1 5609 121 S-ADENOSYLMETHIONINE DECREASES THE PEAK BLOOD ALCOHOL LEVELS 3 H AFTER AN ACUTE BOLUS OF ETHANOL BY INDUCING ALCOHOL METABOLIZING ENZYMES IN THE LIVER. INTRODUCTION: AN ALCOHOL BOLUS CAUSES THE BLOOD ALCOHOL LEVEL (BAL) TO PEAK AT 1-2 H POST INGESTION. THE ETHANOL ELIMINATION RATE IS REGULATED BY ALCOHOL METABOLIZING ENZYMES, PRIMARILY ALCOHOL DEHYDROGENASE (ADH1), ACETALDEHYDE DEHYDROGENASE (ALDH), AND CYTOCHROME P450 (CYP2E1). RECENTLY, S-ADENOSYLMETHIONINE (SAME) WAS FOUND TO REDUCE ACUTE BALS 3 H AFTER AN ALCOHOL BOLUS. THE QUESTION, THEN, WAS: WHAT IS THE MECHANISM INVOLVED IN THIS REDUCTION OF BAL BY FEEDING SAME? TO ANSWER THIS QUESTION, WE INVESTIGATED THE CHANGES IN ETHANOL METABOLIZING ENZYMES AND THE EPIGENETIC CHANGES THAT REGULATE THE EXPRESSION OF THESE ENZYMES DURING ACUTE BINGE DRINKING AND CHRONIC DRINKING. METHODS: RATS WERE FED A BOLUS OF ETHANOL WITH OR WITHOUT SAME, AND WERE SACRIFICED AT 3 H OR 12 H AFTER THE BOLUS. RESULTS: RT-PCR AND WESTERN BLOT ANALYSES SHOWED THAT SAME SIGNIFICANTLY INDUCED ADH1 LEVELS IN THE 3 H LIVER SAMPLES. HOWEVER, SAME DID NOT AFFECT THE CHANGES IN ADH1 PROTEIN LEVELS 12 H POST BOLUS. SINCE SAME IS A METHYL DONOR, IT WAS POSTULATED THAT THE ADH1 GENE EXPRESSION UP REGULATION AT 3 H WAS DUE TO A HISTONE MODIFICATION INDUCED BY METHYLATION FROM METHYL TRANSFERASES. DIMETHYLATED HISTONE 3 LYSINE 4 (H3K4ME2), A MODIFICATION RESPONSIBLE FOR GENE EXPRESSION ACTIVATION, WAS FOUND TO BE SIGNIFICANTLY INCREASED BY SAME AT 3 H POST BOLUS. CONCLUSION: THESE RESULTS CORRELATED WITH THE LOW BAL FOUND AT 3 H POST BOLUS, AND SUPPORT THE CONCEPT THAT SAME INCREASED THE GENE EXPRESSION TO INCREASE THE ELIMINATION RATE OF ETHANOL IN BINGE DRINKING BY INCREASING H3K4ME2. 2010 2 2366 31 EPIGENETIC REGULATION OF STEROIDOGENIC ENZYMES EXPRESSED IN PERIPHERAL BLOOD MONONUCLEAR CELLS FROM HEALTHY INDIVIDUALS AND FROM PATIENTS WITH CHRONIC LYMPHOCYTIC LEUKEMIA. SEX HORMONE SYNTHESIS OCCURS IN VARIOUS ORGANS AND TISSUES BESIDES THE GONADS, SUCH AS ADRENAL GLANDS, BRAIN, INTESTINES, SKIN, FAT, BONE, AND CELLS OF THE IMMUNE SYSTEM. REGARDING THE LATTER, IT IS STILL NOT CLEAR WHICH PATHWAYS ARE ACTIVE, AND IF THEY ARE MODIFIED IN CASE OF ILLNESS OF THE IMMUNE SYSTEM. OUR GOAL IN THIS STUDY WAS TO DETERMINE MRNA EXPRESSION OF DIFFERENT STEROIDOGENIC ENZYMES IN PERIPHERAL BLOOD MONONUCLEAR CELLS (PBMCS) FROM HEALTHY INDIVIDUALS OF BOTH SEXES AND OF DIFFERENT AGES, AND THEN TO COMPARE THEIR EXPRESSION BETWEEN HEALTHY INDIVIDUALS AND PATIENTS WITH CHRONIC LYMPHOCYTIC LEUKEMIA (CLL). FURTHERMORE, TO ELUCIDATE POSSIBLE MECHANISMS THAT REGULATE ENZYME EXPRESSION, WE ANALYZED EPIGENETIC EVENTS LIKE PROMOTER METHYLATION. WE DETERMINED THAT NORMAL CELLS OF THE IMMUNE SYSTEM, REGARDLESS OF SEX AND AGE, EXPRESSED P450 SIDE CHAIN CLEAVAGE (P450SCC), CYTOCHROME P450 17ALPHA-HYDROXYLASE/C17,20-LYASE (P45017ALPHA), 3BETA-HYDROXYSTEROID DEHYDROGENASE/DELTA5-DELTA4-ISOMERASE (3BETA-HSD), STEROID 5 ALPHA REDUCTASE (5ALPHA-R) TYPES 1, 2 AND 3, 3ALPHA-HYDROXYSTEROID DEHYDROGENASE (3ALPHA-HSD) TYPE 3, AND 17BETA-HYDROXYSTEROID DEHYDROGENASE (17BETA-HSD) TYPES 1, 3 AND 5. WE ALSO ESTABLISHED THAT 5ALPHA-R 1, 5ALPHA-R 3, 3ALPHA-HSD 3, 17BETA-HSD 1 AND 17BETA-HSD 5 EXPRESSION WAS ALTERED IN CLL PATIENTS, AND THAT PROMOTER REGIONS OF 5ALPHA-R 1, 17BETA-HSD 1 AND 17BETA-HSD 5 WERE DIFERENTIALLY METHYLATED. THESE RESULTS SUGGEST THAT STEROIDOGENIC PATHWAYS MAY BE AFFECTED IN CLL CELLS, AND THIS COULD BE RELATED TO DISEASE PATHOGENESIS. 2020 3 6166 27 THE GLUTATHIONE SYSTEM: A NEW DRUG TARGET IN NEUROIMMUNE DISORDERS. GLUTATHIONE (GSH) HAS A CRUCIAL ROLE IN CELLULAR SIGNALING AND ANTIOXIDANT DEFENSES EITHER BY REACTING DIRECTLY WITH REACTIVE OXYGEN OR NITROGEN SPECIES OR BY ACTING AS AN ESSENTIAL COFACTOR FOR GSH S-TRANSFERASES AND GLUTATHIONE PEROXIDASES. GSH ACTING IN CONCERT WITH ITS DEPENDENT ENZYMES, KNOWN AS THE GLUTATHIONE SYSTEM, IS RESPONSIBLE FOR THE DETOXIFICATION OF REACTIVE OXYGEN AND NITROGEN SPECIES (ROS/RNS) AND ELECTROPHILES PRODUCED BY XENOBIOTICS. ADEQUATE LEVELS OF GSH ARE ESSENTIAL FOR THE OPTIMAL FUNCTIONING OF THE IMMUNE SYSTEM IN GENERAL AND T CELL ACTIVATION AND DIFFERENTIATION IN PARTICULAR. GSH IS A UBIQUITOUS REGULATOR OF THE CELL CYCLE PER SE. GSH ALSO HAS CRUCIAL FUNCTIONS IN THE BRAIN AS AN ANTIOXIDANT, NEUROMODULATOR, NEUROTRANSMITTER, AND ENABLER OF NEURON SURVIVAL. DEPLETION OF GSH LEADS TO EXACERBATION OF DAMAGE BY OXIDATIVE AND NITROSATIVE STRESS; HYPERNITROSYLATION; INCREASED LEVELS OF PROINFLAMMATORY MEDIATORS AND INFLAMMATORY POTENTIAL; DYSFUNCTIONS OF INTRACELLULAR SIGNALING NETWORKS, E.G., P53, NUCLEAR FACTOR-KAPPAB, AND JANUS KINASES; DECREASED CELL PROLIFERATION AND DNA SYNTHESIS; INACTIVATION OF COMPLEX I OF THE ELECTRON TRANSPORT CHAIN; ACTIVATION OF CYTOCHROME C AND THE APOPTOTIC MACHINERY; BLOCKADE OF THE METHIONINE CYCLE; AND COMPROMISED EPIGENETIC REGULATION OF GENE EXPRESSION. AS SUCH, GSH DEPLETION HAS MARKED CONSEQUENCES FOR THE HOMEOSTATIC CONTROL OF THE IMMUNE SYSTEM, OXIDATIVE AND NITROSATIVE STRESS (O&NS) PATHWAYS, REGULATION OF ENERGY PRODUCTION, AND MITOCHONDRIAL SURVIVAL AS WELL. GSH DEPLETION AND CONCOMITANT INCREASE IN O&NS AND MITOCHONDRIAL DYSFUNCTIONS PLAY A ROLE IN THE PATHOPHYSIOLOGY OF DIVERSE NEUROIMMUNE DISORDERS, INCLUDING DEPRESSION, MYALGIC ENCEPHALOMYELITIS/CHRONIC FATIGUE SYNDROME AND PARKINSON'S DISEASE, SUGGESTING THAT DEPLETED GSH IS AN INTEGRAL PART OF THESE DISEASES. THERAPEUTICAL INTERVENTIONS THAT AIM TO INCREASE GSH CONCENTRATIONS IN VIVO INCLUDE N-ACETYL CYSTEINE; NRF-2 ACTIVATION VIA HYPERBARIC OXYGEN THERAPY; DIMETHYL FUMARATE; PHYTOCHEMICALS, INCLUDING CURCUMIN, RESVERATROL, AND CINNAMON; AND FOLATE SUPPLEMENTATION. 2014 4 5057 23 PHENOBARBITAL MECHANISTIC DATA AND RISK ASSESSMENT: ENZYME INDUCTION, ENHANCED CELL PROLIFERATION, AND TUMOR PROMOTION. CHRONIC EXPOSURE TO HIGH DOSES OF PHENOBARBITAL (PB) CAUSES HEPATOCELLULAR ADENOMAS IN BOTH MICE AND RATS AND HEPATOCELLULAR CARCINOMAS IN SOME STRAINS OF MICE. LONG-TERM PB THERAPY HAS NOT BEEN FOUND TO CAUSE HUMAN TUMORS. PB IS NOT DNA REACTIVE, AND MOST GENOTOXICITY TESTS HAVE YIELDED NEGATIVE RESULTS. PB HAS BEEN EXTENSIVELY STUDIED AS AN EPIGENETIC, RODENT LIVER TUMOR PROMOTER. AT EXPOSURES CAUSING RODENT LIVER TUMORS, PB HAS MEASURABLE EFFECTS ON HEPATOCYTES: PB INHIBITS CELL-TO-CELL COMMUNICATION; PB INDUCES ENZYMES, INCLUDING P450 CYTOCHROMES; PB STIMULATES PROLIFERATION AND INHIBITS APOPTOSIS OF HEPATOCYTES IN NEOPLASTIC FOCI. THRESHOLD EXPOSURES FOR SOME OF THESE ENDPOINTS COINCIDE WITH THE THRESHOLD EXPOSURE FOR TUMORIGENESIS. 1996 5 6688 24 VALPROATE SYNERGIZES WITH PURINE NUCLEOSIDE ANALOGUES TO INDUCE APOPTOSIS OF B-CHRONIC LYMPHOCYTIC LEUKAEMIA CELLS. RESISTANCE TO CHEMOTHERAPY AND DRUG TOXICITY ARE TWO MAJOR CONCERNS OF CHRONIC LYMPHOCYTIC LEUKAEMIA (B-CLL) TREATMENT BY PURINE NUCLEOSIDE ANALOGUES (PNA, I.E. FLUDARABINE AND CLADRIBINE). WE HYPOTHESIZED THAT TARGETING EPIGENETIC CHANGES MIGHT ADDRESS THESE ISSUES AND EVALUATED THE EFFECT OF THE HISTONE DEACETYLASE INHIBITOR VALPROATE (VPA) AT A CLINICALLY RELEVANT CONCENTRATION. VPA ACTED IN A HIGHLY SYNERGISTIC/ADDITIVE MANNER WITH FLUDARABINE AND CLADRIBINE TO INDUCE APOPTOSIS OF B-CLL CELLS. IMPORTANTLY, VPA ALSO RESTORED SENSITIVITY TO FLUDARABINE IN B CELLS FROM POOR PROGNOSIS CLL PATIENTS WHO BECAME RESISTANT TO CHEMOTHERAPY. MECHANISM OF APOPTOSIS INDUCED BY VPA ALONE OR COMBINED WITH FLUDARABINE OR TO CLADRIBINE WAS CASPASE-DEPENDENT AND INVOLVED THE EXTRINSIC PATHWAY. VPA, BUT NEITHER FLUDARABINE NOR CLADRIBINE, ENHANCED THE PRODUCTION OF REACTIVE OXYGEN SPECIES (ROS) AND INHIBITION OF ROS WITH N-ACETYLCYSTEINE DECREASES APOPTOSIS OF CLL CELLS. VPA STIMULATES HYPERPHOSPHORYLATION OF P42/P44 ERK, CYTOCHROME C RELEASE AND OVEREXPRESSION OF BAX AND FAS. TOGETHER, OUR DATA INDICATE THAT VPA MAY AMELIORATE THE OUTCOME OF PNA-BASED THERAPEUTIC PROTOCOLS AND PROVIDE A POTENTIAL ALTERNATIVE TREATMENT IN BOTH THE RELAPSED AND FRONT-LINE RESISTANT PATIENTS AND IN PATIENTS WITH HIGH RISK FEATURES. 2009 6 3940 41 LNCRNA DLEU2 REGULATES SIRTUINS AND MITOCHONDRIAL RESPIRATORY CHAIN COMPLEX IV: A NOVEL PATHWAY IN OBESITY AND OFFSPRING'S HEALTH. BACKGROUND: LONG NON-CODING RNAS (LNCRNAS) HAVE EMERGED AS A RAPIDLY EXPANDING AREA OF INTEREST IN CHRONIC DISEASES. THEY ARE MOSTLY UNKNOWN FOR ROLES IN METABOLIC REGULATION. SIRTUINS, AN EPIGENETIC MODULATOR CLASS, REGULATE METABOLIC PATHWAYS. HOWEVER, HOW SIRTUINS ARE REGULATED VIA LNCRNA IS UNKNOWN. WE HYPOTHESIZED THAT A HIGH-FAT HIGH-FRUCTOSE DIET (HFD-HF) DURING PREGNANCY WOULD INCREASE THE RISK FOR OBESITY VIA LNCRNA-SIRTUIN PATHWAYS. METHODS: FEMALE C57BL/6 MICE (F0) WERE FED EITHER CHOW DIET (CD) OR HFD-HF FOR 6 WEEKS TILL BIRTH. THE PUPS (F1) WERE FED EITHER CD OR HFD-HF FOR 20 WEEKS. EXPRESSION OF DLEU2, SIRTUINS, MITOCHONDRIAL RESPIRATORY COMPLEXES, AND OXIDATIVE STRESS WERE INVESTIGATED IN THE F1 LIVERS. FASTING BLOOD GLUCOSE, INSULIN SENSITIVITY, GLUCOSE TOLERANCE, BODY AND TISSUES WEIGHT WERE MEASURED. A MECHANISTIC INTERACTION WAS THEN CARRIED OUT USING A DLEU2 KNOCKDOWN EXPERIMENT IN THE HEPG2 CELL. RESULTS: DLEU2 AND SIRTUINS WERE BOTH SIGNIFICANTLY DECREASED IN THE LIVERS OF HFD-HF FED MALE F1 WHOSE MOTHERS WERE EITHER FED CD OR HFD-HF DURING REPRODUCTIVE AND PREGNANCY WINDOWS. CONFIRMING THIS CONNECTION, UPON SILENCING DLEU2, TRANSCRIPTION LEVELS OF SIRT1 THROUGH 6 AND TRANSLATIONAL LEVELS OF SIRT1, 3, 5, AND 6 WERE SIGNIFICANTLY DOWNREGULATED. KNOCKDOWN OF DLEU2 SIGNIFICANTLY DECREASED THE PROTEIN LEVEL OF CYTOCHROME-C OXIDASE (COMPLEX IV, MTCO1) WITHOUT ALTERING OTHER MITOCHONDRIAL COMPLEXES, DECREASED MITOCHONDRIAL MEMBRANE POTENTIAL, DECREASED ATP, AND INCREASED REACTIVE OXYGEN SPECIES. INTERESTINGLY, IN F1 LIVERS, THE PROTEIN LEVEL OF MTCO1 WAS ALSO SIGNIFICANTLY DECREASED UNDER AN HFD-HF DIET OR EVEN UNDER CHOW DIET IF THE MOTHER WAS EXPOSED TO HFD-HF. CONCLUSION: OUR FINDINGS REVEAL FOR THE FIRST TIME THAT ONE LNCRNA CAN REGULATE SIRTUINS AND A SPECIFIC MITOCHONDRIAL COMPLEX. FURTHERMORE, DIET OR MATERNAL DIET CAN MODULATE DLEU2 AND ITS DOWNSTREAM REGULATORS IN OFFSPRING, SUGGESTING A POTENTIAL ROLE OF DLEU2 IN METABOLIC DISORDERS OVER ONE OR MORE GENERATIONS. 2022 7 594 24 BET PROTEIN INHIBITOR JQ1 MODULATES MITOCHONDRIAL DYSFUNCTION AND OXIDATIVE STRESS INDUCED BY CHRONIC KIDNEY DISEASE. AMONG THE MECHANISMS INVOLVED IN THE PROGRESSION OF KIDNEY DISEASE, MITOCHONDRIAL DYSFUNCTION HAS SPECIAL RELEVANCE. EPIGENETIC DRUGS SUCH AS INHIBITORS OF EXTRA-TERMINAL DOMAIN PROTEINS (IBET) HAVE SHOWN BENEFICIAL EFFECTS IN EXPERIMENTAL KIDNEY DISEASE, MAINLY BY INHIBITING PROLIFERATIVE AND INFLAMMATORY RESPONSES. THE IMPACT OF IBET ON MITOCHONDRIAL DAMAGE WAS EXPLORED IN IN VITRO STUDIES IN RENAL CELLS STIMULATED WITH TGF-BETA1 AND IN VIVO IN MURINE UNILATERAL URETERAL OBSTRUCTION (UUO) MODEL OF PROGRESSIVE KIDNEY DAMAGE. IN VITRO, JQ1 PRETREATMENT PREVENTED THE TGF-BETA1-INDUCED DOWNREGULATION OF COMPONENTS OF THE OXIDATIVE PHOSPHORYLATION CHAIN (OXPHOS), SUCH AS CYTOCHROME C AND CV-ATP5A IN HUMAN PROXIMAL TUBULAR CELLS. IN ADDITION, JQ1 ALSO PREVENTED THE ALTERED MITOCHONDRIAL DYNAMICS BY AVOIDING THE INCREASE IN THE DRP-1 FISSION FACTOR. IN UUO MODEL, RENAL GENE EXPRESSION LEVELS OF CYTOCHROME C AND CV-ATP5A AS WELL AS PROTEIN LEVELS OF CYTOCHROME C WERE REDUCED THESE CHANGES WERE PREVENTED BY JQ1 ADMINISTRATION. IN ADDITION, JQ1 DECREASED PROTEIN LEVELS OF THE DRP1 FISSION PROTEIN AND INCREASED THE OPA-1 FUSION PROTEIN, RESTORING MITOCHONDRIAL DYNAMICS. MITOCHONDRIA ALSO PARTICIPATE IN THE MAINTENANCE OF REDOX BALANCE. JQ1 RESTORED THE GENE EXPRESSION OF ANTIOXIDANT PROTEINS, SUCH AS CATALASE AND HEME OXYGENASE 1 IN TGF-BETA1-STIMULATED HUMAN PROXIMAL TUBULAR CELLS AND IN MURINE OBSTRUCTED KIDNEYS. INDEED, IN TUBULAR CELLS, JQ1 DECREASED ROS PRODUCTION INDUCED BY STIMULATION WITH TGF-BETA1, AS EVALUATED BY MITOSOXTM. IBETS, SUCH AS JQ1, IMPROVE MITOCHONDRIAL DYNAMICS, FUNCTIONALITY, AND OXIDATIVE STRESS IN KIDNEY DISEASE. 2023 8 1980 31 EPIGENETIC ALTERATIONS IN CYTOCHROME P450 OXIDOREDUCTASE (POR) IN SPERM OF RATS EXPOSED TO TETRAHYDROCANNABINOL (THC). AS MARIJUANA LEGALIZATION IS INCREASING, RESEARCH REGARDING POSSIBLE LONG-TERM RISKS FOR USERS AND THEIR OFFSPRING IS NEEDED. LITTLE DATA EXISTS ON EFFECTS OF PATERNAL TETRAHYDROCANNABINOL (THC) EXPOSURE PRIOR TO REPRODUCTION. THIS STUDY DETERMINED IF CHRONIC THC EXPOSURE ALTERS SPERM DNA METHYLATION (DNAM) AND IF SUCH EFFECTS ARE INTERGENERATIONALLY TRANSMITTED. ADULT MALE RATS UNDERWENT ORAL GAVAGE WITH THC OR VEHICLE CONTROL. DIFFERENTIALLY METHYLATED (DM) LOCI IN MOTILE SPERM WERE IDENTIFIED USING REDUCED REPRESENTATION BISULFITE SEQUENCING (RRBS). ANOTHER COHORT WAS INJECTED WITH VEHICLE OR THC, AND SPERM DNAM WAS ANALYZED. FINALLY, THC-EXPOSED AND CONTROL ADULT MALE RATS WERE MATED WITH THC-NAIVE FEMALES. DNAM LEVELS OF TARGET GENES IN BRAIN TISSUES OF THE OFFSPRING WERE DETERMINED BY PYROSEQUENCING. RRBS IDENTIFIED 2,940 DM CPGS MAPPING TO 627 GENES. SIGNIFICANT HYPERMETHYLATION WAS CONFIRMED (P < 0.05) FOLLOWING ORAL THC ADMINISTRATION FOR CYTOCHROME P450 OXIDOREDUCTASE (POR), INVOLVED IN TOXIN PROCESSING AND DISORDERS OF SEXUAL DEVELOPMENT. POR HYPERMETHYLATION WAS NOT OBSERVED AFTER THC INJECTION OR IN THE SUBSEQUENT GENERATION. THESE RESULTS SUPPORT THAT THC ALTERS DNAM IN SPERM AND THAT ROUTE OF EXPOSURE CAN HAVE DIFFERENTIAL EFFECTS. ALTHOUGH WE DID NOT OBSERVE EVIDENCE OF INTERGENERATIONAL TRANSMISSION OF THE DNAM CHANGE, LARGER STUDIES ARE REQUIRED TO DEFINITIVELY EXCLUDE THIS POSSIBILITY. 2020 9 6456 35 THYMOSIN BETA4 PREVENTS OXIDATIVE STRESS, INFLAMMATION, AND FIBROSIS IN ETHANOL- AND LPS-INDUCED LIVER INJURY IN MICE. THYMOSIN BETA 4 (TBETA4), AN ACTIN-SEQUESTERING PROTEIN, IS INVOLVED IN TISSUE DEVELOPMENT AND REGENERATION. IT PREVENTS INFLAMMATION AND FIBROSIS IN SEVERAL TISSUES. WE INVESTIGATED THE ROLE OF TBETA4 IN CHRONIC ETHANOL- AND ACUTE LIPOPOLYSACCHARIDE- (LPS-) INDUCED MOUSE LIVER INJURY. C57BL/6 MICE WERE FED 5% ETHANOL IN LIQUID DIET FOR 4 WEEKS PLUS BINGE ETHANOL (5 G/KG, GAVAGE) WITH OR WITHOUT LPS (2 MG/KG, INTRAPERITONEAL) FOR 6 HOURS. TBETA4 (1 MG/KG, INTRAPERITONEAL) WAS ADMINISTERED FOR 1 WEEK. WE DEMONSTRATED THAT TBETA4 PREVENTED ETHANOL- AND LPS-MEDIATED INCREASE IN LIVER INJURY MARKERS AS WELL AS CHANGES IN LIVER PATHOLOGY. IT ALSO PREVENTED ETHANOL- AND LPS-MEDIATED INCREASE IN OXIDATIVE STRESS BY DECREASING ROS AND LIPID PEROXIDATION AND INCREASING THE ANTIOXIDANTS, REDUCED GLUTATHIONE AND MANGANESE-DEPENDENT SUPEROXIDE DISMUTASE. IT ALSO PREVENTED THE ACTIVATION OF NUCLEAR FACTOR KAPPA B BY BLOCKING THE PHOSPHORYLATION OF THE INHIBITORY PROTEIN, IKAPPAB, THEREBY PREVENTED PROINFLAMMATORY CYTOKINE PRODUCTION. MOREOVER, TBETA4 PREVENTED FIBROGENESIS BY SUPPRESSING THE EPIGENETIC REPRESSOR, METHYL-CPG-BINDING PROTEIN 2, THAT COORDINATELY REVERSED THE EXPRESSION OF PEROXISOME PROLIFERATOR-ACTIVATED RECEPTOR-GAMMA AND DOWNREGULATED FIBROGENIC GENES, PLATELET-DERIVED GROWTH FACTOR-BETA RECEPTOR, ALPHA-SMOOTH MUSCLE ACTIN, COLLAGEN 1, AND FIBRONECTIN, RESULTING IN REDUCED FIBROSIS. OUR DATA SUGGEST THAT TBETA4 HAS ANTIOXIDANT, ANTI-INFLAMMATORY, AND ANTIFIBROTIC POTENTIAL DURING ALCOHOLIC LIVER INJURY. 2018 10 2120 45 EPIGENETIC HISTONE MODIFICATIONS IN A CLINICALLY RELEVANT RAT MODEL OF CHRONIC ETHANOL-BINGE-MEDIATED LIVER INJURY. PURPOSE: ETHANOL BINGE AUGMENTS LIVER INJURY AFTER CHRONIC ETHANOL CONSUMPTION IN HUMANS, BUT THE MECHANISM BEHIND THE ENHANCED LIVER INJURY BY ETHANOL BINGE IS NOT KNOWN. IN THIS STUDY WE USED A CLINICALLY RELEVANT RAT MODEL IN WHICH LIVER INJURY IS AMPLIFIED BY BINGE AFTER CHRONIC ETHANOL TREATMENT AND INVESTIGATED THE IMPORTANCE OF HISTONE MODIFICATIONS. METHODS: EIGHT-WEEK-OLD SPRAGUE-DAWLEY RATS WERE FED ETHANOL IN A LIQUID DIET FOR 4 WEEKS. CONTROL RATS WERE FED AN ISOCALORIC LIQUID DIET. THIS WAS FOLLOWED BY THREE BINGE ADMINISTRATIONS OF ETHANOL (INTRAGASTRIC 5 G/KG BODY WEIGHT, 12 H APART). IN THE CONTROL, ETHANOL WAS REPLACED BY WATER. FOUR HOURS AFTER THE LAST BINGE ADMINISTRATION, LIVER SAMPLES WERE ANALYZED FOR HISTONE MODIFICATIONS AND PARAMETERS OF LIVER INJURY. RESULTS: CHRONIC ETHANOL ADMINISTRATION ALONE CAUSED AN INCREASE IN HISTONE H3 SER10 AND SER28 (H3S10 OR S28) PHOSPHORYLATION, AND BINGE ETHANOL REDUCED THEIR LEVELS. LEVELS OF DUALLY MODIFIED PHOSPHOACETYLATED HISTONE H3 (H3ACK9/PS10) INCREASED AFTER ACUTE BINGE ETHANOL AND REMAINED SAME AFTER CHRONIC ETHANOL BINGE. IN CONTRAST, HISTONE H3 LYSINE-9 ACETYLATION (H3ACK9) WAS NOT INCREASED AFTER CHRONIC ETHANOL BUT INCREASED SIGNIFICANTLY AFTER ACUTE BINGE AND CHRONIC ETHANOL BINGE. INCREASE IN HISTONE ACETYLATION WAS ACCOMPANIED BY INCREASED PHOSPHO-ERK1/2 IN THE NUCLEAR EXTRACTS. INCREASED ACETYLATION AFTER CHRONIC ETHANOL BINGE WAS ALSO ACCOMPANIED BY INCREASED PROTEIN LEVELS OF GCN5 HISTONE ACETYL TRANSFERASE AND A MODEST INCREASE IN HDAC3 IN THE NUCLEUS. HISTONE LYSINE-9 DIMETHYLATION WAS SIGNIFICANTLY INCREASED AFTER CHRONIC ETHANOL BINGE. CHRONIC ETHANOL BINGE ALSO RESULTED IN A DECREASE IN THE SAM:SAH RATIO WITH A RELATIVE DECREASE OF SAM LEVELS AND A CORRESPONDING INCREASE IN SAH LEVELS. CONCLUSIONS: ETHANOL BINGE AFTER CHRONIC ETHANOL ALTERED THE PROFILE OF SITE-SPECIFIC HISTONE MODIFICATIONS AND MAY UNDERLIE THE MECHANISM OF AUGMENTED LIVER INJURY BY CHRONIC-ETHANOL-BINGE-TREATED RATS. 2014 11 4899 31 OXIDATIVE STRESS MEDIATES THE APOPTOSIS AND EPIGENETIC MODIFICATION OF THE BCL-2 PROMOTER VIA DNMT1 IN A CIGARETTE SMOKE-INDUCED EMPHYSEMA MODEL. BACKGROUND: EMPHYSEMA IS A CRUCIAL PATHOLOGICAL CHARACTERISTIC OF CHRONIC OBSTRUCTIVE PULMONARY DISEASE (COPD). OXIDATIVE STRESS, APOPTOSIS AND EPIGENETIC MECHANISMS CONTRIBUTE TO THE PATHOGENESIS OF EMPHYSEMA. HOWEVER, AN ATTEMPT TO ACCURATELY IDENTIFY WHETHER THESE MECHANISMS INTERACT WITH EACH OTHER AND HOW THEY ARE TRIGGERED HAS NEVER BEEN CONDUCTED. METHOD: THE TOTAL REACTIVE OXYGEN SPECIES (ROS) LEVEL, PULMONARY APOPTOSIS AND B-CELL LYMPHOMA/LEUKEMIA-2 (BCL-2) EXPRESSION, AN APOPTOSIS REGULATOR, WERE DETECTED IN SAMPLES FROM COPD PATIENTS. BISULFITE SEQUENCING PCR (BSP) WAS CONDUCTED TO OBSERVE THE ALTERATIONS IN THE METHYLATION OF THE BCL-2 PROMOTER IN SPECIMENS. THE DYSREGULATION OF DNA METHYLTRANSFERASE ENZYME 1 (DNMT1), A VITAL DNA METHYLTRANSFERASE ENZYME, IN THE LUNGS OF PATIENTS WAS CONFIRMED THROUGH WESTERN BLOTTING. TO FIND OUT INTERACTIONS BETWEEN OXIDATIVE STRESS AND DNA METHYLATION IN EMPHYSEMA, MOUSE MODELS WERE BUILT WITH ANTIOXIDANT TREATMENT AND DNMT1 SILENCING, AND WERE EXAMINED WITH THE PULMONARY APOPTOSIS, BCL-2 AND DNMT1 LEVELS, AND EPIGENETIC ALTERATIONS OF BCL-2. RESULTS: HIGHER ROS LEVELS AND PULMONARY APOPTOSIS WERE OBSERVED IN COPD PATIENTS THAN IN HEALTHY CONTROLS. DOWNREGULATED BCL-2 EXPRESSION WITH INCREASED PROMOTER METHYLATION AND DNMT1 PROTEIN EXPRESSION WAS FOUND IN COPD PATIENTS. ANTIOXIDANT TREATMENT REDUCED THE LEVEL OF ROS, DNMT1 PROTEIN AND EMPHYSEMATOUS PROGRESSION IN THE SMOKING MODELS. FOLLOWING DNMT1 BLOCKADE, SMOKING MODELS SHOWED IMPROVED LUNG FUNCTION, PULMONARY APOPTOSIS, EMPHYSEMATOUS PROGRESSION, AND INCREASED BCL-2 PROTEIN LEVEL WITH LESS PROMOTER METHYLATION THAN EMPHYSEMA MICE. CONCLUSION: CIGARETTE-INDUCED OXIDATIVE STRESS MEDIATES PULMONARY APOPTOSIS AND HYPERMETHYLATION OF THE BCL-2 PROMOTER IN EMPHYSEMA MODELS THROUGH DNMT1. 2020 12 3619 44 IN VIVO ACUTE ON CHRONIC ETHANOL EFFECTS IN LIVER: A MOUSE MODEL EXHIBITING EXACERBATED INJURY, ALTERED METABOLIC AND EPIGENETIC RESPONSES. CHRONIC ALCOHOLICS WHO ALSO BINGE DRINK (I.E., ACUTE ON CHRONIC) ARE PRONE TO AN EXACERBATED LIVER INJURY BUT ITS MECHANISM IS NOT UNDERSTOOD. WE THEREFORE INVESTIGATED THE IN VIVO EFFECTS OF CHRONIC AND BINGE ETHANOL INGESTION AND COMPARED TO CHRONIC ETHANOL FOLLOWED BY THREE REPEAT BINGE ETHANOL ON THE LIVER OF MALE C57/BL6 MICE FED ETHANOL IN LIQUID DIET (4%) FOR FOUR WEEKS FOLLOWED BY BINGE ETHANOL (INTRAGASTRIC ADMINISTRATION, 3.5 G/KG BODY WEIGHT, THREE DOSES, 12H APART). CHRONIC FOLLOWED BY BINGE ETHANOL EXACERBATED FAT ACCUMULATION, NECROSIS, DECREASE IN HEPATIC SAM AND SAM:SAH RATIO, INCREASE IN ADENOSINE LEVELS, AND ELEVATED CYP2E1 LEVELS. HISTONE H3 LYSINE ACETYLATION (H3ACK9), DUALLY MODIFIED PHOSPHOACETYLATED HISTONE H3 (H3ACK9/PS10), AND PHOSPHORYLATED H2AX INCREASED AFTER BINGE WHEREAS PHOSPHORYLATION OF HISTONE H3 SER 10 (H3S10) AND H3 SER 28 (H3S28) INCREASED AFTER CHRONIC ETHANOL-BINGE. HISTONE H3 LYSINE 4 AND 9 DIMETHYLATION INCREASED WITH A MARKED DIMETHYLATION IN H3K9 IN CHRONIC ETHANOL BINGE GROUP. TRIMETHYLATED HISTONE H3 LEVELS DID NOT CHANGE. NUCLEAR LEVELS OF HISTONE ACETYL TRANSFERASE GCN5 AND HISTONE DEACETYLASE HDAC3 WERE ELEVATED WHEREAS PHOSPHO-CREB DECREASED IN A DISTINCTIVE MANNER. TAKEN TOGETHER, ACUTE ON CHRONIC ETHANOL INGESTION CAUSED AMPLIFICATION OF LIVER INJURY AND ELICITED CHARACTERISTIC PROFILES OF HISTONE MODIFICATIONS, METABOLIC ALTERATIONS, AND CHANGES IN NUCLEAR PROTEIN LEVELS. THESE FINDINGS DEMONSTRATE THAT CHRONIC ETHANOL EXPOSURE RENDERS LIVER MORE SUSCEPTIBLE TO REPEAT ACUTE/BINGE ETHANOL INDUCED ACCELERATION OF ALCOHOLIC LIVER DISEASE. 2015 13 872 41 CHRONIC ALCOHOL EXPOSURE DIFFERENTIALLY ALTERS ONE-CARBON METABOLISM IN RAT LIVER AND BRAIN. BACKGROUND: EPIGENETIC MECHANISMS SUCH AS DNA METHYLATION PLAY AN IMPORTANT ROLE IN REGULATING THE PATHOPHYSIOLOGY OF ALCOHOLISM. CHRONIC ALCOHOL EXPOSURE LEADS TO BEHAVIORAL CHANGES AS WELL AS DECREASED EXPRESSION OF GENES ASSOCIATED WITH SYNAPTIC PLASTICITY. IN THE LIVER, IT HAS BEEN DOCUMENTED THAT CHRONIC ALCOHOL EXPOSURE IMPAIRS METHIONINE SYNTHASE (MS) ACTIVITY LEADING TO A DECREASE IN S-ADENOSYL METHIONINE/S-ADENOSYL HOMOCYSTEINE (SAM/SAH) RATIO WHICH RESULTS IN DNA HYPOMETHYLATION; HOWEVER, IT IS NOT KNOWN WHETHER SIMILAR ALTERATIONS OF SAM AND SAH LEVELS ARE ALSO PRODUCED IN BRAIN. METHODS: MALE ADULT SPRAGUE DAWLEY RATS WERE FED CHRONICALLY WITH LIEBER-DECARLI ETHANOL (ETOH) (9% V/V) OR CONTROL DIET. THE ETOH-DIET-FED RATS WERE WITHDRAWN FOR 0 AND 24 HOURS. THE CEREBELLUM AND LIVER TISSUES WERE DISSECTED AND USED TO INVESTIGATE CHANGES IN ONE-CARBON METABOLISM, SAM, AND SAH LEVELS. RESULTS: WE FOUND THAT CHRONIC ETOH EXPOSURE DECREASED SAM LEVELS, SAM/SAH RATIO, MS, METHYLENE TETRAHYDROFOLATE REDUCTASE, AND BETAINE HOMOCYSTEINE METHYLTRANSFERASE (BHMT) EXPRESSION AND INCREASED METHIONINE ADENOSYLTRANSFERASE-2B (MAT2B) BUT NOT MAT2A EXPRESSION IN THE LIVER. IN CONTRAST, CHRONIC ETOH EXPOSURE DECREASED SAH LEVELS, INCREASED SAM/SAH RATIO AND THE EXPRESSION OF MAT2A AND S-ADENOSYL HOMOCYSTEINE HYDROLASE, WHILE THE LEVELS OF SAM OR BHMT EXPRESSION IN CEREBELLUM REMAINED UNALTERED. HOWEVER, IN BOTH LIVER AND CEREBELLUM, CHRONIC ETOH EXPOSURE DECREASED THE EXPRESSION OF MS AND INCREASED MAT2B EXPRESSION. ALL CHRONIC ETOH-INDUCED CHANGES OF ONE-CARBON METABOLISM IN CEREBELLUM, BUT NOT LIVER, RETURNED TO NEAR-NORMAL LEVELS DURING ETOH WITHDRAWAL. CONCLUSIONS: THESE RESULTS INDICATE A DECREASED "METHYLATION INDEX" IN LIVER AND AN INCREASED "METHYLATION INDEX" IN CEREBELLUM. THE OPPOSING CHANGES OF THE "METHYLATION INDEX" SUGGEST ALTERED DNA METHYLATION IN LIVER AND CEREBELLUM, THUS IMPLICATING ONE-CARBON METABOLISM IN THE PATHOPHYSIOLOGY OF ALCOHOLISM. 2017 14 3841 42 IRON SUPPLEMENTATION REVERSES THE REDUCTION OF HYDROXYMETHYLCYTOSINE IN HEPATIC DNA ASSOCIATED WITH CHRONIC ALCOHOL CONSUMPTION IN RATS. BACKGROUND: ALCOHOL IS KNOWN TO AFFECT TWO EPIGENETIC PHENOMENA, DNA METHYLATION AND DNA HYDROXYMETHYLATION, AND IRON IS A COFACTOR OF TEN-ELEVEN TRANSLOCATION (TET) ENZYMES THAT CATALYZE THE CONVERSION FROM METHYLCYTOSINE TO HYDROXYMETHYLCYTOSINE. IN THE PRESENT STUDY WE AIMED TO DETERMINE THE EFFECTS OF ALCOHOL ON DNA HYDROXYMETHYLATION AND FURTHER EFFECTS OF IRON ON ALCOHOL ASSOCIATED EPIGENETIC CHANGES. METHODS: TWENTY-FOUR MALE SPRAGUE-DAWLEY RATS WERE FED EITHER LIEBER-DECARLI ALCOHOL DIET (36% CALORIES FROM ETHANOL) OR LIEBER-DECARLI CONTROL DIET ALONG WITH OR WITHOUT IRON SUPPLEMENTATION (0.6% CARBONYL IRON) FOR 8 WEEKS. HEPATIC NON-HEME IRON CONCENTRATIONS WERE MEASURED BY COLORIMETRIC ASSAYS. PROTEIN LEVELS OF HEPATIC FERRITIN AND TRANSFERRIN RECEPTOR WERE DETERMINED BY WESTERN BLOTTING. METHYLCYTOSINE, HYDROXYMETHYLCYTOSINE AND UNMODIFIED CYTOSINE IN DNA WERE SIMULTANEOUSLY MEASURED BY LIQUID CHROMATOGRAPHY/MASS SPECTROMETRY METHOD. RESULTS: IRON SUPPLEMENTATION SIGNIFICANTLY INCREASED HEPATIC NON-HEME IRON CONTENTS (P < 0.05) BUT ALCOHOL ALONE DID NOT. HOWEVER, BOTH ALCOHOL AND IRON SIGNIFICANTLY INCREASED HEPATIC FERRITIN LEVELS AND DECREASED HEPATIC TRANSFERRIN RECEPTOR LEVELS (P < 0.05). ALCOHOL REDUCED HEPATIC DNA HYDROXYMETHYLATION (0.21% +/- 0.04% VS. 0.33% +/- 0.04%, P = 0.01) COMPARED TO CONTROL, WHILE IRON SUPPLEMENTATION TO ALCOHOL DIET DID NOT CHANGE DNA HYDROXYMETHYLATION. THERE WAS NO SIGNIFICANT DIFFERENCE IN METHYLCYTOSINE LEVELS, WHILE UNMODIFIED CYTOSINE LEVELS WERE SIGNIFICANTLY INCREASED IN ALCOHOL-FED GROUPS COMPARED TO CONTROL (95.61% +/- 0.08% VS. 95.26% +/- 0.12%, P = 0.03), SUGGESTING THAT ALCOHOL FURTHER INCREASES THE CONVERSION FROM HYDROXYMETHYLCYTOSINE TO UNMODIFIED CYTOSINE. CONCLUSIONS: CHRONIC ALCOHOL CONSUMPTION ALTERS GLOBAL DNA HYDROXYMETHYLATION IN THE LIVER BUT IRON SUPPLEMENTATION REVERSES THE EPIGENETIC EFFECT OF ALCOHOL. 2016 15 6425 23 THE TRANSCRIPTION FACTOR REST UP-REGULATES TYROSINE HYDROXYLASE AND ANTIAPOPTOTIC GENES AND PROTECTS DOPAMINERGIC NEURONS AGAINST MANGANESE TOXICITY. DOPAMINERGIC FUNCTIONS ARE IMPORTANT FOR VARIOUS BIOLOGICAL ACTIVITIES, AND THEIR IMPAIRMENT LEADS TO NEURODEGENERATION, A HALLMARK OF PARKINSON'S DISEASE (PD). CHRONIC MANGANESE (MN) EXPOSURE CAUSES THE NEUROLOGICAL DISORDER MANGANISM, PRESENTING SYMPTOMS SIMILAR TO THOSE OF PD. EMERGING EVIDENCE HAS LINKED THE TRANSCRIPTION FACTOR RE1-SILENCING TRANSCRIPTION FACTOR (REST) TO PD AND ALSO ALZHEIMER'S DISEASE. BUT REST'S ROLE IN DOPAMINERGIC NEURONS IS UNCLEAR. HERE, WE INVESTIGATED WHETHER REST PROTECTS DOPAMINERGIC NEURONS AGAINST MN-INDUCED TOXICITY AND ENHANCES EXPRESSION OF THE DOPAMINE-SYNTHESIZING ENZYME TYROSINE HYDROXYLASE (TH). WE REPORT THAT REST BINDS TO RE1 CONSENSUS SITES IN THE TH GENE PROMOTER, STIMULATES TH TRANSCRIPTION, AND INCREASES TH MRNA AND PROTEIN LEVELS IN DOPAMINERGIC CELLS. REST BINDING TO THE TH PROMOTER RECRUITED THE EPIGENETIC MODIFIER CAMP-RESPONSE ELEMENT-BINDING PROTEIN-BINDING PROTEIN/P300 AND THEREBY UP-REGULATED TH EXPRESSION. REST RELIEVED MN-INDUCED REPRESSION OF TH PROMOTER ACTIVITY, MRNA, AND PROTEIN LEVELS AND ALSO REDUCED MN-INDUCED OXIDATIVE STRESS, INFLAMMATION, AND APOPTOSIS IN DOPAMINERGIC NEURONS. REST REDUCED MN-INDUCED PROINFLAMMATORY CYTOKINES, INCLUDING TUMOR NECROSIS FACTOR ALPHA, INTERLEUKIN 1BETA (IL-1BETA), IL-6, AND INTERFERON GAMMA. MOREOVER, REST INHIBITED THE MN-INDUCED PROAPOPTOTIC PROTEINS BCL-2-ASSOCIATED X PROTEIN (BAX) AND DEATH-ASSOCIATED PROTEIN 6 (DAXX) AND ATTENUATED AN MN-INDUCED DECREASE IN THE ANTIAPOPTOTIC PROTEINS BCL-2 AND BCL-XL. REST ALSO ENHANCED THE EXPRESSION OF ANTIOXIDANT PROTEINS, INCLUDING CATALASE, NF-E2-RELATED FACTOR 2 (NRF2), AND HEME OXYGENASE 1 (HO-1). OUR FINDINGS INDICATE THAT REST ACTIVATES TH EXPRESSION AND THEREBY PROTECTS NEURONS AGAINST MN-INDUCED TOXICITY AND NEUROLOGICAL DISORDERS ASSOCIATED WITH DOPAMINERGIC NEURODEGENERATION. 2020 16 894 48 CHRONIC ETHANOL FEEDING ALTERS HEPATOCYTE MEMORY WHICH IS NOT ALTERED BY ACUTE FEEDING. BACKGROUND: GENE EXPRESSION CHANGES IN THE LIVER AFTER ACUTE BINGE DRINKING MAY DIFFER FROM THE CHANGES SEEN IN CHRONIC ETHANOL FEEDING IN THE RAT. THE CHANGES IN GENE EXPRESSION AFTER CHRONIC ETHANOL FEEDING MAY SENSITIZE THE LIVER TO ALCOHOL-INDUCED LIVER DAMAGE, WHICH IS NOT SEEN AFTER ACUTE BINGE DRINKING. METHODS: TO TEST THIS HYPOTHESIS, GENE MICROARRAY ANALYSIS WAS PERFORMED ON THE LIVERS OF RATS (N = 3) FED AN ACUTE BINGE DOSE OF ETHANOL (6 G/KG BODY WT) AND KILLED AT 3 AND 12 HOURS AFTER ETHANOL BY GAVAGE. THE GENE MICROARRAYS WERE COMPARED WITH THOSE MADE ON THE LIVER OF RATS FROM A PREVIOUS STUDY, IN WHICH THE RATS WERE FED ETHANOL BY INTRAGASTRIC TUBE FOR 1 MONTH (36% OF CALORIES DERIVED FROM ETHANOL). RESULTS: MICROARRAY ANALYSIS DATA VARIED BETWEEN THE ACUTE AND CHRONIC MODELS IN SEVERAL IMPORTANT RESPECTS. GROWTH FACTORS INCREASED MAINLY IN THE CHRONIC ALCOHOL FED RAT. CHANGES IN ENZYMES INVOLVED IN OXIDATIVE STRESS WERE NOTED ONLY WITH CHRONIC ETHANOL FEEDING. GENE EXPRESSION OF FAT METABOLISM WAS INCREASED ONLY WITH CHRONIC ETHANOL FEEDING. MOST IMPORTANTLY, EPIGENETIC RELATED ENZYMES AND ACETYLATION AND METHYLATION OF HISTONES CHANGED ONLY AFTER CHRONIC ETHANOL FEEDING. CONCLUSIONS: THE RESULTS SUPPORT THE CONCEPT THAT CHRONIC ETHANOL INGESTION INDUCES ALTERED GENE EXPRESSION AS A RESULT OF CHANGES IN EPIGENETIC MECHANISMS, WHERE ACETYLATION AND METHYLATION OF HISTONES WERE ALTERED. 2009 17 1875 43 EMERGING ROLE OF ONE-CARBON METABOLISM AND DNA METHYLATION ENRICHMENT ON DELTA-CONTAINING GABAA RECEPTOR EXPRESSION IN THE CEREBELLUM OF SUBJECTS WITH ALCOHOL USE DISORDERS (AUD). BACKGROUND: CEREBELLUM IS AN AREA OF THE BRAIN PARTICULARLY SENSITIVE TO THE EFFECTS OF ACUTE AND CHRONIC ALCOHOL CONSUMPTION. ALCOHOL EXPOSURE DECREASES CEREBELLAR PURKINJE CELL OUTPUT BY INCREASING GABA RELEASE FROM GOLGI CELLS ONTO EXTRASYNAPTIC ALPHA6/DELTA-CONTAINING GABAA RECEPTORS LOCATED ON GLUTAMATERGIC GRANULE CELLS. HERE, WE STUDIED WHETHER CHRONIC ALCOHOL CONSUMPTION INDUCES CHANGES IN GABAA RECEPTOR SUBUNIT EXPRESSION AND WHETHER THESE CHANGES ARE ASSOCIATED WITH ALTERATIONS IN EPIGENETIC MECHANISMS VIA DNA METHYLATION. METHODS: WE USED A COHORT OF POSTMORTEM CEREBELLUM FROM CONTROL AND CHRONIC ALCOHOLICS, HERE DEFINED AS ALCOHOL USE DISORDERS SUBJECTS (N=25/GROUP). S-ADENOSYL-METHIONINE/S-ADENOSYL-HOMOCYSTEINE WERE MEASURED BY HIGH-PERFORMANCE LIQUID CHROMATOGRAPHY. MRNA LEVELS OF VARIOUS GENES WERE ASSESSED BY REVERSE TRANSCRIPTASE-QUANTITATIVE POLYMERASE CHAIN REACTION. PROMOTER METHYLATION ENRICHMENT WAS ASSESSED USING METHYLATED DNA IMMUNOPRECIPITATION AND HYDROXY-METHYLATED DNA IMMUNOPRECIPITATION ASSAYS. RESULTS: MRNAS ENCODING KEY ENZYMES OF 1-CARBON METABOLISM THAT DETERMINE THE S-ADENOSYL-METHIONINE/S-ADENOSYL-HOMOCYSTEINE RATIO WERE INCREASED, INDICATING HIGHER "METHYLATION INDEX" IN ALCOHOL USE DISORDER SUBJECTS. WE FOUND THAT INCREASED METHYLATION OF THE PROMOTER OF THE DELTA SUBUNIT GABAA RECEPTOR WAS ASSOCIATED WITH REDUCED MRNA AND PROTEIN LEVELS IN THE CEREBELLUM OF ALCOHOL USE DISORDER SUBJECTS. NO CHANGES WERE OBSERVED IN ALPHA1- OR ALPHA6-CONTAINING GABAA RECEPTOR SUBUNITS. THE EXPRESSION OF DNA-METHYLTRANSFERASES (1, 3A, AND 3B) WAS UNALTERED, WHEREAS THE MRNA LEVEL OF TET1, WHICH PARTICIPATES IN THE DNA DEMETHYLATION PATHWAY, WAS DECREASED. HENCE, INCREASED METHYLATION OF THE DELTA SUBUNIT GABAA RECEPTOR PROMOTER MAY RESULT FROM ALCOHOL-INDUCED REDUCTION OF DNA DEMETHYLATION. CONCLUSION: TOGETHER, THESE RESULTS SUPPORT THE HYPOTHESIS THAT ABERRANT DNA METHYLATION PATHWAYS MAY BE INVOLVED IN CEREBELLAR PATHOPHYSIOLOGY OF ALCOHOLISM. FURTHERMORE, THIS WORK PROVIDES NOVEL EVIDENCE FOR A CENTRAL ROLE OF DNA METHYLATION MECHANISMS IN THE ALCOHOL-INDUCED NEUROADAPTIVE CHANGES OF HUMAN CEREBELLAR GABAA RECEPTOR FUNCTION. 2017 18 6689 32 VALPROIC ACID AT THERAPEUTIC PLASMA LEVELS MAY INCREASE 5-AZACYTIDINE EFFICACY IN HIGHER RISK MYELODYSPLASTIC SYNDROMES. PURPOSE: EPIGENETIC CHANGES PLAY A ROLE AND COOPERATE WITH GENETIC ALTERATIONS IN THE PATHOGENESIS OF MYELODYSPLASTIC SYNDROMES (MDS). WE CONDUCTED A PHASE II MULTICENTER STUDY ON THE COMBINATION OF THE DNA-METHYLTRANSFERASE INHIBITOR 5-AZACYTIDINE (5-AZA) AND THE HISTONE DEACETYLASE INHIBITOR VALPROIC ACID (VPA) IN PATIENTS WITH HIGHER RISK MDS. EXPERIMENTAL DESIGN: WE ENROLLED 62 PATIENTS WITH MDS (REFRACTORY ANEMIA WITH EXCESS BLASTS, 39 PATIENTS; REFRACTORY ANEMIA WITH EXCESS BLASTS IN TRANSFORMATION, 19 PATIENTS; AND CHRONIC MYELOMANOCYTIC LEUKEMIA (CMML), 4 PATIENTS) AND AN INTERNATIONAL PROGNOSTIC SCORING SYSTEM (IPSS) RATING OF INTERMEDIATE-2 (42 PATIENTS) OR HIGH (20 PATIENTS). VPA WAS GIVEN TO REACH A PLASMA CONCENTRATION OF >50 MICROG/ML, THEN 5-AZA WAS ADDED S.C. AT 75 MG/M(2) FOR 7 DAYS IN EIGHT MONTHLY CYCLES. RESULTS: THE MEDIAN OVERALL SURVIVAL WAS 14.4 MONTHS. AT A MEDIAN FOLLOW-UP OF 12 MONTHS (RANGE, 0.7-21.0), THE DISEASE PROGRESSED IN 20 PATIENTS, WITH 21% CUMULATIVE INCIDENCE OF PROGRESSION. OF 26 PATIENTS WHO COMPLETED EIGHT CYCLES, 30.7% OBTAINED COMPLETE OR PARTIAL REMISSION, 15.4% HAD A MAJOR HEMATOLOGIC IMPROVEMENT, WHEREAS 38.5% SHOWED STABLE DISEASE. DRUG-RELATED TOXICITY WAS MILD. FAVORABLE PROGNOSTIC FACTORS FOR SURVIVAL WERE IPSS INTERMEDIATE-2 AND PLASMA VPA OF > OR =50 MICROG/ML (LOG RANK = 0.013 AND 0.007, RESPECTIVELY). ANALYSIS OF POLYMORPHISMS IMPORTANT FOR THE METABOLISM OF THE DRUGS USED IN THE TRIAL SHOWED THAT CARRIERS OF THE CYP2C19*2 VARIANT OF CYTOCHROME P450 REQUIRED HIGHER VPA DOSES TO ACHIEVE THE TARGET VPA PLASMA CONCENTRATION OF 50 MICROG/ML ON DAY 1 OF 5-AZA TREATMENT (P = 0.0021). CONCLUSION: OUR DATA SHOW THAT THE 5-AZA/VPA COMBINATION IS ACTIVE AND SAFE IN PATIENTS WITH MDS WITH A POOR PROGNOSIS. ACHIEVEMENT OF VPA THERAPEUTIC LEVELS MAY INDEED INCREASE 5-AZA EFFICACY. 2009 19 312 42 ALCOHOL FEEDING IN MICE PROMOTES COLONIC HYPERPERMEABILITY AND CHANGES IN COLONIC ORGANOID STEM CELL FATE. BACKGROUND: ALCOHOL INCREASES INTESTINAL PERMEABILITY TO PROINFLAMMATORY MICROBIAL PRODUCTS THAT PROMOTE LIVER DISEASE, EVEN AFTER A PERIOD OF SOBRIETY. WE SOUGHT TO TEST THE HYPOTHESIS THAT ALCOHOL AFFECTS INTESTINAL STEM CELLS USING AN IN VIVO MODEL AND EX VIVO ORGANOIDS GENERATED FROM JEJUNUM AND COLON FROM MICE FED CHRONIC ALCOHOL. METHODS: MICE WERE FED A CONTROL OR AN ALCOHOL DIET. INTESTINAL PERMEABILITY, LIVER STEATOSIS-INFLAMMATION, AND STOOL SHORT-CHAIN FATTY ACIDS (SCFAS) WERE MEASURED. JEJUNUM AND COLONIC ORGANOIDS AND TISSUE WERE STAINED FOR STEM CELL, CELL LINEAGE, AND APICAL JUNCTION MARKERS WITH ASSESSMENT OF MRNA BY PCR AND RNA-SEQ. CHIP-PCR ANALYSIS WAS CARRIED OUT FOR NOTCH1 USING AN ANTIBODY SPECIFIC FOR ACETYLATED HISTONE 3. RESULTS: ALCOHOL-FED MICE EXHIBITED COLONIC (BUT NOT SMALL INTESTINAL) HYPERPERMEABILITY, STEATOHEPATITIS, AND DECREASED BUTYRATE/TOTAL SCFA RATIO IN STOOL. STEM CELL, CELL LINEAGE, AND APICAL JUNCTION MARKER STAINING IN TISSUE OR ORGANOIDS FROM JEJUNUM TISSUE WERE NOT IMPACTED BY ALCOHOL. ONLY CHROMOGRANIN A (CHGA) WAS INCREASED IN JEJUNUM ORGANOIDS BY QPCR. HOWEVER, COLONIC TISSUE AND ORGANOID STAINING EXHIBITED AN ALCOHOL-INDUCED SIGNIFICANT DECREASE IN CYTOKERATIN 20+ (KRT20+) ABSORPTIVE LINEAGE ENTEROCYTES, A DECREASE IN OCCLUDIN AND E-CADHERIN APICAL JUNCTION PROTEINS, AN INCREASE IN CHGA, AND AN INCREASE IN THE LGR5 STEM CELL MARKER. QPCR REVEALED AN ALCOHOL-INDUCED DECREASE IN COLONIC ORGANOID AND TISSUE NOTCH1, HES1, AND KRT20 AND INCREASED CHGA, SUPPORTING AN ALTERATION IN STEM CELL FATE DUE TO DECREASED NOTCH1 EXPRESSION. COLONIC TISSUE CHIP-PCR REVEALED ALCOHOL FEEDING SUPPRESSED NOTCH1 MRNA EXPRESSION (VIA DEACETYLATION OF HISTONE H3) AND DECREASED NOTCH1 TISSUE STAINING. CONCLUSIONS: DATA SUPPORT A MODEL FOR ALCOHOL-INDUCED COLONIC HYPERPERMEABILITY VIA EPIGENETIC EFFECTS ON NOTCH1, AND THUS HES1, SUPPRESSION THROUGH A MECHANISM INVOLVING HISTONE H3 DEACETYLATION AT THE NOTCH1 LOCUS. THIS DECREASED ENTEROCYTE AND INCREASED ENTEROENDOCRINE CELL COLONIC STEM CELL FATE AND DECREASED APICAL JUNCTIONAL PROTEINS LEADING TO HYPERPERMEABILITY. 2017 20 5714 27 SIRT3 OVEREXPRESSION AND EPIGENETIC SILENCING OF CATALASE REGULATE ROS ACCUMULATION IN CLL CELLS ACTIVATING AXL SIGNALING AXIS. MITOCHONDRIAL METABOLISM IS THE KEY SOURCE FOR ABUNDANT ROS IN CHRONIC LYMPHOCYTIC LEUKEMIA (CLL) CELLS. HERE, WE DETECTED SIGNIFICANTLY LOWER SUPEROXIDE ANION (O(2)(-)) LEVELS WITH INCREASED ACCUMULATION OF HYDROGEN PEROXIDE (H(2)O(2)) IN CLL CELLS VS. NORMAL B-CELLS. FURTHER ANALYSIS INDICATED THAT MITOCHONDRIAL SUPEROXIDE DISMUTASE (SOD)2, WHICH CONVERTS O(2)(-) INTO H(2)O(2) REMAINED DEACETYLATED IN CLL CELLS DUE TO SIRT3 OVEREXPRESSION RESULTING ITS CONSTITUTIVE ACTIVATION. IN ADDITION, CATALASE EXPRESSION WAS ALSO REDUCED IN CLL CELLS SUGGESTING IMPAIRMENT OF H(2)O(2)-CONVERSION INTO WATER AND O(2) WHICH MAY CAUSE H(2)O(2)-ACCUMULATION. IMPORTANTLY, WE IDENTIFIED TWO CPG-ISLANDS IN THE CATALASE PROMOTER AND DISCOVERED THAT WHILE THE DISTAL CPG-ISLAND (-3619 TO -3765) REMAINED METHYLATED IN BOTH NORMAL B-CELLS AND CLL CELLS, VARIABLE DEGREES OF METHYLATION WERE DISCERNIBLE IN THE PROXIMAL CPG-ISLAND (-174 TO -332) ONLY IN CLL CELLS. FINALLY, TREATMENT OF CLL CELLS WITH A DEMETHYLATING AGENT INCREASED CATALASE MRNA LEVELS. FUNCTIONALLY, ROS ACCUMULATION IN CLL CELLS ACTIVATED THE AXL SURVIVAL AXIS WHILE UPREGULATED SIRT3, SUGGESTING THAT CLL CELLS RAPIDLY REMOVE HIGHLY REACTIVE O(2)(-) TO AVOID ITS CYTOTOXIC EFFECT BUT MAINTAIN INCREASED H(2)O(2)-LEVEL TO PROMOTE CELL SURVIVAL. THEREFORE, ABROGATION OF ABERRANTLY ACTIVATED CELL SURVIVAL PATHWAYS USING ANTIOXIDANTS CAN BE AN EFFECTIVE INTERVENTION IN CLL THERAPY IN COMBINATION WITH CONVENTIONAL AGENTS. 2021