1 6572 132 TRAUMATIC STRESS-INDUCED PERSISTENT CHANGES IN DNA METHYLATION REGULATE NEUROPEPTIDE Y EXPRESSION IN RAT JEJUNUM. BACKGROUND: STRESS-INDUCED CHRONIC NEUROPSYCHIATRIC CONDITIONS SUCH AS ANXIETY ARE OFTEN CO-MORBID WITH GASTROINTESTINAL MALFUNCTIONS. WHILE WE FIND ENDURING ANXIETY-LIKE SYMPTOMS FOLLOWING MINIMAL TRAUMATIC BRAIN INJURY (MTBI) IN RATS, GASTROINTESTINAL CONSEQUENCES OF MTBI REMAIN ELUSIVE. METHODS: IN THIS STUDY, WE EXAMINED THE EFFECTS OF MTBI ON A MAJOR GUT PEPTIDE, NEUROPEPTIDE Y (NPY) AND GUT MOTILITY. DNA METHYLATION WAS STUDIED AS A POSSIBLE EPIGENETIC MECHANISM OPERATIVE IN THE REGULATION OF NPY EXPRESSION IN THE GUT. KEY RESULTS: MINIMAL TRAUMATIC BRAIN INJURY REDUCED THE GUT MOTILITY 48 HOURS AND 30 DAYS AFTER TRAUMA. THE EXPRESSION OF DNA METHYLTRANSFERASE ISOFORMS (DNMT1, DNMT3A, AND DNMT3B) WAS ALTERED IN THE JEJUNUM 48 HOURS AND 30 DAYS AFTER MTBI. HOWEVER, THE MRNA LEVELS OF GROWTH ARREST AND DNA DAMAGE 45 (GADD45) ISOFORMS, GADD45A, AND GADD45B, WHICH ARE BELIEVED TO BE INVOLVED IN ACTIVE DNA DEMETHYLATION, INITIALLY DECREASED AT 48 HOURS BUT SUBSEQUENTLY INCREASED AFTER 30 DAYS OF TRAUMA. SIMILARLY, DNA HYPOMETHYLATION AT THE NPY PROMOTER REGION IN THE JEJUNUM WAS CORRELATED WITH THE INCREASE IN NPY MRNA AND PROTEIN LEVELS 30 DAYS POST-TRAUMA. ON THE OTHER HAND, DNA HYPOMETHYLATION AT 48 HOURS WAS ASSOCIATED WITH A DECLINE IN NPY EXPRESSION. TREATMENT WITH 5-AZACYTIDINE (5-AZAC), A DNMT INHIBITOR, RETARDED DNA METHYLATION AND RESTORED THE NPY MRNA LEVELS IN THE JEJUNUM OF MTBI-INDUCED RATS. CONCLUSIONS & INFERENCES: THESE RESULTS SUGGEST THAT DNA DEMETHYLATION COULD BE OPERATIVE AS AN EPIGENETIC MECHANISM IN THE LONG-TERM REGULATION OF NPY GENE EXPRESSION TO ALTER THE GUT MOTILITY DURING TRAUMATIC STRESS. 2017 2 2297 34 EPIGENETIC REGULATION OF ACUTE INFLAMMATORY PAIN. ACUTE PAIN IS ASSOCIATED WITH TISSUE DAMAGE, WHICH RESULTS IN THE RELEASE OF INFLAMMATORY MEDIATORS. RECENT STUDIES POINT TO THE INVOLVEMENT OF EPIGENETIC MECHANISMS (DNA METHYLATION) IN THE DEVELOPMENT OF PAIN. WE HAVE FOUND THAT DURING ACUTE INFLAMMATORY PAIN INDUCED BY THE APPLICATION OF 10% MUSTARD OIL ON THE TONGUES OF RATS, LEVELS OF DNMT3A AND 3B WERE ELEVATED MARKEDLY (36 AND 42 % RESPECTIVELY), WHEREAS THE LEVEL OF DNMT1 WAS NOT CHANGED SIGNIFICANTLY. PREVIOUS INJECTION OF XEFOCAM WITH 0,4 MG/KG DOSE DECREASED LEVELS OF DNMT3A AND 3B (25 AND 24% RESPECTIVELY). THE LEVEL OF DNMT1 WAS NOT CHANGED SIGNIFICANTLY COMPARED TO THE CONTROL GROUP. THE FINDINGS SUPPORT THE IDEA THAT INHIBITORS OF DNA-METHYLTRANSFERASES COULD BE USEFUL FOR PAIN MANAGEMENT. OUR DATA SUGGEST THAT NSAIDS (ALONE OR IN COMBINATION WITH DNMT INHIBITORS) MAY BE PROPOSED AS POSSIBLE EPIGENETIC REGULATORY AGENTS, WHICH MAY PLAY A ROLE IN EPIGENETIC MECHANISMS INDIRECTLY THROUGH ALTERING THE ACTIVITY OF INFLAMMATORY MEDIATORS INVOLVED IN PAIN DEVELOPMENT. 2014 3 1418 42 DIFFERENCES IN DNA METHYLATION REPROGRAMMING UNDERLIE THE SEXUAL DIMORPHISM OF BEHAVIORAL DISORDER CAUSED BY PRENATAL STRESS IN RATS. PRENATAL STRESS (PS) CAN LEAD TO NEUROENDOCRINE AND EMOTIONAL DISORDERS LATER IN ADOLESCENCE. SEXUAL DIMORPHISM IN THESE NEURODEVELOPMENTAL OUTCOMES HAVE BEEN OBSERVED; HOWEVER, THE UNDERLYING MECHANISMS ARE NOT FULLY UNDERSTOOD. TO ADDRESS THIS ISSUE, WE INVESTIGATED WHETHER THERE ARE SEX DIFFERENCES IN EPIGENETIC REPROGRAMMING IN RATS EXPOSED TO PS. PREGNANT FEMALE RATS WERE SUBJECTED TO CHRONIC RESTRAINT STRESS FROM GESTATIONAL DAY (G)12 TO G18. FROM POSTNATAL DAY (P)38 TO P45, SUBGROUPS OF OFFSPRING INCLUDING BOTH MALES AND FEMALES WERE SUBJECTED TO BEHAVIORAL TESTING AND BRAIN TISSUE SPECIMENS WERE ANALYZED BY DNA PYROSEQUENCING, WESTERN BLOTTING, AND GOLGI STAINING TO ASSESS CHANGES IN METHYLATION PATTERN OF GLUCOCORTICOID RECEPTOR (GR) GENE, EXPRESSION OF DNA METHYLTRANSFERASE (DNMT) AND DNA DEMETHYLASE, AND DENDRITE MORPHOLOGY, RESPECTIVELY. THE DNA METHYLTRANSFERASE INHIBITOR DECITABINE WAS ADMINISTERED TO RATS PRIOR TO PS TO FURTHER EVALUATE THE ROLE OF METHYLATION IN THE SEXUALLY DIMORPHIC EFFECTS OF PS. THE RESULTS SHOWED THAT PS INCREASED ANXIETY-LIKE BEHAVIOR IN OFFSPRING, ESPECIALLY IN FEMALES, WHILE DEPRESSION-LIKE BEHAVIOR WAS INCREASED IN MALE OFFSPRING COMPARED TO CONTROL LITTERMATES. THE METHYLATION PATTERN IN THE PROMOTER REGION OF THE GR GENE DIFFERED BETWEEN MALES AND FEMALES. SEX-SPECIFIC CHANGES IN THE EXPRESSION OF DNMTS (DNMT1 AND DNMT3A) AND DNA DEMETHYLASE (TET METHYLCYTOSINE DIOXYGENASE 2) WERE ALSO OBSERVED. INTERESTINGLY, DECITABINE ALLEVIATED THE BEHAVIORAL DISORDER CAUSED BY PS AND RESTORED DENDRITE DENSITY AND MORPHOLOGY IN FEMALE BUT NOT MALE RATS. THESE FINDINGS SUGGEST THAT DIFFERENT CHANGE PATTERNS OF DNMT AND DEMETHYLASE IN THE TWO SEXES AFTER PS ARE RESPONSIBLE FOR THE SEXUALLY DIMORPHISM, WHICH COULD HAVE IMPLICATIONS FOR THE CLINICAL MANAGEMENT OF STRESS-RELATED DISORDERS. 2020 4 2740 35 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 5 6246 36 THE METHYL DONOR S-ADENOSYL METHIONINE REVERSES THE DNA METHYLATION SIGNATURE OF CHRONIC NEUROPATHIC PAIN IN MOUSE FRONTAL CORTEX. CHRONIC PAIN IS ASSOCIATED WITH PERSISTENT BUT REVERSIBLE STRUCTURAL AND FUNCTIONAL CHANGES IN THE PREFRONTAL CORTEX (PFC). THIS STABLE YET MALLEABLE PLASTICITY IMPLICATES EPIGENETIC MECHANISMS, INCLUDING DNA METHYLATION, AS A POTENTIAL MEDIATOR OF CHRONIC PAIN-INDUCED CORTICAL PATHOLOGY. WE PREVIOUSLY DEMONSTRATED THAT CHRONIC ORAL ADMINISTRATION OF THE METHYL DONOR S-ADENOSYL METHIONINE (SAM) ATTENUATES LONG-TERM PERIPHERAL NEUROPATHIC PAIN AND ALTERS GLOBAL FRONTAL CORTICAL DNA METHYLATION. HOWEVER, THE SPECIFIC GENES AND PATHWAYS ASSOCIATED WITH THE RESOLUTION OF CHRONIC PAIN BY SAM REMAIN UNEXPLORED. OBJECTIVE: TO DETERMINE THE EFFECT OF LONG-TERM THERAPEUTIC EXPOSURE TO SAM ON THE DNA METHYLATION OF INDIVIDUAL GENES AND PATHWAYS IN A MOUSE NEUROPATHIC PAIN MODEL. METHODS: MALE CD-1 MICE RECEIVED SPARED NERVE INJURY OR SHAM SURGERY. THREE MONTHS AFTER INJURY, ANIMALS RECEIVED SAM (20 MG/KG, ORAL, 3X A WEEK) OR VEHICLE FOR 16 WEEKS FOLLOWED BY EPIGENOME-WIDE ANALYSIS OF FRONTAL CORTEX. RESULTS: PERIPHERAL NEUROPATHIC PAIN WAS ASSOCIATED WITH 4000 DIFFERENTIALLY METHYLATED GENOMIC REGIONS THAT WERE ENRICHED IN INTRACELLULAR SIGNALING, CELL MOTILITY AND MIGRATION, CYTOSKELETAL STRUCTURE, AND CELL ADHESION PATHWAYS. A THIRD OF THESE DIFFERENTIALLY METHYLATED REGIONS WERE REVERSED BY SAM TREATMENT (1415 REGIONS REPRESENTING 1013 GENES). MORE THAN 100 GENES WITH KNOWN PAIN-RELATED FUNCTION WERE DIFFERENTIALLY METHYLATED AFTER NERVE INJURY; 29 OF THESE WERE REVERSED BY SAM TREATMENT INCLUDING SCN10A, TRPA1, NTRK1, AND GFAP. CONCLUSION: THESE RESULTS SUGGEST A ROLE FOR THE EPIGENOME IN THE MAINTENANCE OF CHRONIC PAIN AND ADVANCE EPIGENETIC MODULATORS SUCH AS SAM AS A NOVEL APPROACH TO TREAT CHRONIC PAIN. 2021 6 345 45 ALTERED BRAIN EXPRESSION OF DNA METHYLATION AND HYDROXYMETHYLATION EPIGENETIC ENZYMES IN A RAT MODEL OF NEUROPATHIC PAIN. THE ROLE OF EPIGENETICS IN CHRONIC PAIN AT THE SUPRASPINAL LEVEL IS YET TO BE FULLY CHARACTERIZED. DNA HISTONE METHYLATION IS CRUCIALLY REGULATED BY DE NOVO METHYLTRANSFERASES (DNMT1-3) AND TEN-ELEVEN TRANSLOCATION DIOXYGENASES (TET1-3). EVIDENCE HAS SHOWN THAT METHYLATION MARKERS ARE ALTERED IN DIFFERENT CNS REGIONS RELATED TO NOCICEPTION, NAMELY THE DORSAL ROOT GANGLIA, THE SPINAL CORD, AND DIFFERENT BRAIN AREAS. DECREASED GLOBAL METHYLATION WAS FOUND IN THE DRG, THE PREFRONTAL CORTEX, AND THE AMYGDALA, WHICH WAS ASSOCIATED WITH DECREASED DNMT1/3A EXPRESSION. IN CONTRAST, INCREASED METHYLATION LEVELS AND MRNA LEVELS OF TET1 AND TET3 WERE LINKED TO AUGMENTED PAIN HYPERSENSITIVITY AND ALLODYNIA IN INFLAMMATORY AND NEUROPATHIC PAIN MODELS. SINCE EPIGENETIC MECHANISMS MAY BE RESPONSIBLE FOR THE REGULATION AND COORDINATION OF VARIOUS TRANSCRIPTIONAL MODIFICATIONS DESCRIBED IN CHRONIC PAIN STATES, WITH THIS STUDY, WE AIMED TO EVALUATE THE FUNCTIONAL ROLE OF TET1-3 AND DNMT1/3A GENES IN NEUROPATHIC PAIN IN SEVERAL BRAIN AREAS. IN A SPARED NERVE INJURY RAT MODEL OF NEUROPATHIC PAIN, 21 DAYS AFTER SURGERY, WE FOUND INCREASED TET1 EXPRESSION IN THE MEDIAL PREFRONTAL CORTEX AND DECREASED EXPRESSION IN THE CAUDATE-PUTAMEN AND THE AMYGDALA; TET2 WAS UPREGULATED IN THE MEDIAL THALAMUS; TET3 MRNA LEVELS WERE REDUCED IN THE MEDIAL PREFRONTAL CORTEX AND THE CAUDATE-PUTAMEN; AND DNMT1 WAS DOWNREGULATED IN THE CAUDATE-PUTAMEN AND THE MEDIAL THALAMUS. NO STATISTICALLY SIGNIFICANT CHANGES IN EXPRESSION WERE OBSERVED WITH DNMT3A. OUR RESULTS SUGGEST A COMPLEX FUNCTIONAL ROLE FOR THESE GENES IN DIFFERENT BRAIN AREAS IN THE CONTEXT OF NEUROPATHIC PAIN. THE NOTION OF DNA METHYLATION AND HYDROXYMETHYLATION BEING CELL-TYPE SPECIFIC AND NOT TISSUE SPECIFIC, AS WELL AS THE POSSIBILITY OF CHRONOLOGICALLY DIFFERENTIAL GENE EXPRESSION AFTER THE ESTABLISHMENT OF NEUROPATHIC OR INFLAMMATORY PAIN MODELS, OUGHT TO BE ADDRESSED IN FUTURE STUDIES. 2023 7 1186 35 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 8 531 38 ASTROCYTE REACTIVITY FOLLOWING BLAST EXPOSURE INVOLVES ABERRANT HISTONE ACETYLATION. BLAST INDUCED NEUROTRAUMA (BINT) IS A PREVALENT INJURY WITHIN MILITARY AND CIVILIAN POPULATIONS. THE INJURY IS CHARACTERIZED BY PERSISTENT INFLAMMATION AT THE CELLULAR LEVEL WHICH MANIFESTS AS A MULTITUDE OF COGNITIVE AND FUNCTIONAL IMPAIRMENTS. EPIGENETIC REGULATION OF TRANSCRIPTION OFFERS AN IMPORTANT CONTROL MECHANISM FOR GENE EXPRESSION AND CELLULAR FUNCTION WHICH MAY UNDERLIE CHRONIC INFLAMMATION AND RESULT IN NEURODEGENERATION. WE HYPOTHESIZE THAT ALTERED HISTONE ACETYLATION PATTERNS MAY BE INVOLVED IN BLAST INDUCED INFLAMMATION AND THE CHRONIC ACTIVATION OF GLIAL CELLS. THIS STUDY AIMED TO ELUCIDATE CHANGES TO HISTONE ACETYLATION OCCURRING FOLLOWING INJURY AND THE ROLES THESE CHANGES MAY HAVE WITHIN THE PATHOLOGY. SPRAGUE DAWLEY RATS WERE SUBJECTED TO EITHER A 10 OR 17 PSI BLAST OVERPRESSURE WITHIN AN ADVANCED BLAST SIMULATOR (ABS). SHAM ANIMALS UNDERWENT THE SAME PROCEDURES WITHOUT BLAST EXPOSURE. MEMORY IMPAIRMENTS WERE MEASURED USING THE NOVEL OBJECT RECOGNITION (NOR) TEST AT 2 AND 7 DAYS POST-INJURY. TISSUES WERE COLLECTED AT 7 DAYS FOR WESTERN BLOT AND IMMUNOHISTOCHEMISTRY (IHC) ANALYSIS. SHAM ANIMALS SHOWED INTACT MEMORY AT EACH TIME POINT. THE NOVEL OBJECT DISCRIMINATION DECREASED SIGNIFICANTLY BETWEEN TWO AND 7 DAYS FOR EACH INJURY GROUP (P < 0.05). THIS IS INDICATIVE OF THE ONSET OF MEMORY IMPAIRMENT. WESTERN BLOT ANALYSIS SHOWED GLIAL FIBRILLARY ACIDIC PROTEIN (GFAP), A KNOWN MARKER OF ACTIVATED ASTROCYTES, WAS ELEVATED IN THE PREFRONTAL CORTEX (PFC) FOLLOWING BLAST EXPOSURE FOR BOTH INJURY GROUPS. ANALYSIS OF HISTONE PROTEIN EXTRACT SHOWED NO CHANGES IN THE LEVEL OF ANY TOTAL HISTONE PROTEINS WITHIN THE PFC. HOWEVER, ACETYLATION LEVELS OF HISTONE H2B, H3, AND H4 WERE DECREASED IN BOTH GROUPS (P < 0.05). CO-LOCALIZATION IMMUNOFLUORESCENCE WAS USED TO FURTHER INVESTIGATE ANY POTENTIAL CORRELATION BETWEEN DECREASED HISTONE ACETYLATION AND ASTROCYTE ACTIVATION. THESE EXPERIMENTS SHOWED A SIMILAR DECREASE IN H3 ACETYLATION IN ASTROCYTES EXPOSED TO A 17 PSI BLAST BUT NOT A 10 PSI BLAST. FURTHER INVESTIGATION OF GENE EXPRESSION BY POLYMERASE CHAIN REACTION (PCR) ARRAY, SHOWED DYSREGULATION OF SEVERAL CYTOKINE AND CYTOKINE RECEPTORS THAT ARE INVOLVED IN NEUROINFLAMMATORY PROCESSES. WE HAVE SHOWN ABERRANT HISTONE ACETYLATION PATTERNS INVOLVED IN BLAST INDUCED ASTROGLIOSIS AND COGNITIVE IMPAIRMENTS. FURTHER UNDERSTANDING OF THEIR ROLE IN THE INJURY PROGRESSION MAY LEAD TO NOVEL THERAPEUTIC TARGETS. 2016 9 213 40 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 10 1820 36 EFFECTS OF CHRONIC RESTRAINT STRESS ON THE GLOBAL DNA METHYLATION PROFILE OF RAT LUNG CELLS: MODULATION BY PHYSICAL EXERCISE. THE POTENTIAL OF BEHAVIORAL STRESS TO AFFECT EPIGENETIC MECHANISMS OF NON-ENCEPHALIC TISSUES IS STILL UNDERESTIMATED. IN THE PRESENT STUDY WE EVALUATED THE EFFECTS OF CHRONIC BEHAVIORAL STRESS ON THE DNA METHYLATION PROFILE OF RAT LUNG CELLS. FURTHERMORE, WE EVALUATED THE POTENTIAL OF PHYSICAL EXERCISE TO MODULATE THE CHANGES EVOKED BY BEHAVIORAL STRESS IN LUNG CELLS. MALE WISTAR RATS WERE DIVIDED INTO FOUR EXPERIMENTAL GROUPS: (1) ANIMALS SUBMITTED TO CHRONIC RESTRAINT STRESS (CRS) (ST GROUP) DURING THE PERIOD OF THE 67TH-80TH POSTNATAL DAY (PND); (2) ANIMALS SUBMITTED TO PHYSICAL EXERCISE (EX GROUP) DURING THE 53RD-79TH PND; (3) ANIMALS SUBMITTED TO SWIMMING DURING THE 53RD-79TH PND AND TO CRS DURING THE 67TH-80TH PND (EX-ST GROUP); AND (4) ANIMALS NOT SUBMITTED TO STRESS OR SWIMMING PROTOCOLS (CTL). GLOBAL DNA METHYLATION WAS QUANTIFIED USING AN ELISA-BASED APPROACH AND GENE EXPRESSION WAS EVALUATED BY REAL TIME PCR. A DECREASED GLOBAL DNA METHYLATION PROFILE WAS OBSERVED IN THE ST GROUP, HOWEVER PHYSICAL EXERCISE DEMONSTRATED PROTECTION OF LUNG CELLS FROM THIS STRESS-RELATED HYPOMETHYLATION. INCREASED EXPRESSION OF THE DNMT1 GENE WAS EVIDENCED IN THE ST GROUP, WHEREAS PHYSICAL EXERCISE WAS SHOWN TO PROTECT LUNG CELLS FROM THIS STRESS-RELATED EFFECT IN THE EX-ST GROUP. COMPARATIVE ANALYSIS OF THE ST AND EX GROUPS REVEALED OPPOSITE EFFECTS ON THE EXPRESSION OF DNMT3A AND DNMT3B; HOWEVER, A STRESS-RELATED INCREASE IN EXPRESSION OF DNMT3A AND DNMT3B WAS NOT SEEN IN THE EX-ST GROUP. OUR DATA SHOWED THAT BEHAVIORAL STRESS INDUCED SIGNIFICANT CHANGES IN THE DNA METHYLATION PROFILE OF RAT LUNG CELLS AND THAT THIS COULD BE MODULATED BY PHYSICAL EXERCISE. 2017 11 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 12 4879 23 OVERLAPPING SIGNATURES OF CHRONIC PAIN IN THE DNA METHYLATION LANDSCAPE OF PREFRONTAL CORTEX AND PERIPHERAL T CELLS. WE TESTED THE HYPOTHESIS THAT EPIGENETIC MECHANISMS IN THE BRAIN AND THE IMMUNE SYSTEM ARE ASSOCIATED WITH CHRONIC PAIN. GENOME-WIDE DNA METHYLATION ASSESSED IN 9 MONTHS POST NERVE-INJURY (SNI) AND SHAM RATS, IN THE PREFRONTAL CORTEX (PFC) AS WELL AS IN T CELLS REVEALED A VAST DIFFERENCE IN THE DNA METHYLATION LANDSCAPE IN THE BRAIN BETWEEN THE GROUPS AND A REMARKABLE OVERLAP (72%) BETWEEN DIFFERENTIALLY METHYLATED PROBES IN T CELLS AND PREFRONTAL CORTEX. DNA METHYLATION STATES IN THE PFC SHOWED ROBUST CORRELATION WITH PAIN SCORE OF ANIMALS IN SEVERAL GENES INVOLVED IN PAIN. FINALLY, ONLY 11 DIFFERENTIALLY METHYLATED PROBES IN T CELLS WERE SUFFICIENT TO DISTINGUISH SNI OR SHAM INDIVIDUAL RATS. THIS STUDY SUPPORTS THE PLAUSIBILITY OF DNA METHYLATION INVOLVEMENT IN CHRONIC PAIN AND DEMONSTRATES THE POTENTIAL FEASIBILITY OF DNA METHYLATION MARKERS IN T CELLS AS NONINVASIVE BIOMARKERS OF CHRONIC PAIN SUSCEPTIBILITY. 2016 13 2705 29 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 14 1903 50 ENHANCED NEUROINFLAMMATION MEDIATED BY DNA METHYLATION OF THE GLUCOCORTICOID RECEPTOR TRIGGERS COGNITIVE DYSFUNCTION AFTER SEVOFLURANE ANESTHESIA IN ADULT RATS SUBJECTED TO MATERNAL SEPARATION DURING THE NEONATAL PERIOD. BACKGROUND: MOUNTING EVIDENCE INDICATES THAT CHILDREN WHO EXPERIENCE ABUSE AND NEGLECT ARE PRONE TO CHRONIC DISEASES AND PREMATURE MORTALITY LATER IN LIFE. ONE MECHANISTIC HYPOTHESIS FOR THIS PHENOMENON IS THAT EARLY LIFE ADVERSITY ALTERS THE EXPRESSION OR FUNCTIONING OF THE GLUCOCORTICOID RECEPTOR (GR) THROUGHOUT THE COURSE OF LIFE AND THEREBY INCREASES SENSITIVITY TO INFLAMMATORY STIMULATION. AN EXAGGERATED PRO-INFLAMMATORY RESPONSE IS GENERALLY CONSIDERED TO BE A KEY CAUSE OF POSTOPERATIVE COGNITIVE DYSFUNCTION (POCD). THE AIM OF THIS STUDY WAS TO EXAMINE THE EFFECTS OF EARLY LIFE ADVERSITY ON COGNITIVE FUNCTION AND NEUROINFLAMMATION AFTER SEVOFLURANE ANESTHESIA IN ADULT RATS AND TO DETERMINE WHETHER SUCH EFFECTS ARE ASSOCIATED WITH THE EPIGENETIC REGULATION OF GR. METHODS: WISTAR RAT PUPS WERE REPEATEDLY SUBJECTED TO INFANT MATERNAL SEPARATION (EARLY LIFE STRESS) FROM POSTNATAL DAYS 2-21. IN ADULTHOOD, THEIR BEHAVIOR AND THE SIGNALING OF HIPPOCAMPAL PRO-INFLAMMATORY FACTORS AND NUCLEAR FACTOR-KAPPA B (NF-KAPPAB) AFTER SEVOFLURANE ANESTHESIA WERE EVALUATED. WE ALSO EXAMINED THE EFFECTS OF MATERNAL SEPARATION (MS) ON THE EXPRESSION OF GR AND THE DNA METHYLATION STATUS OF THE PROMOTER REGION OF EXON 1(7) OF GR AND WHETHER BEHAVIORAL CHANGES AND NEUROINFLAMMATION AFTER ANESTHESIA WERE REVERSIBLE WHEN THE EXPRESSION OF GR WAS INCREASED BY ALTERING DNA METHYLATION. RESULTS: MS INDUCED COGNITIVE DECLINE AFTER SEVOFLURANE INHALATION IN THE MORRIS WATER MAZE AND CONTEXT FEAR CONDITIONING TESTS AND ENHANCED THE RELEASE OF CYTOKINES AND THE ACTIVATION OF ASTROCYTE INTRACELLULAR NF-KAPPAB SIGNALING INDUCED BY SEVOFLURANE IN THE HIPPOCAMPUS OF ADULT RATS. BLOCKING NF-KAPPAB SIGNALING BY PYRROLIDINE DITHIOCARBAMATE (PDTC) INHIBITED THE RELEASE OF CYTOKINES. MS ALSO REDUCED THE EXPRESSION OF GR AND UPREGULATED THE METHYLATION LEVELS OF THE PROMOTER REGION OF GR EXON 1(7), AND SUCH EFFECTS WERE REVERSED BY TREATMENT WITH THE HISTONE DEACETYLASE INHIBITOR TRICHOSTATIN A (TSA) IN ADULT RATS. MOREOVER, TSA TREATMENT IN ADULT MS RATS INHIBITED THE OVERACTIVATION OF ASTROCYTE INTRACELLULAR NF-KAPPAB SIGNALING AND THE RELEASE OF CYTOKINES AND ALLEVIATED COGNITIVE DYSFUNCTION AFTER SEVOFLURANE ANESTHESIA. CONCLUSIONS: EARLY LIFE STRESS INDUCES COGNITIVE DYSFUNCTION AFTER SEVOFLURANE ANESTHESIA, PERHAPS DUE TO THE ABERRANT METHYLATION OF THE GR GENE PROMOTER, WHICH REDUCES THE EXPRESSION OF THE GR GENE AND FACILITATES EXAGGERATED INFLAMMATORY RESPONSES. 2017 15 5007 37 PERIPHERAL NERVE INJURY IS ASSOCIATED WITH CHRONIC, REVERSIBLE CHANGES IN GLOBAL DNA METHYLATION IN THE MOUSE PREFRONTAL CORTEX. CHANGES IN BRAIN STRUCTURE AND CORTICAL FUNCTION ARE ASSOCIATED WITH MANY CHRONIC PAIN CONDITIONS INCLUDING LOW BACK PAIN AND FIBROMYALGIA. THE MAGNITUDE OF THESE CHANGES CORRELATES WITH THE DURATION AND/OR THE INTENSITY OF CHRONIC PAIN. MOST STUDIES REPORT CHANGES IN COMMON AREAS INVOLVED IN PAIN MODULATION, INCLUDING THE PREFRONTAL CORTEX (PFC), AND PAIN-RELATED PATHOLOGICAL CHANGES IN THE PFC CAN BE REVERSED WITH EFFECTIVE TREATMENT. WHILE THE MECHANISMS UNDERLYING THESE CHANGES ARE UNKNOWN, THEY MUST BE DYNAMICALLY REGULATED. EPIGENETIC MODULATION OF GENE EXPRESSION IN RESPONSE TO EXPERIENCE AND ENVIRONMENT IS REVERSIBLE AND DYNAMIC. EPIGENETIC MODULATION BY DNA METHYLATION IS ASSOCIATED WITH ABNORMAL BEHAVIOR AND PATHOLOGICAL GENE EXPRESSION IN THE CENTRAL NERVOUS SYSTEM. DNA METHYLATION MIGHT ALSO BE INVOLVED IN MEDIATING THE PATHOLOGIES ASSOCIATED WITH CHRONIC PAIN IN THE BRAIN. WE THEREFORE TESTED A) WHETHER ALTERATIONS IN DNA METHYLATION ARE FOUND IN THE BRAIN LONG AFTER CHRONIC NEUROPATHIC PAIN IS INDUCED IN THE PERIPHERY USING THE SPARED NERVE INJURY MODAL AND B) WHETHER THESE INJURY-ASSOCIATED CHANGES ARE REVERSIBLE BY INTERVENTIONS THAT REVERSE THE PATHOLOGIES ASSOCIATED WITH CHRONIC PAIN. SIX MONTHS FOLLOWING PERIPHERAL NERVE INJURY, ABNORMAL SENSORY THRESHOLDS AND INCREASED ANXIETY WERE ACCOMPANIED BY DECREASED GLOBAL METHYLATION IN THE PFC AND THE AMYGDALA BUT NOT IN THE VISUAL CORTEX OR THE THALAMUS. ENVIRONMENTAL ENRICHMENT ATTENUATED NERVE INJURY-INDUCED HYPERSENSITIVITY AND REVERSED THE CHANGES IN GLOBAL PFC METHYLATION. FURTHERMORE, GLOBAL PFC METHYLATION CORRELATED WITH MECHANICAL AND THERMAL SENSITIVITY IN NEUROPATHIC MICE. IN SUMMARY, INDUCTION OF CHRONIC PAIN BY PERIPHERAL NERVE INJURY IS ASSOCIATED WITH EPIGENETIC CHANGES IN THE BRAIN. THESE CHANGES ARE DETECTED LONG AFTER THE ORIGINAL INJURY, AT A LONG DISTANCE FROM THE SITE OF INJURY AND ARE REVERSIBLE WITH ENVIRONMENTAL MANIPULATION. CHANGES IN BRAIN STRUCTURE AND CORTICAL FUNCTION THAT ARE ASSOCIATED WITH CHRONIC PAIN CONDITIONS MAY THEREFORE BE MEDIATED BY EPIGENETIC MECHANISMS. 2013 16 920 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 17 4093 33 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 18 1808 48 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 19 2417 36 EPIGENETIC SIGNATURE OF CHRONIC CEREBRAL HYPOPERFUSION AND BENEFICIAL EFFECTS OF S-ADENOSYLMETHIONINE IN RATS. CHRONIC CEREBRAL HYPOPERFUSION IS ASSOCIATED WITH COGNITIVE DECLINE IN AGING AND AGE-RELATED NEURODEGENERATIVE DISEASE. EPIGENETIC MECHANISMS ARE INVOLVED IN THE MAINTENANCE OF LONG-TERM HYPOXIA-ADAPTED CELLULAR PHENOTYPES. IN THE PRESENT STUDY, THE EPIGENETIC SIGNATURES SUCH AS DNA METHYLATION AND HISTONE ACETYLATION, AS WELL AS S-ADENOSYLMETHIONINE (SAM) CYCLE USING CHRONIC CEREBRAL HYPOPERFUSION RAT MODEL WERE EXPLORED. CHRONIC CEREBRAL HYPOXIA-INDUCED GLOBAL DNA HYPERMETHYLATION ASSOCIATED WITH THE INCREASE OF DNA METHYLTRANSFERASE (DNMT) 3A AS WELL AS ALTERATION OF SAM CYCLE. MEANWHILE, AN ENHANCED LEVEL OF GLOBAL HISTONE H4 ACETYLATION ACCOMPANIED WITH THE UPREGULATION OF HISTONE ACETYLTRANSFERASE, P300/CREB-BINDING PROTEIN (CBP), AND THE DOWNREGULATION OF HISTONE DEACETYLASES (HDACS), WAS ALSO OBSERVED. SAM COULD IMPROVE SPATIAL CAPACITY THROUGH THE UPREGULATION OF ACETYLCHOLINE AND BRAIN-DERIVED NEUROTROPHIC FACTOR (BDNF) RATHER THAN ALTERATION OF DNA METHYLATION LEVELS. IN CONCLUSION, WE HAVE DEMONSTRATED A GENOME-WIDE ADJUSTMENT OF DNA METHYLATION AND HISTONE ACETYLATION UNDER CHRONIC CEREBRAL HYPOXIC CONDITIONS IN A RAT'S BRAIN. THESE EPIGENETIC SIGNATURES MAY REPRESENT AN ADDITIONAL MECHANISM TO PROMOTE AND MAINTAIN A HYPOXIC-ADAPTED CELLULAR RESPONDS WITH A POTENTIAL ROLE IN MEMORY DEFICITS. 2014 20 989 31 CHRONIC SOCIAL DEFEAT STRESS DIFFERENTIALLY REGULATES THE EXPRESSION OF BDNF TRANSCRIPTS AND EPIGENETIC MODIFYING ENZYMES IN SUSCEPTIBLE AND RESILIENT MICE. OBJECTIVES: ALTHOUGH STRESS IS CONSIDERED A PRIMARY RISK FACTOR FOR NEUROPSYCHIATRIC DISORDERS, A MAJORITY OF INDIVIDUALS ARE RESILIENT TO THE EFFECTS OF STRESS EXPOSURE AND SUCCESSFULLY ADAPT TO ADVERSE LIFE EVENTS, WHILE OTHERS, THE SO-CALLED SUSCEPTIBLE INDIVIDUALS, MAY HAVE PROBLEMS TO PROPERLY ADAPT TO ENVIRONMENTAL CHANGES. HOWEVER, THE MECHANISMS UNDERLYING THESE DIFFERENT RESPONSES TO STRESS EXPOSURE ARE POORLY UNDERSTOOD.METHODS: ADULT MALE C57BL/6J MICE WERE EXPOSED TO CHRONIC SOCIAL DEFEAT STRESS PROTOCOL AND LEVELS OF BRAIN DERIVED NEUROTROPHIC FACTOR (BDNF) TRANSCRIPTS AND EPIGENETIC MODIFYING ENZYMES WERE ANALYSED BY REAL-TIME PCR IN THE HIPPOCAMPUS (HPC) AND PREFRONTAL CORTEX (PFC) OF SUSCEPTIBLE AND RESILIENT MICE.RESULTS: WE FOUND A SELECTIVE REDUCTION OF BDNF-6 TRANSCRIPT IN THE HPC AND AN INCREASE OF BDNF-4 TRANSCRIPT IN THE PFC OF SUSCEPTIBLE MICE. MOREOVER, SUSCEPTIBLE MICE SHOWED A SELECTIVE REDUCTION OF THE G9A MRNA LEVELS IN THE HPC, WHILE HDAC-5 AND DNMT3A MRNA LEVELS WERE SPECIFICALLY REDUCED IN THE PFC.CONCLUSIONS: OVERALL, OUR RESULTS, SHOWING A DIFFERENT EXPRESSION OF BDNF TRANSCRIPTS AND EPIGENETIC MODIFYING ENZYMES IN SUSCEPTIBLE AND RESILIENT MICE, SUGGEST THAT STRESS RESILIENCE IS NOT SIMPLY A LACK OF ACTIVATION OF STRESS-RELATED PATHWAYS, BUT IS RELATED TO THE ACTIVATION OF ADDITIONAL DIFFERENT SPECIFIC MECHANISMS. 2019