1 1319 144 DEMETHYLATION OF THE PD-1 PROMOTER IS IMPRINTED DURING THE EFFECTOR PHASE OF CD8 T CELL EXHAUSTION. PD-1 IS AN INHIBITORY RECEPTOR THAT HAS A MAJOR ROLE IN T CELL DYSFUNCTION DURING CHRONIC INFECTIONS AND CANCER. WHILE DEMETHYLATION OF THE PD-1 PROMOTER DNA IS OBSERVED IN EXHAUSTED T CELLS ISOLATED FROM CHRONICALLY INFECTED INDIVIDUALS, LITTLE IS KNOWN ABOUT WHEN THIS STABLE DEMETHYLATION OF PD-1 PROMOTER DNA IS PROGRAMMED DURING THE COURSE OF A CHRONIC INFECTION. TO ASSESS IF PD-1 PROMOTER DNA DEMETHYLATION IS IMPACTED BY PROLONGED STIMULATION DURING EFFECTOR PHASE OF CHRONIC INFECTION, WE ADOPTIVELY TRANSFERRED VIRUS-SPECIFIC DAY 8 EFFECTOR CD8 T CELLS FROM MICE INFECTED WITH LYMPHOCYTIC CHORIOMENINGITIS VIRUS (LCMV) CLONE 13 INTO RECIPIENT MICE THAT HAD CLEARED AN ACUTE INFECTION. WE OBSERVED THAT LCMV-SPECIFIC CD8 T CELLS FROM CHRONICALLY INFECTED MICE MAINTAINED THEIR SURFACE EXPRESSION OF PD-1 EVEN AFTER TRANSFER INTO ACUTE IMMUNE MICE UNTIL DAY 45 POSTTRANSFER. INTERESTINGLY, THE PD-1 TRANSCRIPTIONAL REGULATORY REGION CONTINUED TO REMAIN UNMETHYLATED IN THESE DONOR CD8 T CELLS GENERATED FROM A CHRONIC INFECTION. THE OBSERVED MAINTENANCE OF PD-1 SURFACE EXPRESSION AND THE DEMETHYLATED PD-1 PROMOTER WERE NOT A RESULT OF RESIDUAL ANTIGEN IN THE RECIPIENT MICE, BECAUSE SIMILAR RESULTS WERE SEEN WHEN CHRONIC INFECTION-INDUCED EFFECTOR CELLS WERE TRANSFERRED INTO MICE INFECTED WITH A VARIANT STRAIN OF LCMV (LCMV V35A) BEARING A MUTATION IN THE COGNATE MAJOR HISTOCOMPATIBILITY COMPLEX CLASS I (MHC-I) EPITOPE THAT IS RECOGNIZED BY THE DONOR CD8 T CELLS. IMPORTANTLY, THE MAINTENANCE OF PD-1 PROMOTER DEMETHYLATION IN MEMORY CD8 T CELLS WAS COUPLED WITH IMPAIRED CLONAL EXPANSION AND HIGHER PD-1 RE-EXPRESSION UPON SECONDARY CHALLENGE. THESE DATA SHOW THAT THE IMPRINTING OF THE EPIGENETIC PROGRAM OF THE INHIBITORY RECEPTOR PD-1 OCCURS DURING THE EFFECTOR PHASE OF CHRONIC VIRAL INFECTION. IMPORTANCE: SINCE PD-1 IS A MAJOR INHIBITORY RECEPTOR REGULATING T CELL DYSFUNCTION DURING CHRONIC VIRAL INFECTION AND CANCERS, A BETTER UNDERSTANDING OF THE MECHANISMS THAT REGULATE PD-1 EXPRESSION IS IMPORTANT. IN THIS WORK, WE DEMONSTRATE THAT THE PD-1 EPIGENETIC PROGRAM IN ANTIGEN-SPECIFIC CD8 T CELLS IS FIXED DURING THE PRIMING PHASE OF CHRONIC INFECTION. 2016 2 1815 26 EFFECTS OF CHRONIC EXPOSURE TO ARSENIC AND ESTROGEN ON EPIGENETIC REGULATORY GENES EXPRESSION AND EPIGENETIC CODE IN HUMAN PROSTATE EPITHELIAL CELLS. CHRONIC EXPOSURES TO ARSENIC AND ESTROGEN ARE KNOWN RISK FACTORS FOR PROSTATE CANCER. THOUGH THE EVIDENCE SUGGESTS THAT EXPOSURE TO ARSENIC OR ESTROGENS CAN DISRUPT NORMAL DNA METHYLATION PATTERNS AND HISTONE MODIFICATIONS, THE MECHANISMS BY WHICH THESE CHEMICALS INDUCE EPIGENETIC CHANGES ARE NOT FULLY UNDERSTOOD. MOREOVER, THE EPIGENETIC EFFECTS OF CO-EXPOSURE TO THESE TWO CHEMICALS ARE NOT KNOWN. THEREFORE, THE OBJECTIVE OF THIS STUDY WAS TO EVALUATE THE EFFECTS OF CHRONIC EXPOSURE TO ARSENIC AND ESTROGEN, BOTH ALONE AND IN COMBINATION, ON THE EXPRESSION OF EPIGENETIC REGULATORY GENES, THEIR CONSEQUENCES ON DNA METHYLATION, AND HISTONE MODIFICATIONS. HUMAN PROSTATE EPITHELIAL CELLS, RWPE-1, CHRONICALLY EXPOSED TO ARSENIC AND ESTROGEN ALONE AND IN COMBINATION WERE USED FOR ANALYSIS OF EPIGENETIC REGULATORY GENES EXPRESSION, GLOBAL DNA METHYLATION CHANGES, AND HISTONE MODIFICATIONS AT PROTEIN LEVEL. THE RESULT OF THIS STUDY REVEALED THAT EXPOSURE TO ARSENIC, ESTROGEN, AND THEIR COMBINATION ALTERS THE EXPRESSION OF EPIGENETIC REGULATORY GENES AND CHANGES GLOBAL DNA METHYLATION AND HISTONE MODIFICATION PATTERNS IN RWPE-1 CELLS. THESE CHANGES WERE SIGNIFICANTLY GREATER IN ARSENIC AND ESTROGEN COMBINATION TREATED GROUP THAN INDIVIDUALLY TREATED GROUP. THE FINDINGS OF THIS STUDY WILL HELP EXPLAIN THE EPIGENETIC MECHANISM OF ARSENIC- AND/OR ESTROGEN-INDUCED PROSTATE CARCINOGENESIS. 2012 3 1789 24 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 4 1655 17 DOSE-DEPENDENCE, SEX- AND TISSUE-SPECIFICITY, AND PERSISTENCE OF RADIATION-INDUCED GENOMIC DNA METHYLATION CHANGES. RADIATION IS A WELL-KNOWN GENOTOXIC AGENT AND HUMAN CARCINOGEN THAT GIVES RISE TO A VARIETY OF LONG-TERM EFFECTS. ITS DETRIMENTAL INFLUENCE ON CELLULAR FUNCTION IS ACTIVELY STUDIED NOWADAYS. ONE OF THE MOST ANALYZED, YET LEAST UNDERSTOOD LONG-TERM EFFECTS OF IONIZING RADIATION IS TRANSGENERATIONAL GENOMIC INSTABILITY. THE INHERITANCE OF GENOMIC INSTABILITY SUGGESTS THE POSSIBLE INVOLVEMENT OF EPIGENETIC MECHANISMS, SUCH AS CHANGES OF THE METHYLATION OF CYTOSINE RESIDUES LOCATED WITHIN CPG DINUCLEOTIDES. IN THE CURRENT STUDY WE EVALUATED THE DOSE-DEPENDENCE OF THE RADIATION-INDUCED GLOBAL GENOME DNA METHYLATION CHANGES. WE ALSO ANALYZED THE EFFECTS OF ACUTE AND CHRONIC HIGH DOSE (5GY) EXPOSURE ON DNA METHYLATION IN LIVER, SPLEEN, AND LUNG TISSUES OF MALE AND FEMALE MICE AND EVALUATED THE POSSIBLE PERSISTENCE OF THE RADIATION-INDUCED DNA METHYLATION CHANGES. HERE WE REPORT THAT RADIATION-INDUCED DNA METHYLATION CHANGES WERE SEX- AND TISSUE-SPECIFIC, DOSE-DEPENDENT, AND PERSISTENT. IN PARALLEL WE HAVE STUDIED THE LEVELS OF DNA DAMAGE IN THE EXPOSED TISSUES. BASED ON THE CORRELATION BETWEEN THE LEVELS OF DNA METHYLATION AND DNA DAMAGE WE PROPOSE THAT RADIATION-INDUCED GLOBAL GENOME DNA HYPOMETHYLATION IS DNA REPAIR-RELATED. 2004 5 6528 29 TRANSCRIPTIONAL CORRELATES OF CHRONIC ALCOHOL NEUROADAPTATION IN DROSOPHILA LARVAE. WHEN PRESENTED WITH THE CHOICE, DROSOPHILA MELANOGASTER FEMALES WILL OFTEN PREFER TO LAY EGGS ON FOOD CONTAINING A SIGNIFICANT AMOUNT OF ALCOHOL. WHILE, IN SOME CASES, THIS BEHAVIORAL DECISION CAN PROVIDE A SURVIVAL ADVANTAGE TO THE DEVELOPING LARVAE, IT CAN ALSO LEAD TO DEVELOPMENTAL AND COGNITIVE PROBLEMS. ALCOHOL CONSUMPTION CAN AFFECT EXECUTIVE FUNCTIONS, EPISODIC MEMORY, AND OTHER BRAIN FUNCTION CAPACITIES. HOWEVER, IN THE FRUIT FLY, THE INITIAL COGNITIVE EFFECTS OF ALCOHOL CONSUMPTION HAVE BEEN SHOWN TO REVERSE UPON PERSISTENT EXPOSURE TO ALCOHOL. USING AN OLFACTORY CONDITIONING ASSAY WHERE AN ODORANT IS IMPLEMENTED AS A CONDITIONED STIMULUS AND PAIRED WITH A HEAT SHOCK AS AN UNCONDITIONED STIMULUS, A PREVIOUS STUDY HAS SHOWN THAT WHEN EXPOSED TO A SHORT ACUTE DOSE OF ALCOHOL, DROSOPHILA LARVAE CAN NO LONGER LEARN THIS ASSOCIATION. INTERESTINGLY, UPON PROLONGED CHRONIC ALCOHOL EXPOSURE, LARVAE SEEM TO SUCCESSFULLY AVOID THE CONDITIONED STIMULUS JUST AS WELL AS CONTROL ALCOHOL-NAIVE LARVAE, SUGGESTIVE OF ALCOHOL-INDUCED NEUROADAPTATIONS. HOWEVER, THE MECHANISMS BY WHICH DROSOPHILA ADAPT TO THE PRESENCE OF ALCOHOL REMAINS UNKNOWN. IN THIS STUDY, WE EXPLORE THE TRANSCRIPTIONAL CORRELATES OF NEUROADAPTATION IN DROSOPHILA LARVAE EXPOSED TO CHRONIC ALCOHOL TO UNDERSTAND THE GENETIC AND CELLULAR COMPONENTS RESPONSIBLE FOR THIS ADAPTATION. FOR THIS, WE EMPLOYED RNA SEQUENCING TECHNOLOGY TO EVALUATE DIFFERENCES IN GENE EXPRESSION IN THE BRAIN OF LARVAE CHRONICALLY EXPOSED TO ALCOHOL. OUR RESULTS SUGGEST THAT ALCOHOL-INDUCED NEUROADAPTATIONS ARE MODULATED BY A DIVERSE ARRAY OF SYNAPTIC GENES WITHIN THE LARVAL BRAIN THROUGH A SERIES OF EPIGENETIC MODULATORS. 2021 6 4056 41 MAPPING THE HETEROGENEITY OF HISTONE MODIFICATIONS ON HEPATITIS B VIRUS DNA USING LIVER NEEDLE BIOPSIES OBTAINED FROM CHRONICALLY INFECTED PATIENTS. COVALENTLY CLOSED CIRCULAR DNA (CCCDNA) FORMS THE BASIS FOR REPLICATION AND PERSISTENCE OF HEPATITIS B VIRUS (HBV) IN THE CHRONICALLY INFECTED LIVER. WE HAVE PREVIOUSLY SHOWN THAT VIRAL TRANSCRIPTION IS SUBJECT TO REGULATION BY POSTTRANSLATIONAL MODIFICATIONS (PTMS) OF HISTONE PROTEINS BOUND TO CCCDNA THROUGH ANALYSIS OF DE NOVO HBV-INFECTED CELL LINES. WE NOW REPORT THE SUCCESSFUL ADAPTATION OF THIS CHROMATIN IMMUNOPRECIPITATION SEQUENCING (CHIPSEQ) APPROACH FOR ANALYSIS OF FINE-NEEDLE PATIENT LIVER BIOPSY SPECIMENS TO INVESTIGATE THE ROLE OF HISTONE PTMS IN CHRONICALLY HBV-INFECTED PATIENTS. USING 18 SPECIMENS FROM PATIENTS IN DIFFERENT STAGES OF CHRONIC HBV INFECTION, OUR WORK SHOWS THAT THE PROFILE OF HISTONE PTMS IN CHRONIC INFECTION IS MORE NUANCED THAN PREVIOUSLY OBSERVED IN IN VITRO MODELS OF ACUTE INFECTION. IN LINE WITH OUR PREVIOUS FINDINGS, WE FIND THAT THE MAJORITY OF HBV-DERIVED SEQUENCES ARE ASSOCIATED WITH THE ACTIVATING HISTONE PTM H3K4ME3. HOWEVER, WE SHOW A STRIKING INTERPATIENT VARIABILITY OF ITS DEPOSITION IN THIS PATIENT COHORT CORRELATED WITH VIRAL TRANSCRIPTION AND PATIENT HBV EARLY ANTIGEN (HBEAG) STATUS. UNEXPECTEDLY, WE DETECTED DEPOSITION OF THE CLASSICAL INHIBITORY HISTONE PTM H3K9ME3 ON HBV-DNA IN AROUND HALF OF THE PATIENT BIOPSY SPECIMENS, WHICH COULD NOT BE LINKED TO REDUCED LEVELS OF VIRAL TRANSCRIPTS. OUR RESULTS SHOW THAT CURRENT IN VITRO MODELS ARE UNABLE TO FULLY RECAPITULATE THE COMPLEX EPIGENETIC LANDSCAPE OF CHRONIC HBV INFECTION OBSERVED IN VIVO AND DEMONSTRATE THAT FINE-NEEDLE LIVER BIOPSY SPECIMENS CAN PROVIDE SUFFICIENT MATERIAL TO FURTHER INVESTIGATE THE INTERACTION OF VIRAL AND HOST PROTEINS ON HBV-DNA.IMPORTANCE HEPATITIS B VIRUS (HBV) IS A MAJOR GLOBAL HEALTH CONCERN, CHRONICALLY INFECTING MILLIONS OF PATIENTS AND CONTRIBUTING TO A RISING BURDEN OF LIVER DISEASE. THE VIRAL GENOME FORMS THE BASIS FOR CHRONIC INFECTION AND HAS BEEN SHOWN TO BE SUBJECT TO REGULATION BY EPIGENETIC MECHANISMS, SUCH AS POSTTRANSLATIONAL MODIFICATION OF HISTONE PROTEINS. HERE, WE CONFIRM AND EXPAND ON PREVIOUS RESULTS BY ADAPTING A HIGH-RESOLUTION TECHNIQUE FOR ANALYSIS OF HISTONE MODIFICATIONS FOR USE WITH PATIENT-DERIVED FINE-NEEDLE LIVER BIOPSY SPECIMENS. OUR WORK HIGHLIGHTS THAT THE SITUATION IN VIVO IS MORE COMPLEX THAN PREDICTED BY CURRENT IN VITRO MODELS, FOR EXAMPLE, BY SUGGESTING A NOVEL, NONCANONICAL ROLE OF THE HISTONE MODIFICATION H3K9ME3 IN THE HBV LIFE CYCLE. IMPORTANTLY, ENABLING THE USE OF FINE-NEEDLE LIVER BIOPSY SPECIMENS FOR SUCH HIGH-RESOLUTION ANALYSES MAY FACILITATE FURTHER RESEARCH INTO THE EPIGENETIC REGULATION OF THE HBV GENOME. 2019 7 5177 30 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 8 887 24 CHRONIC CORTISOL EXPOSURE IN EARLY DEVELOPMENT LEADS TO NEUROENDOCRINE DYSREGULATION IN ADULTHOOD. OBJECTIVE: CHRONIC EARLY LIFE STRESS CAN AFFECT DEVELOPMENT OF THE NEUROENDOCRINE STRESS SYSTEM, LEADING TO ITS PERSISTENT DYSREGULATION AND CONSEQUENTLY INCREASED DISEASE RISK IN ADULTHOOD. ONE CONTRIBUTING FACTOR IS THOUGHT TO BE EPIGENETIC PROGRAMMING IN RESPONSE TO CHRONIC CORTISOL EXPOSURE DURING EARLY DEVELOPMENT. WE HAVE PREVIOUSLY SHOWN THAT ZEBRAFISH EMBRYOS TREATED CHRONICALLY WITH CORTISOL DEVELOP INTO ADULTS WITH CONSTITUTIVELY ELEVATED WHOLE-BODY CORTISOL AND ABERRANT IMMUNE GENE EXPRESSION. HERE WE FURTHER CHARACTERIZE THAT PHENOTYPE BY ASSESSING PERSISTENT EFFECTS OF THE TREATMENT ON CORTISOL TISSUE DISTRIBUTION AND DYNAMICS, CHROMATIN ACCESSIBILITY, AND ACTIVITIES OF GLUCOCORTICOID-RESPONSIVE REGULATORY GENES KLF9 AND FKBP5. TO THAT END CORTISOL LEVELS IN DIFFERENT TISSUES OF FED AND FASTED ADULTS WERE MEASURED USING ELISA, OPEN CHROMATIN IN ADULT BLOOD CELLS WAS MAPPED USING ATAC-SEQ, AND GENE ACTIVITY IN ADULT BLOOD AND BRAIN CELLS WAS MEASURED USING QRT-PCR. RESULTS: ADULTS DERIVED FROM CORTISOL-TREATED EMBRYOS HAVE ELEVATED WHOLE-BODY CORTISOL WITH ABERRANTLY REGULATED TISSUE DISTRIBUTION AND DYNAMICS THAT CORRELATE WITH DIFFERENTIAL ACTIVITY OF KLF9 AND FKBP5 IN BLOOD AND BRAIN. 2020 9 6562 22 TRANSIENT AND PERMANENT CHANGES IN DNA METHYLATION PATTERNS IN INORGANIC ARSENIC-MEDIATED EPITHELIAL-TO-MESENCHYMAL TRANSITION. CHRONIC LOW DOSE INORGANIC ARSENIC EXPOSURE CAUSES CELLS TO TAKE ON AN EPITHELIAL-TO-MESENCHYMAL PHENOTYPE, WHICH IS A CRUCIAL PROCESS IN CARCINOGENESIS. INORGANIC ARSENIC IS NOT A MUTAGEN AND THUS EPIGENETIC ALTERATIONS HAVE BEEN IMPLICATED IN THIS PROCESS. INDEED, DURING THE EPITHELIAL-TO-MESENCHYMAL TRANSITION, MORPHOLOGIC CHANGES TO CELLS CORRELATE WITH CHANGES IN CHROMATIN STRUCTURE AND GENE EXPRESSION, ULTIMATELY DRIVING THIS PROCESS. HOWEVER, STUDIES ON THE EFFECTS OF INORGANIC ARSENIC EXPOSURE/WITHDRAWAL ON THE EPITHELIAL-TO-MESENCHYMAL TRANSITION AND THE IMPACT OF EPIGENETIC ALTERATIONS IN THIS PROCESS ARE LIMITED. IN THIS STUDY WE USED HIGH-RESOLUTION MICROARRAY ANALYSIS TO MEASURE THE CHANGES IN DNA METHYLATION IN CELLS UNDERGOING INORGANIC ARSENIC-INDUCED EPITHELIAL-TO-MESENCHYMAL TRANSITION, AND ON THE REVERSAL OF THIS PROCESS, AFTER REMOVAL OF THE INORGANIC ARSENIC EXPOSURE. WE FOUND THAT CELLS EXPOSED TO CHRONIC, LOW-DOSE INORGANIC ARSENIC EXPOSURE SHOWED 30,530 SITES WERE DIFFERENTIALLY METHYLATED, AND WITH INORGANIC ARSENIC WITHDRAWAL SEVERAL DIFFERENTIAL METHYLATED SITES WERE REVERSED, ALBEIT NOT COMPLETELY. FURTHERMORE, THESE CHANGES IN DNA METHYLATION MAINLY CORRELATED WITH CHANGES IN GENE EXPRESSION AT MOST SITES TESTED BUT NOT AT ALL. THIS STUDY SUGGESTS THAT DNA METHYLATION CHANGES ON GENE EXPRESSION ARE NOT CLEAR-CUT AND PROVIDE A PLATFORM TO BEGIN TO UNCOVER THE RELATIONSHIP BETWEEN DNA METHYLATION AND GENE EXPRESSION, SPECIFICALLY WITHIN THE CONTEXT OF INORGANIC ARSENIC TREATMENT. 2017 10 3042 32 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 11 990 29 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 12 1186 36 COORDINATED DYNAMIC GENE EXPRESSION CHANGES IN THE CENTRAL NUCLEUS OF THE AMYGDALA DURING ALCOHOL WITHDRAWAL. BACKGROUND: CHRONIC ALCOHOL USE CAUSES WIDESPREAD CHANGES IN THE CELLULAR BIOLOGY OF THE AMYGDALA'S CENTRAL NUCLEUS (CEA), A GABAERGIC CENTER THAT INTEGRATES AUTONOMIC PHYSIOLOGY WITH THE EMOTIONAL ASPECTS OF MOTIVATION AND LEARNING. WHILE ALCOHOL-INDUCED NEUROCHEMICAL CHANGES PLAY A ROLE IN DEPENDENCE AND DRINKING BEHAVIOR, LITTLE IS KNOWN ABOUT THE CEA'S DYNAMIC CHANGES DURING WITHDRAWAL, A PERIOD OF EMOTIONAL AND PHYSIOLOGIC DISTURBANCE. METHODS: WE USED A QRT-PCR PLATFORM TO MEASURE 139 TRANSCRIPTS IN 92 RAT CEA SAMPLES FROM CONTROL (N = 33), CHRONICALLY ALCOHOL EXPOSED (N = 26), AND WITHDRAWN RATS (T = 4, 8, 18, 32, AND 48 HOURS; N = 5, 10, 7, 6, 5). THIS FOCUSED TRANSCRIPT SET ALLOWED US TO IDENTIFY SIGNIFICANT DYNAMIC EXPRESSION PATTERNS DURING THE FIRST 48 HOURS OF WITHDRAWAL AND PROPOSE POTENTIAL REGULATORY MECHANISMS. RESULTS: CHRONIC ALCOHOL EXPOSURE CAUSES A LIMITED NUMBER OF SMALL MAGNITUDE EXPRESSION CHANGES. IN CONTRAST, WITHDRAWAL RESULTS IN A GREATER NUMBER OF LARGE CHANGES WITHIN 4 HOURS OF REMOVAL OF THE ALCOHOL DIET. SIXTY-FIVE OF THE 139 MEASURED TRANSCRIPTS (47%) SHOWED DIFFERENTIAL REGULATION DURING WITHDRAWAL. OVER THE 48-HOUR PERIOD, DYNAMIC CHANGES IN THE EXPRESSION OF GAMMA-AMINOBUTYRIC ACID TYPE A (GABA(A) ), IONOTROPIC GLUTAMATE AND NEUROPEPTIDE SYSTEM-RELATED G-PROTEIN-COUPLED RECEPTOR SUBUNITS, AND THE RAS/RAF SIGNALING PATHWAY WERE SEEN AS WELL AS DOWNSTREAM TRANSCRIPTION FACTORS (TFS) AND EPIGENETIC REGULATORS. FOUR TEMPORALLY CORRELATED GENE CLUSTERS WERE IDENTIFIED WITH SHARED FUNCTIONAL ROLES INCLUDING NMDA RECEPTORS, MAPKKK AND CHEMOKINE SIGNALING CASCADES, AND MEDIATORS OF LONG-TERM POTENTIATION, AMONG OTHERS. CLUSTER PROMOTER REGIONS SHARED OVERREPRESENTED BINDING SITES FOR MULTIPLE TFS INCLUDING CEBP, USF-1, SMAD3, AP-2, AND C-ETS, SUGGESTING A POTENTIAL REGULATORY ROLE. CONCLUSIONS: DURING ALCOHOL WITHDRAWAL, THE CEA EXPERIENCES RAPID CHANGES IN MRNA EXPRESSION OF THESE FUNCTIONALLY RELATED TRANSCRIPTS THAT WERE NOT PREDICTED BY MEASUREMENT DURING CHRONIC EXPOSURE. THIS STUDY PROVIDES NEW INSIGHT INTO DYNAMIC EXPRESSION CHANGES DURING ALCOHOL WITHDRAWAL AND SUGGESTS NOVEL REGULATORY RELATIONSHIPS THAT POTENTIALLY IMPACT THE ASPECTS OF EMOTIONAL MODULATION. 2013 13 4224 26 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 14 3182 34 HALLMARKS OF CD8(+) T CELL DYSFUNCTION ARE ESTABLISHED WITHIN HOURS OF TUMOR ANTIGEN ENCOUNTER BEFORE CELL DIVISION. TUMOR-SPECIFIC CD8+ T CELLS (TST) IN PATIENTS WITH CANCER ARE DYSFUNCTIONAL AND UNABLE TO HALT CANCER PROGRESSION. TST DYSFUNCTION, ALSO KNOWN AS EXHAUSTION, IS THOUGHT TO BE DRIVEN BY CHRONIC T CELL ANTIGEN RECEPTOR (TCR) STIMULATION OVER DAYS TO WEEKS. HOWEVER, WE KNOW LITTLE ABOUT THE INTERPLAY BETWEEN CD8(+) T CELL FUNCTION, CELL DIVISION AND EPIGENETIC REMODELING WITHIN HOURS OF ACTIVATION. HERE, WE ASSESSED EARLY CD8(+) T CELL DIFFERENTIATION, CELL DIVISION, CHROMATIN ACCESSIBILITY AND TRANSCRIPTION IN TUMOR-BEARING MICE AND ACUTELY INFECTED MICE. SURPRISINGLY, DESPITE ROBUST ACTIVATION AND PROLIFERATION, TST HAD NEAR COMPLETE EFFECTOR FUNCTION IMPAIRMENT EVEN BEFORE UNDERGOING CELL DIVISION AND HAD ACQUIRED HALLMARK CHROMATIN ACCESSIBILITY FEATURES PREVIOUSLY ASSOCIATED WITH LATER DYSFUNCTION/EXHAUSTION. MOREOVER, CONTINUED TUMOR/ANTIGEN EXPOSURE DROVE PROGRESSIVE EPIGENETIC REMODELING, 'IMPRINTING' THE DYSFUNCTIONAL STATE. OUR STUDY REVEALS THE RAPID DIVERGENCE OF T CELL FATE CHOICE BEFORE CELL DIVISION IN THE CONTEXT OF TUMORS VERSUS INFECTION. 2023 15 4093 22 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 16 6845 26 [METHYLATION STATUS OF APOPTOSIS GENES AND INTENSITY OF APOPTOTIC DEATH OF PERIPHERAL BLOOD LYMPHOCYTES IN PERSONS CHRONICALLY EXPOSED TO RADIATION]. METHYLATION OF THE CPG ISLANDS OF GENE PROMOTER REGIONS IS THE MOST COMMON EPIGENETIC MODIFICATION INVOLVED IN THE REGULATION OF GENE EXPRESSION. A NUMBER OF STUDIES HAVE SHOWN THAT IONIZING RADIATION CAN CAUSE BOTH HYPER- AND HYPOMETHYLATION OF DNA. ABERRANT METHYLATION AFFECTS CELLULAR PROCESSES AND CAN LEAD TO THE DEVELOPMENT OF VARIOUS PATHOLOGICAL STATES. IN THE LITERATURE, THERE ARE FEW STUDIES ON THE METHYLATION STATUS OF HUMAN DNA A LONG TIME AFTER RADIATION EXPOSURE. HERE, THE METHYLATION LEVEL OF CPG ISLANDS OF THE PROMOTER REGIONS OF APOPTOSIS GENES (BCL2, ATM, MDM2, CDKN1A, STAT3, AND NFKB1), AND ALSO ITS INFLUENCE ON APOPTOSIS OF PERIPHERAL BLOOD LYMPHOCYTES IN CHRONICALLY EXPOSED PERSONS WERE STUDIED. RESIDENTS OF THE SOUTH URAL REGION WHO WERE CHRONICALLY EXPOSED TO RADIATION (AFTER DISCHARGES OF RADIOACTIVE WASTES INTO THE TECHA RIVER BY THE "MAYAK PRODUCTION ASSOCIATION" IN 1949-1956) WERE INCLUDED IN THE STUDY. IT WAS ESTABLISHED THAT THE PROPORTION OF INDIVIDUALS WITH HYPERMETHYLATED BCL2 GENE PROMOTER AMONG THE EXPOSED PEOPLE WAS STATISTICALLY SIGNIFICANTLY HIGHER THAN IN THE CONTROL GROUP. THE PERCENTAGE OF METHYLATION OF THE ATM GENE PROMOTER WEAKLY POSITIVELY CORRELATED WITH DOSE AND AGE CHARACTERISTICS. DIFFERENCES IN THE FREQUENCY OF LYMPHOCYTE APOPTOSIS IN EXPOSED INDIVIDUALS WITH A HYPO- OR HYPERMETHYLATED ATM GENE PROMOTER WERE ALSO ESTABLISHED. THE DATA INDICATE THAT, IN THE LONG-TERM, AFTER CHRONIC LOW INTENSITY RADIATION EXPOSURE AT LOW AND MEDIUM DOSES, EPIGENETIC MODIFICATIONS OF THE GENOME OCCUR, WHICH ARE MANIFESTED AS CHANGES IN METHYLATION OF PROMOTER REGIONS OF BCL2 AND ATM GENES. 2022 17 6427 34 THE TRANSITION FROM ACUTE TO CHRONIC PAIN: DYNAMIC EPIGENETIC REPROGRAMMING OF THE MOUSE PREFRONTAL CORTEX UP TO 1 YEAR AFTER NERVE INJURY. CHRONIC PAIN IS ASSOCIATED WITH PERSISTENT STRUCTURAL AND FUNCTIONAL CHANGES THROUGHOUT THE NEUROAXIS, INCLUDING IN THE PREFRONTAL CORTEX (PFC). THE PFC IS IMPORTANT IN THE INTEGRATION OF SENSORY, COGNITIVE, AND EMOTIONAL INFORMATION AND IN CONDITIONED PAIN MODULATION. WE PREVIOUSLY REPORTED WIDESPREAD EPIGENETIC REPROGRAMMING IN THE PFC MANY MONTHS AFTER NERVE INJURY IN RODENTS. EPIGENETIC MODIFICATIONS, INCLUDING DNA METHYLATION, CAN DRIVE CHANGES IN GENE EXPRESSION WITHOUT MODIFYING DNA SEQUENCES. TO DATE, LITTLE IS KNOWN ABOUT EPIGENETIC DYSREGULATION AT THE ONSET OF ACUTE PAIN OR HOW IT PROGRESSES AS PAIN TRANSITIONS FROM ACUTE TO CHRONIC. WE HYPOTHESIZE THAT ACUTE PAIN AFTER INJURY RESULTS IN RAPID AND PERSISTENT EPIGENETIC REMODELLING IN THE PFC THAT EVOLVES AS PAIN BECOMES CHRONIC. WE FURTHER PROPOSE THAT UNDERSTANDING EPIGENETIC REMODELLING WILL PROVIDE INSIGHTS INTO THE MECHANISMS DRIVING PAIN-RELATED CHANGES IN THE BRAIN. EPIGENOME-WIDE ANALYSIS WAS PERFORMED IN THE MOUSE PFC 1 DAY, 2 WEEKS, 6 MONTHS, AND 1 YEAR AFTER PERIPHERAL INJURY USING THE SPARED NERVE INJURY IN MICE. SPARED NERVE INJURY RESULTED IN RAPID AND PERSISTENT CHANGES IN DNA METHYLATION, WITH ROBUST DIFFERENTIAL METHYLATION OBSERVED BETWEEN SPARED NERVE INJURY AND SHAM-OPERATED CONTROL MICE AT ALL TIME POINTS. HUNDREDS OF DIFFERENTIALLY METHYLATED GENES WERE IDENTIFIED, INCLUDING MANY WITH KNOWN FUNCTION IN PAIN. PATHWAY ANALYSIS REVEALED ENRICHMENT IN GENES RELATED TO STIMULUS RESPONSE AT EARLY TIME POINTS, IMMUNE FUNCTION AT LATER TIME POINTS, AND ACTIN AND CYTOSKELETAL REGULATION THROUGHOUT THE TIME COURSE. THESE RESULTS EMPHASIZE THE IMPORTANCE OF CONSIDERING PAIN CHRONICITY IN BOTH PAIN RESEARCH AND IN TREATMENT OPTIMIZATION. 2020 18 3836 32 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 19 4768 27 NUCLEAR EFFECTS OF ETHANOL-INDUCED PROTEASOME INHIBITION IN LIVER CELLS. ALCOHOL INGESTION CAUSES ALTERATION IN SEVERAL CELLULAR MECHANISMS, AND LEADS TO INFLAMMATION, APOPTOSIS, IMMUNOLOGICAL RESPONSE DEFECTS, AND FIBROSIS. THESE PHENOMENA ARE ASSOCIATED WITH SIGNIFICANT CHANGES IN THE EPIGENETIC MECHANISMS, AND SUBSEQUENTLY, TO LIVER CELL MEMORY. THE UBIQUITIN-PROTEASOME PATHWAY IS ONE OF THE VITAL PATHWAYS IN THE CELL THAT BECOMES DYSFUNCTIONAL AS A RESULT OF CHRONIC ETHANOL CONSUMPTION. INHIBITION OF THE PROTEASOME ACTIVITY IN THE NUCLEUS CAUSES CHANGES IN THE TURNOVER OF TRANSCRIPTIONAL FACTORS, HISTONE MODIFYING ENZYMES, AND THEREFORE, AFFECTS EPIGENETIC MECHANISMS. ALCOHOL CONSUMPTION HAS BEEN ASSOCIATED WITH AN INCREASE IN HISTONE ACETYLATION AND A DECREASE IN HISTONE METHYLATION, WHICH LEADS TO GENE EXPRESSION CHANGES. DNA AND HISTONE MODIFICATIONS THAT RESULT FROM ETHANOL-INDUCED PROTEASOME INHIBITION ARE KEY PLAYERS IN REGULATING GENE EXPRESSION, ESPECIALLY GENES INVOLVED IN THE CELL CYCLE, IMMUNOLOGICAL RESPONSES, AND METABOLISM OF ETHANOL. THE PRESENT REVIEW HIGHLIGHTS THE CONSEQUENCES OF ETHANOL-INDUCED PROTEASOME INHIBITION IN THE NUCLEUS OF LIVER CELLS THAT ARE CHRONICALLY EXPOSED TO ETHANOL. 2009 20 5750 23 SOCIAL DEFEAT STRESS IN ADULT MICE CAUSES ALTERATIONS IN GENE EXPRESSION, ALTERNATIVE SPLICING, AND THE EPIGENETIC LANDSCAPE OF H3K4ME3 IN THE PREFRONTAL CORTEX: AN IMPACT OF EARLY-LIFE STRESS. CHRONIC STRESS IS THE LEADING RISK FACTOR OF A BROAD RANGE OF SEVERE PSYCHOPATHOLOGIES. NONETHELESS, THE MOLECULAR MECHANISMS TRIGGERING THESE PATHOLOGICAL PROCESSES ARE NOT WELL UNDERSTOOD. IN OUR STUDY, WE INVESTIGATED THE EFFECTS OF 15-DAY SOCIAL DEFEAT STRESS (SDS) ON THE GENOME-WIDE LANDSCAPE OF TRIMETHYLATION AT THE 4TH LYSINE RESIDUE OF HISTONE H3 (H3K4ME3) AND ON THE TRANSCRIPTOME IN THE PREFRONTAL CORTEX OF MICE THAT WERE REARED NORMALLY (GROUP SDS) OR SUBJECTED TO MATERNAL SEPARATION EARLY IN LIFE (GROUP MS+SDS). THE MICE WITH THE HISTORY OF STRESS EARLY IN LIFE SHOWED INCREASED SUSCEPTIBILITY TO SDS IN ADULTHOOD AND DEMONSTRATED LONG-LASTING GENOME-WIDE ALTERATIONS IN GENE EXPRESSION AND SPLICING AS WELL AS IN THE H3K4ME3 EPIGENETIC LANDSCAPE IN THE PREFRONTAL CORTEX. THUS, THE HIGH-THROUGHPUT TECHNIQUES APPLIED HERE ALLOWED US TO SIMULTANEOUSLY DETECT, FOR THE FIRST TIME, GENOME-WIDE EPIGENETIC AND TRANSCRIPTIONAL CHANGES IN THE MURINE PREFRONTAL CORTEX THAT ARE ASSOCIATED WITH BOTH CHRONIC SDS AND INCREASED SUSCEPTIBILITY TO THIS STRESSOR. 2021