDE ELONGATION BY PHOSPHORYLATING EUKARYOTIC ELONGATION FACTOR 2. PREVIOUS STUDIES EXAMINING PLACENTAS FROM INTRAUTERINE GROWTH RESTRICTED (IUGR) NEWBORN INFANTS SHOW DECREASED EEF2K EXPRESSION AND ACTIVITY DESPITE CHRONIC NUTRIENT DEPRIVATION. HOWEVER, THE EFFECT OF IUGR ON HEPATIC EEF2K EXPRESSION IN THE FETUS IS UNKNOWN. WE, THEREFORE, EXAMINED THE TRANSCRIPTIONAL REGULATION OF HEPATIC EEF2K GENE EXPRESSION IN A SPRAGUE-DAWLEY RAT MODEL OF IUGR. WE FOUND DECREASED HEPATIC EEF2K MRNA AND PROTEIN LEVELS IN IUGR OFFSPRING AT BIRTH COMPARED WITH CONTROL, CONSISTENT WITH PREVIOUS PLACENTAL OBSERVATIONS. FURTHERMORE, THE CPG ISLAND WITHIN THE EEF2K PROMOTER DEMONSTRATED INCREASED METHYLATION AT A CRITICAL USF 1/2 TRANSCRIPTION FACTOR BINDING SITE. IN VITRO METHYLATION OF THIS BINDING SITE CAUSED NEAR COMPLETE LOSS OF EEF2K PROMOTER ACTIVITY, DESIGNATING THIS PROMOTER AS METHYLATION SENSITIVE. THE EEF2K PROMOTOR IN IUGR OFFSPRING ALSO LOST THE PROTECTIVE HISTONE COVALENT MODIFICATIONS ASSOCIATED WITH UNMETHYLATED CGIS. IN ADDITION, THE +1 NUCLEOSOME WAS DISPLACED 3' AND RNA POLYMERASE LOADING WAS REDUCED AT THE IUGR EEF2K PROMOTER. OUR FINDINGS PROVIDE EVIDENCE TO EXPLAIN WHY IUGR-INDUCED CHRONIC NUTRIENT DEPRIVATION DOES NOT RESULT IN THE UPREGULATION OF EEF2K GENE TRANSCRIPTION. 2016 9 4001 35 LOSS OF MEN1 LEADS TO RENAL FIBROSIS AND DECREASES HGF-ADAMTS5 PATHWAY ACTIVITY VIA AN EPIGENETIC MECHANISM. BACKGROUND: RENAL FIBROSIS IS A SERIOUS CONDITION THAT RESULTS IN THE DEVELOPMENT OF CHRONIC KIDNEY DISEASES. THE MEN1 GENE IS AN EPIGENETIC REGULATOR THAT ENCODES THE MENIN PROTEIN AND ITS ROLE IN KIDNEY TISSUE REMAINS UNCLEAR. METHODS: KIDNEY HISTOLOGY WAS EXAMINED ON PARAFFIN SECTIONS STAINED WITH HEMATOXYLIN-EOSIN STAINING. MASSON'S TRICHROME STAINING AND SIRIUS RED STAINING WERE USED TO ANALYZE RENAL FIBROSIS. GENE AND PROTEIN EXPRESSION WERE DETERMINED BY QUANTITATIVE REAL-TIME PCR (QPCR) AND WESTERN BLOT, RESPECTIVELY. IMMUNOHISTOCHEMISTRY STAINING IN THE KIDNEY TISSUES FROM MICE OR PATIENTS WAS USED TO EVALUATE PROTEIN LEVELS. FLOW CYTOMETRY WAS USED TO ANALYZE THE CELL CYCLE DISTRIBUTIONS AND APOPTOSIS. RNA-SEQUENCING WAS PERFORMED FOR DIFFERENTIAL EXPRESSION GENES IN THE KIDNEY TISSUES OF THE MEN1F/F AND MEN1?/? MICE. CHROMATIN IMMUNOPRECIPITATION SEQUENCING (CHIP-SEQ) WAS CARRIED OUT FOR IDENTIFICATION OF MENIN- AND H3K4ME3-ENRICHED REGIONS WITHIN THE WHOLE GENOME IN THE MOUSE KIDNEY TISSUE. CHIP-QPCR ASSAYS WERE PERFORMED FOR OCCUPANCY OF MENIN AND H3K4ME3 AT THE GENE PROMOTER REGIONS. LUCIFERASE REPORTER ASSAY WAS USED TO DETECT THE PROMOTER ACTIVITY. THE EXACERBATED UNILATERAL URETERAL OBSTRUCTION (UUO) MODELS IN THE MEN1F/F AND MEN1?/? MICE WERE USED TO ASSESS THE PHARMACOLOGICAL EFFECTS OF RH-HGF ON RENAL FIBROSIS. RESULTS: THE EXPRESSION OF MEN1 IS REDUCE IN KIDNEY TISSUES OF FIBROTIC MOUSE AND HUMAN DIABETIC PATIENTS AND TREATMENT WITH FIBROTIC FACTOR RESULTS IN THE DOWNREGULATION OF MEN1 EXPRESSION IN RENAL TUBULAR EPITHELIAL CELLS (RTECS). DISRUPTION OF MEN1 IN RTECS LEADS TO HIGH EXPRESSION OF ALPHA-SMA AND COLLAGEN 1, WHEREAS MEN1 OVEREXPRESSION RESTRAINS EPITHELIAL-TO-MESENCHYMAL TRANSITION (EMT) INDUCED BY TGF-BETA TREATMENT. CONDITIONAL KNOCKOUT OF MEN1 RESULTED IN CHRONIC RENAL FIBROSIS AND UUO-INDUCED TUBULOINTERSTITIAL FIBROSIS (TIF), WHICH IS ASSOCIATED WITH AN INCREASED INDUCTION OF EMT, G2/M ARREST AND JNK SIGNALING. MECHANISTICALLY, MENIN RECRUITS AND INCREASES H3K4ME3 AT THE PROMOTER REGIONS OF HEPATOCYTE GROWTH FACTOR (HGF) AND A DISINTEGRIN AND METALLOPROTEINASE WITH THROMBOSPONDIN MOTIFS 5 (ADAMTS5) GENES AND ENHANCES THEIR TRANSCRIPTIONAL ACTIVATION. IN THE UUO MICE MODEL, EXOGENOUS HGF RESTORED THE EXPRESSION OF ADAMTS5 AND AMELIORATED RENAL FIBROSIS INDUCED BY MEN1 DEFICIENCY. CONCLUSIONS: THESE FINDINGS DEMONSTRATE THAT MEN1 IS AN ESSENTIAL ANTIFIBROTIC FACTOR IN RENAL FIBROGENESIS AND COULD BE A POTENTIAL TARGET FOR ANTIFIBROTIC THERAPY. 2022 10 3390 28 HOPX PLAYS A CRITICAL ROLE IN ANTIRETROVIRAL DRUGS INDUCED EPIGENETIC MODIFICATION AND CARDIAC HYPERTROPHY. PEOPLE LIVING WITH HIV (PLWH) HAVE TO TAKE AN ANTIRETROVIRAL THERAPY (ART) FOR LIFE AND SHOW NONCOMMUNICABLE ILLNESSES SUCH AS CHRONIC INFLAMMATION, IMMUNE ACTIVATION, AND MULTIORGAN DYSREGULATION. RECENT STUDIES SUGGEST THAT LONG-TERM USE OF ART INDUCES COMORBID CONDITIONS AND IS ONE OF THE LEADING CAUSES OF HEART FAILURE IN PLWH. HOWEVER, THE MOLECULAR MECHANISM OF ANTIRETROVIRAL DRUGS (ARVS) INDUCED HEART FAILURE IS UNCLEAR. TO DETERMINE THE MECHANISM OF ARVS INDUCED CARDIAC DYSFUNCTION, WE PERFORMED GLOBAL TRANSCRIPTOMIC PROFILING OF ARVS TREATED NEONATAL RAT VENTRICULAR CARDIOMYOCYTES IN CULTURE. DIFFERENTIALLY EXPRESSED GENES WERE IDENTIFIED BY RNA-SEQUENCING. OUR DATA SHOW THAT ARVS TREATMENT CAUSES UPREGULATION OF SEVERAL BIOLOGICAL FUNCTIONS ASSOCIATED WITH CARDIOTOXICITY, HYPERTROPHY, AND HEART FAILURE. GLOBAL GENE EXPRESSION DATA WERE VALIDATED IN CARDIAC TISSUE ISOLATED FROM HIV PATIENTS HAVING A HISTORY OF ART. INTERESTINGLY, WE FOUND THAT HOMEODOMAIN-ONLY PROTEIN HOMEOBOX (HOPX) EXPRESSION WAS SIGNIFICANTLY INCREASED IN CARDIOMYOCYTES TREATED WITH ARVS AND IN THE HEART TISSUE OF HIV PATIENTS. FURTHERMORE, WE FOUND THAT HOPX PLAYS A CRUCIAL ROLE IN ARVS MEDIATED CELLULAR HYPERTROPHY. MECHANISTICALLY, WE FOUND THAT HOPX PLAYS A CRITICAL ROLE IN EPIGENETIC REGULATION, THROUGH DEACETYLATION OF HISTONE, WHILE THE HDAC INHIBITOR, TRICHOSTATIN A, CAN RESTORE THE ACETYLATION LEVEL OF HISTONE 3 IN THE PRESENCE OF ARVS. 2021 11 1335 26 DERMAL FIBROBLASTS CULTURED FROM DONORS WITH TYPE 2 DIABETES MELLITUS RETAIN AN EPIGENETIC MEMORY ASSOCIATED WITH POOR WOUND HEALING RESPONSES. THE PREVALENCE OF TYPE 2 DIABETES MELLITUS (T2DM) IS ESCALATING GLOBALLY. PATIENTS SUFFER FROM MULTIPLE COMPLICATIONS INCLUDING THE DEVELOPMENT OF CHRONIC WOUNDS THAT CAN LEAD TO AMPUTATION. THESE WOUNDS ARE CHARACTERISED BY AN INFLAMMATORY ENVIRONMENT INCLUDING ELEVATED TUMOUR NECROSIS FACTOR ALPHA (TNF-ALPHA). DERMAL FIBROBLASTS (DF) ARE CRITICAL FOR EFFECTIVE WOUND HEALING, SO WE SOUGHT TO ESTABLISH WHETHER THERE WERE ANY DIFFERENCES IN DF CULTURED FROM T2DM DONORS OR THOSE WITHOUT DIABETES (ND-DF). ND- AND T2DM-DF WHEN CULTURED SIMILARLY IN VITRO SECRETED COMPARABLE CONCENTRATIONS OF TNF-ALPHA. FUNCTIONALLY, PRE-TREATMENT WITH TNF-ALPHA REDUCED THE PROLIFERATION OF ND-DF AND TRANSIENTLY ALTERED ND-DF MORPHOLOGY; HOWEVER, T2DM-DF WERE RESISTANT TO THESE TNF-ALPHA INDUCED CHANGES. IN CONTRAST, TNF-ALPHA INHIBITED ND- AND T2DM-DF MIGRATION AND MATRIX METALLOPROTEASE EXPRESSION TO THE SAME DEGREE, ALTHOUGH T2DM-DF EXPRESSED SIGNIFICANTLY HIGHER LEVELS OF TISSUE INHIBITOR OF METALLOPROTEASES (TIMP)-2. FINALLY, TNF-ALPHA SIGNIFICANTLY INCREASED THE SECRETION OF PRO-INFLAMMATORY CYTOKINES (INCLUDING CCL2, CXCL1 AND SERPINE1) IN ND-DF, WHILST THIS EFFECT IN T2DM-DF WAS BLUNTED, PRESUMABLY DUE TO THE TENDENCY TO HIGHER BASELINE PRO-INFLAMMATORY CYTOKINE EXPRESSION OBSERVED IN THIS CELL TYPE. COLLECTIVELY, THESE DATA DEMONSTRATE THAT T2DM-DF EXHIBIT A SELECTIVE LOSS OF RESPONSIVENESS TO TNF-ALPHA, PARTICULARLY REGARDING PROLIFERATIVE AND SECRETORY FUNCTIONS. THIS HIGHLIGHTS IMPORTANT PHENOTYPIC CHANGES IN T2DM-DF THAT MAY EXPLAIN THE SUSCEPTIBILITY TO CHRONIC WOUNDS IN THESE PATIENTS. 2021 12 3237 34 HEPATIC COX-2 EXPRESSION PROTECTS MICE FROM AN ALCOHOL-HIGH FAT DIET-INDUCED METABOLIC DISORDER BY INVOLVING PROTEIN ACETYLATION RELATED ENERGY METABOLISM. PURPOSE: A DIET HIGH IN FAT AND ETHANOL OFTEN RESULTS IN CHRONIC METABOLIC DISORDER, HEPATIC STEATOSIS, AND LIVER INFLAMMATION. CONSTITUTIVE HEPATIC CYCLOOXYGENASE-2 (COX-2) EXPRESSION COULD PROTECT FROM HIGH FAT-INDUCED METABOLISM DISTURBANCE IN A MURINE MODEL. IN THIS STUDY, WE EXPLORED THE INFLUENCE OF HCOX-2 TRANSGENIC [TG] TO HIGH FAT WITH ETHANOL-INDUCED METABOLIC DISORDER AND LIVER INJURY USING A MOUSE ANIMAL MODEL. METHODS: 12-WEEK-OLD MALE HEPATIC HCOX-2 TRANSGENIC (TG) OR WILD TYPE MICE (WT) WERE FED EITHER A HIGH FAT AND ETHANOL LIQUID DIET (HF+ETH) OR A REGULAR CONTROL DIET (RCD) FOR 5 WEEKS (FOUR GROUPS: RCD/WT, RCD/TG; HF+ETH/TG, HF+ETH/WT). WE ASSESSED METABOLIC BIOMARKERS, CYTOKINE PROFILES, HISTOMORPHOLOGY, AND GENE EXPRESSION TO STUDY THE IMPACT OF PERSISTENT HEPATIC COX-2 EXPRESSION ON DIET-INDUCED LIVER INJURY. RESULTS: IN THE HF+ETH DIET, CONSTITUTIVELY HEPATIC HUMAN COX-2 EXPRESSION PROTECTS MICE FROM BODY WEIGHT GAIN AND WHITE ADIPOSE TISSUE ACCUMULATION, ACCOMPANIED BY IMPROVED IPGTT RESPONSE, SERUM TRIGLYCERIDE/CHOLESTEROL LEVELS, AND LOWER LEVELS OF SERUM AND LIVER INFLAMMATORY CYTOKINES. HISTOLOGICALLY, HCOX-2 MICE SHOWED DECREASED HEPATIC LIPID DROPLETS ACCUMULATION, DECREASED HEPATOCYTE BALLOONING, AND IMPROVED STEATOSIS SCORES. HEPATIC HCOX-2 OVEREXPRESSION ENHANCED AKT INSULIN SIGNALING AND INCREASED FATTY ACID SYNTHESIS IN BOTH RCD AND HF+ETH DIET GROUPS. THE ANTI-LIPOGENIC EFFECT OF HCOX-2 TG IN THE HF+ETH DIET ANIMALS WAS MEDIATED BY INCREASING LIPID DISPOSAL THROUGH ENHANCED BETA-OXIDATION VIA ELEVATIONS IN THE EXPRESSION OF PPARALPHA AND PPARGAMMA, AND INCREASED HEPATIC AUTOPHAGY AS ASSESSED BY THE RATIO OF AUTOPHAGY MARKERS LC3 II/I IN HEPATIC TISSUE. VARIOUS PROTEIN ACETYLATION PATHWAY COMPONENTS, INCLUDING HAT, HDAC1, SIRT1, AND SNAIL1, WERE MODULATED IN HCOX-2 TG MICE IN EITHER RCD OR HF+ETH DIET. CONCLUSIONS: HEPATIC HUMAN COX-2 EXPRESSION PROTECTED MICE FROM THE METABOLIC DISORDER AND LIVER INJURY INDUCED BY A HIGH FAT AND ETHANOL DIET BY ENHANCING HEPATIC LIPID EXPENDITURE. EPIGENETIC REPROGRAMMING OF DIVERSE METABOLIC GENES MIGHT BE INVOLVED IN THE ANTI-LIPOGENIC EFFECT OF COX-2. 2021 13 3468 41 HYPOXIA-INDUCED DNA HYPERMETHYLATION IN HUMAN PULMONARY FIBROBLASTS IS ASSOCIATED WITH THY-1 PROMOTER METHYLATION AND THE DEVELOPMENT OF A PRO-FIBROTIC PHENOTYPE. BACKGROUND: PULMONARY FIBROSIS IS A DEBILITATING AND LETHAL DISEASE WITH NO EFFECTIVE TREATMENT OPTIONS. UNDERSTANDING THE PATHOLOGICAL PROCESSES AT PLAY WILL DIRECT THE APPLICATION OF NOVEL THERAPEUTIC AVENUES. HYPOXIA HAS BEEN IMPLICATED IN THE PATHOGENESIS OF PULMONARY FIBROSIS YET THE PRECISE MECHANISM BY WHICH IT CONTRIBUTES TO DISEASE PROGRESSION REMAINS TO BE FULLY ELUCIDATED. IT HAS BEEN SHOWN THAT CHRONIC HYPOXIA CAN ALTER DNA METHYLATION PATTERNS IN TUMOUR-DERIVED CELL LINES. THIS EPIGENETIC ALTERATION CAN INDUCE CHANGES IN CELLULAR PHENOTYPE WITH PROMOTER METHYLATION BEING ASSOCIATED WITH GENE SILENCING. OF PARTICULAR RELEVANCE TO IDIOPATHIC PULMONARY FIBROSIS (IPF) IS THE OBSERVATION THAT THY-1 PROMOTER METHYLATION IS ASSOCIATED WITH A MYOFIBROBLAST PHENOTYPE WHERE LOSS OF THY-1 OCCURS ALONGSIDE INCREASED ALPHA SMOOTH MUSCLE ACTIN (ALPHA-SMA) EXPRESSION. THE INITIAL AIM OF THIS STUDY WAS TO DETERMINE WHETHER HYPOXIA REGULATES DNA METHYLATION IN NORMAL HUMAN LUNG FIBROBLASTS (CCD19LU). AS IT HAS BEEN REPORTED THAT HYPOXIA SUPPRESSES THY-1 EXPRESSION DURING LUNG DEVELOPMENT WE ALSO STUDIED THE EFFECT OF HYPOXIA ON THY-1 PROMOTER METHYLATION AND GENE EXPRESSION. METHODS: CCD19LU WERE GROWN FOR UP TO 8 DAYS IN HYPOXIA AND ASSESSED FOR GLOBAL CHANGES IN DNA METHYLATION USING FLOW CYTOMETRY. REAL-TIME PCR WAS USED TO QUANTIFY EXPRESSION OF THY-1, ALPHA-SMA, COLLAGEN I AND III. GENOMIC DNA WAS BISULPHITE TREATED AND METHYLATION SPECIFIC PCR (MSPCR) WAS USED TO EXAMINE THE METHYLATION STATUS OF THE THY-1 PROMOTER. RESULTS: SIGNIFICANT GLOBAL HYPERMETHYLATION WAS DETECTED IN HYPOXIC FIBROBLASTS RELATIVE TO NORMOXIC CONTROLS AND WAS ACCOMPANIED BY INCREASED EXPRESSION OF MYOFIBROBLAST MARKERS. THY-1 MRNA EXPRESSION WAS SUPPRESSED IN HYPOXIC CELLS, WHICH WAS RESTORED WITH THE DEMETHYLATING AGENT 5-AZA-2'-DEOXYCYTIDINE. MSPCR REVEALED THAT THY-1 BECAME METHYLATED FOLLOWING FIBROBLAST EXPOSURE TO 1% O2. CONCLUSION: THESE DATA SUGGEST THAT GLOBAL AND GENE-SPECIFIC CHANGES IN DNA METHYLATION MAY PLAY AN IMPORTANT ROLE IN FIBROBLAST FUNCTION IN HYPOXIA. 2012 14 921 30 CHRONIC HYPOXIA-INDUCED CIRBP HYPERMETHYLATION ATTENUATES HYPOTHERMIC CARDIOPROTECTION VIA DOWN-REGULATION OF UBIQUINONE BIOSYNTHESIS. THERAPEUTIC HYPOTHERMIA IS COMMONLY USED DURING CARDIOPULMONARY BYPASS (CPB) TO PROTECT THE HEART AGAINST MYOCARDIAL INJURY IN CARDIAC SURGERY. PATIENTS WHO SUFFER FROM CHRONIC HYPOXIA (CH), SUCH AS THOSE WITH CERTAIN HEART OR LUNG CONDITIONS, ARE AT HIGH RISK OF SEVERE MYOCARDIAL INJURY AFTER CARDIAC SURGERY, BUT THE UNDERLYING MECHANISMS ARE UNKNOWN. THIS STUDY TESTED WHETHER CH ATTENUATES HYPOTHERMIC CARDIOPROTECTION DURING CPB. USING A RAT MODEL OF CPB, WE FOUND THAT HYPOTHERMIC CARDIOPROTECTION WAS IMPAIRED IN CH RATS BUT WAS PRESERVED IN NORMOXIC RATS. CARDIAC PROTEOMES SHOWED THAT COLD-INDUCIBLE RNA BINDING PROTEIN (CIRBP) WAS SIGNIFICANTLY (P = 0.03) DECREASED IN CH RATS DURING CPB. METHYLATION ANALYSIS OF NEONATAL RAT CARDIOMYOCYTES UNDER CH AND MYOCARDIUM SPECIMENS FROM PATIENTS WITH CH SHOWED THAT CH INDUCED HYPERMETHYLATION OF THE CIRBP PROMOTER REGION, RESULTING IN ITS DEPRESSION AND FAILURE TO RESPOND TO COLD STRESS. CIRBP-KNOCKOUT RATS SHOWED ATTENUATED HYPOTHERMIC CARDIOPROTECTION, WHEREAS CIRBP-TRANSGENIC RATS SHOWED AN ENHANCED RESPONSE. PROTEOMICS ANALYSIS REVEALED THAT THE CARDIAC UBIQUINONE BIOSYNTHESIS PATHWAY WAS DOWN-REGULATED DURING CPB IN CIRBP-KNOCKOUT RATS, RESULTING IN A SIGNIFICANTLY (P = 0.01) DECREASED CONCENTRATION OF UBIQUINONE (COQ(10)). CONSEQUENTLY, CARDIAC OXIDATIVE STRESS WAS AGGRAVATED AND ADENOSINE 5'-TRIPHOSPHATE PRODUCTION WAS IMPAIRED, LEADING TO INCREASED MYOCARDIAL INJURY DURING CPB. COQ(10)-SUPPLEMENTED CARDIOPLEGIC SOLUTION IMPROVED CARDIOPROTECTION IN RATS EXPOSED TO CH, BUT ITS EFFECT WAS LIMITED IN NORMOXIC RATS. OUR STUDY SUGGESTS THAT AN INDIVIDUALIZED CARDIOPROTECTION STRATEGY SHOULD BE USED TO FULLY COMPENSATE FOR THE CONSEQUENCES OF EPIGENETIC MODIFICATION OF CIRBP IN PATIENTS WITH CH WHO REQUIRE THERAPEUTIC HYPOTHERMIA. 2019 15 2032 29 EPIGENETIC CHANGES IN P21 EXPRESSION IN RENAL CELLS AFTER EXPOSURE TO BROMATE. THIS STUDY TESTED THE HYPOTHESIS THAT BROMATE (KBRO3)-INDUCED RENAL CELL DEATH IS MEDIATED BY EPIGENETIC MECHANISMS. GLOBAL DNA METHYLATION, AS ASSESSED BY 5-METHYLCYTOSINE STAINING, WAS NOT CHANGED IN NORMAL RAT KIDNEY CELLS TREATED WITH ACUTE CYTOTOXIC DOSES OF KBRO3 (100 AND 200 PPM), AS COMPARED WITH CONTROLS. HOWEVER, KBRO3 TREATMENT DID INCREASE P38, P53 AND HISTONE 2AX (H2AX) PHOSPHORYLATION, AND P21 EXPRESSION. TREATMENT OF CELLS WITH INHIBITORS OF DNA METHYLTRANSFERASE (5-AZACYTIDINE OR 5-AZA) AND HISTONE DEACETYLASE (TRICHOSTATIN A OR TSA) IN ADDITION TO KBRO3 INCREASED CYTOTOXICITY, AS COMPARED WITH CELLS EXPOSED TO KBRO3 ALONE. 5-AZA AND TSA CO-TREATMENT DID NOT ALTER P38 OR P53 PHOSPHORYLATION, BUT SLIGHTLY DECREASED H2AX PHOSPHORYLATION AND SIGNIFICANTLY DECREASED P21 EXPRESSION. WE ALSO ASSESSED EPIGENETIC CHANGES IN CELLS TREATED UNDER SUB-CHRONIC CONDITIONS WITH ENVIRONMENTALLY RELEVANT CONCENTRATIONS OF KBRO3. UNDER THESE CONDITIONS (0-10PPM KBRO3 FOR UP TO 18 DAYS), WE DETECTED NO INCREASES IN CELL DEATH OR DNA DAMAGE. IN CONTRAST, SLIGHT ALTERATIONS WERE DETECTED IN THE PHOSPHORYLATION OF H2AX, P38, AND P53. SUB-CHRONIC LOW-DOSE KBRO3 TREATMENT ALSO INDUCED A BIPHASIC RESPONSE IN P21 EXPRESSION, WITH LOWER CONCENTRATIONS INCREASING EXPRESSION, BUT HIGHER CONCENTRATIONS DECREASING EXPRESSION. METHYLATION-SPECIFIC PCR DEMONSTRATED THAT SUB-CHRONIC KBRO3 TREATMENT ALTERED THE METHYLATION OF CYTOSINE BASES IN THE P21 GENE, AS COMPARED WITH CONTROLS, CORRELATING TO ALTERATIONS IN P21 PROTEIN EXPRESSION. COLLECTIVELY, THESE DATA SHOW THE NOVEL FINDING THAT KBRO3-INDUCED RENAL CELL DEATH IS ALTERED BY INHIBITORS OF EPIGENETIC MODIFYING ENZYMES AND THAT KBRO3 ITSELF INDUCES EPIGENETIC CHANGES IN THE P21 GENE. 2014 16 316 32 ALCOHOL-ASSOCIATED FOLATE DISTURBANCES RESULT IN ALTERED METHYLATION OF FOLATE-REGULATING GENES. FOLATE PLAYS A CRITICAL ROLE IN MAINTAINING NORMAL METABOLIC, ENERGY, DIFFERENTIATION AND GROWTH STATUS OF ALL MAMMALIAN CELLS. THE STEADY-STATE ACCUMULATION OF FOLATE SEEMS TO DEPEND ON THE ACTIVITY OF TWO ENZYMES: FOLYLPOLYGLUTAMATE SYNTHETASE (FPGS), WHICH ADDS GLUTAMATE RESIDUES, AND GAMMA-GLUTAMYL HYDROLASE (GGH), WHICH REMOVES THEM, ENABLING IT TO BE TRANSPORTED ACROSS THE BIOLOGICAL MEMBRANES. OVEREXPRESSION OF GGH AND DOWNREGULATION OF FPGS WOULD BE EXPECTED TO DECREASE INTRACELLULAR FOLATE IN ITS POLYGLUTAMYLATED FORM, THEREBY INCREASING EFFLUX OF FOLATE AND ITS RELATED MOLECULES, WHICH MIGHT LEAD TO RESISTANCE TO DRUGS OR FOLATE DEFICIENCY. THE STUDY WAS SOUGHT TO DELINEATE THE ACTIVITY OF GGH AND EXPRESSION FPGS IN TISSUES INVOLVED IN FOLATE HOMEOSTASIS DURING ALCOHOLISM AND THE EPIGENETIC REGULATION OF THESE ENZYMES AND TRANSPORTERS REGULATING INTRACELLULAR FOLATE LEVELS. WE DETERMINED THE ACTIVITY OF GGH AND EXPRESSION OF FPGS IN TISSUES AFTER 3 MONTHS OF ETHANOL FEEDING TO RATS AT 1 G/KG BODY WEIGHT/DAY. THE RESULTS SHOWED THAT THERE WAS NOT ANY SIGNIFICANT CHANGE IN THE ACTIVITY OF FOLATE HYDROLYZING ENZYME GGH IN ETHANOL-FED RATS WHILE THERE WAS SIGNIFICANT DOWN REGULATION IN THE EXPRESSION OF FPGS. ETHANOL FEEDING DECREASED THE TOTAL AS WELL AS POLYGLUTAMATED FOLATE LEVELS. THERE WAS TISSUE-SPECIFIC HYPER/HYPO METHYLATION OF FOLATE TRANSPORTER GENES VIZ. PCFT AND RFC BY CHRONIC ETHANOL FEEDING. MOREOVER, HYPERMETHYLATION OF FPGS GENE WAS OBSERVED IN INTESTINE AND KIDNEY WITHOUT ANY CHANGE IN METHYLATION LEVELS OF GGH IN THE ETHANOL-FED RATS. IN CONCLUSION, THE INITIAL DECONJUGATION OF POLYGLUTAMYLATED FOLATE BY GGH WAS NOT IMPAIRED IN ETHANOL-FED RATS WHILE THE CONVERSION OF MONOGLUTAMYLATED FOLATE TO POLYGLUTAMYLATED FORM MIGHT BE IMPAIRED. THERE WAS TISSUE-SPECIFIC ALTERED METHYLATION OF FOLATE TRANSPORTER GENES BY CHRONIC ETHANOL FEEDING. 2012 17 224 38 ACUTE SKELETAL MUSCLE CONTRACTIONS ORCHESTRATE SIGNALING MECHANISMS TO TRIGGER NUCLEAR NFATC1 SHUTTLING AND EPIGENETIC HISTONE MODIFICATIONS. BACKGROUND/AIMS: CALCIUM (CA(2)(+)) COORDINATES SKELETAL MUSCLE FUNCTIONS BY CONTROLLING CONTRACTIONS AS WELL AS SIGNALING PATHWAYS AND TRANSCRIPTIONAL PROPERTIES. THE RYANODINE RECEPTOR 1 (RYR1), ITS PHOSPHORYLATION SITE (PRYR1SER(2)(8)(4)(0)) AND ITS STABILIZERS NAVIGATE CA(2)(+) OSCILLATIONS TO COMMAND MUSCLE SIGNALING CASCADES AND TRANSCRIPTIONAL ACTIVITIES. WHILE CHRONIC EXERCISE INCREASES PRYR1SER(2)(8)(4)(0), INVESTIGATIONS ON ACUTE EXERCISE'S EFFECTS ON RYR1 AND CA(2)(+)-DEPENDENT MODIFICATIONS OF SKELETAL MUSCLE ARE RARE. THE AIM OF THIS STUDY WAS TO EXAMINE MOLECULAR EVENTS LEADING TO RYR1 PHOSPHORYLATION IN A PHYSIOLOGICAL MODEL OF ACUTE EXERCISE. WE HYPOTHESIZED THAT EXERCISE-INDUCED RYR1 PHOSPHORYLATION IS ASSOCIATED WITH ALTERED CA(2)(+)-DEPENDENT PHYSIOLOGICAL PHENOTYPES. METHODS: WE ANALYZED PRYR1SER(2)(8)(4)(0), ITS STABILIZERS, INVOLVED SIGNALING PATHWAYS, AND CA(2)(+)-SENSITIVE MUSCLE-DETERMINING FACTORS (I.E. NFATC1 AND EPIGENETIC HISTONE H3 MODIFICATIONS) IN RAT MUSCLES UPON ONE SINGLE RUNNING BOUT OF EITHER CONCENTRIC OR ECCENTRIC CONTRACTIONS. RESULTS: BOTH ACUTE EXERCISES SIGNIFICANTLY INCREASED PRYRSER(2)(8)(4)(0) LEVELS IN MUSCLES, WHICH WAS ACCOMPANIED BY DISSOCIATIONS OF STABILIZERS FROM RYR1. ADDITIONALLY, RYR1 PHOSPHORYLATION-INDUCING SIGNALING CASCADES PTEN/CAMKII/ PKA WERE SIGNIFICANTLY ACTIVATED UPON EXERCISE. FURTHER, RYR1 PHOSPHORYLATIONS WERE ASSOCIATED WITH INCREASED CA(2)(+)-DEPENDENT NFATC1 NUCLEAR ABUNDANCES AS WELL AS INCREASED CA(2)(+)-DEPENDENT EPIGENETIC H3 ACETYLATIONS POINTING TO A PRYR1SER(2)(8)(4)(0)-DEPENDENT RAPID AND NOVEL CA(2)(+) EQUILIBRIUM UPON EXERCISE. CONCLUSION: OUR DATA REPORT SYNERGISTIC ACTIONS OF SEVERAL DISTINCT PATHWAYS TO MODIFY RYR1 FUNCTION TO GOVERN PHYSIOLOGICAL PHENOTYPES, HERE EXPRESSED AS INCREASED NUCLEAR NFATC1 ABUNDANCES AND EPIGENETIC H3 MODIFICATIONS. 2019 18 662 28 BLOOD MONOCYTE TRANSCRIPTOME AND EPIGENOME ANALYSES REVEAL LOCI ASSOCIATED WITH HUMAN ATHEROSCLEROSIS. LITTLE IS KNOWN REGARDING THE EPIGENETIC BASIS OF ATHEROSCLEROSIS. HERE WE PRESENT THE CD14+ BLOOD MONOCYTE TRANSCRIPTOME AND EPIGENOME SIGNATURES ASSOCIATED WITH HUMAN ATHEROSCLEROSIS. THE TRANSCRIPTOME SIGNATURE INCLUDES TRANSCRIPTION COACTIVATOR, ARID5B, WHICH IS KNOWN TO FORM A CHROMATIN DEREPRESSOR COMPLEX WITH A HISTONE H3K9ME2-SPECIFIC DEMETHYLASE AND PROMOTE ADIPOGENESIS AND SMOOTH MUSCLE DEVELOPMENT. ARID5B CPG (CG25953130) METHYLATION IS INVERSELY ASSOCIATED WITH BOTH ARID5B EXPRESSION AND ATHEROSCLEROSIS, CONSISTENT WITH THIS CPG RESIDING IN AN ARID5B ENHANCER REGION, BASED ON CHROMATIN CAPTURE AND HISTONE MARKS DATA. MEDIATION ANALYSIS SUPPORTS ASSUMPTIONS THAT ARID5B EXPRESSION MEDIATES EFFECTS OF CG25953130 METHYLATION AND SEVERAL CARDIOVASCULAR DISEASE RISK FACTORS ON ATHEROSCLEROTIC BURDEN. IN LIPOPOLYSACCHARIDE-STIMULATED HUMAN THP1 MONOCYTES, ARID5B KNOCKDOWN REDUCED EXPRESSION OF GENES INVOLVED IN ATHEROSCLEROSIS-RELATED INFLAMMATORY AND LIPID METABOLISM PATHWAYS, AND INHIBITED CELL MIGRATION AND PHAGOCYTOSIS. THESE DATA SUGGEST THAT ARID5B EXPRESSION, POSSIBLY REGULATED BY AN EPIGENETICALLY CONTROLLED ENHANCER, PROMOTES ATHEROSCLEROSIS BY DYSREGULATING IMMUNOMETABOLISM TOWARDS A CHRONIC INFLAMMATORY PHENOTYPE.THE MOLECULAR MECHANISMS MEDIATING THE IMPACT OF ENVIRONMENTAL FACTORS IN ATHEROSCLEROSIS ARE UNCLEAR. HERE, THE AUTHORS EXAMINE CD14+ BLOOD MONOCYTE'S TRANSCRIPTOME AND EPIGENOME SIGNATURES TO FIND DIFFERENTIAL METHYLATION AND EXPRESSION OF ARID5B TO BE ASSOCIATED WITH HUMAN ATHEROSCLEROSIS. 2017 19 3153 34 GLUCOSE-INDUCED EXPRESSION OF THE HOMEOTIC TRANSCRIPTION FACTOR PREP1 IS ASSOCIATED WITH HISTONE POST-TRANSLATIONAL MODIFICATIONS IN SKELETAL MUSCLE. AIMS/HYPOTHESIS: CHRONIC HYPERGLYCAEMIA WORSENS INSULIN RESISTANCE IN INDIVIDUALS WITH TYPE 2 DIABETES. WHETHER THIS EFFECT IS CONTRIBUTED BY EPIGENETIC DYSREGULATION AND WHICH GENES ARE INVOLVED REMAIN UNCLEAR. PREP1 (ALSO KNOWN AS PKNOX1) IS A GENE EXERTING MAJOR EFFECTS ON THE SENSITIVITY OF THE GLUCOSE TRANSPORT MACHINERY TO INSULIN. HERE, WE SHOW THAT DYSREGULATION OF PREP1 EXPRESSION BY HIGH GLUCOSE LEVELS IS ASSOCIATED WITH HISTONE MODIFICATIONS AT ITS 5' REGULATORY REGION. METHODS: WE USED MOUSE AND CELL MODELS TO INVESTIGATE PREP1 TRANSCRIPTIONAL REGULATION BY GLUCOSE. RESULTS: DIFFERENTIATED L6 SKELETAL MUSCLE CELLS WERE GROWN IN THE PRESENCE OF EITHER 5.5 OR 25 MMOL/L GLUCOSE (NORMAL [NG] AND HIGH GLUCOSE [HG], RESPECTIVELY). THE HG EXPOSURE INCREASED NUCLEAR FACTOR KAPPA LIGHT CHAIN ENHANCER OF ACTIVATED B CELLS (NF-KAPPAB) P65 BINDING AND RECRUITMENT OF THE SU(VAR)3-9, ENHANCER-OF-ZESTE, TRITHORAX DOMAIN-CONTAINING LYSINE METHYLTRANSFERASE 7 (SET7) HISTONE METHYLTRANSFERASE AND P300 ACETYLTRANSFERASE TO THE 5' REGION OF PREP1, LEADING TO ENHANCED TRANSCRIPTION. IN ADDITION, CHROMATIN IMMUNOPRECIPITATION ASSAYS REVEALED CONCOMITANTLY INCREASED HISTONE H3 MONO- AND DIMETHYLATION AND ACETYLATION AT LYS4 AND LYS9/14, RESPECTIVELY. SKELETAL MUSCLE TISSUE FROM STREPTOZOTOCIN-TREATED DIABETIC MICE ALSO SHOWED PREP1 OVEREXPRESSION ACCOMPANIED BY SIMILARLY INCREASED RECRUITMENT OF NF-KAPPAB P65 AND HISTONE MODIFICATIONS AT THE 5' REGION OF PREP1. IN THESE SAME MICE, AS WELL AS IN PREP1-OVEREXPRESSING L6 CELLS, PREP1-INDUCED RECRUITMENT OF THE REPRESSOR COMPLEX MYOCYTE ENHANCER FACTOR 2 (MEF2)/HISTONE DEACETYLASE 5 (HDAC5) AT THE GLUT4 PROMOTER WAS ALSO INCREASED, LEADING TO REDUCED GLUT4 EXPRESSION. CONCLUSIONS/INTERPRETATION: THESE STUDIES INDICATE THAT HG EXPOSURE INDUCES NF-KAPPAB RECRUITMENT AND HISTONE MODIFICATION AT THE PREP1 5' REGION, THEREBY ENHANCING THE TRANSCRIPTION OF PREP1 AND REPRESSING THAT OF GLUT4. HISTONE CHANGES AT THE PREP1 GENE MAY CONTRIBUTE TO INSULIN RESISTANCE IN INDIVIDUALS WITH TYPE 2 DIABETES. 2016 20 2758 24 EXPRESSION OF HORMONAL CARCINOGENESIS GENES AND RELATED REGULATORY MICRORNAS IN UTERUS AND OVARIES OF DDT-TREATED FEMALE RATS. THE INSECTICIDE DICHLORODIPHENYLTRICHLOROETHANE (DDT) IS A NONMUTAGENIC XENOBIOTIC COMPOUND ABLE TO EXERT ESTROGEN-LIKE EFFECTS RESULTING IN ACTIVATION OF ESTROGEN RECEPTOR-ALPHA (ERALPHA) FOLLOWED BY CHANGED EXPRESSION OF ITS DOWNSTREAM TARGET GENES. IN ADDITION, STUDIES PERFORMED OVER RECENT YEARS SUGGEST THAT DDT MAY ALSO INFLUENCE EXPRESSION OF MICRORNAS. HOWEVER, AN IMPACT OF DDT ON EXPRESSION OF ER, MICRORNAS, AND RELATED TARGET GENES HAS NOT BEEN FULLY ELUCIDATED. HERE, USING REAL-TIME PCR, WE ASSESSED CHANGES IN EXPRESSION OF KEY GENES INVOLVED IN HORMONAL CARCINOGENESIS AS WELL AS POTENTIALLY RELATED REGULATORY ONCOGENIC/TUMOR SUPPRESSOR MICRORNAS AND THEIR TARGET GENES IN THE UTERUS AND OVARIES OF FEMALE WISTAR RATS DURING SINGLE AND CHRONIC MULTIPLE-DOSE DDT EXPOSURE. WE FOUND THAT APPLYING DDT RESULTS IN ALTERED EXPRESSION OF MICRORNAS-221, -222, -205, -126A, AND -429, THEIR TARGET GENES (PTEN, DICER1), AS WELL AS GENES INVOLVED IN HORMONAL CARCINOGENESIS (ESR1, PGR, CCND1, CYP19A1). NOTABLY, CYP19A1 EXPRESSION SEEMS TO BE ALSO REGULATED BY MICRORNAS-221, -222, AND -205. THE DATA SUGGEST THAT EPIGENETIC EFFECTS INDUCED BY DDT AS A POTENTIAL CARCINOGEN MAY BE BASED ON AT LEAST TWO MECHANISMS: (I) ACTIVATION OF ERALPHA FOLLOWED BY ALTERED EXPRESSION OF THE TARGET GENES ENCODING RECEPTOR PGR AND CCND1 AS WELL AS IMPAIRED EXPRESSION OF CYP19A1, AFFECTING, THEREBY, CELL HORMONE BALANCE; AND (II) CHANGED EXPRESSION OF MICRORNAS RESULTING IN IMPAIRED EXPRESSION OF RELATED TARGET GENES INCLUDING REDUCED LEVEL OF CYP19A1 MRNA. 2017