1 3971 153 LONG-LASTING NEUROTOXIC EFFECTS OF EXPOSURE TO METHYLMERCURY DURING DEVELOPMENT. AMONGST ENVIRONMENTAL CHEMICAL CONTAMINANTS, METHYLMERCURY (MEHG) REMAINS A MAJOR CONCERN BECAUSE OF ITS DETRIMENTAL EFFECTS ON DEVELOPING ORGANISMS, WHICH APPEAR TO BE PARTICULARLY SUSCEPTIBLE TO ITS TOXICITY. HERE, WE INVESTIGATED THE EFFECTS OF LOW MEHG LEVELS ON THE DEVELOPMENT OF THE NERVOUS SYSTEM USING BOTH IN VITRO AND IN VIVO EXPERIMENTAL MODELS. IN NEURAL STEM CELLS (NSCS), MEHG DECREASED PROLIFERATION AND NEURONAL DIFFERENTIATION AND INDUCED CELLULAR SENESCENCE ASSOCIATED WITH IMPAIRMENT IN MITOCHONDRIAL FUNCTION AND A CONCOMITANT DECREASE IN GLOBAL DNA METHYLATION. INTERESTINGLY, THE EFFECTS WERE HERITABLE AND COULD BE OBSERVED IN DAUGHTER NSCS NEVER DIRECTLY EXPOSED TO MEHG. BY CHRONICALLY EXPOSING PREGNANT/LACTATING MICE TO MEHG, WE FOUND PERSISTENT BEHAVIOURAL CHANGES IN THE MALE OFFSPRING, WHICH EXHIBITED DEPRESSION-LIKE BEHAVIOUR THAT COULD BE REVERSED BY CHRONIC TREATMENT WITH THE ANTIDEPRESSANT FLUOXETINE. THE BEHAVIOURAL ALTERATIONS WERE ASSOCIATED WITH A DECREASED NUMBER OF PROLIFERATING CELLS AND LOWER EXPRESSION OF BRAIN-DERIVED NEUROTROPHIC FACTOR (BDNF) MRNA IN THE HIPPOCAMPAL DENTATE GYRUS. MEHG EXPOSURE ALSO INDUCED LONG-LASTING DNA HYPERMETHYLATION, INCREASED HISTONE H3-K27 TRI-METHYLATION AND DECREASED H3 ACETYLATION AT THE BDNF PROMOTER IV, INDICATING THAT EPIGENETIC MECHANISMS PLAY A CRITICAL ROLE IN MEDIATING THE LONG-LASTING EFFECTS OF PERINATAL EXPOSURE TO MEHG. FLUOXETINE TREATMENT RESTORED THE BDNF MRNA EXPRESSION LEVELS, AS WELL AS THE NUMBER OF PROLIFERATING CELLS IN THE GRANULE CELL LAYER OF THE DENTATE GYRUS, WHICH FURTHER SUPPORTS THE HYPOTHESIS THAT LINKS DEPRESSION TO IMPAIRED NEUROGENESIS. ALTOGETHER, OUR FINDINGS HAVE SHOWN THAT LOW CONCENTRATIONS OF MEHG INDUCE LONG-LASTING EFFECTS IN NSCS THAT CAN POTENTIALLY PREDISPOSE INDIVIDUALS TO DEPRESSION, WHICH WE HAVE REPORTED EARLIER TO OCCUR IN EXPERIMENTAL ANIMALS EXPOSED TO MEHG DURING PRENATAL AND EARLY POSTNATAL DEVELOPMENT. 2013 2 3715 73 INHERITED EFFECTS OF LOW-DOSE EXPOSURE TO METHYLMERCURY IN NEURAL STEM CELLS. METHYLMERCURY (MEHG) IS AN ENVIRONMENTAL CONTAMINANT WITH RECOGNIZED NEUROTOXIC EFFECTS, PARTICULARLY TO THE DEVELOPING NERVOUS SYSTEM. IN THE PRESENT STUDY, WE SHOW THAT NANOMOLAR CONCENTRATIONS OF MEHG CAN INDUCE LONG-LASTING EFFECTS IN NEURAL STEM CELLS (NSCS). WE INVESTIGATED SHORT-TERM DIRECT AND LONG-TERM INHERITED EFFECTS OF EXPOSURE TO MEHG (2.5 OR 5.0 NM) USING PRIMARY CULTURES OF RAT EMBRYONIC CORTICAL NSCS. WE FOUND THAT MEHG HAD NO ADVERSE EFFECT ON CELL VIABILITY BUT REDUCED NSC PROLIFERATION AND ALTERED THE EXPRESSION OF CELL CYCLE REGULATORS (P16 AND P21) AND SENESCENCE-ASSOCIATED MARKERS. IN ADDITION, WE DEMONSTRATED A DECREASE IN GLOBAL DNA METHYLATION IN THE EXPOSED CELLS, INDICATING THAT EPIGENETIC CHANGES MAY BE INVOLVED IN THE MECHANISMS UNDERLYING THE MEHG-INDUCED EFFECTS. THESE CHANGES WERE OBSERVED IN CELLS DIRECTLY EXPOSED TO MEHG (PARENT CELLS) AND IN THEIR DAUGHTER CELLS CULTURED UNDER MEHG-FREE CONDITIONS. IN AGREEMENT WITH OUR IN VITRO DATA, A TREND WAS FOUND FOR DECREASED CELL PROLIFERATION IN THE SUBGRANULAR ZONE IN THE HIPPOCAMPI OF ADULT MICE EXPOSED TO LOW DOSES OF MEHG DURING THE PERINATAL PERIOD. INTERESTINGLY, THIS IMPAIRED PROLIFERATION HAD A MEASURABLE IMPACT ON THE TOTAL NUMBER OF NEURONS IN THE HIPPOCAMPAL DENTATE GYRUS. IMPORTANTLY, THIS EFFECT COULD BE REVERSED BY CHRONIC ANTIDEPRESSANT TREATMENT. OUR STUDY PROVIDES NOVEL EVIDENCE FOR PROGRAMMING EFFECTS INDUCED BY MEHG IN NSCS AND SUPPORTS THE IDEA THAT DEVELOPMENTAL EXPOSURE TO LOW LEVELS OF MEHG MAY RESULT IN LONG-TERM CONSEQUENCES PREDISPOSING TO NEURODEVELOPMENTAL DISORDERS AND/OR NEURODEGENERATION. 2012 3 3969 65 LONG-LASTING DEPRESSION-LIKE BEHAVIOR AND EPIGENETIC CHANGES OF BDNF GENE EXPRESSION INDUCED BY PERINATAL EXPOSURE TO METHYLMERCURY. SUBSTANTIAL EVIDENCE INDICATES THAT PREDISPOSITION TO DISEASES CAN BE ACQUIRED DURING EARLY STAGES OF DEVELOPMENT AND INTERACTIONS BETWEEN ENVIRONMENTAL AND GENETIC FACTORS MAY BE IMPLICATED IN THE ONSET OF MANY PATHOLOGICAL CONDITIONS. DATA COLLECTED OVER SEVERAL DECADES HAVE SHOWN THAT CHEMICALS ARE AMONG THE RELEVANT FACTORS THAT CAN ENDANGER CNS. WE PREVIOUSLY SHOWED THAT PERINATAL EXPOSURE TO METHYLMERCURY (MEHG) CAUSES PERSISTENT CHANGES IN LEARNING AND MOTIVATIONAL BEHAVIOR IN MICE. IN THIS STUDY, WE REPORT THAT THE DEPRESSION-LIKE BEHAVIOR IN MEHG-EXPOSED MALE MICE IS REVERSED BY CHRONIC TREATMENT WITH THE ANTIDEPRESSANT FLUOXETINE. BEHAVIORAL ALTERATIONS ARE ASSOCIATED WITH A DECREASE IN BRAIN-DERIVED NEUROTROPHIC FACTOR (BDNF) MRNA IN THE HIPPOCAMPAL DENTATE GYRUS AND FLUOXETINE TREATMENT RESTORES BDNF MRNA EXPRESSION. WE ALSO SHOW THAT MEHG-EXPOSURE INDUCES LONG-LASTING REPRESSIVE STATE OF THE CHROMATIN STRUCTURE AT THE BDNF PROMOTER REGION, IN PARTICULAR DNA HYPERMETHYLATION, AN INCREASE IN HISTONE H3-K27 TRI-METHYLATION AND A DECREASE IN H3 ACETYLATION AT THE PROMOTER IV. WHILE FLUOXETINE TREATMENT DOES NOT ALTER HYPERMETHYLATION OF H3-K27, IT SIGNIFICANTLY UP-REGULATES H3 ACETYLATION AT THE BDNF PROMOTER IV IN MEHG-EXPOSED MICE. OUR STUDY SHOWS THAT DEVELOPMENTAL EXPOSURE TO LOW LEVELS OF MEHG PREDISPOSES MICE TO DEPRESSION AND INDUCES EPIGENETIC SUPPRESSION OF BDNF GENE EXPRESSION IN THE HIPPOCAMPUS. 2008 4 1753 41 EARLY LIFE STRESS TRIGGERS SUSTAINED CHANGES IN HISTONE DEACETYLASE EXPRESSION AND HISTONE H4 MODIFICATIONS THAT ALTER RESPONSIVENESS TO ADOLESCENT ANTIDEPRESSANT TREATMENT. EARLY LIFE STRESS CAN ELICIT LONG-LASTING CHANGES IN GENE EXPRESSION AND BEHAVIOR. RECENT STUDIES ON RODENTS SUGGEST THAT THESE LASTING EFFECTS DEPEND ON THE GENETIC BACKGROUND. WHETHER EPIGENETIC FACTORS ALSO PLAY A ROLE REMAINS TO BE INVESTIGATED. HERE WE EXPOSED THE STRESS-SUSCEPTIBLE MOUSE STRAIN BALB/C AND THE MORE RESILIENT STRAIN C57BL/6 TO A POWERFUL EARLY LIFE STRESS PARADIGM, INFANT MATERNAL SEPARATION. IN BALB/C MICE, INFANT MATERNAL SEPARATION LED TO DECREASED EXPRESSION OF MRNA ENCODING THE HISTONE DEACETYLASES (HDACS) 1, 3, 7, 8, AND 10 IN THE FOREBRAIN NEOCORTEX IN ADULTHOOD, AN EFFECT ACCOMPANIED BY INCREASED EXPRESSION OF ACETYLATED HISTONE H4 PROTEINS, ESPECIALLY ACETYLATED H4K12 PROTEIN. THESE CHANGES IN HDAC EXPRESSION AND HISTONE MODIFICATIONS WERE NOT DETECTED IN C57BL/6 MICE EXPOSED TO EARLY LIFE STRESS. MOREOVER, A REVERSAL OF THE H4K12 HYPERACETYLATION DETECTED IN INFANT MATERNALLY SEPARATED BALB/C MICE (ACHIEVED WITH CHRONIC ADOLESCENT TREATMENT WITH A LOW DOSE OF THEOPHYLLINE THAT ONLY ACTIVATES HDACS) WORSENED THE ABNORMAL EMOTIONAL PHENOTYPE RESULTING FROM THIS EARLY LIFE STRESS EXPOSURE. IN CONTRAST, FLUOXETINE, A DRUG WITH POTENT ANTIDEPRESSANT EFFICACY IN INFANT MATERNALLY SEPARATED BALB/C MICE, POTENTIATED ALL HISTONE MODIFICATIONS TRIGGERED BY EARLY LIFE STRESS. MOREOVER, IN NON-STRESSED BALB/C MICE, CO-ADMINISTRATION OF AN HDAC INHIBITOR AND FLUOXETINE, BUT NOT FLUOXETINE ALONE, ELICITED ANTIDEPRESSANT EFFECTS AND ALSO TRIGGERED CHANGES IN HISTONE H4 EXPRESSION THAT WERE SIMILAR TO THOSE PROVOKED BY FLUOXETINE TREATMENT OF MICE EXPOSED TO EARLY LIFE STRESS. THESE RESULTS SUGGEST THAT BALB/C MICE DEVELOP EPIGENETIC MODIFICATIONS AFTER EARLY LIFE STRESS EXPOSURE THAT, IN TERMS OF THE EMOTIVE PHENOTYPE, ARE OF ADAPTIVE NATURE, AND THAT ENHANCE THE EFFICACY OF ANTIDEPRESSANT DRUGS. 2012 5 6174 46 THE HIPPOCAMPUS, NEUROTROPHIC FACTORS AND DEPRESSION: POSSIBLE IMPLICATIONS FOR THE PHARMACOTHERAPY OF DEPRESSION. DEPRESSION IS A PREVALENT, HIGHLY DEBILITATING MENTAL DISORDER AFFECTING UP TO 15% OF THE POPULATION AT LEAST ONCE IN THEIR LIFETIME, WITH HUGE COSTS FOR SOCIETY. NEUROBIOLOGICAL MECHANISMS OF DEPRESSION ARE STILL NOT WELL KNOWN, ALTHOUGH THERE IS CONSENSUS ABOUT INTERPLAY BETWEEN GENETIC AND ENVIRONMENTAL FACTORS. ANTIDEPRESSANT MEDICATIONS ARE FREQUENTLY USED IN DEPRESSION, BUT AT LEAST 50% OF PATIENTS ARE POOR RESPONDERS, EVEN TO MORE RECENTLY DISCOVERED MEDICATIONS. FURTHERMORE, CLINICAL RESPONSE ONLY OCCURS FOLLOWING WEEKS TO MONTHS OF TREATMENT AND ONLY CHRONIC TREATMENT IS EFFECTIVE, SUGGESTING THAT ACTIONS BEYOND THE RAPIDLY OCCURRING EFFECT OF ENHANCING MONOAMINERGIC SYSTEMS, SUCH AS ADAPTATION OF THESE SYSTEMS, ARE RESPONSIBLE FOR THE EFFECTS OF ANTIDEPRESSANTS. RECENT STUDIES INDICATE THAT AN IMPAIRMENT OF SYNAPTIC PLASTICITY (NEUROGENESIS, AXON BRANCHING, DENDRITOGENESIS AND SYNAPTOGENESIS) IN SPECIFIC AREAS OF THE CNS, PARTICULARLY THE HIPPOCAMPUS, MAY BE A CORE FACTOR IN THE PATHOPHYSIOLOGY OF DEPRESSION. THE ABNORMAL NEURAL PLASTICITY MAY BE RELATED TO ALTERATIONS IN THE LEVELS OF NEUROTROPHIC FACTORS, NAMELY BRAIN-DERIVED NEUROTROPHIC FACTOR (BDNF), WHICH PLAY A CENTRAL ROLE IN PLASTICITY. AS BDNF IS REPRESSED BY STRESS, EPIGENETIC REGULATION OF THE BDNF GENE MAY PLAY AN IMPORTANT ROLE IN DEPRESSION. THE HIPPOCAMPUS IS SMALLER IN DEPRESSED PATIENTS, ALTHOUGH IT IS UNCLEAR WHETHER SMALLER SIZE IS A CONSEQUENCE OF DEPRESSION OR A PRE-EXISTING, VULNERABILITY MARKER FOR DEPRESSION. ENVIRONMENTAL STRESSORS TRIGGERING ACTIVATION OF THE HYPOTHALAMIC-PITUITARY-ADRENAL AXIS CAUSE THE BRAIN TO BE EXPOSED TO CORTICOSTEROIDS, AFFECTING NEUROBEHAVIOURAL FUNCTIONS WITH A STRONG DOWNREGULATION OF HIPPOCAMPAL NEUROGENESIS, AND ARE A MAJOR RISK FACTOR FOR DEPRESSION. ANTIDEPRESSANT TREATMENT INCREASES BDNF LEVELS, STIMULATES NEUROGENESIS AND REVERSES THE INHIBITORY EFFECTS OF STRESS, BUT THIS EFFECT IS EVIDENT ONLY AFTER 3-4 WEEKS OF ADMINISTRATION, THE TIME COURSE FOR MATURATION OF NEW NEURONS. THE ABLATION OF HIPPOCAMPAL NEUROGENESIS BLOCKS THE BEHAVIOURAL EFFECTS OF ANTIDEPRESSANTS IN ANIMAL MODELS. THE ABOVE FINDINGS SUGGEST NEW POSSIBLE TARGETS FOR THE PHARMACOTHERAPY OF DEPRESSION SUCH AS NEUROTROPHIC FACTORS, THEIR RECEPTORS AND RELATED INTRACELLULAR SIGNALLING CASCADES; AGENTS COUNTERACTING THE EFFECTS OF STRESS ON HIPPOCAMPAL NEUROGENESIS (INCLUDING ANTAGONISTS OF CORTICOSTEROIDS, INFLAMMATORY CYTOKINES AND THEIR RECEPTORS); AND AGENTS FACILITATING THE ACTIVATION OF GENE EXPRESSION AND INCREASING THE TRANSCRIPTION OF NEUROTROPHINS IN THE BRAIN. 2011 6 5199 38 PRENATAL MATERNAL STRESS IS ASSOCIATED WITH INCREASED SENSITIVITY TO NEUROPATHIC PAIN AND SEX-SPECIFIC CHANGES IN SUPRASPINAL MRNA EXPRESSION OF EPIGENETIC- AND STRESS-RELATED GENES IN ADULTHOOD. EXPOSURE TO PRENATAL MATERNAL STRESS IMPACTS ADULT BEHAVIORAL OUTCOMES AND HAS BEEN SUGGESTED AS A RISK FACTOR FOR CHRONIC PAIN. HOWEVER, THE NEUROBIOLOGICAL MECHANISMS IMPLICATED ARE NOT WELL-CHARACTERIZED. IN THIS STUDY, WE ANALYZED THE EFFECT OF A PRENATAL MATERNAL STRESS ON THE DEVELOPMENT OF NEUROPATHIC PAIN-RELATED BEHAVIOURS AND GENE EXPRESSION IN THE FRONTAL CORTEX AND HIPPOCAMPUS IN ADULT OFFSPRING FOLLOWING CHRONIC CONSTRICTION INJURY OF THE SCIATIC NERVE IN MALE AND FEMALE CD1 MICE. NERVE INJURY-INDUCED MECHANICAL HYPERSENSITIVITY WAS AMPLIFIED IN BOTH MALE AND FEMALE PRENATALLY-STRESSED OFFSPRING, SUGGESTING THAT PRENATAL STRESS EXACERBATES PAIN AFTER INJURY. ANALYSIS OF MRNA EXPRESSION OF GENES RELATED TO EPIGENETIC REGULATION AND STRESS RESPONSES IN THE FRONTAL CORTEX AND HIPPOCAMPUS, BRAIN STRUCTURES IMPLICATED IN CHRONIC PAIN, SHOWED DISTINCT SEX AND REGION-SPECIFIC PATTERNS OF DYSREGULATION. IN GENERAL, MRNA EXPRESSION WAS MOST FREQUENTLY ALTERED IN THE MALE HIPPOCAMPUS AND EFFECTS OF PRENATAL STRESS WERE MORE PREVALENT THAN EFFECTS OF NERVE INJURY IN BOTH SUPRASPINAL AREAS. THESE FINDINGS DEMONSTRATE THE IMPACT OF PRENATAL STRESS ON BEHAVIORAL SENSITIVITY TO A PAINFUL INJURY. CHANGES IN THE EXPRESSION OF EPIGENETIC- AND STRESS-RELATED GENES SUGGEST A POSSIBLE MECHANISM BY WHICH THE EARLY LIFE STRESS BECOMES EMBEDDED IN THE CENTRAL NERVOUS SYSTEM. INCREASED UNDERSTANDING OF THE INTERACTIONS AMONG EARLY-LIFE STRESS, SEX, AND PAIN MAY LEAD TO THE IDENTIFICATION OF NOVEL THERAPEUTIC TARGETS AND EPIGENETIC DRUGS FOR THE TREATMENT OF CHRONIC PAIN DISORDERS. 2020 7 5219 36 PREVIOUS HISTORY OF CHRONIC STRESS CHANGES THE TRANSCRIPTIONAL RESPONSE TO GLUCOCORTICOID CHALLENGE IN THE DENTATE GYRUS REGION OF THE MALE RAT HIPPOCAMPUS. CHRONIC STRESS IS A RISK FACTOR FOR SEVERAL NEUROPSYCHIATRIC DISEASES, SUCH AS DEPRESSION AND PSYCHOSIS. IN RESPONSE TO STRESS GLUCOCORTICOIDS (GCS) ARE SECRETED THAT BIND TO MINERALOCORTICOID AND GLUCOCORTICOID RECEPTORS, LIGAND-ACTIVATED TRANSCRIPTION FACTORS THAT REGULATE THE TRANSCRIPTION OF GENE NETWORKS IN THE BRAIN NECESSARY FOR COPING WITH STRESS, RECOVERY, AND ADAPTATION. CHRONIC STRESS PARTICULARLY AFFECTS THE DENTATE GYRUS (DG) SUBREGION OF THE HIPPOCAMPUS, CAUSING SEVERAL FUNCTIONAL AND MORPHOLOGICAL CHANGES WITH CONSEQUENCES FOR LEARNING AND MEMORY, WHICH ARE LIKELY ADAPTIVE BUT AT THE SAME TIME MAKE DG NEURONS MORE VULNERABLE TO SUBSEQUENT CHALLENGES. THE AIM OF THIS STUDY WAS TO INVESTIGATE THE TRANSCRIPTIONAL RESPONSE OF DG NEURONS TO A GC CHALLENGE IN MALE RATS PREVIOUSLY EXPOSED TO CHRONIC RESTRAINT STRESS (CRS). AN INTRIGUING FINDING OF THE CURRENT STUDY WAS THAT HAVING A HISTORY OF CRS HAD PROFOUND CONSEQUENCES FOR THE SUBSEQUENT RESPONSE TO ACUTE GC CHALLENGE, DIFFERENTIALLY AFFECTING THE EXPRESSION OF SEVERAL HUNDREDS OF GENES IN THE DG COMPARED WITH CHALLENGED NONSTRESSED CONTROL ANIMALS. THIS ENDURING EFFECT OF PREVIOUS STRESS EXPOSURE SUGGESTS THAT EPIGENETIC PROCESSES MAY BE INVOLVED. IN LINE WITH THIS, CRS INDEED AFFECTED THE EXPRESSION OF SEVERAL GENES INVOLVED IN CHROMATIN STRUCTURE AND EPIGENETIC PROCESSES, INCLUDING ASF1, ASH1L, HIST1H3F, AND TP63. THE DATA PRESENTED HERE INDICATE THAT CRS ALTERS THE TRANSCRIPTIONAL RESPONSE TO A SUBSEQUENT GC INJECTION. WE PROPOSE THAT THIS ALTERED TRANSCRIPTIONAL POTENTIAL FORMS PART OF THE MOLECULAR MECHANISM UNDERLYING THE ENHANCED VULNERABILITY FOR STRESS-RELATED DISORDERS LIKE DEPRESSION CAUSED BY CHRONIC STRESS. 2013 8 3973 40 LONG-TERM BEHAVIORAL AND NEUROENDOCRINE ALTERATIONS FOLLOWING CHRONIC SOCIAL STRESS IN MICE: IMPLICATIONS FOR STRESS-RELATED DISORDERS. THE PERIOD OF ADOLESCENCE IS CHARACTERIZED BY A HIGH VULNERABILITY TO STRESS AND TRAUMA, WHICH MIGHT RESULT IN LONG-LASTING CONSEQUENCES AND AN INCREASED RISK TO DEVELOP PSYCHIATRIC DISORDERS. USING A RECENTLY DEVELOPED MOUSE MODEL FOR CHRONIC SOCIAL STRESS DURING ADOLESCENCE, WE STUDIED PERSISTENT NEUROENDOCRINE AND BEHAVIORAL EFFECTS OF CHRONIC SOCIAL STRESS OBTAINED 12 MONTHS AFTER CESSATION OF THE STRESSOR. AS A REFERENCE, WE INVESTIGATED IMMEDIATE EFFECTS OF CHRONIC STRESS EXPOSURE OBTAINED AT THE END OF THE CHRONIC STRESS PERIOD. IMMEDIATELY AFTER THE 7 WEEK CHRONIC STRESS PERIOD STRESSED ANIMALS SHOW SIGNIFICANTLY INCREASED ADRENAL WEIGHTS, DECREASED THYMUS WEIGHT, INCREASED BASAL CORTICOSTERONE SECRETION AND A FLATTENED CIRCADIAN RHYTHM. FURTHERMORE, STRESSED ANIMALS DISPLAY AN INCREASED ANXIETY-LIKE BEHAVIOR IN THE ELEVATED PLUS MAZE AND THE NOVELTY-INDUCED SUPPRESSION OF FEEDING TEST. HIPPOCAMPAL MINERALOCORTICOID RECEPTOR (MR) AND THE GLUCOCORTICOID RECEPTOR (GR) MRNA LEVELS WERE SIGNIFICANTLY DECREASED. TO INVESTIGATE PERSISTENT CONSEQUENCES OF THIS EARLY STRESSFUL EXPERIENCE, THE SAME PARAMETERS WERE ASSESSED IN AGED MICE 12 MONTHS AFTER THE CESSATION OF THE STRESSOR. INTERESTINGLY, WE STILL FOUND DIFFERENCES BETWEEN FORMERLY STRESSED AND CONTROL MICE IN IMPORTANT STRESS-RELATED PARAMETERS. MR EXPRESSION LEVELS WERE SIGNIFICANTLY LOWER IN STRESSED ANIMALS, SUGGESTING LASTING, POSSIBLY EPIGENETIC ALTERATIONS IN GENE EXPRESSION REGULATION. FURTHERMORE, WE OBSERVED LONG-TERM BEHAVIORAL ALTERATIONS IN ANIMALS STRESSED DURING ADOLESCENCE. THUS, WE COULD DEMONSTRATE THAT CHRONIC STRESS EXPOSURE DURING A CRUCIAL DEVELOPMENTAL TIME PERIOD RESULTS IN LONG-TERM, PERSISTENT EFFECTS ON PHYSIOLOGICAL AND BEHAVIORAL PARAMETERS THROUGHOUT LIFE, WHICH MAY CONTRIBUTE TO AN ENHANCED VULNERABILITY TO STRESS-INDUCED DISEASES. 2008 9 5207 40 PRENATAL STRESS INDUCES SPATIAL MEMORY DEFICITS AND EPIGENETIC CHANGES IN THE HIPPOCAMPUS INDICATIVE OF HETEROCHROMATIN FORMATION AND REDUCED GENE EXPRESSION. STRESS DURING PREGNANCY HAS A WIDE VARIETY OF NEGATIVE EFFECTS IN BOTH HUMAN [1] AND ANIMAL OFFSPRING [2]. THESE EFFECTS ARE ESPECIALLY APPARENT IN VARIOUS FORMS OF LEARNING AND MEMORY SUCH AS OBJECT RECOGNITION [3] AND SPATIAL MEMORY [4]. THE COGNITIVE EFFECTS OF PRENATAL STRESS (PNS) MAY BE MEDIATED THROUGH EPIGENETIC CHANGES SUCH AS HISTONE ACETYLATION AND DNA METHYLATION [5]. AS SUCH, THE PRESENT STUDY INVESTIGATED THE EFFECTS OF CHRONIC UNPREDICTABLE PNS ON MEMORY AND EPIGENETIC MEASURES IN ADULT OFFSPRING. MICE THAT UNDERWENT PNS EXHIBITED IMPAIRED SPATIAL MEMORY IN THE MORRIS WATER MAZE, AS WELL AS SEX-SPECIFIC CHANGES IN LEVELS OF DNA METHYLTRANSFERASE (DNMT) 1 PROTEIN, AND ACETYLATED HISTONE H3 (ACH3) IN THE HIPPOCAMPUS, AND SERUM CORTICOSTERONE. MALE MICE EXPOSED TO PNS EXHIBITED DECREASED HIPPOCAMPAL ACH3, WHEREAS FEMALE PNS MICE DISPLAYED A FURTHER REDUCTION IN ACH3, AS WELL AS HEIGHTENED HIPPOCAMPAL DNMT1 PROTEIN LEVELS AND CORTICOSTERONE LEVELS. THESE DATA SUGGEST THAT PNS MAY EPIGENETICALLY REDUCE TRANSCRIPTION IN THE HIPPOCAMPUS, PARTICULARLY IN FEMALES IN WHOM THIS EFFECT MAY BE RELATED TO INCREASED BASELINE STRESS HORMONE LEVELS, AND WHICH MAY UNDERLIE THE SEXUAL DIMORPHISM IN RATES OF MENTAL ILLNESS IN HUMANS. 2015 10 2740 31 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 11 1790 37 EFFECT OF CHRONIC MILD STRESS ON HIPPOCAMPAL TRANSCRIPTOME IN MICE SELECTED FOR HIGH AND LOW STRESS-INDUCED ANALGESIA AND DISPLAYING DIFFERENT EMOTIONAL BEHAVIORS. THERE IS INCREASING EVIDENCE THAT MOOD DISORDERS MAY DERIVE FROM THE IMPACT OF ENVIRONMENTAL PRESSURE ON GENETICALLY SUSCEPTIBLE INDIVIDUALS. STRESS-INDUCED HIPPOCAMPAL PLASTICITY HAS BEEN IMPLICATED IN DEPRESSION. WE STUDIED HIPPOCAMPAL TRANSCRIPTOMES IN STRAINS OF MICE THAT DISPLAY HIGH (HA) AND LOW (LA) SWIM STRESS-INDUCED ANALGESIA AND THAT DIFFER IN EMOTIONAL BEHAVIORS AND RESPONSES TO DIFFERENT CLASSES OF ANTIDEPRESSANTS. CHRONIC MILD STRESS (CMS) AFFECTED EXPRESSION OF A NUMBER OF GENES COMMON FOR BOTH STRAINS. CMS ALSO PRODUCED STRAIN SPECIFIC CHANGES IN EXPRESSION SUGGESTING THAT HIPPOCAMPAL RESPONSES TO STRESS DEPEND ON GENOTYPE. CONSIDERABLY LARGER NUMBER OF GENES, BIOLOGICAL PROCESSES, MOLECULAR FUNCTIONS, BIOCHEMICAL PATHWAYS, AND GENE NETWORKS WERE AFFECTED BY CMS IN LA THAN IN HA MICE. THE RESULTS SUGGEST THAT POTENTIAL DRUG TARGETS AGAINST DETRIMENTAL EFFECTS OF STRESS INCLUDE GLUTAMATE TRANSPORTERS, AND CHOLINERGIC, CHOLECYSTOKININ (CCK), GLUCOCORTICOIDS, AND THYROID HORMONES RECEPTORS. FURTHERMORE, SOME BIOLOGICAL PROCESSES EVOKED BY STRESS AND DIFFERENT BETWEEN THE STRAINS, SUCH AS APOPTOSIS, NEUROGENESIS AND CHROMATIN MODIFICATIONS, MAY BE RESPONSIBLE FOR THE LONG-TERM, IRREVERSIBLE EFFECTS OF STRESS AND SUGGEST A ROLE FOR EPIGENETIC REGULATION OF MOOD RELATED STRESS RESPONSES. 2011 12 4093 38 MATERNAL SEPARATION FOLLOWED BY CHRONIC MILD STRESS IN ADULTHOOD IS ASSOCIATED WITH CONCERTED EPIGENETIC REGULATION OF AP-1 COMPLEX GENES. DEPRESSION IS ONE OF THE MOST PREVALENT MENTAL DISEASES WORLDWIDE. PATIENTS WITH PSYCHIATRIC DISEASES OFTEN HAVE A HISTORY OF CHILDHOOD NEGLECT, INDICATING THAT EARLY-LIFE EXPERIENCES PREDISPOSE TO PSYCHIATRIC DISEASES IN ADULTHOOD. TWO STRONG MODELS WERE USED IN THE PRESENT STUDY: THE MATERNAL SEPARATION/EARLY DEPRIVATION MODEL (MS) AND THE CHRONIC MILD STRESS MODEL (CMS). IN BOTH MODELS, WE FOUND CHANGES IN THE EXPRESSION OF A NUMBER OF GENES SUCH AS CREB AND NPY. STRIKINGLY, THERE WAS A CLEAR REGULATION OF EXPRESSION OF FOUR GENES INVOLVED IN THE AP-1 COMPLEX: C-FOS, C-JUN, FOSB, AND JUN-B. INTERESTINGLY, DIFFERENT EXPRESSION LEVELS WERE OBSERVED DEPENDING ON THE MODEL, WHEREAS THE COMBINATION OF THE MODELS RESULTED IN A NORMAL LEVEL OF GENE EXPRESSION. THE EFFECTS OF MS AND CMS ON GENE EXPRESSION WERE ASSOCIATED WITH DISTINCT HISTONE METHYLATION/ACETYLATION PATTERNS OF ALL FOUR GENES. THE EPIGENETIC CHANGES, LIKE GENE EXPRESSION, WERE ALSO DEPENDENT ON THE SPECIFIC STRESSOR OR THEIR COMBINATION. THE OBTAINED RESULTS SUGGEST THAT SINGLE LIFE EVENTS LEAVE A MARK ON GENE EXPRESSION AND THE EPIGENETIC SIGNATURE OF GENE PROMOTERS, BUT A COMBINATION OF DIFFERENT STRESSORS AT DIFFERENT LIFE STAGES CAN FURTHER CHANGE GENE EXPRESSION THROUGH EPIGENETIC FACTORS, POSSIBLY CAUSING THE LONG-LASTING ADVERSE EFFECTS OF STRESS. 2021 13 5818 34 STRESS AND TRAUMA: BDNF CONTROL OF DENDRITIC-SPINE FORMATION AND REGRESSION. CHRONIC RESTRAINT STRESS LEADS TO INCREASES IN BRAIN DERIVED NEUROTROPHIC FACTOR (BDNF) MRNA AND PROTEIN IN SOME REGIONS OF THE BRAIN, E.G. THE BASAL LATERAL AMYGDALA (BLA) BUT DECREASES IN OTHER REGIONS SUCH AS THE CA3 REGION OF THE HIPPOCAMPUS AND DENDRITIC SPINE DENSITY INCREASES OR DECREASES IN LINE WITH THESE CHANGES IN BDNF. GIVEN THE POWERFUL INFLUENCE THAT BDNF HAS ON DENDRITIC SPINE GROWTH, THESE OBSERVATIONS SUGGEST THAT THE FUNDAMENTAL REASON FOR THE DIRECTION AND EXTENT OF CHANGES IN DENDRITIC SPINE DENSITY IN A PARTICULAR REGION OF THE BRAIN UNDER STRESS IS DUE TO THE CHANGES IN BDNF THERE. THE MOST LIKELY CAUSE OF THESE CHANGES IS PROVIDED BY THE STRESS INITIATED RELEASE OF STEROIDS, WHICH READILY ENTER NEURONS AND ALTER GENE EXPRESSION, FOR EXAMPLE THAT OF BDNF. OF PARTICULAR INTEREST IS HOW GLUCOCORTICOIDS AND MINERALOCORTICOIDS TEND TO HAVE OPPOSITE EFFECTS ON BDNF GENE EXPRESSION OFFERING THE POSSIBILITY THAT DIFFERENCES IN THE DISTRIBUTION OF THEIR RECEPTORS AND OF THEIR DOWNSTREAM EFFECTS MIGHT PROVIDE A BASIS FOR THE DIFFERENTIAL TRANSCRIPTION OF THE BDNF GENES. ALTERNATIVELY, DIFFERENCES IN THE EXTENT OF METHYLATION AND ACETYLATION IN THE EPIGENETIC CONTROL OF BDNF TRANSCRIPTION ARE POSSIBLE IN DIFFERENT PARTS OF THE BRAIN FOLLOWING STRESS. ALTHOUGH PRESENT EVIDENCE POINTS TO CHANGES IN BDNF TRANSCRIPTION BEING THE MAJOR CAUSAL AGENT FOR THE CHANGES IN SPINE DENSITY IN DIFFERENT PARTS OF THE BRAIN FOLLOWING STRESS, STEROIDS HAVE SIGNIFICANT EFFECTS ON DOWNSTREAM PATHWAYS FROM THE TRKB RECEPTOR ONCE IT IS ACTED UPON BY BDNF, INCLUDING THOSE THAT MODULATE THE DENSITY OF DENDRITIC SPINES. FINALLY, ALTHOUGH GLUCOCORTICOIDS PLAY A CANONICAL ROLE IN DETERMINING BDNF MODULATION OF DENDRITIC SPINES, RECENT STUDIES HAVE SHOWN A ROLE FOR CORTICOTROPHIN RELEASING FACTOR (CRF) IN THIS REGARD. THERE IS CONSIDERABLE IMPROVEMENT IN THE EXTENT OF CHANGES IN SPINE SIZE AND DENSITY IN RODENTS WITH FOREBRAIN SPECIFIC KNOCKOUT OF CRF RECEPTOR 1 (CRFR1) EVEN WHEN THE GLUCOCORTICOID PATHWAYS ARE LEFT INTACT. IT SEEMS THEN THAT CRF DOES HAVE A ROLE TO PLAY IN DETERMINING BDNF CONTROL OF DENDRITIC SPINES. 2014 14 1981 42 EPIGENETIC ALTERATIONS IN DNA AND HISTONE MODIFICATIONS CAUSED BY DEPRESSION AND ANTIDEPRESSANT DRUGS: LESSONS FROM THE RODENT MODELS. EPIGENETIC MODIFICATIONS REGULATE CHROMATIN FOLDING AND FUNCTION. EPIGENETIC MECHANISMS REGULATE TRANSCRIPTION MEDIATING EFFECTS OF VARIOUS STIMULI ON GENE EXPRESSION. THESE MECHANISMS ARE INVOLVED IN TRANSCRIPTIONAL CONTROL IN VARIOUS PHYSIOLOGICAL AND PATHOLOGICAL CONDITIONS INCLUDING NEUROPSYCHIATRIC DISORDERS AND BEHAVIORAL ABNORMALITIES SUCH AS DEPRESSION. IN RODENTS, EXPOSURE TO CHRONIC SOCIAL STRESS WAS SHOWN TO INDUCE BEHAVIORAL IMPAIRMENTS AND MEMORY/LEARNING DEFICITS THAT RESEMBLE DEPRESSIVE-LIKE PHENOTYPE IN HUMANS. THE RODENT MODELS OF CHRONIC STRESS WERE WIDELY USED TO STUDY MOLECULAR MECHANISMS OF DEPRESSION. IN THESE MODELS, EARLY EXPOSURE TO CHRONIC STRESS SUCH AS PRENATAL OR POSTNATAL STRESS INDUCES LONG-TERM HYPERACTIVE STRESS RESPONSES, BEHAVIORAL ABNORMALITIES, AND FUNCTIONAL IMPAIRMENTS IN BRAIN FUNCTION THAT PERSIST IN ADULTHOOD. FURTHERMORE, THESE ALTERATIONS CAN BE TRANSMITTED TO OFFSPRING OF CHRONICALLY STRESSED ANIMALS ACROSS SEVERAL GENERATIONS. MOLECULAR STUDIES IN ANIMAL MODELS SHOWED THAT CHRONIC STRESS INDUCES STABLE EPIGENETIC CHANGES IN SPECIFIC BRAIN REGIONS, PRIMARILY IN THE LIMBIC SYSTEM. THESE CHANGES LEAD TO LONG-LASTING ABNORMALITIES IN BEHAVIOR THAT PERSIST IN ADULTHOOD AND CAN BE TRANSMITTED TO OFFSPRING. TREATMENT WITH EPIGENETICALLY ACTIVE ANTIDEPRESSANTS DISRUPTS THE ABNORMAL STRESS-INDUCED EPIGENETIC PROGRAMMING AND PROVIDES EPIGENETIC PATTERNS THAT RESEMBLE EPIGENETIC BACKGROUND OF STRESS RESILIENT INDIVIDUALS. 2017 15 4642 47 NEURONAL PLASTICITY: A LINK BETWEEN STRESS AND MOOD DISORDERS. ALTHOUGH STRESS REPRESENTS THE MAJOR ENVIRONMENTAL ELEMENT OF SUSCEPTIBILITY FOR MOOD DISORDERS, THE RELATIONSHIP BETWEEN STRESS AND DISEASE REMAINS TO BE FULLY ESTABLISHED. IN THE PRESENT ARTICLE WE REVIEW THE EVIDENCE IN SUPPORT FOR A ROLE OF NEURONAL PLASTICITY, AND IN PARTICULAR OF NEUROTROPHIC FACTORS. EVEN THOUGH DECREASED LEVELS OF NOREPINEPHRINE AND SEROTONIN MAY UNDERLIE DEPRESSIVE SYMPTOMS, COMPELLING EVIDENCE NOW SUGGESTS THAT MOOD DISORDERS ARE CHARACTERIZED BY REDUCED NEURONAL PLASTICITY, WHICH CAN BE BROUGHT ABOUT BY EXPOSURE TO STRESS AT DIFFERENT STAGES OF LIFE. INDEED THE EXPRESSION OF NEUROTROPHIC MOLECULES, SUCH AS THE NEUROTROPHIN BDNF, IS REDUCED IN DEPRESSED SUBJECTS AS WELL AS IN EXPERIMENTAL ANIMALS EXPOSED TO ADVERSE EXPERIENCE AT EARLY STAGES OF LIFE OR AT ADULTHOOD. THESE CHANGES SHOW AN ANATOMICAL SPECIFICITY AND MIGHT BE SUSTAINED BY EPIGENETIC MECHANISMS. PHARMACOLOGICAL INTERVENTION MAY NORMALIZE SUCH DEFECTS AND IMPROVE NEURONAL FUNCTION THROUGH THE MODULATION OF THE SAME FACTORS THAT ARE DEFECTIVE IN DEPRESSION. SEVERAL STUDIES HAVE DEMONSTRATED THAT CHRONIC, BUT NOT ACUTE, ANTIDEPRESSANT TREATMENT INCREASES THE EXPRESSION OF BDNF AND MAY ENHANCE ITS LOCALIZATION AT SYNAPTIC LEVEL. ANTIDEPRESSANT TREATMENT CAN NORMALIZE DEFICITS IN NEUROTROPHIN EXPRESSION PRODUCED BY CHRONIC STRESS PARADIGMS, BUT MAY ALSO ALTER THE MODULATION OF BDNF UNDER ACUTE STRESSFUL CONDITIONS. IN SUMMARY, THERE IS GOOD AGREEMENT IN CONSIDERING NEURONAL PLASTICITY, AND THE EXPRESSION OF KEY PROTEINS SUCH AS THE NEUROTROPHIN BDNF, AS A CENTRAL PLAYER FOR THE EFFECTS OF STRESS ON BRAIN FUNCTION AND ITS IMPLICATION FOR PSYCHOPATHOLOGY. ACCORDINGLY, EFFECTIVE TREATMENTS SHOULD NOT LIMIT THEIR EFFECTS TO THE CONTROL OF NEUROTRANSMITTER AND HORMONAL DYSFUNCTIONS, BUT SHOULD BE ABLE TO NORMALIZE DEFECTIVE MECHANISMS THAT SUSTAIN THE IMPAIRMENT OF NEURONAL PLASTICITY. 2009 16 4401 43 MODULATION OF NEURONAL PLASTICITY FOLLOWING CHRONIC CONCOMITANT ADMINISTRATION OF THE NOVEL ANTIPSYCHOTIC LURASIDONE WITH THE MOOD STABILIZER VALPROIC ACID. RATIONALE: COMBINATORY THERAPY IS WIDELY USED IN PSYCHIATRY OWING TO THE POSSIBILITY THAT DRUGS WITH DIFFERENT MECHANISMS OF ACTION MAY SYNERGIZE TO IMPROVE FUNCTIONS DETERIORATED IN SCHIZOPHRENIA, BIPOLAR DISORDERS, AND MAJOR DEPRESSION. WHILE COMBINATORY STRATEGIES RELY ON RECEPTOR AND SYNAPTIC MECHANISMS, IT SHOULD ALSO BE CONSIDERED THAT TWO DRUGS MAY ALSO "INTERACT" ON THE LONG-TERM TO DETERMINE MORE ROBUST CHANGES IN NEURONAL PLASTICITY, WHICH REPRESENTS A DOWNSTREAM TARGET IMPORTANT FOR FUNCTIONAL RECOVERY. OBJECTIVE: THE AIM OF THE STUDY IS TO INVESTIGATE NEUROADAPTIVE CHANGES SET IN MOTION BY CHRONIC CONCOMITANT ADMINISTRATION OF THE NOVEL ANTIPSYCHOTIC LURASIDONE AND THE MOOD STABILIZER VALPROATE. METHODS: ANIMALS WERE CHRONICALLY TREATED WITH LURASIDONE, VALPROATE, OR THE COMBINATION OF THE TWO DRUGS AND KILLED 24 H AFTER THE LAST INJECTION TO EVALUATE ALTERATIONS OF DIFFERENT MEASURES OF NEURONAL PLASTICITY SUCH AS THE NEUROTROPHIN BRAIN-DERIVED NEUROTROPHIC FACTOR (BDNF), THE IMMEDIATE EARLY GENE ACTIVITY-REGULATED CYTOSKELETAL ASSOCIATED PROTEIN, AND THE EPIGENETIC REGULATORS HDAC 1, 2, AND 5 IN DORSAL AND VENTRAL HIPPOCAMPUS. RESULTS: THE RESULTS SUGGEST THAT COADMINISTRATION OF LURASIDONE AND VALPROATE PRODUCES, WHEN COMPARED TO THE SINGLE DRUGS, A LARGER INCREASE IN THE EXPRESSION OF BDNF IN THE VENTRAL HIPPOCAMPUS, THROUGH THE REGULATION OF SPECIFIC NEUROTROPHIN TRANSCRIPTS. WE ALSO FOUND THAT THE HISTONE DEACETYLASES WERE REGULATED BY THE DRUG COMBINATION, SUGGESTING THAT SOME OF THE TRANSCRIPTIONAL CHANGES MAY BE SUSTAINED BY EPIGENETIC MECHANISMS. CONCLUSIONS: OUR RESULTS SUGGEST THAT THE BENEFICIAL EFFECTS ASSOCIATED WITH COMBINATORY TREATMENT BETWEEN A SECOND-GENERATION ANTIPSYCHOTIC AND A MOOD STABILIZER COULD RESULT FROM THE ABILITY TO MODULATE NEUROPLASTIC MOLECULES, WHOSE EXPRESSION AND FUNCTION IS DETERIORATED IN DIFFERENT PSYCHIATRIC CONDITIONS. 2013 17 5820 41 STRESS DYNAMICALLY REGULATES BEHAVIOR AND GLUTAMATERGIC GENE EXPRESSION IN HIPPOCAMPUS BY OPENING A WINDOW OF EPIGENETIC PLASTICITY. EXCITATORY AMINO ACIDS PLAY A KEY ROLE IN BOTH ADAPTIVE AND DELETERIOUS EFFECTS OF STRESSORS ON THE BRAIN, AND DYSREGULATED GLUTAMATE HOMEOSTASIS HAS BEEN ASSOCIATED WITH PSYCHIATRIC AND NEUROLOGICAL DISORDERS. HERE, WE ELUCIDATE MECHANISMS OF EPIGENETIC PLASTICITY IN THE HIPPOCAMPUS IN THE INTERACTIONS BETWEEN A HISTORY OF CHRONIC STRESS AND FAMILIAR AND NOVEL ACUTE STRESSORS THAT ALTER EXPRESSION OF ANXIETY- AND DEPRESSIVE-LIKE BEHAVIORS. WE DEMONSTRATE THAT ACUTE RESTRAINT AND ACUTE FORCED SWIM STRESSORS INDUCE DIFFERENTIAL EFFECTS ON THESE BEHAVIORS IN NAIVE MICE AND IN MICE WITH A HISTORY OF CHRONIC-RESTRAINT STRESS (CRS). THEY REVEAL A KEY ROLE FOR EPIGENETIC UP- AND DOWN-REGULATION OF THE PUTATIVE PRESYNAPTIC TYPE 2 METABOTROPIC GLUTAMATE (MGLU2) RECEPTORS AND THE POSTSYNAPTIC NR1/NMDA RECEPTORS IN THE HIPPOCAMPUS AND PARTICULARLY IN THE DENTATE GYRUS (DG), A REGION OF ACTIVE NEUROGENESIS AND A TARGET OF ANTIDEPRESSANT TREATMENT. WE SHOW CHANGES IN DG LONG-TERM POTENTIATION (LTP) THAT PARALLEL BEHAVIORAL RESPONSES, WITH HABITUATION TO THE SAME ACUTE RESTRAINT STRESSOR AND SENSITIZATION TO A NOVEL FORCED-SWIM STRESSOR. IN WT MICE AFTER CRS AND IN UNSTRESSED MICE WITH A BDNF LOSS-OF-FUNCTION ALLELE (BDNF VAL66MET), WE SHOW THAT THE EPIGENETIC ACTIVATOR OF HISTONE ACETYLATION, P300, PLAYS A PIVOTAL ROLE IN THE DYNAMIC UP- AND DOWN-REGULATION OF MGLU2 IN HIPPOCAMPUS VIA HISTONE-3-LYSINE-27-ACETYLATION (H3K27AC) WHEN ACUTE STRESSORS ARE APPLIED. THESE HIPPOCAMPAL RESPONSES REVEAL A WINDOW OF EPIGENETIC PLASTICITY THAT MAY BE USEFUL FOR TREATMENT OF DISORDERS IN WHICH GLUTAMATERGIC TRANSMISSION IS DYSREGULATED. 2015 18 948 34 CHRONIC METABOLIC DERANGEMENT-INDUCED COGNITIVE DEFICITS AND NEUROTOXICITY ARE ASSOCIATED WITH REST INACTIVATION. CHRONIC METABOLIC ALTERATIONS MAY REPRESENT A RISK FACTOR FOR THE DEVELOPMENT OF COGNITIVE IMPAIRMENT, DEMENTIA, OR NEURODEGENERATIVE DISEASES. HYPERGLYCEMIA AND OBESITY ARE KNOWN TO IMPRINT EPIGENETIC MARKERS THAT COMPROMISE THE PROPER EXPRESSION OF CELL SURVIVAL GENES. HERE, WE SHOWED THAT CHRONIC HYPERGLYCEMIA (60 DAYS) INDUCED BY A SINGLE INTRAPERITONEAL INJECTION OF STREPTOZOTOCIN COMPROMISED COGNITION BY REDUCING HIPPOCAMPAL ERK SIGNALING AND BY INDUCING NEUROTOXICITY IN RATS. THE MECHANISMS APPEAR TO BE LINKED TO REDUCED ACTIVE DNA DEMETHYLATION AND DIMINISHED EXPRESSION OF THE NEUROPROTECTIVE TRANSCRIPTION FACTOR REST. THE IMPACT OF THE RELATIONSHIP BETWEEN ADIPOSITY AND DNA HYPERMETHYLATION ON REST EXPRESSION WAS ALSO DEMONSTRATED IN PERIPHERAL BLOOD MONONUCLEAR CELLS IN OBESE CHILDREN WITH REDUCED LEVELS OF BLOOD ASCORBATE. THE REVERSIBLE NATURE OF EPIGENETIC MODIFICATIONS AND THE COGNITIVE IMPAIRMENT REPORTED IN OBESE CHILDREN, ADOLESCENTS, AND ADULTS SUGGEST THAT THE CORRECTION OF THE ANTHROPOMETRY AND THE PERIPHERAL METABOLIC ALTERATIONS WOULD PROTECT BRAIN HOMEOSTASIS AND REDUCE THE RISK OF DEVELOPING NEURODEGENERATIVE DISEASES. 2019 19 1803 21 EFFECT OF PROLONGED EMOTIONAL AND PAIN STRESS ON THE CONTENT OF METHYLCYTOSINE-BINDING PROTEIN MECP2 IN NUCLEI OF HIPPOCAMPAL NEURONS IN RATS WITH DIFFERENT EXCITABILITY OF THE NERVOUS SYSTEM. IN RATS WITH LOW EXCITABILITY THRESHOLD OF THE NERVOUS SYSTEM DEMONSTRATING SIGNIFICANT AND PERSISTENT BEHAVIORAL DISORDERS UNDER STRESS CONDITIONS, THE CONTENT OF METHYLCYTOSINE-BINDING PROTEIN MECP2 IN NEURONAL NUCLEI OF HIPPOCAMPAL FIELD CA3 DECREASED OVER 2 WEEKS AFTER LONG-TERM EMOTIONAL AND PAIN STRESS. IT WAS HYPOTHESIZED THAT PROTEIN MECP2 TRIGGERS EPIGENETIC CHANGES IN DNA THAT UNDERLIE "STRESS MEMORY". 2006 20 1614 42 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