1 6108 163 THE ENRICHED ENVIRONMENT AMELIORATES CHRONIC UNPREDICTABLE MILD STRESS-INDUCED DEPRESSIVE-LIKE BEHAVIORS AND COGNITIVE IMPAIRMENT BY ACTIVATING THE SIRT1/MIR-134 SIGNALING PATHWAY IN HIPPOCAMPUS. BACKGROUND: CHRONIC UNPREDICTABLE MILD STRESS (CUMS) IS AN IMPORTANT RISK FACTOR FOR DEPRESSION AND COGNITIVE DEFICITS IN HUMANS. ENRICHED ENVIRONMENT (EE) SHOWED A BENEFICIAL EFFECT ON DEPRESSION AND COGNITION BY ENHANCING BRAIN DERIVED NEUROTROPHIC FACTOR (BDNF) EXPRESSION AND SYNAPTIC PLASTICITY. HOWEVER, IT IS STILL NOT CLEARLY UNDERSTOOD WHETHER AN EPIGENETIC MECHANISM IS INVOLVED IN THE BDNF MODULATION AND SYNAPTIC PLASTICITY THAT OCCURS AFTER EE TREATMENT FOR THE DEPRESSIVE-LIKE BEHAVIORS AND COGNITIVE DEFICITS ELICITED BY CUMS. IN THIS STUDY, WE INVESTIGATED THE POSSIBLE MECHANISM OF THE NEUROPROTECTIVE EFFECT OF EE. METHODS: ALL RATS WERE EXPOSED TO THE 5-WEEK CUMS PROCEDURE EXCEPT THE CONTROL GROUP. AFTER CUMS PROCEDURE, SOME RATS WERE STEREOTAXICALLY INJECTED WITH SIRT1 PHARMACOLOGIC INHIBITOR EX527 OR SIRT1 KNOCKING DOWN LENTIVIRUS (SH-SIRT1) IN THE HIPPOCAMPUS FOLLOWED BY EE TREATMENT FOR 3 WEEKS. OTHER RATS WERE DIRECTLY SUBJECTED TO EE TREATMENT WITHOUT STEREOTAXIC INJECTION. BEHAVIORAL TESTS WERE USED TO APPRAISE DEPRESSION AND COGNITION AFTER EE TREATMENT. THEN EPIGENETIC MOLECULES, SYNAPTIC PROTEINS, DENDRITIC SPINE DENSITY AND BRANCHES, AND SYNAPTIC MORPHOLOGY OF THE DORSAL HIPPOCAMPUS WERE DETERMINED. RESULTS: WE FOUND THAT CUMS INDUCED DEPRESSIVE-LIKE BEHAVIORS INCLUDING DECREASED SUCROSE PREFERENCE RATIO, PROLONGED IMMOBILITY AND REDUCED LOCOMOTOR AND EXPLORATORY ACTIVITY; COGNITIVE DEFICITS INCLUDING SPATIAL LEARNING AND MEMORY IMPAIRMENT; REDUCED DENDRITIC SPINE DENSITY AND NUMBER OF BRANCHES; THINNED POSTSYNAPTIC DENSITY; DOWNREGULATED SIRT1/MICRORNA-134 PATHWAY, DECREASED BDNF AND SYNAPTIC PROTEINS INCLUDING SYNAPTOPHYSIN (SYN) AND POSTSYNAPTIC DENSITY PROTEIN 95 (PSD95) EXPRESSION IN THE HIPPOCAMPUS. HOWEVER, THE CUMS-INDUCED DEPRESSIVE-LIKE BEHAVIORS, COGNITIVE DEFICITS, DENDRITIC SPINE DENSITY AND BRANCH NUMBER REDUCTION, POSTSYNAPTIC DENSITY THINNING, SIRT1/MICRORNA-134 PATHWAY DOWNREGULATION, BDNF AND SYNAPTIC PROTEINS REDUCTION, INCLUDING SYNAPTOPHYSIN (SYN) AND POSTSYNAPTIC DENSITY PROTEIN 95 (PSD95), WERE REVERSED BY EE TREATMENT. HOWEVER, DEPRESSIVE-LIKE BEHAVIORS AND COGNITIVE DEFICITS WERE OBSERVED AGAIN IN RATS SUBJECTED TO STEREOTAXIC INJECTION WITH EX527 OR SH-SIRT1. FURTHERMORE, THIS STUDY ALSO FOUND THAT SIRT1/MICRORNA-134 REGULATES THE DOWNSTREAM MOLECULES BDNF, AND THE SYNAPTIC PROTEINS SYN AND PSD95 IN PRIMARY CULTURED HIPPOCAMPAL NEURONS. CONCLUSIONS: THIS STUDY PROVIDES EVIDENCE FOR THE NEUROPROTECTIVE ROLE OF EE ON DEPRESSION AND COGNITIVE DEFICITS BY ACTIVATING THE SIRT1/MICRORNA-134 PATHWAY, WHICH ACCOUNTS FOR THE REGULATION OF SYNAPTIC PROTEINS, INCLUDING BDNF, PSD95 AND SYN, DENDRITIC REMODELING AND ULTRASTRUCTURE CHANGES OF SYNAPSES IN THE HIPPOCAMPUS. 2019 2 1761 44 EARLY STRESS EVOKES AGE-DEPENDENT BIPHASIC CHANGES IN HIPPOCAMPAL NEUROGENESIS, BDNF EXPRESSION, AND COGNITION. BACKGROUND: ADULT-ONSET STRESSORS EXERT OPPOSING EFFECTS ON HIPPOCAMPAL NEUROGENESIS AND COGNITION, WITH ENHANCEMENT OBSERVED FOLLOWING MILD STRESS AND DYSFUNCTION FOLLOWING SEVERE CHRONIC STRESS. WHILE EARLY LIFE STRESS EVOKES PERSISTENT CHANGES IN ANXIETY, IT IS UNKNOWN WHETHER EARLY STRESS DIFFERENTIALLY REGULATES HIPPOCAMPAL NEUROGENESIS, TROPHIC FACTOR EXPRESSION, AND COGNITION ACROSS THE LIFE SPAN. METHODS: HIPPOCAMPAL-DEPENDENT COGNITIVE BEHAVIOR, NEUROGENESIS, AND EPIGENETIC REGULATION OF BRAIN-DERIVED NEUROTROPHIC FACTOR (BDNF) EXPRESSION WAS EXAMINED AT DISTINCT TIME POINTS ACROSS THE LIFE SPAN IN RATS SUBJECTED TO THE EARLY STRESS OF MATERNAL SEPARATION (ES) AND CONTROL GROUPS. WE ALSO EXAMINED THE INFLUENCE OF CHRONIC ANTIDEPRESSANT TREATMENT ON THE NEUROGENIC, NEUROTROPHIC, AND COGNITIVE CHANGES IN MIDDLE-AGED ES ANIMALS. RESULTS: ANIMALS SUBJECTED TO EARLY STRESS OF MATERNAL SEPARATION EXAMINED DURING POSTNATAL LIFE AND YOUNG ADULTHOOD EXHIBITED ENHANCED HIPPOCAMPAL NEUROGENESIS, DECREASED REPRESSIVE HISTONE METHYLATION AT THE BDNF IV PROMOTER ALONG WITH ENHANCED BDNF LEVELS, AND IMPROVED PERFORMANCE ON THE STRESS-ASSOCIATED MORRIS WATER MAZE. STRIKINGLY, OPPOSING CHANGES IN HIPPOCAMPAL NEUROGENESIS AND EPIGENETIC REGULATION OF BDNF IV EXPRESSION, CONCOMITANT WITH IMPAIRMENTS ON HIPPOCAMPAL-DEPENDENT COGNITIVE TASKS, WERE OBSERVED IN MIDDLE-AGED ES ANIMALS. CHRONIC ANTIDEPRESSANT TREATMENT WITH AMITRIPTYLINE ATTENUATED THE MALADAPTIVE NEUROGENIC, EPIGENETIC, TRANSCRIPTIONAL, AND COGNITIVE EFFECTS IN MIDDLE-AGED ES ANIMALS. CONCLUSIONS: OUR STUDY PROVIDES NOVEL INSIGHTS INTO THE SHORT- AND LONG-TERM CONSEQUENCES OF ES, DEMONSTRATING BOTH BIPHASIC AND UNIQUE, AGE-DEPENDENT CHANGES AT THE MOLECULAR, EPIGENETIC, NEUROGENIC, AND BEHAVIORAL LEVELS. THESE RESULTS INDICATE THAT EARLY STRESS MAY TRANSIENTLY ENDOW ANIMALS WITH A POTENTIAL ADAPTIVE ADVANTAGE IN STRESSFUL ENVIRONMENTS BUT ACROSS A LIFE SPAN IS ASSOCIATED WITH LONG-TERM DELETERIOUS EFFECTS. 2013 3 5124 38 POST-OCCLUSION ADMINISTRATION OF SODIUM BUTYRATE ATTENUATES COGNITIVE IMPAIRMENT IN A RAT MODEL OF CHRONIC CEREBRAL HYPOPERFUSION. CHRONIC CEREBRAL HYPOPERFUSION (CCH) HAS BEEN COMMONLY ASSOCIATED WITH ALZHEIMER'S DISEASE AND OTHER TYPES OF DEMENTIA, BUT THERAPIES THAT CAN IMPROVE CEREBRAL BLOOD FLOW DISPLAYED LITTLE EFFECT ON IMPAIRED COGNITION. EPIGENETIC INTERVENTION WITH HISTONE DEACETYLASE INHIBITORS, SUCH AS SODIUM BUTYRATE (SB), ON THE OTHER HAND HAS BEEN SHOWN TO IMPROVE COGNITION IN SEVERAL ANIMAL MODELS OF DEMENTIA. TO INVESTIGATE THE EFFECT OF SB ON COGNITIVE IMPAIRMENT INDUCED BY CCH IN RATS, ADULT MALE SD RATS WERE GIVEN INTRAPERITONEAL INJECTIONS OF SB AT A DAILY DOSE OF 840MG/KG FOR 4WEEKS, FROM THE 29TH DAY AFTER PERMANENT OCCLUSION OF BILATERAL COMMON CAROTID ARTERIES (2VO). LEARNING AND MEMORY WERE ASSESSED BY MORRIS WATER MAZE AND NOVEL OBJECT RECOGNITION. FOLLOWING BEHAVIORAL TESTS, WESTERN BLOTTING OF HISTONE ACETYLATION, OF TRANSCRIPTION FACTORS, OF NEURONAL/SYNAPTIC PROTEINS, WERE PERFORMED USING RAT HIPPOCAMPUS AND CORTEX. THE DATA SHOWED THAT SB TREATMENT ALLEVIATED HIPPOCAMPAL DEPENDENT SPATIAL LEARNING DISABILITY IN 2VO RATS, AND ALTERED HDAC1/2 MRNA LEVEL, HISTONE H4 ACETYLATION AND NRF2 TRANSCRIPTIONAL ACTIVATION IN RAT HIPPOCAMPUS. ACCORDINGLY, COGNITION-PROTECTIVE EFFECT OF SB APPEARED TO BE PARTIALLY MEDIATED BY ENHANCING HISTONE ACETYLATION AND HENCE BY FACILITATING THE TRANSCRIPTION OF NRF2 DOWNSTREAM GENES IN THE HIPPOCAMPUS. THUS, SB MIGHT BE CONSIDERED FOR PUTATIVE TREATMENT FOR CCH-RELATED COGNITIVE IMPAIRMENT. 2015 4 1907 68 ENRICHED ENVIRONMENT PRIORS TO TET1 HIPPOCAMPAL ADMINISTRATION FOR REGULATING PSYCHIATRIC BEHAVIORS VIA GLIAL REACTIVITY IN CHRONIC CEREBRAL HYPOPERFUSION MODELS. BACKGROUND: CHRONIC CEREBRAL HYPOPERFUSION (CCH) HAS BEEN GRADUALLY REGARDED AS A COMMON ETIOLOGIC MECHANISM FOR COGNITIVE AND PSYCHIATRIC DISTURBANCES. TEN-ELEVEN TRANSLOCATION METHYLCYTOSINE DIOXYGENASE 1 (TET1) PLAYED AN IMPORTANT ROLE IN ADULT HIPPOCAMPAL NEUROGENESIS (AHN), NEURONAL CIRCUITS FORMATION, COGNITION AND PSYCHIATRIC DISORDERS. ENRICHED ENVIRONMENT (EE) SHOWED A BENEFICIAL EFFECT ON COGNITION AND DEPRESSION VIA EFFECTIVELY REGULATING AHN AND GLIAL REACTIVITY. THIS STUDY AIMED TO ASSESS WHICH STRATEGY WAS FEASIBLE TO IMPROVE COGNITION AND PSYCHIATRIC DISTURBANCES BY COMPARING THE TET1 HIPPOCAMPAL MICROINJECTION AND EE IN CCH MODELS AND TO INVESTIGATE THE POSSIBLE MECHANISMS. METHOD: CCH RATS WERE ESTABLISHED VIA PERMANENT BILATERAL COMMON CAROTID ARTERY OCCLUSION (2-VO). RATS WERE STEREOTAXICALLY INJECTED WITH THE HUMAN CATALYTIC DOMAIN OF TET1 (HTET1) TO OVEREXPRESS THE HTET1 IN THE HIPPOCAMPUS 10 DAYS BEFORE 2-VO. 3 DAYS AFTER 2-VO, RATS WERE SUBJECTED TO STANDARD ENVIRONMENT OR EE WITH FREE ACCESS TO FOOD AND WATER. BEHAVIORAL TESTS WERE USED TO APPRAISE DEPRESSION AND COGNITION BEFORE SACRIFICE. EPIGENETIC MOLECULES, ADULT NEUROGENESIS, SYNAPTIC PROTEINS EXPRESSION, AND GLIAL ACTIVATION WERE ANALYZED USING IMMUNOFLUORESCENT STAINING, QRT-PCR AND WESTERN BLOT. RESULTS: IN THE PRESENT STUDY, WE FOUND BOTH EE AND GENETICAL TREATMENT WITH OVEREXPRESSING HTET1 WERE SUFFICIENT FOR STIMULATING AHN. HOWEVER, PROMOTING ANH COULD NOT DEAL WITH THE COGNITIVE DYSFUNCTION AND DEPRESSIVE-LIKE BEHAVIORS IN CCH RATS. NOTABLY, A HEALTHY LOCAL BRAIN ENVIRONMENT WITH ELEVATED BDNF AND ASTROCYTES WAS CONDUCIVE TO IMPROVING COGNITIVE DYSFUNCTION. MEANWHILE, ASTROCYTES WERE INVOLVED IN THE COGNITIVE REGULATING PROCESS OF NEURONS, PRESYNAPTIC FUNCTION AND MICROGLIA. IN GENERAL, WE HELD THAT DEPRESSIVE DISTURBANCES WERE DETERMINED BY BDNF LEVELS, NEURONAL AND PRESYNAPTIC FUNCTION, AS WELL AS GLIAL ACTIVATION CONTAINING ASTROCYTES AND MICROGLIA. TO FURTHER SUPPORT THIS POINT, WE INVESTIGATED SEVERE DEPRESSIVE SYMPTOMS THAT WERE STRONGLY CORRELATED WITH THE ACTIVATION OF ASTROGLIA AND MICROGLIA. IMPORTANTLY, CAUSAL MEDIATION ANALYSIS SHOWED SIGNIFICANT MEDIATION BY THE PRESENCE OF REACTIVE GLIAL CELLS IN THE RELATION BETWEEN NEURAL PLASTICITY AND DEPRESSIVE SYMPTOMS. FINALLY, WE SHOWED EE PERFORMED BETTER THAN HTET1 TREATMENT FOR COGNITIVE DEFICITS AND DEPRESSION. EE WITH LESS GLIAL REACTIVITY WAS MUCH MORE RESISTANT TO DEPRESSION, WHILE HTET1 WITH MORE GLIAL ACTIVATION WAS MORE VULNERABLE TO DEPRESSIVE DISORDERS. CONCLUSIONS: EE WAS LIKELY TO BE SUPERIOR TO TET1 HIPPOCAMPAL ADMINISTRATION FOR COGNITION AND PSYCHIATRIC BEHAVIORS IN CCH RATS. FURTHERMORE, A HEALTHY LOCAL BRAIN ENVIRONMENT WITH ELEVATED BDNF AND ASTROCYTES WAS CONDUCIVE TO IMPROVING COGNITIVE DYSFUNCTION. MORE GLIAL ACTIVATION, AND MORE VULNERABLE TO DEPRESSIVE DISORDERS. THESE RESULTS WERE IMPORTANT FOR OUR UNDERSTANDING OF DISEASE MECHANISMS AND PROVIDED VALUABLE TOOLS FOR THE OVERALL MANAGEMENT OF CCH PATIENTS. 2022 5 5812 47 STRESS AND ANXIETY: STRUCTURAL PLASTICITY AND EPIGENETIC REGULATION AS A CONSEQUENCE OF STRESS. THE BRAIN IS THE CENTRAL ORGAN OF STRESS AND ADAPTATION TO STRESS BECAUSE IT PERCEIVES AND DETERMINES WHAT IS THREATENING, AS WELL AS THE BEHAVIORAL AND PHYSIOLOGICAL RESPONSES TO THE STRESSOR. THE ADULT, AS WELL AS DEVELOPING BRAIN, POSSESS A REMARKABLE ABILITY TO SHOW REVERSIBLE STRUCTURAL AND FUNCTIONAL PLASTICITY IN RESPONSE TO STRESSFUL AND OTHER EXPERIENCES, INCLUDING NEURONAL REPLACEMENT, DENDRITIC REMODELING, AND SYNAPSE TURNOVER. THIS IS PARTICULARLY EVIDENT IN THE HIPPOCAMPUS, WHERE ALL THREE TYPES OF STRUCTURAL PLASTICITY HAVE BEEN RECOGNIZED AND INVESTIGATED, USING A COMBINATION OF MORPHOLOGICAL, MOLECULAR, PHARMACOLOGICAL, ELECTROPHYSIOLOGICAL AND BEHAVIORAL APPROACHES. THE AMYGDALA AND THE PREFRONTAL CORTEX, BRAIN REGIONS INVOLVED IN ANXIETY AND FEAR, MOOD, COGNITIVE FUNCTION AND BEHAVIORAL CONTROL, ALSO SHOW STRUCTURAL PLASTICITY. ACUTE AND CHRONIC STRESS CAUSE AN IMBALANCE OF NEURAL CIRCUITRY SUBSERVING COGNITION, DECISION MAKING, ANXIETY AND MOOD THAT CAN INCREASE OR DECREASE EXPRESSION OF THOSE BEHAVIORS AND BEHAVIORAL STATES. IN THE SHORT TERM, SUCH AS FOR INCREASED FEARFUL VIGILANCE AND ANXIETY IN A THREATENING ENVIRONMENT, THESE CHANGES MAY BE ADAPTIVE; BUT, IF THE DANGER PASSES AND THE BEHAVIORAL STATE PERSISTS ALONG WITH THE CHANGES IN NEURAL CIRCUITRY, SUCH MALADAPTATION MAY NEED INTERVENTION WITH A COMBINATION OF PHARMACOLOGICAL AND BEHAVIORAL THERAPIES, AS IS THE CASE FOR CHRONIC OR MOOD ANXIETY DISORDERS. WE SHALL REVIEW CELLULAR AND MOLECULAR MECHANISMS, AS WELL AS RECENT WORK ON INDIVIDUAL DIFFERENCES IN ANXIETY-LIKE BEHAVIOR AND ALSO DEVELOPMENTAL INFLUENCES THAT BIAS HOW THE BRAIN RESPONDS TO STRESSORS. FINALLY, WE SUGGEST THAT SUCH AN APPROACH NEEDS TO BE EXTENDED TO OTHER BRAIN AREAS THAT ARE ALSO INVOLVED IN ANXIETY AND MOOD. THIS ARTICLE IS PART OF A SPECIAL ISSUE ENTITLED 'ANXIETY AND DEPRESSION'. 2012 6 1004 49 CHRONIC TREATMENT WITH HORMONAL CONTRACEPTIVES ALTERS HIPPOCAMPAL BDNF AND HISTONE H3 POST-TRANSLATIONAL MODIFICATIONS BUT NOT LEARNING AND MEMORY IN FEMALE RATS. HORMONAL CONTRACEPTIVES PREVENT OVULATION WITH SUBSEQUENT REDUCTION IN ENDOGENOUS LEVELS OF ESTRADIOL, PROGESTERONE AND ITS NEUROACTIVE METABOLITE ALLOPREGNANOLONE. THESE NEUROSTEROIDS MODULATE SEVERAL BRAIN FUNCTIONS, INCLUDING NEURONAL PLASTICITY, COGNITION AND MEMORY. WE HYPOTHESIZED THAT HORMONAL CONTRACEPTIVES MIGHT AFFECT SYNAPTIC PLASTICITY, LEARNING AND MEMORY, AS A CONSEQUENCE OF SUPPRESSED ENDOGENOUS HORMONES LEVELS. FEMALE RATS WERE ORALLY TREATED WITH A COMBINATION OF ETHINYL ESTRADIOL (EE, 0.020 MG) AND LEVONORGESTREL (LNG, 0.060 MG) ONCE DAILY FOR FOUR WEEKS. DECREASED HIPPOCAMPAL BRAIN-DERIVED NEUROTROPHIC FACTOR (BDNF) LEVELS AND ALTERED HISTONE H3 POST-TRANSLATIONAL MODIFICATIONS (PTMS) WERE OBSERVED 14 DAYS AFTER DISCONTINUATION FROM CHRONIC EE-LNG TREATMENT. THESE EFFECTS WERE NOT ACCOMPANIED BY ALTERATIONS IN LONG-TERM PLASTICITY AT GLUTAMATERGIC SYNAPSES, RECOGNITION MEMORY IN THE NOVEL OBJECT AND NOVEL PLACE LOCATION TESTS, OR SPATIAL LEARNING, MEMORY, AND BEHAVIORAL FLEXIBILITY IN THE MORRIS WATER MAZE TEST. THUS, DECREASED BDNF CONTENT DOES NOT AFFECT SYNAPTIC PLASTICITY AND COGNITIVE PERFORMANCE; RATHER IT MIGHT BE RELEVANT FOR THE OCCURRENCE OF CERTAIN PSYCHIATRIC SYMPTOMS, REPORTED BY SOME WOMEN USING HORMONAL CONTRACEPTIVES. THESE RESULTS PROVIDE THE FIRST EVIDENCE OF HIPPOCAMPAL EPIGENETIC CHANGES INDUCED BY HORMONAL CONTRACEPTIVES AND COMPLEMENT PREVIOUS STUDIES ON THE NEUROBIOLOGICAL ACTIONS OF HORMONAL CONTRACEPTIVES; THE FINDING THAT EFFECTS OF CHRONIC EE-LNG TREATMENT ON BDNF CONTENT AND HISTONE PTMS ARE OBSERVED 14 DAYS AFTER DRUG DISCONTINUATION WARRANTS FURTHER INVESTIGATION TO BETTER UNDERSTAND THE IMPLICATIONS OF SUCH LONG-TERM CONSEQUENCES FOR WOMEN'S HEALTH. 2022 7 5008 38 PERIPUBERTAL STRESS WITH SOCIAL SUPPORT PROMOTES RESILIENCE IN THE FACE OF AGING. THE PERIPUBERTAL PERIOD OF DEVELOPMENT IS A SENSITIVE WINDOW, DURING WHICH ADVERSE EXPERIENCES CAN INCREASE THE RISK FOR PRESENTATION OF COGNITIVE AND AFFECTIVE DYSFUNCTION THROUGHOUT THE LIFESPAN, ESPECIALLY IN WOMEN. HOWEVER, SUCH EXPERIENCES IN THE CONTEXT OF A SUPPORTIVE SOCIAL ENVIRONMENT CAN ACTUALLY AMELIORATE THIS RISK, SUGGESTING THAT RESILIENCE CAN BE PROGRAMMED IN EARLY LIFE. AFFECTIVE DISORDERS AND COGNITIVE DEFICITS COMMONLY EMERGE DURING AGING, WITH MANY WOMEN REPORTING INCREASED DIFFICULTY WITH PREFRONTAL CORTEX (PFC)-DEPENDENT EXECUTIVE FUNCTIONS. WE HAVE DEVELOPED A MOUSE MODEL TO EXAMINE THE INTERACTION BETWEEN PERIPUBERTAL EXPERIENCE AND AGE-RELATED CHANGES IN COGNITION AND STRESS REGULATION. FEMALE MICE WERE EXPOSED TO PERIPUBERTAL CHRONIC STRESS, DURING WHICH THEY WERE EITHER INDIVIDUALLY HOUSED OR HOUSED WITH SOCIAL INTERACTION. ONE YEAR AFTER THIS STRESS EXPERIENCE, MICE WERE EXAMINED IN TASKS TO ACCESS THEIR COGNITIVE ABILITY AND FLEXIBILITY IN STRESS REACTIVE MEASURES. IN A TEST OF SPATIAL MEMORY ACQUISITION AND REVERSAL LEARNING WHERE AGED FEMALES NORMALLY DISPLAY A DECREASED PERFORMANCE, THE FEMALES THAT HAD EXPERIENCED STRESS WITH SOCIAL INTERACTION A YEAR EARLIER SHOWED IMPROVED PERFORMANCE IN REVERSAL LEARNING, A MEASURE OF COGNITIVE FLEXIBILITY. BECAUSE PERIPUBERTY IS A TIME OF MAJOR PFC MATURATION, WE PERFORMED TRANSCRIPTOMIC AND BIOCHEMICAL ANALYSIS OF THE AGED PFC, IN WHICH LONG-TERM CHANGES IN MICRORNA EXPRESSION AND IN MYELIN PROTEINS WERE FOUND. THESE DATA SUGGEST THAT STRESS IN THE CONTEXT OF SOCIAL SUPPORT EXPERIENCED OVER THE PUBERTAL WINDOW CAN PROMOTE EPIGENETIC REPROGRAMMING IN THE BRAIN TO INCREASE THE RESILIENCE TO AGE-RELATED COGNITIVE DECLINE IN FEMALES. 2016 8 23 36 60 YEARS OF NEUROENDOCRINOLOGY: REDEFINING NEUROENDOCRINOLOGY: STRESS, SEX AND COGNITIVE AND EMOTIONAL REGULATION. THE DISCOVERY OF STEROID HORMONE RECEPTORS IN BRAIN REGIONS THAT MEDIATE EVERY ASPECT OF BRAIN FUNCTION HAS BROADENED THE DEFINITION OF 'NEUROENDOCRINOLOGY' TO INCLUDE THE RECIPROCAL COMMUNICATION BETWEEN THE BRAIN AND THE BODY VIA HORMONAL AND NEURAL PATHWAYS. THE BRAIN IS THE CENTRAL ORGAN OF STRESS AND ADAPTATION TO STRESS BECAUSE IT PERCEIVES AND DETERMINES WHAT IS THREATENING, AS WELL AS THE BEHAVIORAL AND PHYSIOLOGICAL RESPONSES TO THE STRESSOR. THE ADULT AND DEVELOPING BRAIN POSSESS REMARKABLE STRUCTURAL AND FUNCTIONAL PLASTICITY IN RESPONSE TO STRESS, INCLUDING NEURONAL REPLACEMENT, DENDRITIC REMODELING, AND SYNAPSE TURNOVER. STRESS CAUSES AN IMBALANCE OF NEURAL CIRCUITRY SUBSERVING COGNITION, DECISION-MAKING, ANXIETY AND MOOD THAT CAN ALTER EXPRESSION OF THOSE BEHAVIORS AND BEHAVIORAL STATES. THIS IMBALANCE, IN TURN, AFFECTS SYSTEMIC PHYSIOLOGY VIA NEUROENDOCRINE, AUTONOMIC, IMMUNE AND METABOLIC MEDIATORS. IN THE SHORT TERM, AS FOR INCREASED FEARFUL VIGILANCE AND ANXIETY IN A THREATENING ENVIRONMENT, THESE CHANGES MAY BE ADAPTIVE. BUT, IF THE DANGER PASSES AND THE BEHAVIORAL STATE PERSISTS ALONG WITH THE CHANGES IN NEURAL CIRCUITRY, SUCH MALADAPTATION MAY NEED INTERVENTION WITH A COMBINATION OF PHARMACOLOGICAL AND BEHAVIORAL THERAPIES, AS IS THE CASE FOR CHRONIC ANXIETY AND DEPRESSION. THERE ARE IMPORTANT SEX DIFFERENCES IN THE BRAIN RESPONSES TO STRESSORS THAT ARE IN URGENT NEED OF FURTHER EXPLORATION. MOREOVER, ADVERSE EARLY-LIFE EXPERIENCE, INTERACTING WITH ALLELES OF CERTAIN GENES, PRODUCE LASTING EFFECTS ON BRAIN AND BODY OVER THE LIFE-COURSE VIA EPIGENETIC MECHANISMS. WHILE PREVENTION IS MOST IMPORTANT, THE PLASTICITY OF THE BRAIN GIVES HOPE FOR THERAPIES THAT TAKE INTO CONSIDERATION BRAIN-BODY INTERACTIONS. 2015 9 580 37 BEHAVIORAL AND NEUROBIOLOGICAL EFFECTS OF PRENATAL STRESS EXPOSURE IN MALE AND FEMALE APPSWE/PS1DE9 MICE. EPIDEMIOLOGICAL EVIDENCE IMPLIES A ROLE FOR CHRONIC STRESS AND STRESS-RELATED DISORDERS IN THE ETIOPATHOGENESIS OF SPORADIC ALZHEIMER'S DISEASE (AD). ALTHOUGH CHRONIC STRESS EXPOSURE DURING VARIOUS STAGES OF LIFE HAS BEEN SHOWN TO EXACERBATE AD-RELATED COGNITIVE DEFICITS AND NEUROPATHOLOGY IN AD MOUSE MODELS, THE ROLE OF STRESS EXPOSURE DURING THE PRENATAL PERIOD ON AD DEVELOPMENT AND PROGRESSION REMAINED TO BE INVESTIGATED. THE PRESENT STUDY THEREFORE EXPLORED THE EFFECTS OF PRENATAL MATERNAL STRESS (PMS) IN BOTH MALE AND FEMALE APPSWE/PS1DE9 MOUSE OFFSPRING IN TERMS OF COGNITION, AFFECT, AND AD-RELATED NEUROPATHOLOGY. AS PRENATAL PERTURBATIONS ARE LIKELY TO MEDIATE THEIR EFFECTS VIA ALTERATIONS IN EPIGENETIC REGULATION, CHANGES IN HIPPOCAMPAL DNA METHYLTRANSFERASE 3A, 5-METHYLCYTOSINE AND 5-HYDROXYMETHYLCYTOSINE LEVELS WERE ASSESSED AS UNDERLYING MECHANISMS. REPETITIVE RESTRAINT STRESS DURING THE FIRST WEEK OF GESTATION EXERTED A SEX-DEPENDENT EFFECT, WITH MALE PMS MICE SHOWING SPATIAL MEMORY DEFICITS AND A BLUNTED HYPOTHALAMUS-PITUITARY-ADRENAL AXIS RESPONSE, WHILE FEMALE PMS MICE SHOWED IMPROVED SPATIAL MEMORY PERFORMANCE, INCREASED DEPRESSIVE-LIKE BEHAVIOR, AS WELL AS A DECREASE IN HIPPOCAMPAL PLAQUE LOAD. IN ADDITION, SEX DIFFERENCES WERE OBSERVED AMONG APPSWE/PS1DE9 MICE, INDEPENDENT OF PMS (I.E., FEMALE MICE SHOWED IMPAIRED SPATIAL MEMORY PERFORMANCE, HIGHER HIPPOCAMPAL PLAQUE LOAD, ALTERED AMYLOID PRECURSOR PROTEIN PROCESSING IN THE CA3 AND LOWER DNA METHYLTRANSFERASE 3A IMMUNOREACTIVITY IN THE DENTATE GYRUS WHEN COMPARED WITH MALE MICE OF THE SAME AGE). IN CONCLUSION, PMS EXPOSURE IMPACTS ON THE BEHAVIORAL PHENOTYPE AND NEUROPATHOLOGY OF APPSWE/PS1DE9 MICE. MOREOVER, GIVEN THE REMARKABLE SEX DIFFERENCES OBSERVED, ONE SHOULD NOT OVERLOOK THE IMPACT OF SEX-SPECIFIC RESPONSES TO ENVIRONMENTAL EXPOSURES WHEN INVESTIGATING GENE-ENVIRONMENT INTERACTIONS IN AD. 2013 10 5752 44 SOCIAL ISOLATION AND SOCIAL SUPPORT AT ADULTHOOD AFFECT EPIGENETIC MECHANISMS, BRAIN-DERIVED NEUROTROPHIC FACTOR LEVELS AND BEHAVIOR OF CHRONICALLY STRESSED RATS. EPIGENETIC MODULATION OF BRAIN-DERIVED NEUROTROPHIC FACTOR (BDNF) PROVIDES ONE POSSIBLE EXPLANATION FOR THE DYSFUNCTIONS INDUCED BY STRESS, SUCH AS PSYCHIATRIC DISORDERS AND COGNITIVE DECLINE. INTERESTINGLY, SOCIAL SUPPORT CAN BE PROTECTIVE AGAINST SOME OF THESE EFFECTS, BUT THE MECHANISMS OF SOCIAL BUFFERING ARE POORLY UNDERSTOOD. CONVERSELY, EARLY ISOLATION EXACERBATES THE RESPONSES TO STRESSORS, ALTHOUGH ITS EFFECTS IN ADULTHOOD REMAIN UNCLEAR. THIS STUDY INVESTIGATED THE EFFECTS OF SOCIAL ISOLATION AND SOCIAL BUFFERING ON HIPPOCAMPAL EPIGENETIC MECHANISMS, BDNF LEVELS AND BEHAVIORAL RESPONSES OF CHRONICALLY STRESSED YOUNG ADULT RATS. MALE WISTAR RATS (3 MONTHS) WERE ASSIGNED TO ACCOMPANIED (PAIRED) OR ISOLATED HOUSING. AFTER ONE-MONTH HALF OF EACH GROUP WAS SUBMITTED TO A CHRONIC UNPREDICTABLE STRESS (CUS) PROTOCOL FOR 18 DAYS. AMONG ACCOMPANIED ANIMALS, ONLY ONE WAS EXPOSED TO STRESS. BEHAVIORAL ANALYSIS ENCOMPASSED THE OPEN FIELD, PLUS MAZE AND INHIBITORY AVOIDANCE TASKS. HIPPOCAMPAL H3K9 AND H4K12 ACETYLATION, HDAC5 EXPRESSION AND BDNF LEVELS WERE EVALUATED. ISOLATED HOUSING INCREASED HDAC5 EXPRESSION, DECREASED H3K9 AND H4K12 ACETYLATION, REDUCED BDNF LEVELS, AND IMPAIRED LONG-TERM MEMORY. STRESS AFFECTED WEIGHT GAIN, INDUCED ANXIETY-LIKE BEHAVIOR AND DECREASED ACK9H3 LEVELS. INTERACTIONS BETWEEN HOUSING CONDITIONS AND SOCIAL STRESS WERE SEEN ONLY FOR HDAC5 EXPRESSION, WHICH SHOWED A FURTHER INCREASE IN THE ISOLATED + CUS GROUP BUT REMAINED CONSTANT IN ACCOMPANIED ANIMALS. IN CONCLUSION, SOCIAL ISOLATION AT ADULTHOOD INDUCED EPIGENETIC ALTERATIONS AND EXACERBATED THE EFFECTS OF CHRONIC STRESS ON HDAC5. NOTWITHSTANDING, SOCIAL SUPPORT COUNTERACTED THE ADVERSE EFFECTS OF STRESS ON HDAC5 EXPRESSION. 2019 11 3177 56 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 12 683 38 BRAIN PLASTICITY AND COGNITIVE FUNCTIONS AFTER ETHANOL CONSUMPTION IN C57BL/6J MICE. ACUTE OR CHRONIC ADMINISTRATIONS OF HIGH DOSES OF ETHANOL IN MICE ARE KNOWN TO PRODUCE SEVERE COGNITIVE DEFICITS LINKED TO HIPPOCAMPAL DAMAGE. HOWEVER, WE RECENTLY REPORTED THAT CHRONIC AND MODERATE ETHANOL INTAKE IN C57BL/6J MICE INDUCED CHROMATIN REMODELING WITHIN THE BDNF PROMOTERS, LEADING TO BOTH ENHANCED BRAIN-DERIVED NEUROTROPHIC FACTOR (BDNF) EXPRESSION AND HIPPOCAMPAL NEUROGENESIS UNDER FREE-CHOICE PROTOCOL. WE PERFORMED HERE A SERIES OF CELLULAR AND BEHAVIORAL STUDIES TO ANALYZE THE CONSEQUENCES OF THESE MODIFICATIONS. WE SHOWED THAT A 3-WEEK CHRONIC FREE-CHOICE ETHANOL CONSUMPTION IN C57BL/6J MICE LED TO A DECREASE IN DNA METHYLATION OF THE BDNF GENE WITHIN THE CA1 AND CA3 SUBFIELDS OF THE HIPPOCAMPUS, AND UPREGULATED HIPPOCAMPAL BDNF SIGNALING PATHWAYS MEDIATED BY ERK, AKT AND CREB. HOWEVER, THIS ACTIVATION DID NOT AFFECT LONG-TERM POTENTIATION IN THE CA1. CONVERSELY, ETHANOL INTAKE IMPAIRED LEARNING AND MEMORY CAPACITIES ANALYZED IN THE CONTEXTUAL FEAR CONDITIONING TEST AND THE NOVEL OBJECT RECOGNITION TASK. IN ADDITION, ETHANOL INCREASED BEHAVIORAL PERSEVERATION IN THE BARNES MAZE TEST BUT DID NOT ALTER THE MOUSE OVERALL SPATIAL CAPACITIES. THESE DATA SUGGESTED THAT IN CONDITIONS OF CHRONIC AND MODERATE ETHANOL INTAKE, THE CHROMATIN REMODELING LEADING TO BDNF SIGNALING UPREGULATION IS PROBABLY AN ADAPTIVE PROCESS, ENGAGED VIA EPIGENETIC REGULATIONS, TO COUNTERACT THE COGNITIVE DEFICITS INDUCED BY ETHANOL. 2015 13 4621 36 NEUROBIOLOGICAL AND SYSTEMIC EFFECTS OF CHRONIC STRESS. THE BRAIN IS THE CENTRAL ORGAN OF STRESS AND ADAPTATION TO STRESS BECAUSE IT PERCEIVES AND DETERMINES WHAT IS THREATENING, AS WELL AS THE BEHAVIORAL AND PHYSIOLOGICAL RESPONSES TO THE STRESSOR, WHICH PROMOTE ADAPTATION ("ALLOSTASIS") BUT ALSO CONTRIBUTE TO PATHOPHYSIOLOGY ("ALLOSTATIC LOAD/OVERLOAD") WHEN OVERUSED AND DYSREGULATED. THE ADULT AS WELL AS DEVELOPING BRAIN POSSESSES A REMARKABLE ABILITY TO SHOW STRUCTURAL AND FUNCTIONAL PLASTICITY IN RESPONSE TO STRESSFUL AND OTHER EXPERIENCES, INCLUDING NEURONAL REPLACEMENT, DENDRITIC REMODELING AND SYNAPSE TURNOVER. STRESS CAN CAUSE AN IMBALANCE OF NEURAL CIRCUITRY SUBSERVING COGNITION, DECISION MAKING, ANXIETY AND MOOD THAT CAN INCREASE OR DECREASE EXPRESSION OF THOSE BEHAVIORS AND BEHAVIORAL STATES. THIS IMBALANCE, IN TURN, AFFECTS SYSTEMIC PHYSIOLOGY VIA NEUROENDOCRINE, AUTONOMIC, IMMUNE AND METABOLIC MEDIATORS. IN THE SHORT TERM, THESE CHANGES MAY BE ADAPTIVE; BUT, IF THE THREAT PASSES AND THE BEHAVIORAL STATE PERSISTS ALONG WITH THE CHANGES IN NEURAL CIRCUITRY, SUCH MALADAPTATION REQUIRES INTERVENTION WITH A COMBINATION OF PHARMACOLOGICAL AND BEHAVIORAL THERAPIES. THERE ARE IMPORTANT SEX DIFFERENCES IN HOW THE BRAIN RESPONDS TO STRESSORS. MOREOVER, ADVERSE EARLY LIFE EXPERIENCE, INTERACTING WITH ALLELES OF CERTAIN GENES, PRODUCES LASTING EFFECTS ON BRAIN AND BODY VIA EPIGENETIC MECHANISMS. WHILE PREVENTION IS KEY, THE PLASTICITY OF THE BRAIN GIVES HOPE FOR THERAPIES THAT UTILIZE BRAIN-BODY INTERACTIONS. POLICIES OF GOVERNMENT AND THE PRIVATE SECTOR ARE IMPORTANT TO PROMOTE HEALTH AND INCREASE "HEALTHSPAN." 2017 14 2827 39 FLUOXETINE INCREASES HIPPOCAMPAL NEUROGENESIS AND INDUCES EPIGENETIC FACTORS BUT DOES NOT IMPROVE FUNCTIONAL RECOVERY AFTER TRAUMATIC BRAIN INJURY. THE SELECTIVE SEROTONIN REUPTAKE INHIBITOR FLUOXETINE INDUCES HIPPOCAMPAL NEUROGENESIS, STIMULATES MATURATION AND SYNAPTIC PLASTICITY OF ADULT HIPPOCAMPAL NEURONS, AND REDUCES MOTOR/SENSORY AND MEMORY IMPAIRMENTS IN SEVERAL CNS DISORDERS. IN THE SETTING OF TRAUMATIC BRAIN INJURY (TBI), ITS EFFECTS ON NEUROPLASTICITY AND FUNCTION HAVE YET TO BE THOROUGHLY INVESTIGATED. HERE WE EXAMINED THE EFFICACY OF FLUOXETINE AFTER A MODERATE TO SEVERE TBI, PRODUCED BY A CONTROLLED CORTICAL IMPACT. THREE DAYS AFTER TBI OR SHAM SURGERY, MICE WERE TREATED WITH FLUOXETINE (10 MG/KG/D) OR VEHICLE FOR 4 WEEKS. TO EVALUATE THE EFFECTS OF FLUOXETINE ON NEUROPLASTICITY, HIPPOCAMPAL NEUROGENESIS AND EPIGENETIC MODIFICATION WERE STUDIED. STEREOLOGIC ANALYSIS OF THE DENTATE GYRUS REVEALED A SIGNIFICANT INCREASE IN DOUBLECORTIN-POSITIVE CELLS IN BRAIN-INJURED ANIMALS TREATED WITH FLUOXETINE RELATIVE TO CONTROLS, A FINDING CONSISTENT WITH ENHANCED HIPPOCAMPAL NEUROGENESIS. EPIGENETIC MODIFICATIONS, INCLUDING AN INCREASE IN HISTONE 3 ACETYLATION AND INDUCTION OF METHYL-CPG-BINDING PROTEIN, A TRANSCRIPTION FACTOR INVOLVED IN DNA METHYLATION, WERE LIKEWISE SEEN BY IMMUNOHISTOCHEMISTRY AND QUANTITATIVE WESTERN IMMUNOBLOTS, RESPECTIVELY, IN BRAIN-INJURED ANIMALS TREATED WITH FLUOXETINE. TO DETERMINE IF FLUOXETINE IMPROVES NEUROLOGICAL OUTCOMES AFTER TBI, GAIT FUNCTION AND SPATIAL LEARNING AND MEMORY WERE ASSESSED BY THE CATWALK-ASSISTED GAIT TEST AND BARNES MAZE TEST, RESPECTIVELY. NO DIFFERENCES IN THESE PARAMETERS WERE SEEN BETWEEN FLUOXETINE- AND VEHICLE-TREATED ANIMALS. THUS WHILE FLUOXETINE ENHANCED NEUROPLASTICITY IN THE HIPPOCAMPUS AFTER TBI, ITS CHRONIC ADMINISTRATION DID NOT RESTORE LOCOMOTOR FUNCTION OR AMELIORATE MEMORY DEFICITS. 2011 15 3977 51 LONG-TERM EFFECT OF POST-TRAUMATIC STRESS IN ADOLESCENCE ON DENDRITE DEVELOPMENT AND H3K9ME2/BDNF EXPRESSION IN MALE RAT HIPPOCAMPUS AND PREFRONTAL CORTEX. EXPOSURE TO A HARSH ENVIRONMENT IN EARLY LIFE INCREASES IN THE RISK OF POST-TRAUMATIC STRESS DISORDER (PTSD) OF AN INDIVIDUAL. BRAIN DERIVED NEUROTROPHIC FACTOR (BDNF) PLAYS AN IMPORTANT ROLE IN NEURODEVELOPMENT IN DEVELOPMENTAL STAGES. BOTH CHRONIC AND TRAUMATIC STRESSES INDUCE A DECREASE IN THE LEVEL OF BDNF AND REDUCE NEURAL PLASTICITY, WHICH IS LINKED TO THE PATHOGENESIS OF PTSD. ALSO, STUDIES HAVE SHOWN THAT STRESS ALTERS THE EPIGENETIC MARKER H3K9ME2, WHICH CAN BIND TO THE PROMOTER REGION OF THE BDNF GENE AND REDUCE BDNF PROTEIN LEVEL. HOWEVER, THE LONG-TERM EFFECTS OF TRAUMATIC STRESS DURING ADOLESCENCE ON H3K9ME2, BDNF EXPRESSION AND DENDRITE DEVELOPMENT ARE NOT WELL-KNOWN. THE PRESENT STUDY ESTABLISHED A MODEL OF PTSD IN ADOLESCENT RATS USING AN INESCAPABLE FOOT SHOCK (IFS) PROCEDURE. ANXIETY-LIKE BEHAVIORS, SOCIAL INTERACTION BEHAVIOR AND MEMORY FUNCTION WERE ASSESSED BY THE OPEN FIELD TEST, ELEVATED PLUS MAZE TEST, THREE-CHAMBER SOCIABILITY TEST AND MORRIS WATER MAZE TEST. IN ADDITION, NEURONAL DEVELOPMENT AND H3K9ME2/BDNF EXPRESSION IN HIPPOCAMPUS (HIP) AND PREFRONTAL CORTEX (PFC) WERE EVALUATED BY GOLGI STAINING, WESTERN BLOTTING, QRT-PCR ANALYSIS AND CHIP-QPCR ANALYSIS. ADDITIONALLY, THE UNC0642, A SMALL MOLECULE INHIBITOR OF HISTONE METHYLTRANSFERASE (EHMT2) WAS USED FOR INTERVENTION. THE RESULTS SHOWED THAT THE IFS PROCEDURE INDUCED THE PTSD-LIKE BEHAVIORS IN RATS, RESULTED IN FEWER DENDRITE BRANCHES AND SHORTER DENDRITE LENGTH IN CA1 OF HIP AND PFC, INCREASED H3K9ME2 LEVEL AND DECREASED BDNF EXPRESSION IN HIP AND PFC. ALSO, ALTHOUGH ALL THE CHANGES CAN PERSIST TO ADULTHOOD, UNC0642 ADMINISTRATION RELIEVED MOST OF ALTERATIONS. OUR STUDY SUGGESTS THAT TRAUMATIC STRESS IN ADOLESCENCE LEADS TO IMMEDIATE AND LONG-TERM MENTAL DISORDERS, NEURONAL MORPHOLOGICAL CHANGES, LOWER BDNF LEVEL AND INCREASED H3K9ME2 LEVEL IN THE HIP AND PFC, INDICATING THAT H3K9ME2/BDNF DYSFUNCTION PLAYS A KEY ROLE IN PATHOGENESIS OF PTSD. 2020 16 3092 30 GENOMIC AND EPIGENOMIC MECHANISMS OF GLUCOCORTICOIDS IN THE BRAIN. FOLLOWING THE DISCOVERY OF GLUCOCORTICOID RECEPTORS IN THE HIPPOCAMPUS AND OTHER BRAIN REGIONS, RESEARCH HAS FOCUSED ON UNDERSTANDING THE EFFECTS OF GLUCOCORTICOIDS IN THE BRAIN AND THEIR ROLE IN REGULATING EMOTION AND COGNITION. GLUCOCORTICOIDS ARE ESSENTIAL FOR ADAPTATION TO STRESSORS (ALLOSTASIS) AND IN MALADAPTATION RESULTING FROM ALLOSTATIC LOAD AND OVERLOAD. ALLOSTATIC OVERLOAD, WHICH CAN OCCUR DURING CHRONIC STRESS, CAN RESHAPE THE HYPOTHALAMIC-PITUITARY-ADRENAL AXIS THROUGH EPIGENETIC MODIFICATION OF GENES IN THE HIPPOCAMPUS, HYPOTHALAMUS AND OTHER STRESS-RESPONSIVE BRAIN REGIONS. GLUCOCORTICOIDS EXERT THEIR EFFECTS ON THE BRAIN THROUGH GENOMIC MECHANISMS THAT INVOLVE BOTH GLUCOCORTICOID RECEPTORS AND MINERALOCORTICOID RECEPTORS DIRECTLY BINDING TO DNA, AS WELL AS BY NON-GENOMIC MECHANISMS. FURTHERMORE, GLUCOCORTICOIDS SYNERGIZE BOTH GENOMICALLY AND NON-GENOMICALLY WITH NEUROTRANSMITTERS, NEUROTROPHIC FACTORS, SEX HORMONES AND OTHER STRESS MEDIATORS TO SHAPE AN ORGANISM'S PRESENT AND FUTURE RESPONSES TO A STRESSFUL ENVIRONMENT. HERE, WE DISCUSS THE MECHANISMS OF GLUCOCORTICOID ACTION IN THE BRAIN AND REVIEW HOW GLUCOCORTICOIDS INTERACT WITH STRESS MEDIATORS IN THE CONTEXT OF ALLOSTASIS, ALLOSTATIC LOAD AND STRESS-INDUCED NEUROPLASTICITY. 2017 17 235 29 ADDING FUEL TO THE FIRE: THE IMPACT OF STRESS ON THE AGEING BRAIN. BOTH AGEING AND CHRONIC STRESS ARE ASSOCIATED WITH ALTERED BRAIN PLASTICITY, DYSREGULATION OF THE IMMUNE SYSTEM, AND AN INCREASED RISK OF DEVELOPING BRAIN DISORDERS; ALL OF WHICH HAVE CONSEQUENCES FOR COGNITIVE AND EMOTIONAL PROCESSING. HERE WE EXAMINE THE SIMILARITIES BETWEEN BEHAVIOURAL CHANGES DURING AGEING AND STRESS ALTERED BEHAVIOURS (ANXIETY, DEPRESSIVE-LIKE BEHAVIOUR, COGNITION, AND SOCIABILITY) IN RODENTS AND HUMANS. THE MOLECULAR MECHANISMS HYPOTHESISED TO MEDIATE AGE-RELATED CHANGES IN BRAIN FUNCTION INCLUDING DYSFUNCTION OF THE HYPOTHALAMIC-PITUITARY-ADRENAL (HPA) AXIS, DYSREGULATION OF NEUROTRANSMISSION AND NEUROTROPHIC FACTOR SIGNALLING, INCREASED INFLAMMATORY STATE, GENETIC AND EPIGENETIC CHANGES, OXIDATIVE STRESS, METABOLIC CHANGES, AND CHANGES IN THE MICROBIOTA-GUT-BRAIN AXIS ARE DISCUSSED. FINALLY, WE EXPLORE HOW THE ALREADY STRESSED AGED BRAIN PSYCHOLOGICALLY AND PHYSIOLOGICALLY RESPONDS TO EXTERNAL STRESSORS. 2015 18 747 28 CANNABIS-INDUCED HYPODOPAMINERGIC ANHEDONIA AND COGNITIVE DECLINE IN HUMANS: EMBRACING PUTATIVE INDUCTION OF DOPAMINE HOMEOSTASIS. OVER YEARS, THE REGULAR USE OF CANNABIS HAS SUBSTANTIALLY INCREASED AMONG YOUNG ADULTS, AS INDICATED BY THE RISE IN CANNABIS USE DISORDER (CUD), WITH AN ESTIMATED PREVALENCE OF 8. 3% IN THE UNITED STATES. RESEARCH SHOWS THAT EXPOSURE TO CANNABIS IS ASSOCIATED WITH HYPODOPAMINERGIC ANHEDONIA (DEPRESSION), COGNITIVE DECLINE, POOR MEMORY, INATTENTION, IMPAIRED LEARNING PERFORMANCE, REDUCED DOPAMINE BRAIN RESPONSE-ASSOCIATED EMOTIONALITY, AND INCREASED ADDICTION SEVERITY IN YOUNG ADULTS. THE ADDICTION MEDICINE COMMUNITY IS INCREASING CONCERN BECAUSE OF THE HIGH CONTENT OF DELTA-9-TETRAHYDROCANNABINOL (THC) CURRENTLY FOUND IN ORAL AND VAPING CANNABIS PRODUCTS, THE COGNITIVE EFFECTS OF CANNABIS MAY BECOME MORE PRONOUNCED IN YOUNG ADULTS WHO USE THESE CANNABIS PRODUCTS. PRELIMINARY RESEARCH SUGGESTS THAT IT IS POSSIBLE TO INDUCE 'DOPAMINE HOMEOSTASIS,' THAT IS, RESTORE DOPAMINE FUNCTION WITH DOPAMINE UPREGULATION WITH THE PROPOSED COMPOUND AND NORMALIZE BEHAVIOR IN CHRONIC CANNABIS USERS WITH CANNABIS-INDUCED HYPODOPAMINERGIC ANHEDONIA (DEPRESSION) AND COGNITIVE DECLINE. THIS PSYCHOLOGICAL, NEUROBIOLOGICAL, ANATOMICAL, GENETIC, AND EPIGENETIC RESEARCH ALSO COULD PROVIDE EVIDENCE TO USE FOR THE DEVELOPMENT OF AN APPROPRIATE POLICY REGARDING THE DECRIMINALIZATION OF CANNABIS FOR RECREATIONAL USE. 2021 19 1783 48 EFFECT OF AGOMELATINE ON MEMORY DEFICITS AND HIPPOCAMPAL GENE EXPRESSION INDUCED BY CHRONIC SOCIAL DEFEAT STRESS IN MICE. CHRONIC STRESS IS KNOWN TO INDUCE NOT ONLY ANXIETY AND DEPRESSIVE-LIKE PHENOTYPES IN MICE BUT ALSO COGNITIVE IMPAIRMENTS, FOR WHICH THE ACTION OF CLASSICAL ANTIDEPRESSANT COMPOUNDS REMAINS UNSATISFACTORY. IN THIS CONTEXT, WE INVESTIGATED THE EFFECTS OF CHRONIC SOCIAL DEFEAT STRESS (CSDS) ON ANXIETY-, SOCIAL- AND COGNITIVE-RELATED BEHAVIORS, AS WELL AS HIPPOCAMPAL BDNF, SYNAPTIC PLASTICITY MARKERS (PSD-95, SYNAPTOPHYSIN, SPINOPHILIN, SYNAPSIN I AND MAP-2), AND EPIGENETIC MODIFYING ENZYMES (MYST2, HDAC2, HDAC6, MLL3, KDM5B, DNMT3B, GADD45B) GENE EXPRESSION IN C57BL/6J MICE. CSDS FOR 10 DAYS PROVOKED LONG-LASTING ANXIOUS-LIKE PHENOTYPE IN THE OPEN FIELD AND EPISODIC MEMORY DEFICITS IN THE NOVEL OBJECT RECOGNITION TEST. WHILE TOTAL BDNF MRNA LEVEL WAS UNCHANGED, BDNF EXON IV, MAP-2, HDAC2, HDAC6 AND MLL3 GENE EXPRESSION WAS SIGNIFICANTLY DECREASED IN THE CSDS MOUSE HIPPOCAMPUS. IN CSDS MICE TREATED 3 WEEKS WITH 50 MG/KG/D AGOMELATINE, AN ANTIDEPRESSANT WITH MELATONERGIC RECEPTOR AGONIST AND 5-HT(2C) RECEPTOR ANTAGONIST PROPERTIES, THE ANXIOUS-LIKE PHENOTYPE WAS NOT REVERSED, BUT THE TREATMENT SUCCESSFULLY PREVENTED THE COGNITIVE IMPAIRMENTS AND HIPPOCAMPAL GENE EXPRESSION MODIFICATIONS. ALTOGETHER, THESE DATA EVIDENCED THAT, IN MICE, AGOMELATINE WAS EFFECTIVE IN ALLEVIATING STRESS-INDUCED ALTERED COGNITIVE FUNCTIONS, POSSIBLY THROUGH A MECHANISM INVOLVING BDNF SIGNALING, SYNAPTIC PLASTICITY AND EPIGENETIC REMODELING. 2017 20 1740 37 EARLY ENRICHED ENVIRONMENT PREVENTS EPIGENETIC P11 GENE CHANGES INDUCED BY ADULTHOOD STRESS IN MICE. POSITIVE EXPERIENCES IN EARLY LIFE MAY IMPROVE THE CAPACITY TO COPE WITH ADULTHOOD STRESS THROUGH EPIGENETIC MODIFICATION. WE INVESTIGATED WHETHER AN ENRICHED ENVIRONMENT (EE) IN THE POSTNATAL PERIOD AFFECTED EPIGENETIC CHANGES IN THE P11 GENE INDUCED BY CHRONIC UNPREDICTABLE STRESS (CUS) IN ADULT C57BL/6J MICE. EE WAS INTRODUCED FOR 5 WEEKS DURING POSTNATAL DAYS 21-55. AFTER EE, THE MICE WERE SUBJECTED TO CUS FOR 4 WEEKS. EE PREVENTED DEPRESSION-LIKE BEHAVIOR INDUCED BY ADULT CUS. EE PREVENTED A DECREASE IN P11 MRNA AND HISTONE H3 ACETYLATION INDUCED BY CUS, WITH CHANGES IN THE EXPRESSION OF HISTONE DEACETYLASE 5. MOREOVER, EE PREVENTED CHANGES IN TRIMETHYLATION OF HISTONE H3 LYSINE 4 (H3K4) AND H3K27 INDUCED BY CUS. FURTHERMORE, EE HAD POSITIVE EFFECTS ON BEHAVIOR AND EPIGENETIC ALTERATIONS IN ADULT MICE WITHOUT CUS. THESE RESULTS SUGGEST THAT ONE OF THE UNDERLYING MECHANISMS OF EARLY-LIFE EE MAY INVOLVE EPIGENETIC MODIFICATION OF THE HIPPOCAMPAL P11 GENE PROMOTER. 2021