1 892 151 CHRONIC ETHANOL EXPOSURE ALTERS DNA METHYLATION IN NEURAL STEM CELLS: ROLE OF MOUSE STRAIN AND SEX. PRENATAL ALCOHOL EXPOSURE (PAE) IS CONSIDERED AS A RISK FACTOR FOR THE DEVELOPMENT OF FETAL ALCOHOL SPECTRUM DISORDERS (FASD). EVIDENCE INDICATES THAT PAE AFFECTS EPIGENETIC MECHANISMS (SUCH AS DNA METHYLATION) AND ALTERS THE NORMAL DIFFERENTIATION AND DEVELOPMENT OF NEURAL STEM CELLS (NSC) IN THE FETAL BRAIN. HOWEVER, PAE EFFECTS DEPEND ON SEVERAL FACTORS SUCH AS SEX AND STRAIN OF THE STUDIED SUBJECTS. HERE, WE INVESTIGATED WHETHER MURINE SEX AND STRAIN CONTRIBUTE TO THE EFFECTS OF CHRONIC ETHANOL EXPOSURE ON DNA METHYLATION MACHINERY OF DIFFERENTIATING NSC. FURTHER, THE EFFECTS OF PAE ON GLIAL LINEAGE (INCLUDING BOTH ASTROCYTES AND OLIGODENDROCYTES) IN A SEX- AND STRAIN-DEPENDENT MANNER HAVE NOT BEEN STUDIED YET. TO EXAMINE THE EFFECTS OF CHRONIC ETHANOL EXPOSURE ON GLIOGENESIS, WE EXPOSED DIFFERENTIATING NSC TO GLIO-INDUCTIVE CULTURE CONDITIONS. APPLYING A STANDARD IN VITRO MODEL SYSTEM, WE TREATED MALE AND FEMALE DIFFERENTIATING NSC (OBTAINED FROM THE FOREBRAIN OF CD1 AND C57BL/6 EMBRYOS AT EMBRYONIC DAY 14.5) WITH CHRONIC ETHANOL EXPOSURE (70 MM) FOR 8 DAYS. WE SHOW THAT ETHANOL INDUCES GLOBAL DNA HYPOMETHYLATION, WHILE ALTERING THE EXPRESSION OF DNA METHYLATION-RELATED GENES IN A SEX- AND STRAIN-SPECIFIC MANNER. THE OBSERVED CHANGE IN CELLULAR DNA METHYLATION LEVELS WAS ASSOCIATED WITH ALTERED EXPRESSION OF GLIAL MARKERS CNPASE, GFAP, AND OLIG2 IN CD1 (BUT NOT C57BL/6) CELLS. WE CONCLUDE THAT THE IMPACT OF ETHANOL EFFECT ON DNA METHYLATION IS DEPENDENT ON CELLULAR SEX AND STRAIN. ALSO, ETHANOL IMPACT ON NEURAL STEM CELL FATE COMMITMENT WAS ONLY DETECTED IN CELLS ISOLATED FROM CD1 MOUSE STRAIN, BUT NOT IN C57BL/6 CELLS. THE RESULTS OF THE CURRENT STUDY PROVIDE EVIDENCE THAT SEX AND STRAIN OF RODENTS (C57BL/6 AND CD1) DURING GESTATION ARE IMPORTANT FACTORS, WHICH AFFECT ALCOHOL EFFECTS ON NSC DIFFERENTIATION AND DNA METHYLATION. RESULTS OF THIS STUDY MAY ALSO HELP IN INTERPRETING DATA ON THE DEVELOPMENTAL TOXICITY OF MANY COMPOUNDS DURING THE GESTATIONAL PERIOD. 2020 2 613 37 BINGE ALCOHOL ALTERS PNPLA3 LEVELS IN LIVER THROUGH EPIGENETIC MECHANISM INVOLVING HISTONE H3 ACETYLATION. THE HUMAN PNPLA3 (PATATIN-LIKE PHOSPHOLIPASE DOMAIN-CONTAINING 3) GENE CODES FOR A PROTEIN WHICH IS HIGHLY EXPRESSED IN ADIPOSE TISSUE AND LIVER, AND IS IMPLICATED IN LIPID HOMEOSTASIS. WHILE PNPLA3 PROTEIN CONTAINS REGIONS HOMOLOGOUS TO FUNCTIONAL LIPOLYTIC PROTEINS, THE REGULATION OF ITS TISSUE EXPRESSION IS REFLECTIVE OF LIPOGENIC GENES. A NATURALLY OCCURRING GENETIC VARIANT OF PNPLA3 IN HUMANS HAS BEEN LINKED TO INCREASED SUSCEPTIBILITY TO ALCOHOLIC LIVER DISEASE. WE HAVE EXAMINED THE MODULATORY EFFECT OF ALCOHOL ON PNPLA3 PROTEIN AND MRNA EXPRESSION AS WELL AS THE ASSOCIATION OF ITS GENE PROMOTER WITH ACETYLATED HISTONE H3K9 BY CHROMATIN IMMUNOPRECIPITATION (CHIP) ASSAY IN RAT HEPATOCYTES IN VITRO, AND IN VIVO IN MOUSE AND RAT MODELS OF ACUTE BINGE, CHRONIC, AND CHRONIC FOLLOWED BY ACUTE BINGE ETHANOL ADMINISTRATION. PROTEIN EXPRESSION OF PNPLA3 WAS SIGNIFICANTLY INCREASED BY ALCOHOL IN ALL THREE MODELS USED. PNPLA3 MRNA ALSO INCREASED, ALBEIT TO A VARYING DEGREE. CHIP ASSAY USING H3ACK9 ANTIBODY SHOWED INCREASED ASSOCIATION WITH THE PROMOTER OF PNPLA3 IN HEPATOCYTES AND IN MOUSE LIVER. THIS WAS LESS EVIDENT IN RAT LIVERS IN VIVO EXCEPT UNDER CHRONIC TREATMENT. IT IS CONCLUDED FOR THE FIRST TIME THAT HISTONE ACETYLATION PLAYS A ROLE IN THE MODULATION OF PNPLA3 LEVELS IN THE LIVER EXPOSED TO BINGE ETHANOL BOTH IN VITRO AND IN VIVO. 2017 3 684 32 BRAIN STAT5 MODULATES LONG-TERM METABOLIC AND EPIGENETIC CHANGES INDUCED BY PREGNANCY AND LACTATION IN FEMALE MICE. SEVERAL METABOLIC AND BEHAVIORAL ADAPTATIONS THAT EMERGE DURING PREGNANCY REMAIN PRESENT AFTER WEANING. THUS, REPRODUCTIVE EXPERIENCE CAUSES LONG-LASTING METABOLIC PROGRAMMING, PARTICULARLY IN THE BRAIN. HOWEVER, THE ISOLATE EFFECTS OF PREGNANCY OR LACTATION AND THE MOLECULAR MECHANISMS INVOLVED IN THESE LONG-TERM MODIFICATIONS ARE CURRENTLY UNKNOWN. IN THE CURRENT STUDY, WE INVESTIGATED THE ROLE OF BRAIN SIGNAL TRANSDUCER AND ACTIVATOR OF TRANSCRIPTION-5 (STAT5), A KEY TRANSCRIPTION FACTOR RECRUITED BY HORMONES HIGHLY SECRETED DURING GESTATION OR LACTATION, FOR THE LONG-TERM ADAPTATIONS INDUCED BY REPRODUCTIVE EXPERIENCE. IN CONTROL MICE, PREGNANCY FOLLOWED BY LACTATION LED TO INCREASED BODY ADIPOSITY AND REDUCED AMBULATORY ACTIVITY LATER IN LIFE. ADDITIONALLY, PREGNANCY+LACTATION INDUCED LONG-TERM EPIGENETIC MODIFICATIONS IN THE BRAIN: WE OBSERVED UPREGULATION IN HYPOTHALAMIC EXPRESSION OF HISTONE DEACETYLASES AND REDUCED NUMBERS OF NEURONS WITH HISTONE H3 ACETYLATION IN THE PARAVENTRICULAR, ARCUATE, AND VENTROMEDIAL NUCLEI. REMARKABLY, BRAIN-SPECIFIC STAT5 ABLATION PREVENTED ALL METABOLIC AND EPIGENETIC CHANGES OBSERVED IN REPRODUCTIVELY EXPERIENCED CONTROL FEMALE MICE. NONETHELESS, BRAIN-SPECIFIC STAT5 KNOCKOUT (KO) MICE THAT HAD THE EXPERIENCE OF PREGNANCY BUT DID NOT LACTATE SHOWED INCREASED BODY WEIGHT AND REDUCED ENERGY EXPENDITURE LATER IN LIFE, WHEREAS PREGNANCY KO AND PREGNANCY+LACTATION KO MICE EXHIBITED IMPROVED INSULIN SENSITIVITY COMPARED WITH VIRGIN KO MICE. IN SUMMARY, LACTATION IS NECESSARY FOR THE LONG-LASTING METABOLIC EFFECTS OBSERVED IN REPRODUCTIVELY EXPERIENCED FEMALE MICE. IN ADDITION, EPIGENETIC MECHANISMS INVOLVING HISTONE ACETYLATION IN NEURONAL POPULATIONS RELATED TO ENERGY BALANCE REGULATION ARE POSSIBLY ASSOCIATED WITH THESE LONG-TERM CONSEQUENCES. FINALLY, OUR FINDINGS HIGHLIGHTED THE KEY ROLE PLAYED BY BRAIN STAT5 SIGNALING FOR THE CHRONIC METABOLIC AND EPIGENETIC CHANGES INDUCED BY PREGNANCY AND LACTATION. 2019 4 894 36 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 5 3714 41 INHERITANCE OF SOCIAL DOMINANCE IS ASSOCIATED WITH GLOBAL SPERM DNA METHYLATION IN INBRED MALE MICE. DOMINANCE RELATIONSHIPS BETWEEN MALES AND THEIR ASSOCIATED TRAITS ARE USUALLY HERITABLE AND HAVE IMPLICATIONS FOR SEXUAL SELECTION IN ANIMALS. IN PARTICULAR, SOCIAL DOMINANCE AND ITS RELATED MALE PHEROMONES ARE HERITABLE IN INBRED MICE; THUS, WE WONDERED WHETHER EPIGENETIC CHANGES DUE TO ALTERED LEVELS OF DNA METHYLATION DETERMINE INHERITANCE. HERE, WE USED C57BL/6 MALE MICE TO ESTABLISH A SOCIAL DOMINANCE-SUBORDINATION RELATIONSHIP THROUGH CHRONIC DYADIC ENCOUNTERS, AND THIS RELATIONSHIP AND PHEROMONE COVARIATION OCCURRED IN THEIR OFFSPRING, INDICATIVE OF HERITABILITY. THROUGH TRANSCRIPTOME SEQUENCING AND WHOLE-GENOME DNA METHYLATION PROFILING OF THE SPERM OF BOTH GENERATIONS, WE FOUND THAT DIFFERENTIAL METHYLATION OF MANY GENES WAS INDUCED BY SOCIAL DOMINANCE-SUBORDINATION IN SIRES AND COULD BE PASSED ON TO THE OFFSPRING. THESE METHYLATED GENES WERE MAINLY RELATED TO GROWTH AND DEVELOPMENT PROCESSES, NEURODEVELOPMENT, AND CELLULAR TRANSPORTATION. THE EXPRESSION OF THE GENES WITH SIMILAR FUNCTIONS IN WHOLE-GENOME METHYLATION/BISULFITE SEQUENCING WAS ALSO DIFFERENTIATED BY SOCIAL DOMINANCE-SUBORDINATION, AS REVEALED BY RNA-SEQ. IN PARTICULAR, THE GENE DENND1A, WHICH REGULATES NEURAL SIGNALING, WAS DIFFERENTIALLY METHYLATED AND EXPRESSED IN THE SPERM AND MEDIAL PREFRONTAL CORTEX IN PAIRED MALES BEFORE AND AFTER DOMINANCE-SUBORDINATION ESTABLISHMENT, SUGGESTING THE POTENTIAL EPIGENETIC CONTROL AND INHERITANCE OF SOCIAL DOMINANCE-RELATED AGGRESSION. WE SUGGEST THAT SOCIAL DOMINANCE MIGHT BE PASSED ON TO MALE OFFSPRING THROUGH SPERM DNA METHYLATION AND THAT THE DIFFERENCES COULD POTENTIALLY AFFECT MALE COMPETITION IN OFFSPRING BY AFFECTING THE DEVELOPMENT OF THE NERVOUS SYSTEM. 2023 6 4224 39 METHYLATION CHANGES IN MUSCLE AND LIVER TISSUES OF MALE AND FEMALE MICE EXPOSED TO ACUTE AND CHRONIC LOW-DOSE X-RAY-IRRADIATION. THE BIOLOGICAL AND GENETIC EFFECTS OF CHRONIC LOW-DOSE RADIATION (LDR) EXPOSURE AND ITS RELATIONSHIP TO CARCINOGENESIS HAVE RECEIVED A LOT OF ATTENTION IN THE RECENT YEARS. FOR EXAMPLE, RADIATION-INDUCED GENOME INSTABILITY, WHICH IS THOUGHT TO BE A PRECURSOR OF TUMOROGENESIS, WAS SHOWN TO HAVE A TRANSGENERATIONAL NATURE. THIS INDICATES A POSSIBLE INVOLVEMENT OF EPIGENETIC MECHANISMS IN LDR-INDUCED GENOME INSTABILITY. GENOMIC DNA METHYLATION IS ONE OF THE MOST IMPORTANT EPIGENETIC MECHANISMS. EXISTING DATA ON RADIATION EFFECTS ON DNA METHYLATION PATTERNS IS LIMITED, AND NO ONE HAS SPECIFICALLY STUDIED THE EFFECTS OF THE LDR. WE REPORT THE FIRST STUDY OF THE EFFECTS OF WHOLE-BODY LDR EXPOSURE ON GLOBAL GENOME METHYLATION IN MUSCLE AND LIVER TISSUES OF MALE AND FEMALE MICE. IN PARALLEL, WE EVALUATED CHANGES IN PROMOTER METHYLATION AND EXPRESSION OF THE TUMOR SUPPRESSOR GENE P16(INKA) AND DNA REPAIR GENE O(6)-METHYLGUANINE-DNA METHYLTRANSFERASE (MGMT). WE OBSERVED DIFFERENT PATTERNS OF RADIATION-INDUCED GLOBAL GENOME DNA METHYLATION IN THE LIVER AND MUSCLE OF EXPOSED MALES AND FEMALES. WE ALSO FOUND SEX AND TISSUE-SPECIFIC DIFFERENCES IN P16(INKA) PROMOTER METHYLATION UPON LDR EXPOSURE. IN MALE LIVER TISSUE, P16(INKA) PROMOTER METHYLATION WAS MORE PRONOUNCED THAN IN FEMALE TISSUE. IN CONTRAST, NO SIGNIFICANT RADIATION-INDUCED CHANGES IN P16(INKA) PROMOTER METHYLATION WERE NOTED IN THE MUSCLE TISSUE OF EXPOSED MALES AND FEMALES. RADIATION ALSO DID NOT SIGNIFICANTLY AFFECT METHYLATION STATUS OF MGMT PROMOTER. WE ALSO OBSERVED SUBSTANTIAL SEX DIFFERENCES IN ACUTE AND CHRONIC RADIATION-INDUCED EXPRESSION OF P16(INKA) AND MGMT GENES. ANOTHER IMPORTANT OUTCOME OF OUR STUDY WAS THE FACT THAT CHRONIC LOW-DOSE RADIATION EXPOSURE PROVED TO BE A MORE POTENT INDUCER OF EPIGENETIC EFFECTS THAN THE ACUTE EXPOSURE. THIS SUPPORTS PREVIOUS FINDINGS THAT CHRONIC EXPOSURE LEADS TO GREATER GENOME DESTABILIZATION THAN ACUTE EXPOSURE. 2004 7 920 29 CHRONIC HYPOXIA FACILITATES ALZHEIMER'S DISEASE THROUGH DEMETHYLATION OF GAMMA-SECRETASE BY DOWNREGULATING DNA METHYLTRANSFERASE 3B. INTRODUCTION: ENVIRONMENTAL FACTORS AND EPIGENETIC MECHANISMS ARE BELIEVED TO CONTRIBUTE TO ALZHEIMER'S DISEASE (AD). WE PREVIOUSLY DOCUMENTED THAT PRENATAL HYPOXIA AGGRAVATED THE COGNITIVE IMPAIRMENT AND NEUROPATHOLOGY IN OFFSPRING MICE. HERE, WE INVESTIGATE THE CHRONIC HYPOXIA-INDUCED EPIGENETIC MODIFICATIONS IN AD. METHODS: THE 3-MONTH-OLD APP(SWE)/PS1(DE9) MICE WERE EXPOSED TO HYPOXIC ENVIRONMENT 6 HOUR/DAY FOR 30 DAYS, FOLLOWED BY LEARNING AND MEMORY TESTS AND BIOCHEMICAL AND NEUROPATHOLOGY MEASUREMENT AT THE AGE OF 4, 6, AND 9 MONTHS. RESULTS: WE FOUND HYPOXIA EXAGGERATED THE NEUROPATHOLOGY AND COGNITIVE IMPAIRMENT IN AD MICE. CHRONIC HYPOXIA INDUCED DEMETHYLATION ON GENOMIC DNA AND DECREASED THE EXPRESSION OF DNA METHYLTRANSFERASE 3B (DNMT3B) IN VIVO. WE FURTHER FOUND THAT DNMTS INHIBITION ELEVATED THE PROTEIN LEVELS OF AMYLOID PRECURSOR PROTEIN, BETA- AND GAMMA-SECRETASES, WHEREAS OVEREXPRESSION OF DNMT3B SUPPRESSED THE LEVELS OF THEM IN VITRO. DISCUSSION: OUR STUDY SUGGESTS CHRONIC HYPOXIA CAN AGGRAVATE AD PROGRESSION THROUGH DEMETHYLATION OF GENES ENCODING GAMMA-SECRETASE COMPONENTS BY DOWNREGULATION OF DNMT3B. 2016 8 3042 43 GENOME-WIDE ALTERATION OF HISTONE METHYLATION PROFILES ASSOCIATED WITH COGNITIVE CHANGES IN RESPONSE TO DEVELOPMENTAL ARSENIC EXPOSURE IN MICE. INORGANIC ARSENIC IS A XENOBIOTIC ENTERING THE BODY PRIMARILY THROUGH CONTAMINATED DRINKING WATER AND FOOD. THERE ARE DEFINED MECHANISMS THAT DESCRIBE ARSENIC'S ASSOCIATION WITH INCREASED CANCER INCIDENCE, HOWEVER MECHANISMS EXPLAINING ARSENIC EXPOSURE AND NEURODEVELOPMENTAL OR AGING DISORDERS ARE POORLY DEFINED. IN RECENT YEARS, ARSENIC EFFECTS ON EPIGENOME HAVE BECOME A PARTICULAR FOCUS. WE HYPOTHESIZE THAT HUMAN RELEVANT ARSENIC EXPOSURE DURING PARTICULAR DEVELOPMENTAL WINDOWS, OR LONG-TERM EXPOSURE LATER IN LIFE INDUCE PATHOPHYSIOLOGICAL NEURAL CHANGES THROUGH EPIGENOMIC ALTERATIONS, IN PARTICULAR HISTONE METHYLATION PROFILE, MANIFESTING AS COGNITIVE DECLINE. C57BL/6 WILD-TYPE MICE WERE CONTINUALLY EXPOSED TO SODIUM ARSENITE (100 MICROG/L) IN DRINKING WATER PRIOR TO MATING THROUGH WEANING OF THE EXPERIMENTAL PROGENY. A SECOND COHORT OF AGED APP/PS MICE WERE CHRONICALLY EXPOSED TO THE SAME LEVEL OF ARSENIC. COGNITIVE TESTING, HISTOLOGICAL EXAMINATION OF BRAINS AND GENOME-WIDE METHYLATION LEVELS OF H3K4ME3 AND H3K27ME3 EXAMINED AFTER CHIP-SEQ WERE USED TO DETERMINE THE EFFECTS OF ARSENIC EXPOSURE. DEVELOPMENTAL ARSENIC EXPOSURE CAUSED SIGNIFICANTLY DIMINISHED COGNITION IN WILD-TYPE MICE. THE ANALYSIS OF CHIP-SEQ DATA AND EXPERIMENTS WITH MOUSE EMBRYONIC STEM CELLS DEMONSTRATED THAT EPIGENETIC CHANGES INDUCED BY ARSENIC EXPOSURE TRANSLATED INTO GENE EXPRESSION ALTERATIONS ASSOCIATED WITH NEURONAL DEVELOPMENT AND NEUROLOGICAL DISEASE. INCREASED HIPPOCAMPAL AMYLOID PLAQUES LEVELS OF APP/PS MICE AND COGNITIVE DECLINE PROVIDED EVIDENCE THAT ARSENIC EXPOSURE AGGRAVATED AN EXISTING ALZHEIMER'S DISEASE-LIKE PHENOTYPE. WE SHOW DEVELOPMENTAL ARSENIC EXPOSURE SIGNIFICANTLY IMPACTS HISTONE MODIFICATIONS IN BRAIN WHICH REMAIN PRESENT INTO ADULTHOOD AND PROVIDE A POTENTIAL MECHANISM BY WHICH DEVELOPMENTAL ARSENIC EXPOSURE INFLUENCES COGNITIVE FUNCTIONS. WE ALSO SHOW THAT HUMAN RELEVANT, CHRONIC ARSENIC EXPOSURE HAS DELETERIOUS EFFECTS ON ADULT APP/PS MICE AND EXACERBATES EXISTING ALZHEIMER'S DISEASE-LIKE SYMPTOMS. THE RESULTS DEMONSTRATE HOW DEVELOPMENTAL ARSENIC EXPOSURE IMPACTS THE BRAIN EPIGENOME, LEADING TO ALTERED GENE EXPRESSION LATER IN LIFE. 2022 9 4093 38 MATERNAL SEPARATION FOLLOWED BY CHRONIC MILD STRESS IN ADULTHOOD IS ASSOCIATED WITH CONCERTED EPIGENETIC REGULATION OF AP-1 COMPLEX GENES. DEPRESSION IS ONE OF THE MOST PREVALENT MENTAL DISEASES WORLDWIDE. PATIENTS WITH PSYCHIATRIC DISEASES OFTEN HAVE A HISTORY OF CHILDHOOD NEGLECT, INDICATING THAT EARLY-LIFE EXPERIENCES PREDISPOSE TO PSYCHIATRIC DISEASES IN ADULTHOOD. TWO STRONG MODELS WERE USED IN THE PRESENT STUDY: THE MATERNAL SEPARATION/EARLY DEPRIVATION MODEL (MS) AND THE CHRONIC MILD STRESS MODEL (CMS). IN BOTH MODELS, WE FOUND CHANGES IN THE EXPRESSION OF A NUMBER OF GENES SUCH AS CREB AND NPY. STRIKINGLY, THERE WAS A CLEAR REGULATION OF EXPRESSION OF FOUR GENES INVOLVED IN THE AP-1 COMPLEX: C-FOS, C-JUN, FOSB, AND JUN-B. INTERESTINGLY, DIFFERENT EXPRESSION LEVELS WERE OBSERVED DEPENDING ON THE MODEL, WHEREAS THE COMBINATION OF THE MODELS RESULTED IN A NORMAL LEVEL OF GENE EXPRESSION. THE EFFECTS OF MS AND CMS ON GENE EXPRESSION WERE ASSOCIATED WITH DISTINCT HISTONE METHYLATION/ACETYLATION PATTERNS OF ALL FOUR GENES. THE EPIGENETIC CHANGES, LIKE GENE EXPRESSION, WERE ALSO DEPENDENT ON THE SPECIFIC STRESSOR OR THEIR COMBINATION. THE OBTAINED RESULTS SUGGEST THAT SINGLE LIFE EVENTS LEAVE A MARK ON GENE EXPRESSION AND THE EPIGENETIC SIGNATURE OF GENE PROMOTERS, BUT A COMBINATION OF DIFFERENT STRESSORS AT DIFFERENT LIFE STAGES CAN FURTHER CHANGE GENE EXPRESSION THROUGH EPIGENETIC FACTORS, POSSIBLY CAUSING THE LONG-LASTING ADVERSE EFFECTS OF STRESS. 2021 10 3836 36 IONIZING RADIATION POTENTIATES HIGH-FAT DIET-INDUCED INSULIN RESISTANCE AND REPROGRAMS SKELETAL MUSCLE AND ADIPOSE PROGENITOR CELLS. EXPOSURE TO IONIZING RADIATION INCREASES THE RISK OF CHRONIC METABOLIC DISORDERS SUCH AS INSULIN RESISTANCE AND TYPE 2 DIABETES LATER IN LIFE. WE HYPOTHESIZED THAT IRRADIATION REPROGRAMS THE EPIGENOME OF METABOLIC PROGENITOR CELLS, WHICH COULD ACCOUNT FOR IMPAIRED METABOLISM AFTER CANCER TREATMENT. C57BL/6 MICE WERE TREATED WITH A SINGLE DOSE OF IRRADIATION AND SUBJECTED TO HIGH-FAT DIET (HFD). RNA SEQUENCING AND REDUCED REPRESENTATION BISULFITE SEQUENCING WERE USED TO CREATE TRANSCRIPTOMIC AND EPIGENOMIC PROFILES OF PREADIPOCYTES AND SKELETAL MUSCLE SATELLITE CELLS COLLECTED FROM IRRADIATED MICE. MICE SUBJECTED TO TOTAL BODY IRRADIATION SHOWED ALTERATIONS IN GLUCOSE METABOLISM AND, WHEN CHALLENGED WITH HFD, MARKED HYPERINSULINEMIA. INSULIN SIGNALING WAS CHRONICALLY DISRUPTED IN SKELETAL MUSCLE AND ADIPOSE PROGENITOR CELLS COLLECTED FROM IRRADIATED MICE AND DIFFERENTIATED IN CULTURE. EPIGENOMIC PROFILING OF SKELETAL MUSCLE AND ADIPOSE PROGENITOR CELLS FROM IRRADIATED ANIMALS REVEALED SUBSTANTIAL DNA METHYLATION CHANGES, NOTABLY FOR GENES REGULATING THE CELL CYCLE, GLUCOSE/LIPID METABOLISM, AND EXPRESSION OF EPIGENETIC MODIFIERS. OUR RESULTS SHOW THAT TOTAL BODY IRRADIATION ALTERS INTRACELLULAR SIGNALING AND EPIGENETIC PATHWAYS REGULATING CELL PROLIFERATION AND DIFFERENTIATION OF SKELETAL MUSCLE AND ADIPOSE PROGENITOR CELLS AND PROVIDE A POSSIBLE MECHANISM BY WHICH IRRADIATION USED IN CANCER TREATMENT INCREASES THE RISK FOR METABOLIC DISEASE LATER IN LIFE. 2016 11 1804 36 EFFECT OF RAT PARENTAL MORPHINE EXPOSURE ON PASSIVE AVOIDANCE MEMORY AND MORPHINE CONDITIONED PLACE PREFERENCE IN MALE OFFSPRING. DRUG ADDICTION IS A CHRONIC DISORDER RESULTED FROM COMPLEX INTERACTION OF GENETIC, ENVIRONMENTAL, AND DEVELOPMENTAL FACTORS. EPIGENETIC MECHANISMS PLAY AN IMPORTANT ROLE IN THE DEVELOPMENT AND MAINTENANCE OF ADDICTION AND ALSO MEMORY FORMATION IN THE BRAIN. WE HAVE EXAMINED PASSIVE AVOIDANCE MEMORY AND MORPHINE CONDITIONED PLACE PREFERENCE (CPP) IN THE OFFSPRING OF MALE AND/OR FEMALE RATS WITH A HISTORY OF ADULTHOOD MORPHINE CONSUMPTION. ADULT MALE AND FEMALE ANIMALS RECEIVED CHRONIC ORAL MORPHINE FOR 21DAYS AND THEN WERE MAINTAINED DRUG FREE FOR 10DAYS. AFTER THAT, THEY WERE LET TO MATE WITH EITHER AN ABSTINENT OR CONTROL RAT. MALE OFFSPRING'S MEMORY WAS EVALUATED BY STEP THROUGH TEST. BESIDES, REWARDING EFFECTS OF MORPHINE WERE CHECKED WITH CCP PARADIGM. OFFSPRING OF ABSTINENT ANIMALS SHOWED SIGNIFICANT MEMORY IMPAIRMENT COMPARED TO THE CONTROL GROUP WHICH WAS MORE PROMINENT IN THE OFFSPRING OF ABSTINENT FEMALES. CONDITIONING RESULTS SHOWED THAT ADMINISTRATION OF A HIGH DOSE OF MORPHINE (10MG/KG) THAT COULD SIGNIFICANTLY INDUCE CPP IN CONTROL RATS, WAS NOT ABLE TO INDUCE SIMILAR RESULTS IN THE OFFSPRING OF MORPHINE ABSTINENT PARENTS; AND CPP WAS MUCH MORE PROMINENT WHEN IT WAS INDUCED IN THE OFFSPRING OF MORPHINE EXPOSED FEMALES COMPARED TO THE PROGENY OF MORPHINE EXPOSED MALES. IT IS CONCLUDED THAT PARENTAL MORPHINE CONSUMPTION IN ADULTHOOD EVEN BEFORE MATING HAS DESTRUCTIVE EFFECTS ON MEMORY STATE OF THE MALE OFFSPRING AND ALSO LEADS TO TOLERANCE TO THE REWARDING EFFECTS OF MORPHINE. THESE EFFECTS ARE GREATER WHEN THE MORPHINE CONSUMER PARENT IS THE FEMALE ONE. 2018 12 5177 46 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 13 2757 38 EXPRESSION OF EPIGENETIC MACHINERY GENES IS SENSITIVE TO MATERNAL OBESITY AND WEIGHT LOSS IN RELATION TO FETAL GROWTH IN MICE. BACKGROUND: MATERNAL OBESITY IMPACTS FETAL GROWTH AND PREGNANCY OUTCOMES. TO COUNTERACT THE DELETERIOUS EFFECTS OF OBESITY ON FERTILITY AND PREGNANCY ISSUE, PRECONCEPTIONAL WEIGHT LOSS IS RECOMMENDED TO OBESE WOMEN. WHETHER THIS WEIGHT LOSS IS BENEFICIAL/DETRIMENTAL FOR OFFSPRING REMAINS POORLY EXPLORED. EPIGENETIC MECHANISMS COULD BE AFFECTED BY MATERNAL WEIGHT CHANGES, PERTURBING EXPRESSION OF KEY DEVELOPMENTAL GENES IN THE PLACENTA OR FETUS. OUR AIM WAS TO INVESTIGATE THE EFFECTS OF CHRONIC MATERNAL OBESITY ON FETO-PLACENTAL GROWTH ALONG WITH THE UNDERLYING EPIGENETIC MECHANISMS. WE ALSO TESTED WHETHER PRECONCEPTIONAL WEIGHT LOSS COULD ALLEVIATE THESE EFFECTS. RESULTS: FEMALE MICE WERE FED EITHER A CONTROL DIET (CTRL GROUP), A HIGH-FAT DIET (OBESE (OB) GROUP), OR A HIGH-FAT DIET SWITCHED TO A CONTROL DIET 2 MONTHS BEFORE CONCEPTION (WEIGHT LOSS (WL) GROUP). AT MATING, OB FEMALES PRESENTED AN OBESE PHENOTYPE WHILE WL FEMALES NORMALIZED METABOLIC PARAMETERS. AT EMBRYONIC DAY 18.5 (E18.5), FETUSES FROM OB FEMALES PRESENTED FETAL GROWTH RESTRICTION (FGR; -13 %) AND 28 % OF THE FETUSES WERE SMALL FOR GESTATIONAL AGE (SGA). FETUSES FROM WL FEMALES NORMALIZED THIS PHENOTYPE. THE EXPRESSION OF 60 EPIGENETIC MACHINERY GENES AND 32 METABOLIC GENES WAS MEASURED IN THE FETAL LIVER, PLACENTAL LABYRINTH, AND JUNCTIONAL ZONE. WE REVEALED 23 GENES ALTERED BY MATERNAL WEIGHT TRAJECTORIES IN AT LEAST ONE OF THREE TISSUES. THE FETAL LIVER AND PLACENTAL LABYRINTH WERE MORE RESPONSIVE TO MATERNAL OBESITY THAN JUNCTIONAL ZONE. ONE THIRD (18/60) OF THE EPIGENETIC MACHINERY GENES WERE DIFFERENTIALLY EXPRESSED BETWEEN AT LEAST TWO MATERNAL GROUPS. INTERESTINGLY, GENES INVOLVED IN THE HISTONE ACETYLATION PATHWAY WERE PARTICULARLY ALTERED (13/18). IN OB GROUP, LYSINE ACETYLTRANSFERASES AND BROMODOMAIN-CONTAINING PROTEIN 2 WERE UPREGULATED, WHILE MOST HISTONE DEACETYLASES WERE DOWNREGULATED. IN WL GROUP, THE EXPRESSION OF ONLY A SUBSET OF THESE GENES WAS NORMALIZED. CONCLUSIONS: THIS STUDY HIGHLIGHTS THE HIGH SENSITIVITY OF THE EPIGENETIC MACHINERY GENE EXPRESSION, AND PARTICULARLY THE HISTONE ACETYLATION PATHWAY, TO MATERNAL OBESITY. THESE OBESITY-INDUCED TRANSCRIPTIONAL CHANGES COULD ALTER THE PLACENTAL AND THE HEPATIC EPIGENOME, LEADING TO FGR. PRECONCEPTIONAL WEIGHT LOSS APPEARS BENEFICIAL TO FETAL GROWTH, BUT SOME EFFECTS OF PREVIOUS OBESITY WERE RETAINED IN OFFSPRING PHENOTYPE. 2016 14 1789 32 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 5166 45 PRECONCEPTION PATERNAL ALCOHOL EXPOSURE EXERTS SEX-SPECIFIC EFFECTS ON OFFSPRING GROWTH AND LONG-TERM METABOLIC PROGRAMMING. BACKGROUND: ALTHOUGH CLINICAL DATA SUPPORT AN ASSOCIATION BETWEEN PATERNAL ALCOHOL USE AND DEFICITS IN CHILD NEUROCOGNITIVE DEVELOPMENT, THE RELATIONSHIP BETWEEN PATERNAL DRINKING AND ALCOHOL-INDUCED GROWTH PHENOTYPES REMAINS CHALLENGING TO DEFINE. USING AN ESTABLISHED MOUSE MODEL OF CHRONIC EXPOSURE, PREVIOUS WORK BY OUR GROUP HAS LINKED PRECONCEPTION PATERNAL ALCOHOL USE TO SEX-SPECIFIC PATTERNS OF FETAL GROWTH RESTRICTION AND PLACENTAL DYSFUNCTION. THE AIM OF THE PRESENT STUDY WAS TO INVESTIGATE THE LONG-TERM IMPACT OF CHRONIC PRECONCEPTION PATERNAL ALCOHOL USE ON OFFSPRING GROWTH AND METABOLIC PROGRAMMING. RESULTS: PRECONCEPTION PATERNAL ALCOHOL EXPOSURE INDUCED A PROLONGED PERIOD OF FETAL GESTATION AND AN INCREASED INCIDENCE OF INTRAUTERINE GROWTH RESTRICTION, WHICH AFFECTED THE MALE OFFSPRING TO A GREATER EXTENT THAN THE FEMALES. WHILE THE FEMALE OFFSPRING OF ETHANOL-EXPOSED MALES WERE ABLE TO MATCH THE BODY WEIGHTS OF THE CONTROLS WITHIN THE FIRST 2 WEEKS OF POSTNATAL LIFE, MALE OFFSPRING CONTINUED TO DISPLAY AN 11% REDUCTION IN WEIGHT AT 5 WEEKS OF AGE AND A 6% REDUCTION AT 8 WEEKS OF AGE. THE OBSERVED GROWTH DEFICITS ASSOCIATED WITH INSULIN HYPERSENSITIVITY IN THE MALE OFFSPRING, WHILE IN CONTRAST, FEMALES DISPLAYED A MODEST LAG IN THEIR GLUCOSE TOLERANCE TEST. THESE METABOLIC DEFECTS WERE ASSOCIATED WITH AN UP-REGULATION OF GENES WITHIN THE PRO-FIBROTIC TGF-BETA SIGNALING PATHWAY AND INCREASED LEVELS OF CELLULAR HYDROXYPROLINE WITHIN THE LIVERS OF THE MALE OFFSPRING. WE OBSERVED SUPPRESSED CYTOKINE PROFILES WITHIN THE LIVER AND PANCREAS OF BOTH THE MALE AND FEMALE OFFSPRING, WHICH CORRELATED WITH THE UP-REGULATION OF GENES IN THE LIVERX/RETINOIDX/FARNESOIDX RECEPTOR PATHWAYS. HOWEVER, PATTERNS OF GENE EXPRESSION WERE HIGHLY VARIABLE BETWEEN THE OFFSPRING OF ALCOHOL-EXPOSED SIRES. IN THE ADULT OFFSPRING OF ALCOHOL-EXPOSED MALES, WE DID NOT OBSERVE ANY DIFFERENCES IN THE ALLELIC EXPRESSION OF IGF2 OR ANY OTHER IMPRINTED GENES. CONCLUSIONS: THE IMPACT OF PATERNAL ALCOHOL USE ON CHILD DEVELOPMENT IS POORLY EXPLORED AND REPRESENTS A SIGNIFICANT GAP IN OUR UNDERSTANDING OF THE TERATOGENIC EFFECTS OF ETHANOL. OUR STUDIES IMPLICATE PATERNAL EXPOSURE HISTORY AS AN ADDITIONAL AND IMPORTANT MODIFIER OF ALCOHOL-INDUCED GROWTH PHENOTYPES AND CHALLENGE THE CURRENT MATERNAL-CENTRIC EXPOSURE PARADIGM. 2019 16 5397 41 REDUCED LEVELS OF MIRNAS 449 AND 34 IN SPERM OF MICE AND MEN EXPOSED TO EARLY LIFE STRESS. EXPOSURE OF MALE MICE TO EARLY LIFE STRESS ALTERS THE LEVELS OF SPECIFIC SPERM MIRNAS THAT PROMOTE STRESS-ASSOCIATED BEHAVIORS IN THEIR OFFSPRING. TO BEGIN TO EVALUATE WHETHER SIMILAR PHENOMENA OCCUR IN MEN, WE SEARCHED FOR SPERM MIRNA CHANGES THAT OCCUR IN BOTH MICE AND MEN EXPOSED TO EARLY LIFE STRESSORS THAT HAVE LONG-LASTING EFFECTS. FOR MEN, WE USED THE ADVERSE CHILDHOOD EXPERIENCE (ACE) QUESTIONNAIRE. IT REVEALS THE DEGREE OF ABUSIVE AND/OR DYSFUNCTIONAL FAMILY EXPERIENCES WHEN YOUNG, WHICH INCREASES RISKS OF DEVELOPING FUTURE PSYCHOLOGICAL AND PHYSICAL DISORDERS. FOR MALE MICE, WE USED ADOLESCENT CHRONIC SOCIAL INSTABILITY (CSI) STRESS, WHICH NOT ONLY ENHANCES SOCIABILITY DEFECTS FOR >1 YEAR, BUT ALSO ANXIETY AND DEFECTIVE SOCIABILITY IN FEMALE OFFSPRING FOR MULTIPLE GENERATIONS THROUGH THE MALE LINEAGE. HERE WE FOUND A STATISTICALLY SIGNIFICANT INVERSE CORRELATION BETWEEN LEVELS OF MULTIPLE MIRNAS OF THE MIR-449/34 FAMILY AND ACE SCORES OF CAUCASIAN MALES. REMARKABLY, WE FOUND MEMBERS OF THE SAME SPERM MIRNA FAMILY ARE ALSO REDUCED IN MICE EXPOSED TO CSI STRESS. THUS, FUTURE STUDIES SHOULD BE DESIGNED TO DIRECTLY TEST WHETHER REDUCED LEVELS OF THESE MIRNAS COULD BE USED AS UNBIASED INDICATORS OF CURRENT AND/OR EARLY LIFE EXPOSURE TO SEVERE STRESS. MOREOVER, AFTER MATING STRESSED MALE MICE, THESE SPERM MIRNA REDUCTIONS PERSIST IN BOTH EARLY EMBRYOS THROUGH AT LEAST THE MORULA STAGE AND IN SPERM OF MALES DERIVED FROM THEM, SUGGESTING THESE MIRNA CHANGES CONTRIBUTE TO TRANSMISSION OF STRESS PHENOTYPES ACROSS GENERATIONS. SINCE OFFSPRING OF MEN EXPOSED TO EARLY LIFE TRAUMA HAVE ELEVATED RISKS FOR PSYCHOLOGICAL DISORDERS, THESE FINDINGS RAISE THE POSSIBILITY THAT A PORTION OF THIS RISK MAY BE DERIVED FROM EPIGENETIC REGULATION OF THESE SPERM MIRNAS. 2018 17 4069 35 MATERNAL CHRONIC FOLATE SUPPLEMENTATION AMELIORATES BEHAVIOR DISORDERS INDUCED BY PRENATAL HIGH-FAT DIET THROUGH METHYLATION ALTERATION OF BDNF AND GRIN2B IN OFFSPRING HIPPOCAMPUS. SCOPE: MATERNAL CONSUMPTION OF A HIGH-FAT DIET (HFD) DURING PREGNANCY INCREASES THE RISK OF BEHAVIORAL PROBLEMS. FOLATE PLAYS AN IMPORTANT ROLE IN NEUROPLASTICITY AND THE PRESERVATION OF NEURONAL INTEGRITY. THIS STUDY AIMS AT DETERMINING THE INFLUENCE OF DIETS SUPPLEMENTED WITH FOLATE ON OFFSPRING BEHAVIOR, AND THE MECHANISMS INVOLVED. METHODS AND RESULTS: FEMALE MICE WERE FED A CONTROL DIET, AN HFD, CONTROL DIET SUPPLEMENTED WITH FOLATE, OR AN HFD SUPPLEMENTED WITH FOLATE FOR 5 WEEKS BEFORE MATING. OPEN FIELD TASK AND ELEVATED PLUS MAZE ARE USED TO EVALUATE THE OFFSPRING BEHAVIORS. RESULTS SHOWED THAT OFFSPRING COGNITIVE PERFORMANCE AND ANXIETY-RELATED BEHAVIORS, INCLUDING THOSE RELATED TO OPEN FIELD EXPLORATION AND ELEVATED PLUS MAZE, WERE SIGNIFICANTLY IMPROVED WHEN DAMS WERE TREATED WITH FOLATE IN PREGNANCY. MOREOVER, THE MATERNAL FOLATE SUPPLEMENT DECREASED BDNF AND GRIN2B METHYLATION AND UPREGULATED THEIR EXPRESSIONS IN THE BRAIN OF OFFSPRING, WHICH WERE ASSOCIATED WITH DECREASING THE EXPRESSION OF DNA METHYLTRANSFERASES COMPARED WITH THOSE DAMS WERE TREATED ONLY HFD IN PREGNANCY. CONCLUSION: MATERNAL FOLATE SUPPLEMENTATION AMELIORATES BEHAVIOR DISORDERS INDUCED BY PRENATAL HIGH-FAT DIET. THE BENEFICIAL EFFECTS WERE ASSOCIATED WITH METHYLATION AND EXPRESSION ALTERATION OF BDNF AND GRIN2B GENES. 2017 18 4219 36 METHYL-DONOR DEFICIENCY IN ADOLESCENCE AFFECTS MEMORY AND EPIGENETIC STATUS IN THE MOUSE HIPPOCAMPUS. DNA METHYLATION IS ONE OF THE ESSENTIAL FACTORS IN THE CONTROL OF GENE EXPRESSION. ALTERATION OF THE DNA METHYLATION PATTERN HAS BEEN LINKED TO VARIOUS NEUROLOGICAL, BEHAVIORAL AND NEUROCOGNITIVE DYSFUNCTIONS. RECENT STUDIES HAVE POINTED OUT THE IMPORTANCE OF EPIGENETICS IN BRAIN DEVELOPMENT AND FUNCTIONS INCLUDING LEARNING AND MEMORY. NUTRIENTS RELATED TO ONE-CARBON METABOLISM ARE KNOWN TO PLAY IMPORTANT ROLES IN THE MAINTENANCE OF GENOMIC DNA METHYLATION. PREVIOUS STUDIES HAVE SHOWN THAT THE LONG-TERM ADMINISTRATION OF A DIET LACKING ESSENTIAL ONE-CARBON NUTRIENTS SUCH AS METHIONINE, CHOLINE AND FOLIC ACID (METHYL DONORS) CAUSED GLOBAL DNA HYPERMETHYLATION IN THE BRAIN. THEREFORE, THE LONG-TERM FEEDING OF A METHYL-DONOR-DEFICIENT DIET MAY CAUSE ABNORMAL BRAIN DEVELOPMENT INCLUDING LEARNING AND MEMORY. TO CONFIRM THIS HYPOTHESIS, 3-WEEK-OLD MICE WERE MAINTAINED ON A FOLATE-, METHIONINE- AND CHOLINE-DEFICIENT (FMCD) OR CONTROL (CON) DIET FOR 3 WEEKS. WE FOUND THAT THE METHYL-DONOR DEFICIENCY IMPAIRED BOTH NOVEL OBJECT RECOGNITION AND FEAR EXTINCTION AFTER 3 WEEKS OF TREATMENT. THE FMCD GROUP SHOWED SPONTANEOUS RECOVERY OF FEAR THAT DIFFERED FROM THAT IN CON. IN ADDITION, WE FOUND DECREASED GRIA1 GENE EXPRESSION AND SPECIFIC CPG HYPERMETHYLATION OF THE GRIA1 PROMOTER REGION IN THE FMCD HIPPOCAMPUS. OUR DATA SUGGEST THAT A CHRONIC DIETARY LACK OF METHYL DONORS IN THE DEVELOPMENTAL PERIOD AFFECTS LEARNING, MEMORY AND GENE EXPRESSIONS IN THE HIPPOCAMPUS. 2015 19 990 38 CHRONIC SOCIAL STRESS INDUCES DNA METHYLATION CHANGES AT AN EVOLUTIONARY CONSERVED INTERGENIC REGION IN CHROMOSOME X. CHRONIC STRESS RESULTING FROM PROLONGED EXPOSURE TO NEGATIVE LIFE EVENTS INCREASES THE RISK OF MOOD AND ANXIETY DISORDERS. ALTHOUGH CHRONIC STRESS CAN CHANGE GENE EXPRESSION RELEVANT FOR BEHAVIOR, MOLECULAR REGULATORS OF THIS CHANGE HAVE NOT BEEN FULLY DETERMINED. ONE PROCESS THAT COULD PLAY A ROLE IS DNA METHYLATION, AN EPIGENETIC PROCESS WHEREBY A METHYL GROUP IS ADDED ONTO NUCLEOTIDES, PREDOMINANTLY CYTOSINE IN THE CPG CONTEXT, AND WHICH CAN BE INDUCED BY CHRONIC STRESS. IT IS UNKNOWN TO WHAT EXTENT CHRONIC SOCIAL DEFEAT, A MODEL OF HUMAN SOCIAL STRESS, INFLUENCES DNA METHYLATION PATTERNS ACROSS THE GENOME. OUR STUDY ADDRESSED THIS QUESTION BY USING A TARGETED-CAPTURE APPROACH CALLED METHYL-SEQ TO INVESTIGATE DNA METHYLATION PATTERNS OF THE DENTATE GYRUS AT PUTATIVE REGULATORY REGIONS ACROSS THE MOUSE GENOME FROM MICE EXPOSED TO 14 DAYS OF SOCIAL DEFEAT. FINDINGS WERE REPLICATED IN INDEPENDENT COHORTS BY BISULFITE-PYROSEQUENCING. TWO DIFFERENTIALLY METHYLATED REGIONS (DMRS) WERE IDENTIFIED. ONE DMR WAS LOCATED AT INTRON 9 OF DROSHA, AND IT SHOWED REDUCED METHYLATION IN STRESSED MICE. THIS OBSERVATION REPLICATED IN ONE OF TWO INDEPENDENT COHORTS. A SECOND DMR WAS IDENTIFIED AT AN INTERGENIC REGION OF CHROMOSOME X, AND METHYLATION IN THIS REGION WAS INCREASED IN STRESSED MICE. THIS METHYLATION DIFFERENCE REPLICATED IN TWO INDEPENDENT COHORTS AND IN MAJOR DEPRESSIVE DISORDER (MDD) POSTMORTEM BRAINS. THESE RESULTS HIGHLIGHT A REGION NOT PREVIOUSLY KNOWN TO BE DIFFERENTIALLY METHYLATED BY CHRONIC SOCIAL DEFEAT STRESS AND WHICH MAY BE INVOLVED IN MDD. 2018 20 4931 46 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