1 872 132 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 THE ETOH-DIET-FED RATS WERE WITHDRAWN FOR 0 AND 24 HOURS.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 2 894 38 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 3 2907 42 GENE EXPRESSION MODIFICATIONS IN THE LIVER CAUSED BY BINGE DRINKING AND S-ADENOSYLMETHIONINE FEEDING. THE ROLE OF EPIGENETIC CHANGES. CHRONIC ETHANOL INGESTION, ACHIEVED BY FEEDING ETHANOL AT A CONSTANT RATE USING INTRAGASTRIC TUBE FEEDING, ALTERS THE EXPRESSION OF GENES IN THE LIVER. THIS IS DONE BY EPIGENETIC MECHANISMS, WHICH DEPEND ON THE BLOOD ALCOHOL LEVELS AT THE TIME OF KILLING. HOWEVER, ACUTE BOLUS FEEDING OF ETHANOL CHANGES GENE EXPRESSION WITHOUT LASTING EPIGENETIC CHANGES. THIS OCCURS WITH HISTONE 3 METHYLATION AND ACETYLATION MODIFICATIONS. THE GENE EXPRESSION RESPONSE TO AN ACUTE BOLUS OF ETHANOL MIGHT BE MODIFIED BY FEEDING S-ADENOSYLMETHIONINE (SAME), A METHYL DONOR. IN THE PRESENT STUDY, RATS WERE GIVEN A BOLUS OF ETHANOL (6 G/KG BODY WEIGHT (BW), SAME (1 G/KG BW), ETHANOL + SAME, OR ISOCALORIC GLUCOSE. THE GROUP OF RATS (N = 3) WERE KILLED AT 3 AND 12 H POST BOLUS, AND GENE MICROARRAY ANALYSIS WAS PERFORMED ON THEIR LIVER CELLS. SAME REDUCED THE 3 H BLOOD ETHANOL LEVELS AND INCREASED THE ALT LEVELS AT 3 H. VENN DIAGRAMS SHOWED THAT ALCOHOL CHANGED THE EXPRESSION OF 646 GENES AT 3 H POST BOLUS AND 586 GENES AT 12 H. SAME CHANGED THE EXPRESSION OF 1,012 GENES WHEN FED WITH ETHANOL 3 H POST ETHANOL BOLUS AND 554 GENES AT 12 H POST ETHANOL BOLUS. SAME ALONE CHANGED THE EXPRESSION OF 1,751 GENES AT 3 H AND 1,398 AT 12 H. THERE WERE MORE CHANGES IN GENE EXPRESSION AT 3 H THAN AT 12 H POST ETHANOL WHEN ETHANOL ALONE WAS COMPARED TO THE DEXTROSE CONTROL. THE SAME WAS TRUE WHEN SAME WAS COMPARED TO SAME + ETHANOL. ETHANOL UP REGULATED GENE EXPRESSION IN MOST FUNCTIONAL PATHWAYS AT 3 H. HOWEVER, WHEN SAME WAS FED WITH ETHANOL AT 3 H, MOST PATHWAYS WERE DOWN REGULATED. AT 12 H, HOWEVER, WHEN ETHANOL WAS FED, THE PATHWAYS WERE HALF UP REGULATED AND HALF DOWN REGULATED. THE SAME WAS TRUE WHEN SAME + ETHANOL WAS FED. THE EXPRESSION OF EPIGENETICALLY IMPORTANT GENES, SUCH AS BHMT AND FOXN3, WAS UP REGULATED 3 H POST ALCOHOL BOLUS. AT 3 H, SAME DOWN REGULATED THE EXPRESSION OF GENES, SUCH AS BHMT, MAT2A, JUN, TNFRS9, AHCY 1, TGFBR1 AND 2, AND PCAF. AT 12 H, THE INSULIN SIGNALING PATHWAYS WERE HALF DOWN REGULATED BY ETHANOL, WHICH WAS PARTLY PREVENTED BY SAME. THE MAPK PATHWAY WAS UP REGULATED BY ETHANOL, BUT SAME DID NOT PREVENT THIS. IN CONCLUSION, PROFOUND CHANGES IN GENE EXPRESSION EVOLVED BETWEEN 3 H AND 12 POST ETHANOL BOLUS. SAME DOWN REGULATED THESE CHANGES IN GENE EXPRESSION AT 3 H, AND LESS SO AT 12 H. 2010 4 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 5 2156 51 EPIGENETIC MECHANISMS ARE INVOLVED IN THE REGULATION OF ETHANOL CONSUMPTION IN MICE. BACKGROUND: REPEATED ALCOHOL EXPOSURE IS KNOWN TO INCREASE SUBSEQUENT ETHANOL CONSUMPTION IN MICE. HOWEVER, THE UNDERLYING MECHANISMS HAVE NOT BEEN FULLY ELUCIDATED. ONE POSTULATED MECHANISM INVOLVES EPIGENETIC MODIFICATIONS, INCLUDING HISTONE MODIFICATIONS AND DNA METHYLATION OF RELEVANT GENES SUCH AS NR2B OR BDNF. METHODS: TO INVESTIGATE THE ROLE OF EPIGENETIC MECHANISMS IN THE DEVELOPMENT OF ALCOHOL DRINKING BEHAVIOR, AN ESTABLISHED CHRONIC INTERMITTENT ETHANOL EXPOSURE REINFORCED ETHANOL DRINKING MOUSE MODEL WITH VAPOR INHALATION OVER TWO 9-DAY TREATMENT REGIMENS WAS USED. THE DNA METHYLTRANSFERASE INHIBITOR, 5-AZACYTIDINE OR THE HISTONE DEACETYLASE INHIBITOR, TRICHOSTATIN A WAS ADMINISTERED (INTRAPERITONEALLY) TO C57BL/6 MICE 30 MIN BEFORE DAILY EXPOSURE TO CHRONIC INTERMITTENT ETHANOL. CHANGES IN ETHANOL CONSUMPTION WERE MEASURED USING THE 2-BOTTLE CHOICE TEST. RESULTS: THE RESULTS INDICATED THAT SYSTEMIC ADMINISTRATION OF TRICHOSTATIN A (2.5 MICROG/G) FACILITATED CHRONIC INTERMITTENT ETHANOL-INDUCED ETHANOL DRINKING, BUT SYSTEMIC ADMINISTRATION OF 5-AZACYTIDINE (2 MICROG/G) DID NOT CAUSE THE SAME EFFECT. HOWEVER, WHEN 5-AZACYTIDINE WAS ADMINISTERED BY INTRACEREBROVENTRICULAR INJECTION, IT FACILITATED CHRONIC INTERMITTENT ETHANOL-INDUCED ETHANOL DRINKING. FURTHERMORE, THE INCREASED DRINKING CAUSED BY CHRONIC INTERMITTENT ETHANOL WAS PREVENTED BY INJECTION OF A METHYL DONOR, S-ADENOSYL-L-METHIONINE. TO PROVIDE EVIDENCE THAT CHRONIC INTERMITTENT ETHANOL- OR TRICHOSTATIN A-INDUCED DNA DEMETHYLATION AND HISTONE MODIFICATIONS OF THE NR2B PROMOTER MAY UNDERLIE THE ALTERED ETHANOL CONSUMPTION, WE EXAMINED EPIGENETIC MODIFICATIONS AND NR2B EXPRESSION IN THE PREFRONTAL CORTEX OF THESE MICE. CHRONIC INTERMITTENT ETHANOL OR TRICHOSTATIN A DECREASED DNA METHYLATION AND INCREASED HISTONE ACETYLATION IN THE NR2B GENE PROMOTER, AS WELL AS MRNA LEVELS OF NR2B IN THESE MICE. CONCLUSIONS: TAKEN TOGETHER, THESE RESULTS INDICATE THAT EPIGENETIC MODIFICATIONS ARE INVOLVED IN REGULATING ETHANOL DRINKING BEHAVIOR, PARTIALLY THROUGH ALTERING NR2B EXPRESSION. 2014 6 1781 34 EFFECT OF 1 YEAR B AND D VITAMIN SUPPLEMENTATION ON LINE-1 REPETITIVE ELEMENT METHYLATION IN OLDER SUBJECTS. BACKGROUND: DISTURBED DNA METHYLATION IS CAUSALLY RELATED TO CHRONIC DISEASES LIKE CANCER AND ATHEROSCLEROSIS. B VITAMINS ARE COFACTORS REQUIRED FOR METHYL GROUP SYNTHESIS AND MAY THEREFORE AFFECT DNA METHYLATION. VITAMIN D HAS EPIGENETIC EFFECTS. WE TESTED IF B AND D VITAMIN SUPPLEMENTATION HAS AN EFFECT ON GENOMIC LONG INTERSPERSED NUCLEAR ELEMENT-1 (LINE-1) METHYLATION AND THE METABOLITES S-ADENOSYLMETHIONINE (SAM) AND S-ADENOSYLHOMOCYSTEINE (SAH). METHODS: FIFTY SUBJECTS (MEDIAN AGE 68.0 YEARS) WERE SUPPLEMENTED WITH A DAILY ORAL DOSE OF B VITAMINS (500 MICROG FOLIC ACID, 500 MICROG VITAMIN B12 AND 50 MG VITAMIN B6), 1200 IU VITAMIN D AND 456 MG CALCIUM. FASTING BLOOD SAMPLES WERE COLLECTED BEFORE AND AFTER 1 YEAR OF SUPPLEMENTATION. LINE-1 METHYLATION WAS DETERMINED IN GENOMIC DNA FROM BLOOD CELLS AS A SURROGATE FOR WHOLE GENOME METHYLATION. IN ADDITION, SAM, SAH AND TOTAL HOMOCYSTEINE (THCY) WERE MEASURED IN PLASMA SAMPLES. RESULTS: PLASMA HOMOCYSTEINE DECREASED SIGNIFICANTLY AFTER SUPPLEMENTATION (12.8 VS. 9.1 MICROMOL/L; P<0.05), WHEREAS SAM, SAH, THE SAM/SAH RATIO AND LINE-1 METHYLATION DID NOT CHANGE SIGNIFICANTLY. LINE-1 METHYLATION WAS NOT SIGNIFICANTLY CORRELATED WITH SAH, HOMOCYSTEINE OR B VITAMINS. CONCLUSIONS: LONG-TERM VITAMIN B SUPPLEMENTATION HAD NO EFFECT ON LINE-1 METHYLATION IN BLOOD CELLS NOR ON PLASMA LEVELS OF SAM AND SAH. VITAMIN B AND D SUPPLEMENTATION SEEMS TO HAVE NO EFFECT ON DNA METHYLATION, ESPECIALLY IN CASES WHERE NO SEVERE DEFICIENCY EXISTS. 2013 7 286 43 AGING AND ALCOHOL INTERACT TO ALTER HEPATIC DNA HYDROXYMETHYLATION. BACKGROUND: AGING AND CHRONIC ALCOHOL CONSUMPTION ARE BOTH MODIFIERS OF DNA METHYLATION, BUT IT IS NOT YET KNOWN WHETHER CHRONIC ALCOHOL CONSUMPTION ALSO ALTERS DNA HYDROXYMETHYLATION, A NEWLY DISCOVERED EPIGENETIC MARK PRODUCED BY OXIDATION OF METHYLCYTOSINE. FURTHERMORE, IT HAS NOT BEEN TESTED WHETHER AGING AND ALCOHOL INTERACT TO MODIFY THIS EPIGENETIC PHENOMENON, THEREBY HAVING AN INDEPENDENT EFFECT ON GENE EXPRESSION. METHODS: OLD (18 MONTHS) AND YOUNG (4 MONTHS) MALE C57BL/6 MICE WERE PAIR-FED EITHER A LIEBER-DECARLI LIQUID DIET WITH ALCOHOL (18% OF ENERGY) OR AN ISOCALORIC LIEBER-DECARLI CONTROL DIET FOR 5 WEEKS. GLOBAL DNA HYDROXYMETHYLATION AND DNA METHYLATION WERE ANALYZED FROM HEPATIC DNA USING A NEW LIQUID CHROMATOGRAPHY-TANDEM MASS SPECTROMETRY METHOD. HEPATIC MRNA EXPRESSION OF THE TET ENZYMES WERE MEASURED VIA QUANTITATIVE REAL-TIME POLYMERASE CHAIN REACTION. RESULTS: IN YOUNG MICE, MILD CHRONIC ALCOHOL EXPOSURE SIGNIFICANTLY REDUCED GLOBAL DNA HYDROXYMETHYLATION COMPARED WITH CONTROL MICE (0.22 +/- 0.01 VS. 0.29 +/- 0.06%, P = 0.004). ALCOHOL DID NOT SIGNIFICANTLY ALTER HYDROXYMETHYLCYTOSINE LEVELS IN OLD MICE. OLD MICE FED THE CONTROL DIET SHOWED DECREASED GLOBAL DNA HYDROXYMETHYLATION COMPARED WITH YOUNG MICE FED THE CONTROL DIET (0.24 +/- 0.02 VS. 0.29 +/- 0.06%, P = 0.04). THIS MODEL SUGGESTS AN INTERACTION BETWEEN AGING AND ALCOHOL IN DETERMINING DNA HYDROXYMETHYLATION (PINTERACTION = 0.009). EXPRESSION OF TET2 AND TET3 WAS DECREASED IN THE OLD MICE RELATIVE TO THE YOUNG (P < 0.005). CONCLUSIONS: THE OBSERVATION THAT ALCOHOL ALTERS DNA HYDROXYMETHYLATION INDICATES A NEW EPIGENETIC EFFECT OF ALCOHOL. THIS IS THE FIRST STUDY DEMONSTRATING THE INTERACTIVE EFFECTS OF CHRONIC ALCOHOL CONSUMPTION AND AGING ON DNA HYDROXYMETHYLATION. 2014 8 5609 41 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 9 1875 53 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 10 6246 41 THE METHYL DONOR S-ADENOSYL METHIONINE REVERSES THE DNA METHYLATION SIGNATURE OF CHRONIC NEUROPATHIC PAIN IN MOUSE FRONTAL CORTEX. CHRONIC PAIN IS ASSOCIATED WITH PERSISTENT BUT REVERSIBLE STRUCTURAL AND FUNCTIONAL CHANGES IN THE PREFRONTAL CORTEX (PFC). THIS STABLE YET MALLEABLE PLASTICITY IMPLICATES EPIGENETIC MECHANISMS, INCLUDING DNA METHYLATION, AS A POTENTIAL MEDIATOR OF CHRONIC PAIN-INDUCED CORTICAL PATHOLOGY. WE PREVIOUSLY DEMONSTRATED THAT CHRONIC ORAL ADMINISTRATION OF THE METHYL DONOR S-ADENOSYL METHIONINE (SAM) ATTENUATES LONG-TERM PERIPHERAL NEUROPATHIC PAIN AND ALTERS GLOBAL FRONTAL CORTICAL DNA METHYLATION. HOWEVER, THE SPECIFIC GENES AND PATHWAYS ASSOCIATED WITH THE RESOLUTION OF CHRONIC PAIN BY SAM REMAIN UNEXPLORED. OBJECTIVE: TO DETERMINE THE EFFECT OF LONG-TERM THERAPEUTIC EXPOSURE TO SAM ON THE DNA METHYLATION OF INDIVIDUAL GENES AND PATHWAYS IN A MOUSE NEUROPATHIC PAIN MODEL. METHODS: MALE CD-1 MICE RECEIVED SPARED NERVE INJURY OR SHAM SURGERY. THREE MONTHS AFTER INJURY, ANIMALS RECEIVED SAM (20 MG/KG, ORAL, 3X A WEEK) OR VEHICLE FOR 16 WEEKS FOLLOWED BY EPIGENOME-WIDE ANALYSIS OF FRONTAL CORTEX. RESULTS: PERIPHERAL NEUROPATHIC PAIN WAS ASSOCIATED WITH 4000 DIFFERENTIALLY METHYLATED GENOMIC REGIONS THAT WERE ENRICHED IN INTRACELLULAR SIGNALING, CELL MOTILITY AND MIGRATION, CYTOSKELETAL STRUCTURE, AND CELL ADHESION PATHWAYS. A THIRD OF THESE DIFFERENTIALLY METHYLATED REGIONS WERE REVERSED BY SAM TREATMENT (1415 REGIONS REPRESENTING 1013 GENES). MORE THAN 100 GENES WITH KNOWN PAIN-RELATED FUNCTION WERE DIFFERENTIALLY METHYLATED AFTER NERVE INJURY; 29 OF THESE WERE REVERSED BY SAM TREATMENT INCLUDING SCN10A, TRPA1, NTRK1, AND GFAP. CONCLUSION: THESE RESULTS SUGGEST A ROLE FOR THE EPIGENOME IN THE MAINTENANCE OF CHRONIC PAIN AND ADVANCE EPIGENETIC MODULATORS SUCH AS SAM AS A NOVEL APPROACH TO TREAT CHRONIC PAIN. 2021 11 1800 38 EFFECT OF HISTONE DEACETYLASE INHIBITOR ON ETHANOL WITHDRAWAL-INDUCED HYPERALGESIA IN RATS. BACKGROUND: INCREASED PAIN SENSITIVITY IS OBSERVED FOLLOWING ALCOHOL WITHDRAWAL, AND ATTEMPTS TO ALLEVIATE THIS HYPERALGESIA CAN CONTRIBUTE TO THE CYCLE OF ADDICTION. THE AIM OF THIS STUDY WAS TO DETERMINE IF ALCOHOL WITHDRAWAL-INDUCED HYPERALGESIA WAS OBSERVED IN A CHRONIC ETHANOL EXPOSURE MODEL AND IF THIS PAIN WAS AFFECTED BY HISTONE DEACETYLASE INHIBITORS, THUS REVEALING AN EPIGENETIC MECHANISM. METHODS: ADULT MALE SPRAGUE DAWLEY RATS RECEIVED LIEBER-DECARLI LIQUID CONTROL OR ETHANOL (9% V/V) DIET FOR 15 DAYS. MECHANICAL SENSITIVITY WAS MEASURED WITH VON FREY HAIR STIMULATION OF THE HINDPAW DURING ETHANOL ADMINISTRATION AND 24- AND 72-HOUR WITHDRAWAL. RESULTS: ETHANOL WITHDRAWAL PRODUCED SEVERE AND SUSTAINED MECHANICAL HYPERALGESIA, AN EFFECT NOT OBSERVED IN THE CONTROL OR ETHANOL-MAINTAINED GROUPS. FURTHERMORE, THIS HYPERALGESIA WAS ATTENUATED BY THE HISTONE DEACETYLASE INHIBITOR, SUBEROYLANILIDE HYDROXAMIC ACID TREATMENT. CONCLUSIONS: HEIGHTENED PAIN SENSITIVITY WAS OBSERVED FOLLOWING WITHDRAWAL FROM CHRONIC ETHANOL EXPOSURE, AND HISTONE DEACETYLASE INHIBITORS COULD BE NOVEL TREATMENTS FOR THIS ALCOHOL WITHDRAWAL-INDUCED HYPERALGESIA. 2019 12 6220 31 THE KIDNEY IS THE MAJOR SITE OF S-ADENOSYLHOMOCYSTEINE DISPOSAL IN HUMANS. S-ADENOSYLHOMOCYSTEINE (SAH), THE METABOLIC PRECURSOR OF HOMOCYSTEINE IN THE BODY, IS A POTENT INHIBITOR OF METHYLATION REACTIONS. SEVERAL METHYLATION REACTIONS PLAY A MAJOR ROLE IN EPIGENETIC REGULATION OF PROTEIN EXPRESSION, ATHEROSCLEROSIS, AND CANCER DEVELOPMENT. HERE WE STUDIED THE MECHANISMS RESPONSIBLE FOR THE MAINTENANCE OF CIRCULATING SAH LEVELS BY MEASUREMENT OF THE ARTERIO-VENOUS DIFFERENCES ACROSS THE KIDNEY, SPLANCHNIC ORGANS, AND THE LUNG IN HUMANS. THE LUNGS DID NOT REMOVE OR ADD ANY CIRCULATING SAH, WHEREAS THE LIVER RELEASED IT INTO THE HEPATIC VEINS. THE KIDNEY EXTRACTED 40% OF SAH AND THE SAH ARTERIO-VENOUS DIFFERENCE ACROSS THE KIDNEY WAS DIRECTLY AND SIGNIFICANTLY RELATED TO ITS ARTERIAL LEVELS. THUS, THE KIDNEY PLAYS A MAJOR ROLE IN MAINTAINING SAH LEVELS AND MAY, INDIRECTLY, CONTROL TISSUE TRANSMETHYLATION REACTIONS. OUR FINDINGS OF A PIVOTAL ROLE FOR THE HUMAN KIDNEY IN SULFUR AMINO ACID METABOLISM MAY ALSO ACCOUNT FOR THE INCREASED PLASMA LEVELS OF SAH IN PATIENTS WITH CHRONIC KIDNEY DISEASES. 2009 13 5177 43 PREFRONTAL CORTEX EXPRESSION OF CHROMATIN MODIFIER GENES IN MALE WSP AND WSR MICE CHANGES ACROSS ETHANOL DEPENDENCE, WITHDRAWAL, AND ABSTINENCE. ALCOHOL-USE DISORDER (AUD) IS A RELAPSING DISORDER ASSOCIATED WITH EXCESSIVE ETHANOL CONSUMPTION. RECENT STUDIES SUPPORT THE INVOLVEMENT OF EPIGENETIC MECHANISMS IN THE DEVELOPMENT OF AUD. STUDIES CARRIED OUT SO FAR HAVE FOCUSED ON A FEW SPECIFIC EPIGENETIC MODIFICATIONS. THE GOAL OF THIS PROJECT WAS TO INVESTIGATE GENE EXPRESSION CHANGES OF EPIGENETIC REGULATORS THAT MEDIATE A BROAD ARRAY OF CHROMATIN MODIFICATIONS AFTER CHRONIC ALCOHOL EXPOSURE, CHRONIC ALCOHOL EXPOSURE FOLLOWED BY 8 H WITHDRAWAL, AND CHRONIC ALCOHOL EXPOSURE FOLLOWED BY 21 DAYS OF ABSTINENCE IN WITHDRAWAL-RESISTANT (WSR) AND WITHDRAWAL SEIZURE-PRONE (WSP) SELECTED MOUSE LINES. WE FOUND THAT CHRONIC VAPOR EXPOSURE TO HIGHLY INTOXICATING LEVELS OF ETHANOL ALTERS THE EXPRESSION OF SEVERAL CHROMATIN REMODELING GENES MEASURED BY QUANTITATIVE PCR ARRAY ANALYSES. THE IDENTIFIED EFFECTS WERE INDEPENDENT OF SELECTED LINES, WHICH, HOWEVER, DISPLAYED BASELINE DIFFERENCES IN EPIGENETIC GENE EXPRESSION. WE REPORTED DYSREGULATION IN THE EXPRESSION OF GENES INVOLVED IN HISTONE ACETYLATION, DEACETYLATION, LYSINE AND ARGININE METHYLATION AND UBIQUITINATIONHYLATION DURING CHRONIC ETHANOL EXPOSURE AND WITHDRAWAL, BUT NOT AFTER 21 DAYS OF ABSTINENCE. ETHANOL-INDUCED CHANGES ARE CONSISTENT WITH DECREASED HISTONE ACETYLATION AND WITH DECREASED DEPOSITION OF THE PERMISSIVE UBIQUITINATION MARK H2BK120UB, ASSOCIATED WITH REDUCED TRANSCRIPTION. ON THE OTHER HAND, ETHANOL-INDUCED CHANGES IN THE EXPRESSION OF GENES INVOLVED IN HISTONE LYSINE METHYLATION ARE CONSISTENT WITH INCREASED TRANSCRIPTION. THE NET RESULT OF THESE MODIFICATIONS ON GENE EXPRESSION IS LIKELY TO DEPEND ON THE COMBINATION OF THE SPECIFIC HISTONE TAIL MODIFICATIONS PRESENT AT A GIVEN TIME ON A GIVEN PROMOTER. SINCE ALCOHOL DOES NOT MODULATE GENE EXPRESSION UNIDIRECTIONALLY, IT IS NOT SURPRISING THAT ALCOHOL DOES NOT UNIDIRECTIONALLY ALTER CHROMATIN STRUCTURE TOWARD A CLOSED OR OPEN STATE, AS SUGGESTED BY THE RESULTS OF THIS STUDY. 2017 14 1789 29 EFFECT OF CHRONIC HEROIN AND COCAINE ADMINISTRATION ON GLOBAL DNA METHYLATION IN BRAIN AND LIVER. DRUG ABUSE IS ASSOCIATED WITH EPIGENETIC CHANGES, SUCH AS HISTONE MODIFICATIONS AND DNA METHYLATION. THE PURPOSE OF THE PRESENT STUDY WAS TO EXAMINE THE EFFECT OF CHRONIC COCAINE AND HEROIN ADMINISTRATION ON GLOBAL DNA METHYLATION IN BRAIN AND LIVER. MALE, 8 WEEK OLD, C57BL/6J MICE RECEIVED HEROIN IN A CHRONIC 'INTERMITTENT' ESCALATING DOSE PARADIGM, OR COCAINE IN A CHRONIC ESCALATING DOSE 'BINGE' PARADIGM, WHICH MIMIC THE HUMAN PATTERN OF OPIOID OR COCAINE ABUSE RESPECTIVELY. FOLLOWING SACRIFICE, LIVERS AND BRAINS WERE REMOVED AND DNA WAS EXTRACTED FROM THEM. THE EXTRACTED DNA WAS HYDROLYZED AND 2'-DEOXYCYTIDINE AND 5-METHYL-2'-DEOXYCYTIDINE WERE DETERMINED BY HPLC-UV. THE % 5-METHYL-2'-DEOXYCYTIDINE CONTENT OF DNA WAS SIGNIFICANTLY HIGHER IN THE BRAIN COMPARED TO THE LIVER. THERE WERE NO DIFFERENCES BETWEEN THE CONTROL ANIMALS AND THE COCAINE OR HEROIN TREATED ANIMALS IN NEITHER OF THE TISSUES EXAMINED, WHICH IS SURPRISING SINCE COCAINE ADMINISTRATION INDUCED GROSS MORPHOLOGICAL CHANGES IN THE LIVER. MOREOVER, THERE WAS NO DIFFERENCE IN THE % 5-METHYL-2'-DEOXYCYTIDINE CONTENT OF DNA BETWEEN THE COCAINE AND THE HEROIN TREATED ANIMALS. THE GLOBAL DNA METHYLATION STATUS IN THE BRAIN AND LIVER OF MICE CHRONICALLY TREATED WITH COCAINE OR HEROIN REMAINS UNAFFECTED, BUT THIS FINDING CANNOT EXCLUDE THE EXISTENCE OF ANATOMICAL REGION OR GENE-SPECIFIC METHYLATION DIFFERENCES. THIS IS THE FIRST TIME THAT GLOBAL DNA METHYLATION IN THE LIVER AND WHOLE BRAIN HAS BEEN STUDIED FOLLOWING CHRONIC COCAINE OR HEROIN TREATMENT. 2013 15 2417 33 EPIGENETIC SIGNATURE OF CHRONIC CEREBRAL HYPOPERFUSION AND BENEFICIAL EFFECTS OF S-ADENOSYLMETHIONINE IN RATS. CHRONIC CEREBRAL HYPOPERFUSION IS ASSOCIATED WITH COGNITIVE DECLINE IN AGING AND AGE-RELATED NEURODEGENERATIVE DISEASE. EPIGENETIC MECHANISMS ARE INVOLVED IN THE MAINTENANCE OF LONG-TERM HYPOXIA-ADAPTED CELLULAR PHENOTYPES. IN THE PRESENT STUDY, THE EPIGENETIC SIGNATURES SUCH AS DNA METHYLATION AND HISTONE ACETYLATION, AS WELL AS S-ADENOSYLMETHIONINE (SAM) CYCLE USING CHRONIC CEREBRAL HYPOPERFUSION RAT MODEL WERE EXPLORED. CHRONIC CEREBRAL HYPOXIA-INDUCED GLOBAL DNA HYPERMETHYLATION ASSOCIATED WITH THE INCREASE OF DNA METHYLTRANSFERASE (DNMT) 3A AS WELL AS ALTERATION OF SAM CYCLE. MEANWHILE, AN ENHANCED LEVEL OF GLOBAL HISTONE H4 ACETYLATION ACCOMPANIED WITH THE UPREGULATION OF HISTONE ACETYLTRANSFERASE, P300/CREB-BINDING PROTEIN (CBP), AND THE DOWNREGULATION OF HISTONE DEACETYLASES (HDACS), WAS ALSO OBSERVED. SAM COULD IMPROVE SPATIAL CAPACITY THROUGH THE UPREGULATION OF ACETYLCHOLINE AND BRAIN-DERIVED NEUROTROPHIC FACTOR (BDNF) RATHER THAN ALTERATION OF DNA METHYLATION LEVELS. IN CONCLUSION, WE HAVE DEMONSTRATED A GENOME-WIDE ADJUSTMENT OF DNA METHYLATION AND HISTONE ACETYLATION UNDER CHRONIC CEREBRAL HYPOXIC CONDITIONS IN A RAT'S BRAIN. THESE EPIGENETIC SIGNATURES MAY REPRESENT AN ADDITIONAL MECHANISM TO PROMOTE AND MAINTAIN A HYPOXIC-ADAPTED CELLULAR RESPONDS WITH A POTENTIAL ROLE IN MEMORY DEFICITS. 2014 16 2347 43 EPIGENETIC REGULATION OF MIR-124 UNDER ETHANOL DEPENDENCE AND WITHDRAWAL. WITHDRAWAL FROM CHRONIC ALCOHOL CAUSE THE PERSISTENT MOLECULAR ALTERATION, SUCH AS CHANGES IN THE RELEASE OF NEUROTRANSMITTER AND GENE EXPRESSION. THE ALTERATIONS ARE THOUGHT TO INCREASE IN THE RISK OF RELAPSE. RECENT STUDIES SUGGEST THAT THE GENE EXPRESSION REGULATED BY HISTONE ACETYLATION MAY PLAY AN IMPORTANT ROLE IN THE DEPENDENCE OF ABUSED DRUGS, INCLUDING OF ETHANOL. FURTHERMORE, MIRNA, ANOTHER REGULATOR OF GENE EXPRESSION, ARE ALSO IMPORTANT MOLECULES FOR THE DEPENDENCE. HOWEVER, CHANGES IN THE MOLECULES UNDER ETHANOL WITHDRAWAL AND ITS RELATIONSHIP ARE POORLY UNDERSTOOD. IN THE PRESENT STUDY, WE INVESTIGATED THE EXPRESSION OF ACETYLATED HISTONE H3 AND MIR-124 IN MOUSE BRAIN AT 3 DAYS AFTER ETHANOL WITHDRAWAL. 6-WEEK AGES OF C57BL/6J MICE WERE TREATED WITH LIQUID DIET CONTAINING ETHANOL FOR 10 DAYS. USING THE ESCALATING ETHANOL DOSAGE SCHEDULE, THE MICE WERE FED THE ETHANOL DIET AS FOLLOWS: 1ST DAY: 1 W/V%: 2ND AND 3RD DAY: 3 W/V%; 4TH AND 5TH DAY: 4 W/V% AND FROM THE 6TH TO 10TH DAY: 5 W/V% ETHANOL DIET, RESPECTIVELY. THE PAIR-FED CONTROL MICE WERE GIVEN THE SAME VOLUME OF ETHANOL-FREE LIQUID DIET WITH GLUCOSE SUBSTITUTED IN ISOCALORIC QUANTITIES FOR ETHANOL. AFTER FEEDING ALCOHOL LIQUID DIET, THE MICE SHOWED SEVERE WITHDRAWAL SIGNS. THE EXPRESSION OF ACETYLATED HISTONE H3 WAS SIGNIFICANTLY DECREASED IN LIMBIC FOREBRAIN AT 3 DAYS AFTER WITHDRAWAL. WE FOUND THAT MIR-124 ALSO DECREASED IN THE LIMBIC FOREBRAIN. IT HAS BEEN REPORTED THAT CDC42 REGULATES NEURONAL DEVELOPMENT AS A TARGET OF MIR-124. WE FOUND THAT CDC42 PROTEIN MARKEDLY INCREASED IN BOTH BRAIN REGIONS AT 3 DAYS AFTER WITHDRAWAL. OUR FINDINGS SUGGEST THAT CHANGES IN THE EXPRESSION OF MIR-124 VIA HISTONE ACETYLATION LEADS TO CHANGE THE CDC42 EXPRESSION UNDER ETHANOL WITHDRAWAL. 2012 17 4931 42 PATERNAL ALCOHOL EXPOSURE REDUCES ALCOHOL DRINKING AND INCREASES BEHAVIORAL SENSITIVITY TO ALCOHOL SELECTIVELY IN MALE OFFSPRING. ALCOHOL USE DISORDER (AUD) IS HERITABLE, BUT THE GENETIC BASIS FOR THIS DISEASE REMAINS POORLY UNDERSTOOD. ALTHOUGH NUMEROUS GENE VARIANTS HAVE BEEN ASSOCIATED WITH AUD, THESE VARIANTS ACCOUNT FOR ONLY A SMALL FRACTION OF THE TOTAL RISK. THE IDEA OF INHERITANCE OF ACQUIRED CHARACTERISTICS, I.E. "EPIGENETIC INHERITANCE," IS RE-EMERGING AS A PROVEN ADJUNCT TO TRADITIONAL MODES OF GENETIC INHERITANCE. WE HYPOTHESIZED THAT ALCOHOL DRINKING AND NEUROBIOLOGICAL SENSITIVITY TO ALCOHOL ARE INFLUENCED BY ANCESTRAL ALCOHOL EXPOSURE. TO TEST THIS HYPOTHESIS, WE EXPOSED MALE MICE TO CHRONIC VAPOR ETHANOL OR CONTROL CONDITIONS, MATED THEM TO ETHANOL-NAIVE FEMALES, AND TESTED ADULT OFFSPRING FOR ETHANOL DRINKING, ETHANOL-INDUCED BEHAVIORS, GENE EXPRESSION, AND DNA METHYLATION. WE FOUND THAT ETHANOL-SIRED MALE OFFSPRING HAD REDUCED ETHANOL PREFERENCE AND CONSUMPTION, ENHANCED SENSITIVITY TO THE ANXIOLYTIC AND MOTOR-ENHANCING EFFECTS OF ETHANOL, AND INCREASED BDNF EXPRESSION IN THE VENTRAL TEGMENTAL AREA (VTA) COMPARED TO CONTROL-SIRED MALE OFFSPRING. THERE WERE NO DIFFERENCES AMONG ETHANOL- AND CONTROL-SIRED FEMALE OFFSPRING ON THESE ASSAYS. ETHANOL EXPOSURE ALSO DECREASED DNA METHYLATION AT THE BDNFAEPROMOTER OF SIRE'S GERM CELLS AND HYPOMETHYLATION WAS MAINTAINED IN THE VTA OF BOTH MALE AND FEMALE ETHANOL-SIRED OFFSPRING. OUR FINDINGS SHOW THAT PATERNAL ALCOHOL EXPOSURE IS A PREVIOUSLY UNRECOGNIZED REGULATOR OF ALCOHOL DRINKING AND BEHAVIORAL SENSITIVITY TO ALCOHOL IN MALE, BUT NOT FEMALE, OFFSPRING. PATERNAL ALCOHOL EXPOSURE ALSO INDUCES EPIGENETIC ALTERATIONS (DNA HYPOMETHYLATION) AND GENE EXPRESSION CHANGES THAT PERSIST IN THE VTA OF OFFSPRING. THESE RESULTS PROVIDE NEW INSIGHT INTO THE INHERITANCE AND DEVELOPMENT OF ALCOHOL DRINKING BEHAVIORS. 2014 18 909 39 CHRONIC EXPOSURE TO ETHANOL IN MALE MICE MAY BE ASSOCIATED WITH HEARING LOSS IN OFFSPRING. ALTHOUGH PATERNAL ETHANOL (ETOH) ABUSE HAS BEEN SHOWN TO AFFECT THE GROWTH AND BEHAVIOR OF OFFSPRING, THE EXACT MOLECULAR AND MECHANISTIC BASIS REMAINS LARGELY UNCLEAR. METHYLATION ALTERATIONS IN IMPRINTED GENES MAY BE RELATED TO WELL-DOCUMENTED TERATOGENIC EFFECTS OF ETHANOL. HERE WE SHOW THAT CHRONIC PATERNAL ETHANOL EXPOSURE INCREASES THE SUSCEPTIBILITY TO ABNORMAL BEHAVIOR IN OFFSPRING THROUGH MALE GAME EPIGENETIC ALTERATION. IN OUR STUDY, DIFFERENT DOSES OF ETHANOL (0, 1.1, 3.3 G KG-1 ) WERE ADMINISTERED INTRA-GASTRICALLY TO MALE MICE AND DECREASED SPERM MOTILITY WAS FOUND IN THE HIGHEST ETHANOL-EXPOSED GROUP COMPARED WITH THE CONTROLS. DATA ALSO SHOWED A DOSE-DEPENDENT INCREASE IN DEAF MICE OF THE PATERNALLY ETHANOL-EXPOSED GROUPS. THE METHYLATION OF H19, PEG3, NDN AND SNRPN WAS ASSESSED IN PATERNAL SPERMATOZOA AND IN THE CEREBRAL CORTICES OF DEAF MICE. ETOH AFFECTED METHYLATION OF PEG3 (CPG 3, 7 AND 9) IN PATERNAL SPERMATOZOA AND IN THE CEREBRAL CORTICES OF DEAF MICE, BUT THE LEVEL OF MRNA EXPRESSION DID NOT CHANGE, SUGGESTING THAT OTHER GENE REGULATION MAY BE INVOLVED IN THESE PROCESSES. OVERALL, CHRONIC PATERNAL ETHANOL EXPOSURE COULD ALTER THE METHYLATION OF IMPRINTED GENES IN SIRE SPERMATOZOA THAT COULD ALSO BE PASSED ON TO OFFSPRING, GIVING RISE TO DEVELOPMENTAL DISORDERS. OUR RESULTS PROVIDE POSSIBLE EPIGENETIC EVIDENCE FOR A PATERNAL ETHANOL EXPOSURE CONTRIBUTION TO FETAL ALCOHOL SYNDROME (FAS). 2015 19 2590 41 EPIGENETICS OF PROTEASOME INHIBITION IN THE LIVER OF RATS FED ETHANOL CHRONICALLY. AIM: TO EXAMINE THE EFFECTS OF ETHANOL-INDUCED PROTEASOME INHIBITION, AND THE EFFECTS OF PROTEASOME INHIBITION IN THE REGULATION OF EPIGENETIC MECHANISMS. METHODS: RATS WERE FED ETHANOL FOR 1 MO USING THE TSUKAMOTO-FRENCH MODEL AND WERE COMPARED TO RATS GIVEN THE PROTEASOME INHIBITOR PS-341 (BORTEZOMIB, VELCADE(TM)) BY INTRAPERITONEAL INJECTION. MICROARRAY ANALYSIS AND REAL TIME PCR WERE PERFORMED AND PROTEASOME ACTIVITY ASSAYS AND WESTERN BLOT ANALYSIS WERE PERFORMED USING ISOLATED NUCLEI. RESULTS: CHRONIC ETHANOL FEEDING CAUSED A SIGNIFICANT INHIBITION OF THE UBIQUITIN PROTEASOME PATHWAY IN THE NUCLEUS, WHICH LED TO CHANGES IN THE TURNOVER OF TRANSCRIPTIONAL FACTORS, HISTONE-MODIFYING ENZYMES, AND, THEREFORE, AFFECTED EPIGENETIC MECHANISMS. CHRONIC ETHANOL FEEDING WAS RELATED TO AN INCREASE IN HISTONE ACETYLATION, AND IT IS HYPOTHESIZED THAT THE PROTEASOME PROTEOLYTIC ACTIVITY REGULATED HISTONE MODIFICATIONS BY CONTROLLING THE STABILITY OF HISTONE MODIFYING ENZYMES, AND, THEREFORE, REGULATED THE CHROMATIN STRUCTURE, ALLOWING EASY ACCESS TO CHROMATIN BY RNA POLYMERASE, AND, THUS, PROPER GENE EXPRESSION. PROTEASOME INHIBITION BY PS-341 INCREASED HISTONE ACETYLATION SIMILAR TO CHRONIC ETHANOL FEEDING. IN ADDITION, PROTEASOME INHIBITION CAUSED DRAMATIC CHANGES IN HEPATIC REMETHYLATION REACTIONS AS THERE WAS A SIGNIFICANT DECREASE IN THE ENZYMES RESPONSIBLE FOR THE REGENERATION OF S-ADENOSYLMETHIONINE, AND, IN PARTICULAR, A SIGNIFICANT DECREASE IN THE BETAINE-HOMOCYSTEINE METHYLTRANSFERASE ENZYME. THIS SUGGESTED THAT HYPOMETHYLATION WAS ASSOCIATED WITH PROTEASOME INHIBITION, AS INDICATED BY THE DECREASE IN HISTONE METHYLATION. CONCLUSION: THE ROLE OF PROTEASOME INHIBITION IN REGULATING EPIGENETIC MECHANISMS, AND ITS LINK TO LIVER INJURY IN ALCOHOLIC LIVER DISEASE, IS THUS A PROMISING APPROACH TO STUDY LIVER INJURY DUE TO CHRONIC ETHANOL CONSUMPTION. 2009 20 3841 43 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