1 1809 102 EFFECTS OF ANTIPSYCHOTIC DRUGS ON THE EPIGENETIC MODIFICATION OF BRAIN-DERIVED NEUROTROPHIC FACTOR GENE EXPRESSION IN THE HIPPOCAMPI OF CHRONIC RESTRAINT STRESS RATS. RECENT STUDIES HAVE SHOWN THAT ANTIPSYCHOTIC DRUGS HAVE EPIGENETIC EFFECTS. HOWEVER, THE EFFECTS OF ANTIPSYCHOTIC DRUGS ON HISTONE MODIFICATION REMAIN UNCLEAR. THEREFORE, WE INVESTIGATED THE EFFECTS OF ANTIPSYCHOTIC DRUGS ON THE EPIGENETIC MODIFICATION OF THE BDNF GENE IN THE RAT HIPPOCAMPUS. RATS WERE SUBJECTED TO CHRONIC RESTRAINT STRESS (6 H/D FOR 21 D) AND THEN WERE ADMINISTERED WITH EITHER OLANZAPINE (2 MG/KG) OR HALOPERIDOL (1 MG/KG). THE LEVELS OF HISTONE H3 ACETYLATION AND MECP2 BINDING AT BDNF PROMOTER IV WERE ASSESSED WITH CHROMATIN IMMUNOPRECIPITATION ASSAYS. THE MRNA LEVELS OF TOTAL BDNF WITH EXON IV, HDAC5, DNMT1, AND DNMT3A WERE ASSESSED WITH A QUANTITATIVE RT-PCR PROCEDURE. CHRONIC RESTRAINT STRESS RESULTED IN THE DOWNREGULATION OF TOTAL AND EXON IV BDNF MRNA LEVELS AND A DECREASE IN HISTONE H3 ACETYLATION AND AN INCREASE IN MECP2 BINDING AT BDNF PROMOTER IV. FURTHERMORE, THERE WERE ROBUST INCREASES IN THE EXPRESSION OF HDAC5 AND DNMTS. OLANZAPINE ADMINISTRATION LARGELY PREVENTED THESE CHANGES. THE ADMINISTRATION OF HALOPERIDOL HAD NO EFFECT. THESE FINDINGS SUGGEST THAT THE ANTIPSYCHOTIC DRUG OLANZAPINE INDUCED HISTONE MODIFICATION OF BDNF GENE EXPRESSION IN THE HIPPOCAMPUS AND THAT THESE EPIGENETIC ALTERATIONS MAY REPRESENT ONE OF THE MECHANISMS UNDERLYING THE ACTIONS OF ANTIPSYCHOTIC DRUGS. 2018 2 1831 53 EFFECTS OF MATERNAL SEPARATION AND ANTIDEPRESSANT DRUG ON EPIGENETIC REGULATION OF THE BRAIN-DERIVED NEUROTROPHIC FACTOR EXON I PROMOTER IN THE ADULT RAT HIPPOCAMPUS. AIM: EARLY LIFE STRESS CAN INDUCE EPIGENETIC CHANGES THROUGH GENETIC AND ENVIRONMENTAL INTERACTIONS AND IS A RISK FACTOR FOR DEPRESSION. BRAIN-DERIVED NEUROTROPHIC FACTOR (BDNF) HAS BEEN IMPLICATED IN THE PATHOPHYSIOLOGY OF DEPRESSION AND ANTIDEPRESSANT DRUG ACTION. WE INVESTIGATED EPIGENETIC CHANGES AT THE BDNF EXON I PROMOTER IN THE HIPPOCAMPUS OF ADULT RATS SUBJECTED TO MATERNAL SEPARATION (MS) DURING EARLY LIFE AND TREATED WITH AN ANTIDEPRESSANT DRUG AS ADULTS. METHODS: RAT PUPS WERE SUBJECTED TO MS FROM POSTNATAL DAY 1 TO 21 AND RECEIVED CHRONIC ESCITALOPRAM (ESC) AS ADULTS. WE ASSESSED THE EFFECTS OF MS AND ESC ON BDNF EXON I AND DNA METHYLTRANSFERASES (DNMT) MRNA LEVELS (QUANTITATIVE REVERSE-TRANSCRIPTION POLYMERASE CHAIN REACTION), ACETYLATED HISTONE H3, AND MECP2 BINDING TO THE BDNF PROMOTER I (CHROMATIN IMMUNOPRECIPITATION FOLLOWED BY REAL-TIME POLYMERASE CHAIN REACTION), AND BDNF PROTEIN LEVELS (ENZYME-LINKED IMMUNOSORBENT ASSAY). RESULTS: THE LEVELS OF BDNF PROTEIN, EXON I MRNA, HISTONE H3 ACETYLATION, AND DNMT1 AND DNMT3A MRNA WERE ALTERED IN THE MS GROUP COMPARED WITH THE CONTROL GROUP. SIGNIFICANT DECREASES WERE OBSERVED IN THE BDNF PROTEIN, EXON I MRNA, AND HISTONE H3 ACETYLATION LEVELS AND THERE WERE SIGNIFICANT INCREASES IN DNMT1 AND DNMT3A MRNA LEVELS. THE COMPARISON BETWEEN THE MS + ESC AND MS GROUPS REVEALED SIGNIFICANT INCREASES IN BDNF PROTEIN, EXON I MRNA, AND HISTONE H3 ACETYLATION LEVELS AND SIGNIFICANT DECREASES IN MECP2 AND DNMT1 AND DNMT3A MRNA LEVELS. CONCLUSION: THESE FINDINGS INDICATE THAT MS INDUCED EPIGENETIC CHANGES AT THE BDNF EXON I PROMOTER AND THESE CHANGES WERE PREVENTED BY ANTIDEPRESSANT DRUG TREATMENT DURING ADULTHOOD. 2018 3 4173 36 MELATONIN INDUCES HISTONE HYPERACETYLATION IN THE RAT BRAIN. WE HAVE REPORTED THAT MELATONIN INDUCES HISTONE HYPERACETYLATION IN MOUSE NEURAL STEM CELLS, SUGGESTING AN EPIGENETIC ROLE FOR THIS PLEIOTROPIC HORMONE. TO SUPPORT SUCH A ROLE, IT IS NECESSARY TO DEMONSTRATE THAT MELATONIN PRODUCES SIMILAR EFFECTS IN VIVO. HISTONE ACETYLATION, FOLLOWING CHRONIC TREATMENT WITH MELATONIN (4MUG/ML IN DRINKING WATER FOR 17 DAYS), WAS EXAMINED BY WESTERN BLOTTING IN SELECTED RAT BRAIN REGIONS. MELATONIN INDUCED SIGNIFICANT INCREASES IN HISTONE H3 AND HISTONE H4 ACETYLATION IN THE HIPPOCAMPUS. HISTONE H4 WAS ALSO HYPERACETYLATED IN THE STRIATUM, BUT THERE WERE NO SIGNIFICANT CHANGES IN HISTONE H3 ACETYLATION IN THIS BRAIN REGION. NO SIGNIFICANT CHANGES IN THE ACETYLATION OF EITHER HISTONE H3 OR H4 WERE OBSERVED IN THE MIDBRAIN AND CEREBELLUM. AN EXAMINATION OF KINASE ACTIVATION, WHICH MAY BE RELATED TO THESE CHANGES, REVEALED THAT MELATONIN TREATMENT INCREASED THE LEVELS OF PHOSPHO-ERK (EXTRACELLULAR SIGNAL-REGULATED KINASE) IN THE HIPPOCAMPUS AND STRIATUM, BUT PHOSPHO-AKT (PROTEIN KINASE B) LEVELS WERE UNCHANGED. THESE FINDINGS SUGGEST THAT CHROMATIN REMODELING AND ASSOCIATED CHANGES IN THE EPIGENETIC REGULATION OF GENE EXPRESSION UNDERLIE THE MULTIPLE PHYSIOLOGICAL EFFECTS OF MELATONIN. 2013 4 2705 35 EXERCISE AND LOW-LEVEL GABA(A) RECEPTOR INHIBITION MODULATE LOCOMOTOR ACTIVITY AND THE EXPRESSION OF BDNF ACCOMPANIED BY CHANGES IN EPIGENETIC REGULATION IN THE HIPPOCAMPUS. AEROBIC EXERCISE IS KNOWN TO INCREASE EXPRESSION OF BRAIN-DERIVED NEUROTROPHIC FACTOR (BDNF) IN THE HIPPOCAMPUS AND TO IMPROVE COGNITIVE FUNCTION. THE INHIBITION OF GABAERGIC SYNAPSES ENHANCES HIPPOCAMPAL PLASTICITY AS WELL AS LEARNING AND MEMORY. THE OBJECTIVE OF THE PRESENT STUDY WAS TO EXAMINE THE INTERACTIVE EFFECT OF LOW-LEVEL GABA(A) RECEPTOR INHIBITION AND EXERCISE ON BEHAVIOR TESTS (COGNITIVE FUNCTION AND LOCOMOTOR ACTIVITY), EXPRESSION OF BDNF AND EPIGENETIC REGULATIONS INCLUDING THE ACTIVITY LEVELS OF HISTONE ACETYLTRANSFERASES (HATS) AND HISTONE DEACETYLASES (HDACS) IN THE HIPPOCAMPUS. ICR MICE WERE DIVIDED INTO TWO GROUPS: THOSE WHO DID NOT PARTICIPATE IN EXERCISE AND THOSE WHO PARTICIPATED IN EXERCISE. EACH GROUP WAS SUBDIVIDED INTO TWO OTHER GROUPS: THE ONE WHO RECEIVED VEHICLE AND THE ONE WHO RECEIVED GABA(A) RECEPTOR ANTAGONIST, BICUCULLIN. WE ADMINISTERED SALINE OR BICUCULLINE INTRAPERITONEALLY TO THE MICE AT A NON-EPILEPTIC DOSE OF 0.25 MG/KG, WHEREAS THE MICE WERE EXERCISED ON A TREADMILL FOR APPROXIMATELY 1 H A DAY, 5 DAYS A WEEK FOR 4 WEEKS. NOVEL-OBJECT RECOGNITION TEST AND LOCOMOTOR ACTIVITY WERE ASSESSED AT A REST DAY APPROXIMATELY 4 DAYS BEFORE THE EUTHANASIA. THE MICE WERE EUTHANIZED 4 H AFTER THE LAST EXERCISE SESSION. AEROBIC EXERCISE FOR 4 WEEKS INCREASED MRNA AND PROTEIN EXPRESSION OF BDNF IN THE HIPPOCAMPUS, ACCOMPANIED BY ENHANCED HAT ACTIVITY. ALTERNATIVELY, BICUCULLINE ADMINISTRATION INCREASED HDAC ACTIVITY IN THE HIPPOCAMPUS. FURTHERMORE, EXERCISE IN THE PRESENCE OF BICUCULLINE ADMINISTRATION INCREASED LOCOMOTOR ACTIVITY, INDICATING THAT EXERCISE COMBINED WITH LOW-LEVEL GABA(A) RECEPTOR INHIBITION POTENTIATED THE ACTIVITY OF THE MICE. ALTOGETHER, THE PRESENT STUDY SUGGESTED THAT EXERCISE BENEFICIALLY CONTRIBUTES TO NEUROPROTECTION IN THE HIPPOCAMPUS ACCOMPANIED BY THE UP-REGULATION OF BDNF EXPRESSION AND EPIGENETIC REGULATION, WHEREAS THE CHRONIC INHIBITION OF GABA(A) RECEPTOR POTENTIATES EXERCISE-INDUCED BEHAVIORAL ACTIVITY. 2018 5 1808 46 EFFECTS OF ADOLESCENT SOCIAL STRESS AND ANTIDEPRESSANT TREATMENT ON COGNITIVE INFLEXIBILITY AND BDNF EPIGENETIC MODIFICATIONS IN THE MPFC OF ADULT MICE. ADOLESCENT SOCIAL STRESS (ASS) CAN INCREASE SUSCEPTIBILITY TO DEPRESSION IN ADULTHOOD. HOWEVER, THE UNDERLYING PSYCHOLOGICAL AND NEURAL MECHANISMS REMAIN UNCLEAR. CORTICALLY MEDIATED COGNITIVE DYSFUNCTIONS ARE INCREASINGLY RECOGNIZED AS AN INDEPENDENT AND IMPORTANT RISK FACTOR OF DEPRESSION. USING SOCIAL DEFEAT STRESS, A CLASSICAL ANIMAL MODEL OF DEPRESSION, OUR PREVIOUS STUDIES FOUND THAT MICE SUBJECTED TO THIS FORM OF STRESS DURING EARLY ADOLESCENCE DISPLAYED COGNITIVE INFLEXIBILITY (CI) IN ADULTHOOD. THIS CHANGE WAS ACCOMPANIED BY A DOWN-REGULATION OF BDNF GENE EXPRESSION IN THE MEDIAL PREFRONTAL CORTEX (MPFC); THIS GENE ENCODES A KEY MOLECULE INVOLVED IN DEPRESSION AND ANTIDEPRESSANT ACTION. IN THE PRESENT PAPER, WE IDENTIFIED EPIGENETIC MODIFICATION OF BDNF AS A POSSIBLE MECHANISM UNDERLYING THE BEHAVIORAL AND MOLECULAR CHANGES. ASS INDUCED A SET OF DEPRESSIVE PHENOTYPES, INCLUDING INCREASED SOCIAL AVOIDANCE AND CI, AS WELL AS REDUCED LEVELS OF TOTAL BDNF AND ISOFORM IV BUT NOT ISOFORM I OR VI TRANSCRIPTS IN THE MPFC. IN PARALLEL WITH CHANGES IN BDNF GENE EXPRESSION, PREVIOUSLY STRESSED ADULT MICE SHOWED INCREASED LEVELS OF DIMETHYLATION OF HISTONE H3 AT LYSINE K9 (H3K9ME2) IMMEDIATELY DOWNSTREAM OF THE BDNF IV PROMOTER. ON THE OTHER HAND, NO DIFFERENCES WERE FOUND IN TRIMETHYLATION OF HISTONE H3 AT LYSINE K4 (H3K4ME3) OR IN ACETYLATION OF HISTONE H3 AT LYSINE K9 (H3K9AC) OR AT K4 (H3K4AC) IN THE BDNF IV PROMOTER. LIKEWISE, NO ALTERATIONS WERE FOUND IN DNA METHYLATION OF THE BDNF IV PROMOTER. ADDITIONALLY, TREATMENT WITH THE CHRONIC ANTIDEPRESSANT TRANYLCYPROMINE REVERSED BDNF EPIGENETIC CHANGES AND RELATED GENE TRANSCRIPTION WHILE ALSO REVERSING CI, BUT NOT SOCIAL AVOIDANCE, IN PREVIOUSLY STRESSED ADULT MICE. THESE RESULTS SUGGEST THAT EPIGENETIC CHANGES TO THE BDNF GENE IN THE MPFC AFTER ADOLESCENT SOCIAL ADVERSITY MAY BE INVOLVED IN THE REGULATION OF COGNITIVE DYSFUNCTION IN DEPRESSION AND ANTIDEPRESSANT ACTION IN ADULTHOOD. 2018 6 431 37 ANTIDEPRESSANT ADMINISTRATION MODULATES STRESS-INDUCED DNA METHYLATION AND DNA METHYLTRANSFERASE EXPRESSION IN RAT PREFRONTAL CORTEX AND HIPPOCAMPUS. STRESS AND ANTIDEPRESSANT TREATMENT CAN MODULATE DNA METHYLATION IN PROMOTER REGION OF GENES RELATED TO NEUROPLASTICITY AND MOOD REGULATION, THUS IMPLICATING THIS EPIGENETIC MECHANISM IN DEPRESSION NEUROBIOLOGY AND TREATMENT. ACCORDINGLY, SYSTEMIC ADMINISTRATION OF DNA METHYLTRANSFERASE (DNMT) INHIBITORS INDUCES ANTIDEPRESSANT-LIKE EFFECTS IN RODENTS. DNA METHYLATION IS CONVEYED BY DNMT 1, 3A AND 3B ISOFORMS, WHICH ARE DIFFERENTIALLY EXPRESSED IN THE BRAIN. IN ORDER TO INVESTIGATE IF THE BEHAVIORAL EFFECTS OF ANTIDEPRESSANTS COULD BE ASSOCIATED WITH CHANGES IN DNA METHYLATION AND DNMT EXPRESSION, WE INVESTIGATED THE EFFECTS INDUCED BY ACUTE AND REPEATED ANTIDEPRESSANT TREATMENT ON DNA METHYLATION AND DNMT EXPRESSION (1, 3A AND 3B ISOFORMS) IN DIFFERENT BRAIN REGIONS OF RATS EXPOSED TO A STRESS MODEL OF DEPRESSION, THE LEARNED HELPLESSNESS (LH). THEREFORE, RATS WERE EXPOSED TO PRETEST AND TREATED WITH ONE OR SEVEN INJECTIONS OF VEHICLE OR IMIPRAMINE (15 MG KG(-1)), WITH TEST SESSION PERFORMED ONE HOUR AFTER THE LAST INJECTION. CHRONIC, BUT NOT ACUTE, IMIPRAMINE ADMINISTRATION ATTENUATED ESCAPE FAILURES DURING THE TEST, A WELL DESCRIBED ANTIDEPRESSANT-LIKE EFFECT IN THIS MODEL. DNA METHYLATION AND DNMT (1, 3A AND 3B) LEVELS WERE MEASURED IN THE DORSAL AND VENTRAL HIPPOCAMPUS (DHPC, VHPC) AND IN THE PREFRONTAL CORTEX (PFC) OF RATS EXPOSED TO STRESS AND TREATMENT. STRESS INCREASED DNA METHYLATION, DNMT3A AND DNMT3B EXPRESSION IN THE DHPC AND PFC. CHRONIC, BUT NOT ACUTE, IMIPRAMINE ADMINISTRATION ATTENUATED STRESS EFFECTS ONLY IN THE PFC. THESE RESULTS SUGGEST THE REGULATION OF DNA METHYLATION IN THE PFC MAY BE AN IMPORTANT MECHANISM FOR ANTIDEPRESSANT-LIKE EFFECTS IN THE LH MODEL. 2018 7 1813 38 EFFECTS OF CAFFEIC ACID ON EPIGENETICS IN THE BRAIN OF RATS WITH CHRONIC UNPREDICTABLE MILD STRESS. THE PRESENT STUDY HYPOTHESIZED THAT CAFFEIC ACID (3,4?DIHYDROXYCINNAMIC ACID; CAA) MAY EXERT ANTIDEPRESSANT?LIKE EFFECTS IN RATS WITH CHRONIC UNPREDICTABLE MILD STRESS VIA EPIGENETIC MECHANISMS, SUCH AS DNA METHYLATION AND HYDROXYMETHYLATION. THE CHRONIC UNPREDICTABLE MILD STRESS (CUMS) MODEL WAS USED TO ANALYZE THE EFFECTS OF CAA ON BEHAVIORAL PHENOTYPES, AND TO EVALUATE THE DISTRIBUTION OF 5?METHYLCYTOSINE (5MC) AND 5?HYDROXYMETHYLCYTOSINE (5HMC) IN THE HIPPOCAMPUS AND PREFRONTAL CORTEX USING IMMUNOHISTOCHEMISTRY AND IMMUNOFLUORESCENCE. MRNA LEVELS OF THE GENES ENCODING BRAIN?DERIVED NEUROTROPIC FACTOR (BDNF) AND CATECHOL?O?METHYLTRANSFERASE (COMT), AND KEY ENZYMES REGULATING DNA METHYLATION [DNA METHYLTRANSFERASE (DNMT)1 AND DNMT3A] AND HYDROXYMETHYLATION [TEN?ELEVEN TRANSLOCATION (TET)1?3] WERE EXAMINED USING QUANTITATIVE (Q)PCR. FURTHERMORE, ENRICHMENT OF 5MC AND 5HMC AT THE PROMOTOR REGIONS OF THE BDNF AND COMT GENES WAS QUANTIFIED USING CHROMATIN IMMUNOPRECIPITATION?QPCR. BEHAVIORAL DATA SHOWED THAT CAA EXERTED A SLIGHT ANTIDEPRESSANT?LIKE EFFECT. BDNF AND COMT GENES SHOWED DIFFERENTIAL EXPRESSION PATTERNS DUE TO CUMS. CAA INTERVENTION INDUCED DIFFERENT DNMT1/DNMT3A AND TET1/TET2 MRNA LEVELS IN THE HIPPOCAMPUS AND PREFRONTAL CORTEX, RESPECTIVELY. CAA REGULATED THE RATIO OF 5MC/5HMC AT THE PROMOTOR REGION OF THE BDNF AND COMT GENES AND THEREFORE INFLUENCED GENE EXPRESSION, WHICH MAY BE A VALUABLE THERAPEUTIC OPTION FOR MAJOR DEPRESSIVE DISORDER (MDD). IN CONCLUSION, THERE WERE EPIGENETIC CHANGES IN THE HIPPOCAMPUS AND PREFRONTAL CORTEX IN CUMS RATS, AND CAA MAY FUNCTION AS A MODULATOR OF DNA METHYLATION TO REGULATE GENE TRANSCRIPTION, THUS PROVIDING A MECHANISTIC BASIS FOR THE USE OF THIS PHYTOCHEMICAL AGENT IN THE TREATMENT OF MDD. 2020 8 4828 36 OLANZAPINE INDUCED DNA METHYLATION CHANGES SUPPORT THE DOPAMINE HYPOTHESIS OF PSYCHOSIS. BACKGROUND: THE DOPAMINE (DA) HYPOTHESIS OF SCHIZOPHRENIA PROPOSES THE MENTAL ILLNESS IS CAUSED BY EXCESSIVE TRANSMISSION OF DOPAMINE IN SELECTED BRAIN REGIONS. MULTIPLE LINES OF EVIDENCE, INCLUDING BLOCKAGE OF DOPAMINE RECEPTORS BY ANTIPSYCHOTIC DRUGS THAT ARE USED TO TREAT SCHIZOPHRENIA, SUPPORT THE HYPOTHESIS. HOWEVER, THE DOPAMINE D2 RECEPTOR (DRD2) BLOCKADE CANNOT EXPLAIN SOME IMPORTANT ASPECTS OF THE THERAPEUTIC EFFECT OF ANTIPSYCHOTIC DRUGS. IN THIS STUDY, WE HYPOTHESIZED THAT ANTIPSYCHOTIC DRUGS COULD AFFECT THE TRANSCRIPTION OF GENES IN THE DA PATHWAY BY ALTERING THEIR EPIGENETIC PROFILE. METHODS: TO TEST THIS HYPOTHESIS, WE EXAMINED THE EFFECT OF OLANZAPINE, A COMMONLY USED ATYPICAL ANTIPSYCHOTIC DRUG, ON THE DNA METHYLATION STATUS OF GENES FROM DA NEUROTRANSMISSION IN THE BRAIN AND LIVER OF RATS. GENOMIC DNA ISOLATED FROM HIPPOCAMPUS, CEREBELLUM, AND LIVER OF OLANZAPINE TREATED (N = 2) AND CONTROL (N = 2) RATS WERE ANALYZED USING RAT SPECIFIC METHYLATION ARRAYS. RESULTS: OUR RESULTS SHOW THAT OLANZAPINE CAUSES METHYLATION CHANGES IN GENES ENCODING FOR DA RECEPTORS (DOPAMINE D1 RECEPTOR, DOPAMINE D2 RECEPTOR AND DOPAMINE D5 RECEPTOR), A DA TRANSPORTER (SOLUTE CARRIER FAMILY 18 MEMBER 2), A DA SYNTHESIS (DIFFERENTIAL DISPLAY CLONE 8), AND A DA METABOLISM (CATECHOL-O-METHYLTRANSFERASE). WE ASSESSED A TOTAL OF 40 GENES IN THE DA PATHWAY AND FOUND 19 TO BE DIFFERENTIALLY METHYLATED BETWEEN OLANZAPINE TREATED AND CONTROL RATS. MOST (17/19) GENES SHOWED AN INCREASE IN METHYLATION, IN THEIR PROMOTER REGIONS WITH IN SILICO ANALYSIS STRONGLY INDICATING A FUNCTIONAL POTENTIAL TO SUPPRESS TRANSCRIPTION IN THE BRAIN. CONCLUSION: OUR RESULTS SUGGEST THAT CHRONIC OLANZAPINE MAY REDUCE DA ACTIVITY BY ALTERING GENE METHYLATION. IT MAY ALSO EXPLAIN THE DELAYED THERAPEUTIC EFFECT OF ANTIPSYCHOTICS, WHICH OCCURS DESPITE RAPID DOPAMINE BLOCKADE. FURTHERMORE, GIVEN THE COMMON NATURE OF EPIGENETIC VARIATION, THIS LENDS INSIGHT INTO THE DIFFERENTIAL THERAPEUTIC RESPONSE OF PSYCHOTIC PATIENTS WHO DISPLAY ADEQUATE BLOCKAGE OF DOPAMINE RECEPTORS. 2013 9 2740 27 EXPOSURE TO EARLY LIFE STRESS RESULTS IN EPIGENETIC CHANGES IN NEUROTROPHIC FACTOR GENE EXPRESSION IN A PARKINSONIAN RAT MODEL. EARLY LIFE ADVERSITY INCREASES THE RISK OF MENTAL DISORDERS LATER IN LIFE. CHRONIC EARLY LIFE STRESS MAY ALTER NEUROTROPHIC FACTOR GENE EXPRESSION INCLUDING THOSE FOR BRAIN DERIVED NEUROTROPHIC FACTOR (BDNF) AND GLIAL CELL DERIVED NEUROTROPHIC FACTOR (GDNF) THAT ARE IMPORTANT IN NEURONAL GROWTH, SURVIVAL, AND MAINTENANCE. MATERNAL SEPARATION WAS USED IN THIS STUDY TO MODEL EARLY LIFE STRESS. FOLLOWING UNILATERAL INJECTION OF A MILD DOSE OF 6-HYDROXYDOPAMINE (6-OHDA), WE MEASURED CORTICOSTERONE (CORT) IN THE BLOOD AND STRIATUM OF STRESSED AND NONSTRESSED RATS; WE ALSO MEASURED DNA METHYLATION AND BDNF AND GDNF GENE EXPRESSION IN THE STRIATUM USING REAL TIME PCR. IN THE PRESENCE OF STRESS, WE FOUND THAT THERE WAS INCREASED CORTICOSTERONE CONCENTRATION IN BOTH BLOOD AND STRIATAL TISSUE. FURTHER TO THIS, WE FOUND HIGHER DNA METHYLATION AND DECREASED NEUROTROPHIC FACTOR GENE EXPRESSION. 6-OHDA LESION INCREASED NEUROTROPHIC FACTOR GENE EXPRESSION IN BOTH STRESSED AND NONSTRESSED RATS BUT THIS INCREASE WAS HIGHER IN THE NONSTRESSED RATS. OUR RESULTS SUGGEST THAT EXPOSURE TO EARLY POSTNATAL STRESS INCREASES CORTICOSTERONE CONCENTRATION WHICH LEADS TO INCREASED DNA METHYLATION. THIS EFFECT RESULTS IN DECREASED BDNF AND GDNF GENE EXPRESSION IN THE STRIATUM LEADING TO DECREASED PROTECTION AGAINST SUBSEQUENT INSULTS LATER IN LIFE. 2016 10 219 31 ACUTE IMMOBILIZATION STRESS FOLLOWING CONTEXTUAL FEAR CONDITIONING REDUCES FEAR MEMORY: TIMING IS ESSENTIAL. BACKGROUND: HISTONE ACETYLATION IS REGULATED IN RESPONSE TO STRESS AND PLAYS AN IMPORTANT ROLE IN LEARNING AND MEMORY. CHRONIC STRESS IS KNOWN TO DETERIORATE COGNITION, WHEREAS ACUTE STRESS FACILITATES MEMORY FORMATION. HOWEVER, WHETHER ACUTE STRESS FACILITATES MEMORY FORMATION WHEN IT IS APPLIED AFTER FEAR STIMULATION IS NOT YET KNOWN. THEREFORE, THIS STUDY AIMED TO INVESTIGATE THE EFFECT OF ACUTE STRESS APPLIED AFTER FEAR TRAINING ON MEMORY FORMATION, MRNA EXPRESSION OF BRAIN-DERIVED NEUROTROPHIC FACTOR (BDNF), EPIGENETIC REGULATION OF BDNF EXPRESSION, AND CORTICOSTERONE LEVEL IN MICE IN VIVO. METHODS: MICE WERE SUBJECTED TO ACUTE IMMOBILIZATION STRESS FOR 30 MIN AT 60 OR 90 MIN AFTER CONTEXTUAL FEAR CONDITIONING TRAINING, AND ACETYLATION OF HISTONE 3 AT LYSINE 14 (H3K14) AND LEVEL OF CORTICOSTERONE WERE MEASURED USING WESTERN BLOT ANALYSIS AND ENZYME-LINKED IMMUNOSORBENT ASSAY (ELISA), RESPECTIVELY. A FREEZING BEHAVIOR TEST WAS PERFORMED 24 H AFTER TRAINING, AND MRNA EXPRESSION OF BDNF WAS MEASURED USING REAL-TIME POLYMERASE CHAIN REACTIONS. DIFFERENT GROUPS OF MICE WERE USED FOR EACH TEST. RESULTS: FREEZING BEHAVIOR SIGNIFICANTLY DECREASED WITH THE DOWN-REGULATION OF BDNF MRNA EXPRESSION CAUSED BY ACUTE IMMOBILIZATION STRESS AT 60 MIN AFTER FEAR CONDITIONING TRAINING OWING TO THE REDUCTION OF H3K14 ACETYLATION. HOWEVER, BDNF MRNA EXPRESSION AND H3K14 ACETYLATION WERE NOT REDUCED IN ANIMALS SUBJECTED TO IMMOBILIZATION STRESS AT 90 MIN AFTER THE TRAINING. FURTHER, THE CORTICOSTERONE LEVEL WAS SIGNIFICANTLY HIGH IN MICE SUBJECTED TO IMMOBILIZATION STRESS AT 60 MIN AFTER THE TRAINING. CONCLUSION: ACUTE IMMOBILIZATION STRESS FOR 30 MIN AT 60 MIN AFTER FEAR CONDITIONING TRAINING IMPAIRED MEMORY FORMATION AND REDUCED BDNF MRNA EXPRESSION AND H3K14 ACETYLATION IN THE HIPPOCAMPUS OF MICE OWING TO THE HIGH LEVEL OF CORTICOSTERONE. 2016 11 1238 24 CURCUMIN BLOCKS CHRONIC MORPHINE ANALGESIC TOLERANCE AND BRAIN-DERIVED NEUROTROPHIC FACTOR UPREGULATION. THIS STUDY WAS CARRIED OUT BASED ON THE ASSUMPTION THAT BRAIN-DERIVED NEUROTROPHIC FACTOR (BDNF) MAY COUNTERBALANCE THE ACTION OF MORPHINE IN THE BRAIN. MORPHINE ANALGESIC TOLERANCE AFTER DAILY ADMINISTRATIONS FOR SIX DAYS WAS BLOCKED BY INTRACEREBROVENTRICULAR INJECTION OF ANTI-BDNF IGG ON DAY 5, BUT NOT BY ADMINISTRATIONS ON DAYS 1-4. CHRONIC MORPHINE TREATMENT SIGNIFICANTLY INCREASED THE EXPRESSION OF EXON I AND IV BDNF TRANSCRIPTS, INDICATING DIFFERENTIAL REGULATION OF BDNF GENE EXPRESSION. DAILY ADMINISTRATION OF THE CREB-BINDING PROTEIN INHIBITOR CURCUMIN ABOLISHED THE UPREGULATION OF BDNF TRANSCRIPTION AND MORPHINE ANALGESIC TOLERANCE. THESE RESULTS SUGGEST THAT CURCUMIN MIGHT BE A PROMISING ADJUVANT TO REDUCE MORPHINE ANALGESIC TOLERANCE, AND THAT EPIGENETIC CONTROL COULD BE A NEW STRATEGY USEFUL FOR THE CONTROL OF THIS PROBLEM. 2009 12 6175 30 THE HISTONE DEACETYLASE INHIBITOR SUBEROYLANILIDE HYDROXAMIC ACID (SAHA) ALLEVIATES DEPRESSION-LIKE BEHAVIOR AND NORMALIZES EPIGENETIC CHANGES IN THE HIPPOCAMPUS DURING ETHANOL WITHDRAWAL. WITHDRAWAL FROM CHRONIC ALCOHOL DRINKING CAN CAUSE DEPRESSION, LEADING TO AN INABILITY TO FUNCTION IN DAILY LIFE AND AN INCREASED RISK FOR RELAPSE TO HARMFUL DRINKING. UNDERSTANDING THE CAUSES OF ALCOHOL WITHDRAWAL-RELATED DEPRESSION MAY LEAD TO NEW THERAPEUTIC TARGETS FOR TREATMENT. EPIGENETIC FACTORS HAVE RECENTLY EMERGED AS IMPORTANT CONTRIBUTORS TO BOTH DEPRESSION AND ALCOHOL USE DISORDER (AUD). SPECIFICALLY, ACETYLATION OF THE N-TERMINAL TAILS OF HISTONE PROTEINS THAT PACKAGE DNA INTO NUCLEOSOMES IS ALTERED IN STRESS-INDUCED MODELS OF DEPRESSION AND DURING ALCOHOL WITHDRAWAL. THE GOAL OF THIS STUDY WAS TO EXAMINE DEPRESSION-LIKE BEHAVIOR DURING ALCOHOL WITHDRAWAL AND ASSOCIATED CHANGES IN HISTONE ACETYLATION AND EXPRESSION OF HISTONE DEACETYLASE 2 (HDAC2) IN THE HIPPOCAMPUS, A BRAIN REGION CRITICAL FOR MOOD REGULATION AND DEPRESSION. MALE SPRAGUE-DAWLEY RATS WERE TREATED WITH THE LIEBER-DECARLI ETHANOL LIQUID DIET FOR 15 DAYS AND THEN UNDERWENT WITHDRAWAL. RATS WERE TREATED WITH THE HDAC INHIBITOR, SUBEROYLANILIDE HYDROXAMIC ACID (SAHA), DURING WITHDRAWAL AND WERE TESTED FOR DEPRESSION-LIKE BEHAVIOR. IN A SEPARATE GROUP OF RATS, THE HIPPOCAMPUS WAS ANALYZED FOR MRNA AND PROTEIN EXPRESSION OF HDAC2 AND LEVELS OF HISTONE H3 LYSINE 9 ACETYLATION (H3K9AC) DURING CHRONIC ETHANOL EXPOSURE AND WITHDRAWAL. RATS UNDERGOING ETHANOL WITHDRAWAL EXHIBITED DEPRESSION-LIKE BEHAVIOR AND HAD INCREASED HDAC2 AND DECREASED H3K9AC LEVELS IN SPECIFIC STRUCTURES OF THE HIPPOCAMPUS. TREATMENT WITH SAHA DURING WITHDRAWAL AMELIORATED DEPRESSION-LIKE BEHAVIOR AND NORMALIZED CHANGES IN HIPPOCAMPAL HDAC2 AND H3K9AC LEVELS. THESE RESULTS DEMONSTRATE THAT ETHANOL WITHDRAWAL CAUSES AN ALTERED EPIGENETIC STATE IN THE HIPPOCAMPUS. TREATMENT WITH AN HDAC INHIBITOR CAN CORRECT THIS STATE AND ALLEVIATE DEPRESSION-LIKE SYMPTOMS DEVELOPED DURING WITHDRAWAL. TARGETING HISTONE ACETYLATION MAY BE A NOVEL STRATEGY TO REDUCE ETHANOL WITHDRAWAL-INDUCED DEPRESSION. 2019 13 3177 32 H3K9ME2 REGULATION OF BDNF EXPRESSION IN THE HIPPOCAMPUS AND MEDIAL PREFRONTAL CORTEX IS INVOLVED IN THE DEPRESSIVE-LIKE PHENOTYPE INDUCED BY MATERNAL SEPARATION IN MALE RATS. BACKGROUND: EARLY LIFE STRESS (ELS) INDUCES A DEPRESSIVE-LIKE PHENOTYPE AND INCREASES THE RISK OF DEPRESSION. BRAIN-DERIVED NEUROTROPHIC FACTOR (BDNF) HAS BEEN CONFIRMED TO BE INVOLVED IN THE PATHOPHYSIOLOGY OF DEPRESSION. HOWEVER, THE MECHANISM BY WHICH ELS ALTERS THE EPIGENETIC REGULATION OF BDNF AND CHANGES SUSCEPTIBILITY TO DEPRESSION HAS NOT BEEN FULLY CLARIFIED. METHODS: THE PRESENT STUDY USED MATERNAL SEPARATION (MS) AND CHRONIC UNPREDICTED MILD STRESS (CUMS) TO ESTABLISH AN MS ANIMAL MODEL AND A DEPRESSIVE ANIMAL MODEL. WE ASSESSED DEPRESSIVE-LIKE BEHAVIOURS, INCLUDING ANHEDONIA, LOCOMOTOR ACTIVITY, ANXIETY-LIKE BEHAVIOUR, AND SPATIAL MEMORY, USING THE SUCROSE PREFERENCE TEST, THE OPEN FIELD TEST, THE ELEVATED PLUS MAZE TEST, AND THE MORRIS WATER MAZE TEST. WE ALSO INVESTIGATED BDNF AND H3K9ME2 EXPRESSION IN THE HIPPOCAMPUS AND MEDIAL PREFRONTAL CORTEX (MPFC) BY IMMUNOHISTOCHEMISTRY, WESTERN BLOTTING, AND QPCR ANALYSIS. ADDITIONALLY, WE USED UNC0642, A SMALL MOLECULE INHIBITOR OF HISTONE METHYLTRANSFERASE (G9A), AS AN INTERVENTION. RESULTS: THE RESULTS SHOWED THAT CUMS INDUCED DEPRESSIVE-LIKE BEHAVIOURS IN RATS AND RESULTED IN INCREASED H3K9ME2 EXPRESSION AND DECREASED BDNF EXPRESSION IN THE HIPPOCAMPUS AND MPFC. MORE IMPORTANTLY, ADULT MS RATS EXPERIENCING CUMS HAD MORE SEVERE DEPRESSIVE BEHAVIOURS, HAD HIGHER EXPRESSION OF H3K9ME2 IN THE HIPPOCAMPUS AND MPFC, AND HAD LOWER EXPRESSION OF BDNF IN THE HIPPOCAMPUS AND MPFC. IN ADDITION, ADMINISTRATION OF THE G9A INHIBITOR REVERSED MOST OF THE CHANGES. CONCLUSIONS: OUR STUDY SUGGESTS THAT ELS CHANGED BDNF AND H3K9ME2 EXPRESSION IN THE RAT BRAIN, RESULTING IN A DEPRESSIVE-LIKE PHENOTYPE. 2021 14 2750 35 EXPRESSION LEVELS OF THE TYROSINE HYDROXYLASE GENE AND HISTONE MODIFICATIONS AROUND ITS PROMOTER IN THE LOCUS COERULEUS AND VENTRAL TEGMENTAL AREA OF RATS DURING FORCED ABSTINENCE FROM MORPHINE. BACKGROUND: EPIGENETIC MECHANISMS SUCH AS HISTONE MODIFICATIONS MAY BE INVOLVED IN THE STRUCTURAL AND BEHAVIORAL CHANGES ASSOCIATED WITH ADDICTION. WE STUDIED WHETHER MORPHINE-INDUCED CHANGES IN MRNA LEVELS OF THE CATECHOLAMINE BIOSYNTHESIS ENZYME, TYROSINE HYDROXYLASE (TH), ARE ASSOCIATED WITH HISTONE MODIFICATIONS AROUND THE PROMOTER OF THIS GENE IN THE LOCUS COERULEUS (LC) AND VENTRAL TEGMENTAL AREA (VTA) OF RATS. METHODS: DEPENDENCE WAS INDUCED IN RATS BY INTRAPERITONEAL INJECTIONS OF MORPHINE FOR 11 DAYS. THE ANIMALS WERE KILLED 2 H (CHRONIC MORPHINE), 24 H AND 7 DAYS (SPONTANEOUS WITHDRAWAL) AFTER THE LAST INJECTION OF MORPHINE. RESULTS: ANALYSIS OF OUR REAL-TIME QUANTITATIVE REVERSE TRANSCRIPTION PCR RESULTS BY 1-WAY ANOVA SHOWED SIGNIFICANT UPREGULATION (5.13 +/- 0.39 FOLDS) OF LC LEVELS OF THE TH TRANSCRIPT 24 H AFTER THE LAST INJECTION OF MORPHINE TO RATS, WHEN COMPARED WITH 2 H AND 7 DAYS TIME POINTS. CHRONIC MORPHINE AND MORPHINE ABSTINENCE FAILED TO CAUSE ANY SIGNIFICANT CHANGES IN THE LEVELS OF TH MRNA IN THE VTA AFTER CESSATION OF MORPHINE. CONSISTENTLY, CHROMATIN IMMUNOPRECIPITATION REAL-TIME QUANTITATIVE PCR ASSAYS REVEALED THAT 24 H AFTER THE LAST INJECTION OF MORPHINE, LEVELS OF H3 ACETYLATION WERE SIGNIFICANTLY INCREASED (4.12 +/- 0.38 FOLDS) AT THE PROMOTER OF THE TH GENE IN THE LC BUT NOT IN THE VTA. OUR DATA ALSO SHOWED THAT HISTONE H3 TRIMETHYLATION FAILED TO CHANGE AROUND THE TH GENE PROMOTER EITHER IN THE VTA OR IN THE LC AFTER MORPHINE ABSTINENCE. CONCLUSIONS: RESULTS OF THE PRESENT STUDY, FOR THE FIRST TIME, DEMONSTRATE THE INVOLVEMENT OF HISTONE H3 ACETYLATION IN THE REGULATION OF TH GENE EXPRESSION IN THE LC OF RATS DURING FORCED ABSTINENCE FROM MORPHINE. 2018 15 578 35 BEHAVIOR, BDNF AND EPIGENETIC MECHANISMS IN RESPONSE TO SOCIAL ISOLATION AND SOCIAL SUPPORT IN MIDDLE AGED RATS EXPOSED TO CHRONIC STRESS. SOCIAL DEPRIVATION CAN BE STRESSFUL FOR GROUP-LIVING MAMMALS. ON THE OTHER HAND, AN AMAZING RESPONSE OF THESE ANIMALS TO STRESS IS SEEKING SOCIAL CONTACT TO GIVE AND RECEIVE JOINT PROTECTION IN THREATENING SITUATIONS. WE EXPLORED THE EFFECTS OF SOCIAL ISOLATION AND SOCIAL SUPPORT ON EPIGENETIC AND BEHAVIORAL RESPONSES TO CHRONIC STRESS. MORE SPECIFICALLY, WE INVESTIGATED THE BEHAVIORAL RESPONSES, CORTICOSTERONE LEVELS, BDNF GENE EXPRESSION, AND MARKERS OF HIPPOCAMPAL EPIGENETIC ALTERATIONS (LEVELS OF H3K9 ACETYLATION AND METHYLATION, H3K27 METHYLATION, HDAC5, DNMT1, AND DNMT3A GENE EXPRESSIONS) IN MIDDLE-AGED ADULT RATS MAINTAINED IN DIFFERENT HOUSING CONDITIONS (ISOLATION OR ACCOMPANIED HOUSING) AND EXPOSED TO THE CHRONIC UNPREDICTABLE STRESS PROTOCOL (CUS). ISOLATION WAS ASSOCIATED WITH DECREASED BASAL LEVELS OF CORTICOSTERONE, IMPAIRED LONG-TERM MEMORY, AND DECREASED EXPRESSION OF THE BDNF GENE, BESIDES ALTERING THE BALANCE OF H3K9 FROM ACETYLATION TO METHYLATION AND INCREASING THE DNMT1 GENE EXPRESSION. THE CUS PROTOCOL DECREASED H3K9 ACETYLATION, BESIDES INCREASING H3K27 METHYLATION AND DNMT1 GENE EXPRESSION, BUT HAD NO SIGNIFICANT EFFECTS ON MEMORY AND BDNF GENE EXPRESSION. INTERESTINGLY, THE EFFECTS OF CUS ON CORTICOSTERONE AND HDAC5 GENE EXPRESSION WERE SEEN ONLY IN ISOLATED ANIMALS, WHEREAS THE EFFECTS OF CUS ON DNMT1 GENE EXPRESSION WERE MORE PRONOUNCED IN ISOLATED THAN ACCOMPANIED ANIMALS. IN CONCLUSION, SOCIAL ISOLATION IN MIDDLE AGE SHOWED BROADER EFFECTS THAN CHRONIC UNPREDICTABLE STRESS ON BEHAVIORAL AND EPIGENETIC ALTERATIONS POTENTIALLY ASSOCIATED WITH DECREASED BDNF EXPRESSION. MOREOVER, SOCIAL SUPPORT PREVENTED THE ADVERSE EFFECTS OF CUS ON HPA AXIS FUNCTIONING, HDAC5, AND DNMT1 GENE EXPRESSIONS. 2023 16 1698 27 DYNAMIC EFFECTS OF EARLY ADOLESCENT STRESS ON DEPRESSIVE-LIKE BEHAVIORS AND EXPRESSION OF CYTOKINES AND JMJD3 IN THE PREFRONTAL CORTEX AND HIPPOCAMPUS OF RATS. AIMS: EXPRESSION OF INFLAMMATORY CYTOKINES IN THE BRAIN HAS BEEN REPORTED TO BE INVOLVED IN THE PATHOGENESIS OF AND SUSCEPTIBILITY TO DEPRESSION. JUMONJI DOMAIN-CONTAINING 3 (JMJD3), WHICH IS A HISTONE H3 LYSINE 27 (H3K27) DEMETHYLASE AND CAN REGULATE MICROGLIAL ACTIVATION, HAS BEEN REGARDED AS A CRUCIAL ELEMENT IN THE EXPRESSION OF INFLAMMATORY CYTOKINES. FURTHERMORE, RECENT STUDIES HIGHLIGHTED THE FACT THAT LIPOPOLYSACCHARIDES INDUCE DEPRESSIVE-LIKE BEHAVIORS AND HIGHER JMJD3 EXPRESSION AND LOWER H3K27ME3 EXPRESSION IN THE BRAIN. HOWEVER, WHETHER THE PROCESS OF JMJD3 MEDIATING INFLAMMATORY CYTOKINES WAS INVOLVED IN THE SUSCEPTIBILITY TO DEPRESSION DUE TO EARLY-LIFE STRESS REMAINED ELUSIVE. METHODS: RATS EXPOSED TO CHRONIC UNPREDICTABLE MILD STRESS (CUMS) IN ADOLESCENCE WERE USED IN ORDER TO DETECT DYNAMIC ALTERATIONS IN DEPRESSIVE-LIKE BEHAVIORS AND EXPRESSION OF CYTOKINES, JMJD3, AND H3K27ME3 IN THE PREFRONTAL CORTEX AND HIPPOCAMPUS. MOREOVER, MINOCYCLINE, AN INHIBITOR OF MICROGLIAL ACTIVATION, WAS EMPLOYED TO OBSERVE THE PROTECTIVE EFFECTS. RESULTS: OUR RESULTS SHOWED THAT CUMS DURING THE ADOLESCENT PERIOD INDUCED DEPRESSIVE-LIKE BEHAVIORS, OVER-EXPRESSION OF CYTOKINES, AND INCREASED JMJD3 AND DECREASED H3K27ME3 EXPRESSION IN THE PREFRONTAL CORTEX AND HIPPOCAMPUS OF BOTH ADOLESCENT AND ADULT RATS. HOWEVER, MINOCYCLINE RELIEVED ALL THE ALTERATIONS. CONCLUSION: THE STUDY REVEALED THAT JMJD3 MIGHT BE INVOLVED IN THE SUSCEPTIBILITY TO DEPRESSIVE-LIKE BEHAVIORS BY MODULATING H3K27ME3 AND PRO-INFLAMMATORY CYTOKINE EXPRESSION IN THE PREFRONTAL CORTEX AND HIPPOCAMPUS OF RATS THAT HAD BEEN STRESSED DURING EARLY ADOLESCENCE. 2018 17 434 39 ANTIDEPRESSANT-LIKE EFFECT OF SODIUM BUTYRATE IS ASSOCIATED WITH AN INCREASE IN TET1 AND IN 5-HYDROXYMETHYLATION LEVELS IN THE BDNF GENE. BACKGROUND: EPIGENETIC DRUGS LIKE SODIUM BUTYRATE (NAB) SHOW ANTIDEPRESSANT-LIKE EFFECTS IN PRECLINICAL STUDIES, BUT THE EXACT MOLECULAR MECHANISMS OF THE ANTIDEPRESSANT EFFECTS REMAIN UNKNOWN. WHILE RESEARCH USING NAB HAS MAINLY FOCUSED ON ITS ROLE AS A HISTONE DEACETYLASE INHIBITOR (HDACI), THERE IS ALSO EVIDENCE THAT NAB AFFECTS DNA METHYLATION. METHODS: THE PURPOSE OF THIS STUDY WAS TO EXAMINE NAB'S PUTATIVE ANTIDEPRESSANT-LIKE EFFICACY IN RELATION TO DNA METHYLATION CHANGES IN THE PREFRONTAL CORTEX OF AN ESTABLISHED GENETIC RAT MODEL OF DEPRESSION (THE FLINDERS SENSITIVE LINE [FSL]) AND ITS CONTROLS (THE FLINDERS RESISTANT LINE). RESULTS: THE FSL RATS HAD LOWER LEVELS OF TEN-ELEVEN TRANSLOCATION METHYLCYTOSINE DIOXYGENASE 1 (TET1), WHICH CATALYZES THE CONVERSION OF DNA METHYLATION TO HYDROXYMETHYLATION. AS INDICATED BY THE BEHAVIORAL DESPAIR TEST, CHRONIC ADMINISTRATION OF NAB HAD ANTIDEPRESSANT-LIKE EFFECTS IN THE FSL AND WAS ACCOMPANIED BY INCREASED LEVELS OF TET1. THE TET1 UPREGULATION WAS ALSO ASSOCIATED WITH AN INCREASE OF HYDROXYMETHYLATION AND A DECREASE OF METHYLATION IN BRAIN-DERIVED NEUROTROPHIC FACTOR (BDNF), A GENE ASSOCIATED WITH NEUROGENESIS AND SYNAPTIC PLASTICITY. THESE EPIGENETIC CHANGES WERE ASSOCIATED WITH A CORRESPONDING BDNF OVEREXPRESSION. CONCLUSIONS: OUR DATA SUPPORT THE ANTIDEPRESSANT EFFICACY OF HDACIS AND SUGGEST THAT THEIR EPIGENETIC EFFECTS MAY ALSO INCLUDE DNA METHYLATION CHANGES THAT ARE MEDIATED BY DEMETHYLATION-FACILITATING ENZYMES LIKE TET1. 2014 18 213 31 ACUTE AND CHRONIC ELECTROCONVULSIVE SEIZURES (ECS) DIFFERENTIALLY REGULATE THE EXPRESSION OF EPIGENETIC MACHINERY IN THE ADULT RAT HIPPOCAMPUS. BACKGROUND: ELECTROCONVULSIVE SEIZURE TREATMENT IS A FAST-ACTING ANTIDEPRESSANT THERAPY THAT EVOKES RAPID TRANSCRIPTIONAL, NEUROGENIC, AND BEHAVIORAL CHANGES. EPIGENETIC MECHANISMS CONTRIBUTE TO ALTERED GENE REGULATION, WHICH UNDERLIES THE NEUROGENIC AND BEHAVIORAL EFFECTS OF ELECTROCONVULSIVE SEIZURE. WE HYPOTHESIZED THAT ELECTROCONVULSIVE SEIZURE MAY MODULATE THE EXPRESSION OF EPIGENETIC MACHINERY, THUS ESTABLISHING POTENTIAL ALTERATIONS IN THE EPIGENETIC LANDSCAPE. METHODS: WE EXAMINED THE INFLUENCE OF ACUTE AND CHRONIC ELECTROCONVULSIVE SEIZURE ON THE GENE EXPRESSION OF HISTONE MODIFIERS, NAMELY HISTONE ACETYLTRANSFERASES, HISTONE DEACETYLASES, HISTONE METHYLTRANSFERASES, AND HISTONE (LYSINE) DEMETHYLASES AS WELL AS DNA MODIFYING ENZYMES, INCLUDING DNA METHYLTRANSFERASES, DNA DEMETHYLASES, AND METHYL-CPG-BINDING PROTEINS IN THE HIPPOCAMPI OF ADULT MALE WISTAR RATS USING QUANTITATIVE REAL TIME-PCR ANALYSIS. FURTHER, WE EXAMINED THE INFLUENCE OF ACUTE AND CHRONIC ELECTROCONVULSIVE SEIZURE ON GLOBAL AND RESIDUE-SPECIFIC HISTONE ACETYLATION AND METHYLATION LEVELS WITHIN THE HIPPOCAMPUS, A BRAIN REGION IMPLICATED IN THE CELLULAR AND BEHAVIORAL EFFECTS OF ELECTROCONVULSIVE SEIZURE. RESULTS: ACUTE AND CHRONIC ELECTROCONVULSIVE SEIZURE INDUCED A PRIMARILY UNIQUE, AND IN CERTAIN CASES BIDIRECTIONAL, REGULATION OF HISTONE AND DNA MODIFIERS, AND METHYL-CPG-BINDING PROTEINS, WITH AN OVERLAPPING PATTERN OF GENE REGULATION RESTRICTED TO SIRT4, MLL3, JMJD3, GADD45B, TET2, AND TET3. GLOBAL HISTONE ACETYLATION AND METHYLATION LEVELS WERE PREDOMINANTLY UNCHANGED, WITH THE EXCEPTION OF A SIGNIFICANT DECLINE IN H3K9 ACETYLATION IN THE HIPPOCAMPUS FOLLOWING CHRONIC ELECTROCONVULSIVE SEIZURE. CONCLUSIONS: ELECTROCONVULSIVE SEIZURE TREATMENT EVOKES THE TRANSCRIPTIONAL REGULATION OF SEVERAL HISTONE AND DNA MODIFIERS, AND METHYL-CPG-BINDING PROTEINS WITHIN THE HIPPOCAMPUS, WITH A PREDOMINANTLY DISTINCT PATTERN OF REGULATION INDUCED BY ACUTE AND CHRONIC ELECTROCONVULSIVE SEIZURE. 2016 19 3372 42 HISTONE MODIFICATIONS OF THE CRHR1 GENE IN A RAT MODEL OF DEPRESSION FOLLOWING CHRONIC STRESS. MULTIPLE LINES OF EVIDENCE SUGGEST A LINK BETWEEN DEPRESSION AND CHANGES IN HYPOTHALAMIC-PITUITARY-ADRENAL (HPA)-AXIS HORMONE DYNAMICS, INCLUDING ALTERED REGULATION OF THE CORTICOTROPHIN-RELEASING HORMONE (CRH) AND ITS MAIN RECEPTOR, CORTICOTROPHIN-RELEASING HORMONE RECEPTOR 1 (CRHR1). HOWEVER, THE PRECISE MOLECULAR MECHANISMS UNDERLYING DEPRESSION REMAIN POORLY UNDERSTOOD. IN THIS STUDY, WE EMPLOYED A MODEL OF DEPRESSION IN RATS BY SUBJECTING ANIMALS TO 21 DAYS OF CHRONIC UNPREDICTABLE MILD STRESS (CUMS). REAL-TIME PCR AND WESTERN BLOTTING WERE USED TO STUDY THE MRNA AND PROTEIN EXPRESSION LEVELS OF CRHR1 IN THE HYPOTHALAMUS. IN ADDITION, CHROMATIN IMMUNOPRECIPITATION ASSAYS WERE USED TO DETECT HISTONE METHYLATION AT THE CRHR1 GENE PROMOTER; THE LEVELS OF HISTONE H3 TRIMETHYLATION AT LYSINES 4 (H3K4) AND 9 (H3K9) REFLECT ACTIVE TRANSCRIPTION AND TRANSCRIPTIONAL REPRESSION, RESPECTIVELY. RATS EXPOSED TO CUMS EXHIBITED SIGNIFICANT REDUCTION IN LOCOMOTION AND SUCROSE PREFERENCE. THESE BEHAVIORAL ALTERATIONS WERE ASSOCIATED WITH ELEVATED EXPRESSION LEVELS OF CRHR1 MRNA AND PROTEIN IN THE HYPOTHALAMUS OF RATS IN THE CUMS GROUP. WE ALSO FOUND THAT THE LEVELS OF H3K9 TRIMETHYLATION AT THE CRHR1 GENE PROMOTER IN THE CUMS GROUP WERE SIGNIFICANTLY LOWER THAN THOSE IN THE CONTROL GROUP, WHEREAS H3K4 TRIMETHYLATION LEVELS WERE THE SAME FOR BOTH GROUPS. TAKEN TOGETHER, OUR FINDINGS SUGGEST THAT THE INCREASE IN CRHR1 EXPRESSION IN THE HYPOTHALAMUS OF STRESSED RATS CORRELATES WITH A DECREASE IN THE REPRESSIVE CHROMATIN STATE CAUSED BY REDUCED H3K9 TRIMETHYLATION LEVELS. THESE DATA ARE THE FIRST IN VIVO EVIDENCE OF A ROLE FOR CHROMATIN MODIFICATIONS IN THE REGULATION OF CRHR1 GENE EXPRESSION IN THE HYPOTHALAMUS, AND MAY PROVIDE NOVEL INSIGHT INTO THERAPEUTIC APPROACHES TO TREAT DEPRESSION. 2014 20 1614 33 DNA METHYLTRANSFERASE 3A IS INVOLVED IN THE SUSTAINED EFFECTS OF CHRONIC STRESS ON SYNAPTIC FUNCTIONS AND BEHAVIORS. EMERGING EVIDENCE SUGGESTS THAT EPIGENETIC MECHANISMS REGULATE ABERRANT GENE TRANSCRIPTION IN STRESS-ASSOCIATED MENTAL DISORDERS. HOWEVER, IT REMAINS TO BE ELUCIDATED ABOUT THE ROLE OF DNA METHYLATION AND ITS CATALYZING ENZYMES, DNA METHYLTRANSFERASES (DNMTS), IN THIS PROCESS. HERE, WE FOUND THAT MALE RATS EXPOSED TO CHRONIC (2-WEEK) UNPREDICTABLE STRESS EXHIBITED A SUBSTANTIAL REDUCTION OF DNMT3A AFTER STRESS CESSATION IN THE PREFRONTAL CORTEX (PFC), A KEY TARGET REGION OF STRESS. TREATMENT OF UNSTRESSED CONTROL RATS WITH DNMT INHIBITORS RECAPITULATED THE EFFECT OF CHRONIC UNPREDICTABLE STRESS ON DECREASED AMPAR EXPRESSION AND FUNCTION IN PFC. IN CONTRAST, OVEREXPRESSION OF DNMT3A IN PFC OF STRESSED ANIMALS PREVENTED THE LOSS OF GLUTAMATERGIC RESPONSES. MOREOVER, THE STRESS-INDUCED BEHAVIORAL ABNORMALITIES, INCLUDING THE IMPAIRED RECOGNITION MEMORY, HEIGHTENED AGGRESSION, AND HYPERLOCOMOTION, WERE PARTIALLY ATTENUATED BY DNMT3A EXPRESSION IN PFC OF STRESSED ANIMALS. FINALLY, WE FOUND THAT THERE WERE GENOME-WIDE DNA METHYLATION CHANGES AND TRANSCRIPTOME ALTERATIONS IN PFC OF STRESSED RATS, BOTH OF WHICH WERE ENRICHED AT SEVERAL NEURAL PATHWAYS, INCLUDING GLUTAMATERGIC SYNAPSE AND MICROTUBULE-ASSOCIATED PROTEIN KINASE SIGNALING. THESE RESULTS HAVE THEREFORE RECOGNIZED THE POTENTIAL ROLE OF DNA EPIGENETIC MODIFICATION IN STRESS-INDUCED DISTURBANCE OF SYNAPTIC FUNCTIONS AND COGNITIVE AND EMOTIONAL PROCESSES. 2021