1 5065 124 PHOTOPERIOD-INDUCED NEUROTRANSMITTER PLASTICITY DECLINES WITH AGING: AN EPIGENETIC REGULATION? NEUROPLASTICITY HAS CLASSICALLY BEEN UNDERSTOOD TO ARISE THROUGH CHANGES IN SYNAPTIC STRENGTH OR SYNAPTIC CONNECTIVITY. A NEWLY DISCOVERED FORM OF NEUROPLASTICITY, NEUROTRANSMITTER SWITCHING, INVOLVES CHANGES IN NEUROTRANSMITTER IDENTITY. CHRONIC EXPOSURE TO DIFFERENT PHOTOPERIODS ALTERS THE NUMBER OF DOPAMINE (TYROSINE HYDROXYLASE, TH+) AND SOMATOSTATIN (SST+) NEURONS IN THE PARAVENTRICULAR NUCLEUS (PAVN) OF THE HYPOTHALAMUS OF ADULT RATS AND RESULTS IN DISCRETE BEHAVIORAL CHANGES. HERE, WE INVESTIGATE WHETHER PHOTOPERIOD-INDUCED NEUROTRANSMITTER SWITCHING PERSISTS DURING AGING AND WHETHER EPIGENETIC MECHANISMS OF HISTONE ACETYLATION AND DNA METHYLATION MAY CONTRIBUTE TO THIS NEUROTRANSMITTER PLASTICITY. WE SHOW THAT THIS PLASTICITY IN RATS IS ROBUST AT 1 AND AT 3 MONTHS BUT REDUCED IN TH+ NEURONS AT 12 MONTHS AND COMPLETELY ABOLISHED IN BOTH TH+ AND SST+ NEURONS BY 18 MONTHS. DE NOVO EXPRESSION OF DNMT3A CATALYZING DNA METHYLATION AND ANTI-ACETYLH3 ASSESSING HISTONE 3 ACETYLATION WERE OBSERVED FOLLOWING SHORT-DAY PHOTOPERIOD EXPOSURE IN BOTH TH+ AND SST+ NEURONS AT 1 AND 3 MONTHS WHILE AN OVERALL INCREASE IN DNMT3A IN SST+ NEURONS PARALLELED NEUROPLASTICITY REDUCTION AT 12 AND 18 MONTHS. HISTONE ACETYLATION INCREASED IN TH+ NEURONS AND DECREASED IN SST+ NEURONS FOLLOWING SHORT-DAY EXPOSURE AT 3 MONTHS WHILE THE TOTAL NUMBER OF ANTI-ACETYLH3+ PAVN NEURONS REMAINED CONSTANT. RECIPROCAL HISTONE ACETYLATION IN TH+ AND SST+ NEURONS INDICATES THE IMPORTANCE OF STUDYING EPIGENETIC REGULATION AT THE CIRCUIT LEVEL FOR IDENTIFIED CELL PHENOTYPES. THE FINDINGS MAY BE USEFUL FOR DEVELOPING APPROACHES FOR NONINVASIVE TREATMENT OF DISORDERS CHARACTERIZED BY NEUROTRANSMITTER DYSFUNCTION. 2020 2 2442 31 EPIGENETIC STABILITY IN THE ADULT MOUSE CORTEX UNDER CONDITIONS OF PHARMACOLOGICALLY INDUCED HISTONE ACETYLATION. HISTONE ACETYLATION IS CONSIDERED A MAJOR EPIGENETIC PROCESS THAT AFFECTS BRAIN DEVELOPMENT AND SYNAPTIC PLASTICITY, AS WELL AS LEARNING AND MEMORY. THE TRANSCRIPTIONAL EFFECTORS AND MORPHOLOGICAL CHANGES RESPONSIBLE FOR PLASTICITY AS A RESULT OF LONG-TERM MODIFICATIONS TO HISTONE ACETYLATION ARE NOT FULLY UNDERSTOOD. TO THIS END, WE PHARMACOLOGICALLY INHIBITED HISTONE DEACETYLATION USING TRICHOSTATIN A IN ADULT (6-MONTH-OLD) MICE AND FOUND SIGNIFICANT INCREASES IN THE LEVELS OF THE ACETYLATED HISTONE MARKS H3LYS9, H3LYS14 AND H4LYS12. HIGH-RESOLUTION TRANSCRIPTOME ANALYSIS OF DIVERSE BRAIN REGIONS UNCOVERED FEW DIFFERENCES IN GENE EXPRESSION BETWEEN TREATED AND CONTROL ANIMALS, NONE OF WHICH WERE PLASTICITY RELATED. INSTEAD, AFTER INCREASED HISTONE ACETYLATION, WE DETECTED A LARGE NUMBER OF NOVEL TRANSCRIPTIONALLY ACTIVE REGIONS, WHICH CORRESPOND TO LONG NON-CODING RNAS (LNCRNAS). WE ALSO SURPRISINGLY FOUND NO SIGNIFICANT CHANGES IN DENDRITIC SPINE PLASTICITY IN LAYERS 1 AND 2/3 OF THE VISUAL CORTEX USING LONG-TERM IN VIVO TWO-PHOTON IMAGING. OUR RESULTS INDICATE THAT CHRONIC PHARMACOLOGICALLY INDUCED HISTONE ACETYLATION CAN BE DECOUPLED FROM GENE EXPRESSION AND INSTEAD, MAY POTENTIALLY EXERT A POST-TRANSCRIPTIONAL EFFECT THROUGH THE DIFFERENTIAL PRODUCTION OF LNCRNAS. 2016 3 2246 33 EPIGENETIC MODULATION OF INFLAMMATION AND SYNAPTIC PLASTICITY PROMOTES RESILIENCE AGAINST STRESS IN MICE. MAJOR DEPRESSIVE DISORDER IS ASSOCIATED WITH ABNORMALITIES IN THE BRAIN AND THE IMMUNE SYSTEM. CHRONIC STRESS IN ANIMALS SHOWED THAT EPIGENETIC AND INFLAMMATORY MECHANISMS PLAY IMPORTANT ROLES IN MEDIATING RESILIENCE AND SUSCEPTIBILITY TO DEPRESSION. HERE, THROUGH A HIGH-THROUGHPUT SCREENING, WE IDENTIFY TWO PHYTOCHEMICALS, DIHYDROCAFFEIC ACID (DHCA) AND MALVIDIN-3'-O-GLUCOSIDE (MAL-GLUC) THAT ARE EFFECTIVE IN PROMOTING RESILIENCE AGAINST STRESS BY MODULATING BRAIN SYNAPTIC PLASTICITY AND PERIPHERAL INFLAMMATION. DHCA/MAL-GLUC ALSO SIGNIFICANTLY REDUCES DEPRESSION-LIKE PHENOTYPES IN A MOUSE MODEL OF INCREASED SYSTEMIC INFLAMMATION INDUCED BY TRANSPLANTATION OF HEMATOPOIETIC PROGENITOR CELLS FROM STRESS-SUSCEPTIBLE MICE. DHCA REDUCES PRO-INFLAMMATORY INTERLEUKIN 6 (IL-6) GENERATIONS BY INHIBITING DNA METHYLATION AT THE CPG-RICH IL-6 SEQUENCES INTRONS 1 AND 3, WHILE MAL-GLUC MODULATES SYNAPTIC PLASTICITY BY INCREASING HISTONE ACETYLATION OF THE REGULATORY SEQUENCES OF THE RAC1 GENE. PERIPHERAL INFLAMMATION AND SYNAPTIC MALADAPTATION ARE IN LINE WITH NEWLY HYPOTHESIZED CLINICAL INTERVENTION TARGETS FOR DEPRESSION THAT ARE NOT ADDRESSED BY CURRENTLY AVAILABLE ANTIDEPRESSANTS. 2018 4 989 34 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 5 3093 24 GENOMIC AND EPIGENOMIC RESPONSES TO CHRONIC STRESS INVOLVE MIRNA-MEDIATED PROGRAMMING. STRESS REPRESENTS A CRITICAL INFLUENCE ON MOTOR SYSTEM FUNCTION AND HAS BEEN SHOWN TO IMPAIR MOVEMENT PERFORMANCE. WE HYPOTHESIZED THAT STRESS-INDUCED MOTOR IMPAIRMENTS ARE DUE TO BRAIN-SPECIFIC CHANGES IN MIRNA AND PROTEIN-ENCODING GENE EXPRESSION. HERE WE SHOW A CAUSAL LINK BETWEEN STRESS-INDUCED MOTOR IMPAIRMENT AND ASSOCIATED GENETIC AND EPIGENETIC RESPONSES IN RELEVANT CENTRAL MOTOR AREAS IN A RAT MODEL. EXPOSURE TO TWO WEEKS OF MILD RESTRAINT STRESS ALTERED THE EXPRESSION OF 39 GENES AND NINE MIRNAS IN THE CEREBELLUM. IN LINE WITH PERSISTENT BEHAVIOURAL IMPAIRMENTS, SOME CHANGES IN GENE AND MIRNA EXPRESSION WERE RESISTANT TO RECOVERY FROM STRESS. INTERESTINGLY, STRESS UP-REGULATED THE EXPRESSION OF ADIPOQ AND PROLACTIN RECEPTOR MRNAS IN THE CEREBELLUM. STRESS ALSO ALTERED THE EXPRESSION OF PRLR, MIR-186, AND MIR-709 IN HIPPOCAMPUS AND PREFRONTAL CORTEX. IN ADDITION, OUR FINDINGS DEMONSTRATE THAT MIR-186 TARGETS THE GENE EPS15. FURTHERMORE, WE FOUND AN AGE-DEPENDENT INCREASE IN EPHRINB3 AND GABAA4 RECEPTORS. THESE DATA SHOW THAT EVEN MILD STRESS RESULTS IN SUBSTANTIAL GENOMIC AND EPIGENOMIC CHANGES INVOLVING MIRNA EXPRESSION AND ASSOCIATED GENE TARGETS IN THE MOTOR SYSTEM. THESE FINDINGS SUGGEST A CENTRAL ROLE OF MIRNA-REGULATED GENE EXPRESSION IN THE STRESS RESPONSE AND IN ASSOCIATED NEUROLOGICAL FUNCTION. 2012 6 6895 24 [SYSTEMIC CONTROL OF THE MOLECULAR, CELL, AND EPIGENETIC MECHANISMS OF LONG-LASTING CONSEQUENCES OF STRESS]. BASED ON M.E. LOBASHEV'S VIEWS OF THE SYSTEMIC CONTROL OF GENETIC AND CYTOGENEITC PROCESSES AND A SUBSTANTIAL EFFECT OF EXCITABILITY ON PLASTIC CHANGES IN THE CENTRAL NERVOUS SYSTEM (CNS), THE EFFECT OF PROLONGED EMOTIONAL AND PAIN STRESS (PEPS) ON THE MOLECULAR, CELL, AND EPIGENETIC MECHANISMS OF INJURY MEMORY WAS STUDIED IN RAT STRAINS BRED FOR A CERTAIN EXCITABILITY OF THE NERVOUS SYSTEM. PEPS WAS FOR THE FIRST TIME FOUND TO CAUSE LONG-LASTING (2 MONTHS) MORPHOLOGICAL ALTERATIONS OF THE CA3 REGION OF THE HIPPOCAMPUS AND TO MODIFY THE GENOME ACTIVITY OF ITS PYRAMIDAL NEURONS. THE TWO PHENOMENA WERE POTENTIATED BY A GENETICALLY DETERMINED LOW FUNCTIONAL STATE OF THE CNS. THE POST-STRESS REGULATION OF THE GENOME FUNCTION IN HIPPOCAMPAL NEURONS WAS MEDIATED BY CHANGES IN HETEROCHROMATIN CONFORMATION, ACTIVATION OF METHYL-CPG-BINDING PROTEIN (MECP2) SYNTHESIS, AND SUBSEQUENT CHANGES IN ACETYLATION OF HISTONE H4. GENETICALLY DETERMINED HIGH EXCITABILITY OF THE NERVOUS SYSTEM PROVED TO BE A RISK FACTOR THAT AFFECTS THE SPECIFICS AND TIME COURSE OF THE OBSERVED MOLECULAR, CELL, AND GENETIC TRANSFORMATIONS OF NEURONS. THE RESULTS PROVIDE FOR A BETTER UNDERSTANDING OF THE EPIGENETIC MECHANISMS OF INJURY MEMORY, WHICH FORMS A PATHOGENETIC BASIS FOR POSTTRAUMATIC STRESS DISORDER AND OTHER HUMAN PSYCHOGENIC CONDITIONS CHARACTERIZED BY A PROLONGED DURATION. 2009 7 5339 32 QUETIAPINE TREATMENT REVERSES DEPRESSIVE-LIKE BEHAVIOR AND REDUCES DNA METHYLTRANSFERASE ACTIVITY INDUCED BY MATERNAL DEPRIVATION. STRESS IN EARLY LIFE HAS BEEN APPOINTED AS AN IMPORTANT PHENOMENON IN THE ONSET OF DEPRESSION AND POOR RESPONSE TO TREATMENT WITH CLASSICAL ANTIDEPRESSANTS. FURTHERMORE, CHILDHOOD TRAUMA TRIGGERS EPIGENETIC CHANGES, WHICH ARE ASSOCIATED WITH THE PATHOPHYSIOLOGY OF MAJOR DEPRESSIVE DISORDER (MDD). TREATMENT WITH ATYPICAL ANTIPSYCHOTICS SUCH AS QUETIAPINE, EXERTS THERAPEUTIC EFFECT FOR MDD PATIENTS AND INDUCES EPIGENETIC CHANGES. THIS STUDY AIMED TO ANALYZE THE EFFECT OF CHRONIC TREATMENT WITH QUETIAPINE (20MG/KG) ON DEPRESSIVE-LIKE BEHAVIOR OF RATS SUBMITTED TO MATERNAL DEPRIVATION (MD), AS WELL AS THE ACTIVITY OF HISTONE ACETYLATION BY THE ENZYMES HISTONE ACETYL TRANSFERASES (HAT) AND DEACETYLASES (HDAC) AND DNA METHYLATION, THROUGH DNA METHYLTRANSFERASE ENZYME (DNMT) IN THE PREFRONTAL CORTEX (PFC), NUCLEUS ACCUMBENS (NAC) AND HIPPOCAMPUS. MATERNALLY DEPRIVED RATS HAD A DEPRESSIVE-LIKE BEHAVIOR IN THE FORCED SWIMMING TEST AND AN INCREASE IN THE HDAC AND DNMT ACTIVITIES IN THE HIPPOCAMPUS AND NAC. TREATMENT WITH QUETIAPINE REVERSED DEPRESSIVE-LIKE BEHAVIOR AND REDUCED THE DNMT ACTIVITY IN THE HIPPOCAMPUS. THIS IS THE FIRST STUDY TO SHOW THE ANTIDEPRESSANT-LIKE EFFECT OF QUETIAPINE IN ANIMALS SUBJECTED TO MD AND A PROTECTIVE EFFECT BY QUETIAPINE IN REDUCING EPIGENETIC CHANGES INDUCED BY STRESS IN EARLY LIFE. THESE RESULTS REINFORCE AN IMPORTANT ROLE OF QUETIAPINE AS THERAPY FOR MDD. 2017 8 433 37 ANTIDEPRESSANT TREATMENT IS ASSOCIATED WITH EPIGENETIC ALTERATIONS OF HOMER1 PROMOTER IN A MOUSE MODEL OF CHRONIC DEPRESSION. BACKGROUND: UNDERSTANDING THE NEUROBIOLOGY OF DEPRESSION AND THE MECHANISM OF ACTION OF THERAPEUTIC MEASURES IS CURRENTLY A RESEARCH PRIORITY. WE HAVE SHOWN THAT THE EXPRESSION OF THE SYNAPTIC PROTEIN HOMER1A CORRELATES WITH DEPRESSION-LIKE BEHAVIOR AND ITS INDUCTION IS A COMMON MECHANISM OF ACTION OF DIFFERENT ANTIDEPRESSANT TREATMENTS. HOWEVER, THE MECHANISM OF HOMER1A REGULATION IS STILL UNKNOWN. METHODS: WE COMBINED THE CHRONIC DESPAIR MOUSE MODEL (CDM) OF CHRONIC DEPRESSION WITH DIFFERENT ANTIDEPRESSANT TREATMENTS. DEPRESSION-LIKE BEHAVIOR WAS CHARACTERIZED BY FORCED SWIM AND TAIL SUSPENSION TESTS, AND VIA AUTOMATIC MEASUREMENT OF SUCROSE PREFERENCE IN INTELLICAGE. THE HOMER1 MRNA EXPRESSION AND PROMOTER DNA METHYLATION WERE ANALYZED IN CORTEX AND PERIPHERAL BLOOD BY QRT-PCR AND PYROSEQUENCING. RESULTS: CDM MICE SHOW DECREASED HOMER1A AND HOMER1B/C MRNA EXPRESSION IN CORTEX AND BLOOD SAMPLES, WHILE CHRONIC TREATMENT WITH IMIPRAMINE AND FLUOXETINE OR ACUTE KETAMINE APPLICATION INCREASES THEIR LEVEL ONLY IN THE CORTEX. THE QUANTITATIVE ANALYSES OF THE METHYLATION OF 7 CPG SITES, LOCATED ON THE HOMER1 PROMOTER REGION CONTAINING SEVERAL CRE BINDING SITES, SHOW A SIGNIFICANT INCREASE IN DNA METHYLATION IN THE CORTEX OF CDM MICE. IN CONTRAST, ANTIDEPRESSANT TREATMENTS REDUCE THE METHYLATION LEVEL. LIMITATIONS: HOMER1 EXPRESSION AND PROMOTOR METHYLATION WERE NOT ANALYZED IN DIFFERENT BLOOD CELL TYPES. OTHER CPG SITES OF HOMER1 PROMOTER SHOULD BE INVESTIGATED IN FUTURE STUDIES. OUR EXPERIMENTAL APPROACH DOES NOT DISTINGUISH BETWEEN METHYLATION AND HYDROXYMETHYLATION. CONCLUSIONS: WE DEMONSTRATE THAT STRESS-INDUCED DEPRESSION-LIKE BEHAVIOR AND ANTIDEPRESSANT TREATMENTS ARE ASSOCIATED WITH EPIGENETIC ALTERATIONS OF HOMER1 PROMOTER, PROVIDING NEW INSIGHTS INTO THE MECHANISM OF ANTIDEPRESSANT TREATMENT. 2021 9 3328 43 HISTONE DEACETYLASE 5 MODULATES THE EFFECTS OF SOCIAL ADVERSITY IN EARLY LIFE ON COCAINE-INDUCED BEHAVIOR. PSYCHOSTIMULANTS INDUCE STABLE CHANGES IN NEURAL PLASTICITY AND BEHAVIOR IN A TRANSCRIPTION-DEPENDENT MANNER. FURTHER, STABLE CELLULAR CHANGES REQUIRE TRANSCRIPTION THAT IS REGULATED BY EPIGENETIC MECHANISMS THAT ALTER CHROMATIN STRUCTURE, SUCH AS HISTONE ACETYLATION. THIS MECHANISM IS TYPICALLY CATALYZED BY ENZYMES WITH HISTONE ACETYLTRANSFERASE OR HISTONE DEACETYLASE (HDAC) ACTIVITY. CLASS IIA HDACS ARE NOTABLE FOR THEIR HIGH EXPRESSION IN IMPORTANT REGIONS OF THE BRAIN REWARD CIRCUITRY AND THEIR NEURAL ACTIVITY-DEPENDENT SHUTTLING IN AND OUT OF THE CELL NUCLEUS. IN PARTICULAR, HDAC5 HAS AN IMPORTANT MODULATORY FUNCTION IN COCAINE-INDUCED BEHAVIORS AND SOCIAL DEFEAT STRESS-INDUCED EFFECTS. ALTHOUGH A MUTATION IN HDAC5 HAS BEEN SHOWN TO CAUSE HYPERSENSITIVE RESPONSES TO CHRONIC COCAINE USE WHETHER THIS RESPONSE WORSENS DURING CHRONIC EARLY LIFE STRESS HAS NOT BEEN EXAMINED YET. IN THIS STUDY, WE EXPOSED MOUSE PUPS TO TWO DIFFERENT EARLY LIFE STRESS PARADIGMS (SOCIAL ISOLATION, ESI, AND SOCIAL THREAT, EST) TO DETERMINE WHETHER THE HETEROZYGOUS NULL MUTATION IN HDAC5 (HDAC5+/-) MODERATED THE EFFECTS OF EXPOSURE TO STRESS IN EARLY LIFE ON ADULT COCAINE-INDUCED CONDITIONED PLACE PREFERENCE (CPP). NOTABLY, HDAC5+/- MICE THAT HAD BEEN EXPOSED TO ESI WERE MORE SUSCEPTIBLE TO DEVELOPING COCAINE-INDUCED CPP AND MORE RESISTANT TO EXTINGUISHING THIS BEHAVIOR. THE SAME EFFECT WAS NOT OBSERVED FOR HDAC5+/- MICE EXPERIENCING EST, SUGGESTING THAT ONLY ESI INDUCES BEHAVIORAL CHANGES BY ACTING PRECISELY THROUGH HDAC5-RELATED BIOLOGICAL PATHWAYS. FINALLY, AN ANALYSIS OF C-FOS EXPRESSION PERFORMED TO DISCOVER THE NEUROBIOLOGICAL SUBSTRATES THAT MEDIATED THIS PHENOTYPE, IDENTIFIED THE DORSOLATERAL STRIATUM AS AN IMPORTANT STRUCTURE THAT MEDIATES THE INTERACTION BETWEEN HDAC5 MUTATION AND ESI. OUR DATA DEMONSTRATE THAT DECREASED HDAC5 FUNCTION IS ABLE TO EXACERBATE THE LONG-TERM BEHAVIORAL EFFECTS OF ADVERSE REARING ENVIRONMENT IN MOUSE. 2017 10 6804 41 [EPIGENETIC REGULATION IN DEPRESSION]. RECENT RESEARCH HAS RAISED THE NOTION THAT EPIGENETIC MECHANISMS (E.G., DNA METHYLATION AND HISTONE MODIFICATIONS), WHICH EXERT LASTING CONTROL OVER GENE EXPRESSION WITHOUT ALTERING THE GENETIC CODE, COULD MEDIATE STABLE CHANGES IN BRAIN FUNCTION. HOWEVER, THE ROLE OF ENVIRONMENTAL FACTORS ALONG WITH GENETIC FACTORS IN THE EPIGENETIC REGULATION OF THE PATHOGENESIS OF DEPRESSION IS LARGELY UNKNOWN. TWO GENETICALLY DISTINCT MICE STRAINS, BALB/C (BALB) AND C57BL/6 (B6), EXHIBIT DIFFERENT BEHAVIORAL RESPONSES TO CHRONIC STRESS. WITH CHRONIC STRESS, BALB MICE SHOWED DEPRESSIVE-LIKE BEHAVIORS, BUT NOT B6 MICE, AND GLIAL CELL-DERIVED NEUROTROPHIC FACTOR (GDNF) EXPRESSION LEVEL WAS DECREASED IN THE VENTRAL STRIATUM OF BALB MICE BUT INCREASED IN B6 MICE. IN BALB MICE, DEPRESSIVE-LIKE BEHAVIORS AND DECREASED GDNF EXPRESSION WERE RECOVERED BY CHRONIC ANTIDEPRESSANT TREATMENT. THEREFORE, WE USED THESE TWO MICE STRAINS TO INVESTIGATE HOW THE EPIGENETIC STATUS OF THE GDNF GENE IN THE VENTRAL STRIATUM MODULATES STRESS VULNERABILITY. BOTH MICE STRAINS SHOWED INCREASED DNA METHYLATION LEVELS AND MECP2 RECRUITMENT IN THE GDNF PROMOTER REGION. HOWEVER, HISTONE H3 ACETYLATION LEVEL WAS DECREASED IN BALB MICE, BUT INCREASED IN B6 MICE. FURTHERMORE, BALB MICE SHOWED INCREASED HISTONE DEACETYLASE2 (HDAC2) EXPRESSION LEVEL AND RE-CHIP ASSAY REVEALED HDAC2-MECP2 COMPLEX IN BALB MICE. OUR RESULTS INDICATE THE CRUCIAL ROLE OF HISTONE MODIFICATION BY HDAC2 AND MECP2 COMPLEX FOR THE CONTROL OF GDNF EXPRESSION AND SUBSEQUENT BEHAVIORAL RESPONSES TO CHRONIC STRESS, IN OTHER WORDS, THE SUSCEPTIBILITY TO STRESS. IN ADDITION, WE INVESTIGATED THE EFFECT OF ANTIDEPRESSANTS ON THE EPIGENETIC REGULATION OF GDNF EXPRESSION. WE FOUND A REDUCED LEVEL OF HDAC4 RECRUITMENT AT THE GDNF PROMOTER REGION WITH ANTIDEPRESSANTS. THUS, OUR DATA SUGGEST THAT ANTIDEPRESSANTS INCREASE TRANSCRIPTIONAL ACTIVITY OF THE GDNF GENE THROUGH THE MODULATION OF HISTONE ACETYLATION BY HDAC4. FINALLY, WE EXAMINED THE EXPRESSIONS OF GDNF AND EPIGENETIC-RELATED MOLECULES MRNAS WITH MAJOR DEPRESSIVE AND BIPOLAR DISORDER PATIENTS BY USING QUANTITATIVE REAL-TIME PCR. WE FOUND THE ABERRANT EXPRESSION OF GDNF AND EPIGENETIC-RELATED GENES INCLUDING HDAC2 AND HDAC4 IN MOOD DISORDER PATIENTS. THUS, OUR DATA PROVIDE NOVEL INSIGHTS SUGGESTING THAT EPIGENETIC MECHANISMS OF GDNF EXPRESSION ARE INVOLVED IN THE PATHOGENESIS OR PATHOPHYSIOLOGY OF DEPRESSION. 2012 11 4742 34 NOVEL HISTONE MODIFICATIONS IN MICROGLIA DERIVED FROM A MOUSE MODEL OF CHRONIC PAIN. AS THE RESIDENT IMMUNE CELLS IN THE CENTRAL NERVOUS SYSTEM, MICROGLIA PLAY AN IMPORTANT ROLE IN THE MAINTENANCE OF ITS HOMEOSTASIS. DYSREGULATION OF MICROGLIA HAS BEEN ASSOCIATED WITH THE DEVELOPMENT AND MAINTENANCE OF CHRONIC PAIN. HOWEVER, THE RELEVANT MOLECULAR PATHWAYS REMAIN POORLY DEFINED. IN THIS STUDY, WE USED A MASS SPECTROMETRY-BASED PROTEOMIC APPROACH TO SCREEN POTENTIAL CHANGES OF HISTONE PROTEIN MODIFICATIONS IN MICROGLIA ISOLATED FROM THE BRAIN OF CONTROL AND CISPLATIN-INDUCED NEUROPATHIC PAIN ADULT C57BL/6J MALE MICE. WE IDENTIFIED SEVERAL NOVEL MICROGLIAL HISTONE MODIFICATIONS ASSOCIATED WITH PAIN, INCLUDING STATISTICALLY SIGNIFICANTLY DECREASED HISTONE H3.1 LYSINE 27 MONO-METHYLATION (H3.1K27ME1, 54.8% OF CONTROL) AND H3 LYSINE 56 TRI-METHYLATION (7.5% OF CONTROL), AS WELL AS A TREND SUGGESTING INCREASED H3 TYROSINE 41 NITRATION. WE FURTHER INVESTIGATED THE FUNCTIONAL ROLE OF H3.1K27ME1 AND FOUND THAT TREATMENT OF CULTURED MICROGLIAL CELLS FOR 4 CONSECUTIVE DAYS WITH 1-10 MUM OF NCDM-64, A POTENT AND SELECTIVE INHIBITOR OF LYSINE DEMETHYLASE 7A, AN ENZYME RESPONSIBLE FOR THE DEMETHYLATION OF H3K27ME1, DOSE-DEPENDENTLY ELEVATED ITS LEVELS WITH A GREATER THAN A TWO-FOLD INCREASE OBSERVED AT 10 MUM COMPARED TO VEHICLE-TREATED CONTROL CELLS. MOREOVER, PRETREATMENT OF MICE WITH NCDM-64 (10 OR 25 MG/KG/DAY, I.P.) PRIOR TO CISPLATIN TREATMENT PREVENTED THE DEVELOPMENT OF NEUROPATHIC PAIN IN MICE. THE IDENTIFICATION OF SPECIFIC CHROMATIN MARKS IN MICROGLIA ASSOCIATED WITH CHRONIC PAIN MAY YIELD CRITICAL INSIGHT INTO THE CONTRIBUTION OF MICROGLIA TO THE DEVELOPMENT AND MAINTENANCE OF PAIN, AND OPENS NEW AVENUES FOR THE DEVELOPMENT OF NOVEL NONOPIOID THERAPEUTICS FOR THE EFFECTIVE MANAGEMENT OF CHRONIC PAIN. 2022 12 3370 37 HISTONE MODIFICATION OF NEDD4 UBIQUITIN LIGASE CONTROLS THE LOSS OF AMPA RECEPTORS AND COGNITIVE IMPAIRMENT INDUCED BY REPEATED STRESS. STRESS AND THE MAJOR STRESS HORMONE CORTICOSTERONE INDUCE PROFOUND INFLUENCES IN THE BRAIN. ALTERED HISTONE MODIFICATION AND TRANSCRIPTIONAL DYSFUNCTION HAVE BEEN IMPLICATED IN STRESS-RELATED MENTAL DISORDERS. WE PREVIOUSLY FOUND THAT REPEATED STRESS CAUSED AN IMPAIRMENT OF PREFRONTAL CORTEX (PFC)-MEDIATED COGNITIVE FUNCTIONS BY INCREASING THE UBIQUITINATION AND DEGRADATION OF AMPA-TYPE GLUTAMATE RECEPTORS VIA A MECHANISM DEPENDING ON THE E3 UBIQUITIN LIGASE NEDD4. HERE, WE DEMONSTRATED THAT IN PFC OF REPEATEDLY STRESSED RATS, ACTIVE GLUCOCORTICOID RECEPTOR HAD THE INCREASED BINDING TO THE GLUCOCORTICOID RESPONSE ELEMENT OF HISTONE DEACETYLASE 2 (HDAC2) PROMOTER, RESULTING IN THE UPREGULATION OF HDAC2. INHIBITION OR KNOCK-DOWN OF HDAC2 BLOCKED THE STRESS-INDUCED IMPAIRMENT OF SYNAPTIC TRANSMISSION, AMPAR EXPRESSION, AND RECOGNITION MEMORY. FURTHERMORE, WE FOUND THAT, IN STRESSED ANIMALS, THE HDAC2-DEPENDENT DOWNREGULATION OF HISTONE METHYLTRANSFERASE EHMT2 (G9A) LED TO THE LOSS OF REPRESSIVE HISTONE METHYLATION AT THE NEDD4-1 PROMOTER AND THE TRANSCRIPTIONAL ACTIVATION OF NEDD4. THESE RESULTS HAVE PROVIDED AN EPIGENETIC MECHANISM AND A POTENTIAL TREATMENT STRATEGY FOR THE DETRIMENTAL EFFECTS OF CHRONIC STRESS. SIGNIFICANCE STATEMENT: PROLONGED STRESS EXPOSURE CAN INDUCE ALTERED HISTONE MODIFICATION AND TRANSCRIPTIONAL DYSFUNCTION, WHICH MAY UNDERLIE THE PROFOUND INFLUENCE OF STRESS IN REGULATING BRAIN FUNCTIONS. WE REPORT AN IMPORTANT FINDING ABOUT THE EPIGENETIC MECHANISM CONTROLLING THE DETRIMENTAL EFFECTS OF REPEATED STRESS ON SYNAPTIC TRANSMISSION AND COGNITIVE FUNCTION. FIRST, IT HAS REVEALED THE STRESS-INDUCED ALTERATION OF KEY EPIGENETIC REGULATORS HDAC2 AND EHMT2, WHICH DETERMINES THE SYNAPTIC AND BEHAVIORAL EFFECTS OF REPEATED STRESS. SECOND, IT HAS UNCOVERED THE STRESS-INDUCED HISTONE MODIFICATION OF THE TARGET GENE NEDD4, AN E3 LIGASE THAT IS CRITICALLY INVOLVED IN THE UBIQUITINATION AND DEGRADATION OF AMPA RECEPTORS AND COGNITION. THIRD, IT HAS PROVIDED THE EPIGENETIC APPROACH, HDAC2 INHIBITION OR KNOCK-DOWN, TO RESCUE SYNAPTIC AND COGNITIVE FUNCTIONS IN STRESSED ANIMALS. 2016 13 2886 29 GABA-AALPHA5 MIGHT BE INVOLVED IN LEARNING-MEMORY DYSFUNCTION IN THE OFFSPRINGS OF CHRONIC ETHANOL-TREATED RATS VIA GABA-AALPHA5 HISTONE H3K9 ACETYLATION. RECENTLY, NUMEROUS STUDIES HAVE BEEN FOCUSED ON THE RELATIONSHIP BETWEEN GABA-A RECEPTORS AND ALCOHOL-INDUCED SPATIAL LEARNING AND MEMORY DEFICITS. GABA-AALPHA5, A SUBUNIT OF GABA-A RECEPTORS, IS CONSIDERED TO PLAY AN IMPORTANT ROLE IN ALCOHOL-INDUCED COGNITIVE IMPAIRMENT, HOWEVER, THE MECHANISM REMAINS OBSCURE. IN THIS STUDY, WE FOUND THAT THE EXPRESSION OF GABA-AALPHA5 INCREASED IN RATS TREATED WITH CHRONIC ETHANOL VIA HISTONE H3K9 ACETYLATION. FURTHERMORE, THIS EPIGENETIC MODIFICATION COULD BE INHERITED BY THE NEXT GENERATIONS, WHICH EVENTUALLY EXHIBIT SIMILAR SPATIAL LEARNING AND MEMORY DEFICITS IN THE OFFSPRINGS. IN SUMMARY, OUR RESULTS SUGGESTED THAT GABA-AALPHA5 MIGHT BE INVOLVED IN CHRONIC ETHANOL TREATMENT-INDUCED LEARNING-MEMORY DYSFUNCTION AND FOR THE FIRST TIME PROVED THAT LEARNING-MEMORY DYSFUNCTION COULD BE INHERITED BY THE OFFSPRINGS VIA HISTONE H3K9 ACETYLATION. HOPEFULLY, IN THE NEAR FUTURE, GABA-AALPHA5 INHIBITORS WOULD BE AN EFFECTIVE WAY TO TREAT ALCOHOL-INDUCED COGNITION IMPAIRMENT. 2019 14 195 26 ACF CHROMATIN-REMODELING COMPLEX MEDIATES STRESS-INDUCED DEPRESSIVE-LIKE BEHAVIOR. IMPROVED TREATMENT FOR MAJOR DEPRESSIVE DISORDER (MDD) REMAINS ELUSIVE BECAUSE OF THE LIMITED UNDERSTANDING OF ITS UNDERLYING BIOLOGICAL MECHANISMS. IT IS LIKELY THAT STRESS-INDUCED MALADAPTIVE TRANSCRIPTIONAL REGULATION IN LIMBIC NEURAL CIRCUITS CONTRIBUTES TO THE DEVELOPMENT OF MDD, POSSIBLY THROUGH EPIGENETIC FACTORS THAT REGULATE CHROMATIN STRUCTURE. WE ESTABLISH THAT PERSISTENT UPREGULATION OF THE ACF (ATP-UTILIZING CHROMATIN ASSEMBLY AND REMODELING FACTOR) ATP-DEPENDENT CHROMATIN-REMODELING COMPLEX, OCCURRING IN THE NUCLEUS ACCUMBENS OF STRESS-SUSCEPTIBLE MICE AND DEPRESSED HUMANS, IS NECESSARY FOR STRESS-INDUCED DEPRESSIVE-LIKE BEHAVIORS. WE FOUND THAT ALTERED ACF BINDING AFTER CHRONIC STRESS WAS CORRELATED WITH ALTERED NUCLEOSOME POSITIONING, PARTICULARLY AROUND THE TRANSCRIPTION START SITES OF AFFECTED GENES. THESE ALTERATIONS IN ACF BINDING AND NUCLEOSOME POSITIONING WERE ASSOCIATED WITH REPRESSED EXPRESSION OF GENES IMPLICATED IN SUSCEPTIBILITY TO STRESS. TOGETHER, OUR FINDINGS IDENTIFY THE ACF CHROMATIN-REMODELING COMPLEX AS A CRITICAL COMPONENT IN THE DEVELOPMENT OF SUSCEPTIBILITY TO DEPRESSION AND IN REGULATING STRESS-RELATED BEHAVIORS. 2015 15 4861 25 ORGANIC ANION TRANSPORTER 1 IS AN HDAC4-REGULATED MEDIATOR OF NOCICEPTIVE HYPERSENSITIVITY IN MICE. PERSISTENT PAIN IS SUSTAINED BY MALADAPTIVE CHANGES IN GENE TRANSCRIPTION RESULTING IN ALTERED FUNCTION OF THE RELEVANT CIRCUITS; THERAPIES ARE STILL UNSATISFACTORY. THE EPIGENETIC MECHANISMS AND AFFECTED GENES LINKING NOCICEPTIVE ACTIVITY TO TRANSCRIPTIONAL CHANGES AND PATHOLOGICAL SENSITIVITY ARE UNCLEAR. HERE, WE FOUND THAT, AMONG SEVERAL HISTONE DEACETYLASES (HDACS), SYNAPTIC ACTIVITY SPECIFICALLY AFFECTS HDAC4 IN MURINE SPINAL CORD DORSAL HORN NEURONS. NOXIOUS STIMULI THAT INDUCE LONG-LASTING INFLAMMATORY HYPERSENSITIVITY CAUSE NUCLEAR EXPORT AND INACTIVATION OF HDAC4. THE DEVELOPMENT OF INFLAMMATION-ASSOCIATED MECHANICAL HYPERSENSITIVITY, BUT NEITHER ACUTE NOR BASAL SENSITIVITY, IS IMPAIRED BY THE EXPRESSION OF A CONSTITUTIVELY NUCLEAR LOCALIZED HDAC4 MUTANT. NEXT GENERATION RNA-SEQUENCING REVEALED AN HDAC4-REGULATED GENE PROGRAM COMPRISING MEDIATORS OF SENSITIZATION INCLUDING THE ORGANIC ANION TRANSPORTER OAT1, KNOWN FOR ITS RENAL TRANSPORT FUNCTION. USING PHARMACOLOGICAL AND MOLECULAR TOOLS TO MODULATE OAT1 ACTIVITY OR EXPRESSION, WE CAUSALLY LINK OAT1 TO PERSISTENT INFLAMMATORY HYPERSENSITIVITY IN MICE. THUS, HDAC4 IS A KEY EPIGENETIC REGULATOR THAT TRANSLATES NOCICEPTIVE ACTIVITY INTO SENSITIZATION BY REGULATING OAT1, WHICH IS A POTENTIAL TARGET FOR PAIN-RELIEVING THERAPIES. 2022 16 4405 34 MOLECULAR ADAPTATIONS OF THE BLOOD-BRAIN BARRIER PROMOTE STRESS RESILIENCE VS. DEPRESSION. PRECLINICAL AND CLINICAL STUDIES SUGGEST THAT INFLAMMATION AND VASCULAR DYSFUNCTION CONTRIBUTE TO THE PATHOGENESIS OF MAJOR DEPRESSIVE DISORDER (MDD). CHRONIC SOCIAL STRESS ALTERS BLOOD-BRAIN BARRIER (BBB) INTEGRITY THROUGH LOSS OF TIGHT JUNCTION PROTEIN CLAUDIN-5 (CLDN5) IN MALE MICE, PROMOTING PASSAGE OF CIRCULATING PROINFLAMMATORY CYTOKINES AND DEPRESSION-LIKE BEHAVIORS. THIS EFFECT IS PROMINENT WITHIN THE NUCLEUS ACCUMBENS, A BRAIN REGION ASSOCIATED WITH MOOD REGULATION; HOWEVER, THE MECHANISMS INVOLVED ARE UNCLEAR. MOREOVER, COMPENSATORY RESPONSES LEADING TO PROPER BEHAVIORAL STRATEGIES AND ACTIVE RESILIENCE ARE UNKNOWN. HERE WE IDENTIFY ACTIVE MOLECULAR CHANGES WITHIN THE BBB ASSOCIATED WITH STRESS RESILIENCE THAT MIGHT SERVE A PROTECTIVE ROLE FOR THE NEUROVASCULATURE. WE ALSO CONFIRM THE RELEVANCE OF SUCH CHANGES TO HUMAN DEPRESSION AND ANTIDEPRESSANT TREATMENT. WE SHOW THAT PERMISSIVE EPIGENETIC REGULATION OF CLDN5 EXPRESSION AND LOW ENDOTHELIUM EXPRESSION OF REPRESSIVE CLDN5-RELATED TRANSCRIPTION FACTOR FOXO1 ARE ASSOCIATED WITH STRESS RESILIENCE. REGION- AND ENDOTHELIAL CELL-SPECIFIC WHOLE TRANSCRIPTOMIC ANALYSES REVEALED MOLECULAR SIGNATURES ASSOCIATED WITH STRESS VULNERABILITY VS. RESILIENCE. WE IDENTIFIED PROINFLAMMATORY TNFALPHA/NFKAPPAB SIGNALING AND HDAC1 AS MEDIATORS OF STRESS SUSCEPTIBILITY. PHARMACOLOGICAL INHIBITION OF STRESS-INDUCED INCREASE IN HDAC1 ACTIVITY RESCUED CLDN5 EXPRESSION IN THE NAC AND PROMOTED RESILIENCE. IMPORTANTLY, WE CONFIRMED CHANGES IN HDAC1 EXPRESSION IN THE NAC OF DEPRESSED PATIENTS WITHOUT ANTIDEPRESSANT TREATMENT IN LINE WITH CLDN5 LOSS. CONVERSELY, MANY OF THESE DELETERIOUS CLDN5-RELATED MOLECULAR CHANGES WERE REDUCED IN POSTMORTEM NAC FROM ANTIDEPRESSANT-TREATED SUBJECTS. THESE FINDINGS REINFORCE THE IMPORTANCE OF CONSIDERING STRESS-INDUCED NEUROVASCULAR PATHOLOGY IN DEPRESSION AND PROVIDE THERAPEUTIC TARGETS TO TREAT THIS MOOD DISORDER AND PROMOTE RESILIENCE. 2020 17 905 28 CHRONIC EXPOSURE TO CANNABINOIDS DURING ADOLESCENCE CAUSES LONG-LASTING BEHAVIORAL DEFICITS IN ADULT MICE. REGULAR USE OF MARIJUANA DURING ADOLESCENCE ENHANCES THE RISK OF LONG-LASTING NEUROBIOLOGICAL CHANGES IN ADULTHOOD. THE PRESENT STUDY WAS AIMED AT ASSESSING THE EFFECT OF LONG-TERM ADMINISTRATION OF THE SYNTHETIC CANNABINOID WIN55212.2 DURING ADOLESCENCE IN YOUNG ADULT MICE. ADOLESCENT MICE AGED 5 WEEKS WERE SUBJECTED DAILY TO THE PHARMACOLOGICAL ACTION OF WIN55212.2 FOR 3 WEEKS AND WERE THEN LEFT UNDISTURBED IN THEIR HOME CAGE FOR A 5-WEEK PERIOD AND FINALLY EVALUATED BY BEHAVIORAL TESTING. MICE THAT RECEIVED THE DRUG DURING ADOLESCENCE SHOWED MEMORY IMPAIRMENT IN THE MORRIS WATER MAZE, AS WELL AS A DOSE-DEPENDENT MEMORY IMPAIRMENT IN FEAR CONDITIONING. IN ADDITION, THE ADMINISTRATION OF 3 MG/KG WIN55212.2 IN ADOLESCENCE INCREASED ADULT HIPPOCAMPAL AEA LEVELS AND PROMOTED DNA HYPERMETHYLATION AT THE INTRAGENIC REGION OF THE INTRACELLULAR SIGNALING MODULATOR RGS7, WHICH WAS ACCOMPANIED BY A LOWER RATE OF MRNA TRANSCRIPTION OF THIS GENE, SUGGESTING A POTENTIAL CAUSAL RELATION. ALTHOUGH THE CONCRETE MECHANISMS UNDERLYING THE BEHAVIORAL OBSERVATIONS REMAIN TO BE ELUCIDATED, WE DEMONSTRATE THAT LONG-TERM ADMINISTRATION OF 3 MG/KG OF WIN DURING ADOLESCENCE LEADS TO INCREASED ENDOCANNABINOID LEVELS AND ALTERED RGS7 EXPRESSION IN ADULTHOOD AND ESTABLISH A POTENTIAL LINK TO EPIGENETIC CHANGES. 2017 18 1162 32 CONTRASTING EFFECTS OF ACUTE AND CHRONIC STRESS ON THE TRANSCRIPTOME, EPIGENOME, AND IMMUNE RESPONSE OF ATLANTIC SALMON. STRESS EXPERIENCED DURING EARLY LIFE MAY HAVE LASTING EFFECTS ON THE IMMUNE SYSTEM, WITH IMPACTS ON HEALTH AND DISEASE DEPENDENT ON THE NATURE AND DURATION OF THE STRESSOR. THE EPIGENOME IS ESPECIALLY SENSITIVE TO ENVIRONMENTAL STIMULI DURING EARLY LIFE AND REPRESENTS A POTENTIAL MECHANISM THROUGH WHICH STRESS MAY CAUSE LONG-LASTING HEALTH EFFECTS. HOWEVER, THE EXTENT TO WHICH THE EPIGENOME RESPONDS DIFFERENTLY TO CHRONIC VS ACUTE STRESSORS IS UNCLEAR, ESPECIALLY FOR NON-MAMMALIAN SPECIES. WE EXAMINED THE EFFECTS OF ACUTE STRESS (COLD-SHOCK DURING EMBRYOGENESIS) AND CHRONIC STRESS (ABSENCE OF TANK ENRICHMENT DURING LARVAL-STAGE) ON GLOBAL GENE EXPRESSION (USING RNA-SEQ) AND DNA METHYLATION (USING RRBS) IN THE GILLS OF ATLANTIC SALMON (SALMO SALAR) FOUR MONTHS AFTER HATCHING. CHRONIC STRESS INDUCED PRONOUNCED TRANSCRIPTIONAL DIFFERENCES, WHILE ACUTE STRESS CAUSED FEW LASTING TRANSCRIPTIONAL EFFECTS. HOWEVER, BOTH ACUTE AND CHRONIC STRESS CAUSED LASTING AND CONTRASTING CHANGES IN THE METHYLOME. CRUCIALLY, WE FOUND THAT ACUTE STRESS ENHANCED TRANSCRIPTIONAL IMMUNE RESPONSE TO A PATHOGENIC CHALLENGE (BACTERIAL LIPOPOLYSACCHARIDE, LPS), WHILE CHRONIC STRESS SUPPRESSED IT. WE IDENTIFIED STRESS-INDUCED CHANGES IN PROMOTER AND GENE-BODY METHYLATION THAT WERE ASSOCIATED WITH ALTERED EXPRESSION FOR A SMALL PROPORTION OF IMMUNE-RELATED GENES, AND EVIDENCE OF WIDER EPIGENETIC REGULATION WITHIN SIGNALLING PATHWAYS INVOLVED IN IMMUNE RESPONSE. OUR RESULTS SUGGEST THAT STRESS CAN AFFECT IMMUNO-COMPETENCE THROUGH EPIGENETIC MECHANISMS, AND HIGHLIGHT THE MARKEDLY DIFFERENT EFFECTS OF CHRONIC LARVAL AND ACUTE EMBRYONIC STRESS. THIS KNOWLEDGE COULD BE USED TO HARNESS THE STIMULATORY EFFECTS OF ACUTE STRESS ON IMMUNITY, PAVING THE WAY FOR IMPROVED STRESS AND DISEASE MANAGEMENT THROUGH EPIGENETIC CONDITIONING. 2018 19 5825 31 STRESS MODULATES AHI1-DEPENDENT NUCLEAR LOCALIZATION OF TEN-ELEVEN TRANSLOCATION PROTEIN 2. MAJOR DEPRESSION DISORDER IS ONE OF THE MOST COMMON PSYCHIATRIC DISEASES. RECENT EVIDENCE SUPPORTS THAT ENVIRONMENTAL STRESS AFFECTS GENE EXPRESSION AND PROMOTES THE PATHOLOGICAL PROCESS OF DEPRESSION THROUGH EPIGENETIC MECHANISMS. THREE TEN-ELEVEN TRANSLOCATION (TET) ENZYMES ARE EPIGENETIC REGULATORS OF GENE EXPRESSION THAT PROMOTE 5-HYDROXYMETHYLCYTOSINE (5HMC) MODIFICATION OF GENES. HERE, WE SHOW THAT THE LOSS OF TET2 CAN INDUCE DEPRESSION-LIKE PHENOTYPES IN MICE. PARADOXICALLY, USING THE PARADIGMS OF CHRONIC STRESS, SUCH AS CHRONIC MILD STRESS AND CHRONIC SOCIAL DEFEAT STRESS, WE FOUND THAT DEPRESSIVE BEHAVIORS WERE ASSOCIATED WITH INCREASED TET2 EXPRESSION BUT DECREASED GLOBAL 5HMC LEVEL IN HIPPOCAMPUS. WE EXAMINED THE GENOME-WIDE 5HMC PROFILE IN THE HIPPOCAMPUS OF TET2 KNOCKOUT MICE AND IDENTIFIED 651 DYNAMICALLY HYDROXYMETHYLATED REGIONS, SOME OF WHICH OVERLAPPED WITH KNOWN DEPRESSION-ASSOCIATED LOCI. WE FURTHER SHOWED THAT CHRONIC STRESS COULD INDUCE THE ABNORMAL NUCLEAR TRANSLOCATION OF TET2 PROTEIN FROM CYTOSOL. THROUGH TET2 IMMUNOPRECIPITATION AND MASS SPECTRUM ANALYSES, WE IDENTIFIED A CELLULAR TRAFFICKING PROTEIN, ABELSON HELPER INTEGRATION SITE-1 (AHI1), WHICH COULD INTERACT WITH TET2 PROTEIN. AHI1 KNOCKOUT OR KNOCKDOWN CAUSED THE ACCUMULATION OF TET2 IN CYTOSOL. THE REDUCTION OF AHI1 PROTEIN UNDER CHRONIC STRESS EXPLAINED THE ABNORMAL AHI1-DEPENDENT NUCLEAR TRANSLOCATION OF TET2. THESE FINDINGS TOGETHER PROVIDE THE EVIDENCE FOR A CRITICAL ROLE OF MODULATING TET2 NUCLEAR TRANSLOCATION IN REGULATING STRESS RESPONSE. 2021 20 2318 37 EPIGENETIC REGULATION OF GABAERGIC DIFFERENTIATION IN THE DEVELOPING BRAIN. IN THE VERTEBRATE BRAIN, GABAERGIC CELL DEVELOPMENT AND NEUROTRANSMISSION ARE IMPORTANT FOR THE ESTABLISHMENT OF NEURAL CIRCUITS. VARIOUS INTRINSIC AND EXTRINSIC FACTORS HAVE BEEN IDENTIFIED TO AFFECT GABAERGIC NEUROGENESIS. HOWEVER, LITTLE IS KNOWN ABOUT THE EPIGENETIC CONTROL OF GABAERGIC DIFFERENTIATION IN THE DEVELOPING BRAIN. HERE, WE REPORT THAT THE NUMBER OF GABAERGIC NEURONS DYNAMICALLY CHANGES DURING THE EARLY TECTAL DEVELOPMENT IN THE XENOPUS BRAIN. THE PERCENTAGE OF GABAERGIC NEURONS IS RELATIVELY UNCHANGED DURING THE EARLY STAGES FROM STAGE 40 TO 46 BUT SIGNIFICANTLY DECREASED FROM STAGE 46 TO 48 TADPOLES. INTERESTINGLY, THE HISTONE ACETYLATION OF H3K9 IS DEVELOPMENTALLY DECREASED FROM STAGE 42 TO 48 (ABOUT 3.5 DAYS). CHRONIC APPLICATION OF VALPROATE ACID (VPA), A BROAD-SPECTRUM HISTONE DEACETYLASE (HDAC) INHIBITOR, AT STAGE 46 FOR 48 H INCREASES THE ACETYLATION OF H3K9 AND THE NUMBER OF GABAERGIC CELLS IN THE OPTIC TECTUM. VPA TREATMENT ALSO REDUCES APOPTOTIC CELLS. ELECTROPHYSIOLOGICAL RECORDINGS SHOW THAT A VPA INDUCES AN INCREASE IN THE FREQUENCY OF MIPSCS AND NO CHANGES IN THE AMPLITUDE. BEHAVIORAL STUDIES REVEAL THAT VPA DECREASES SWIMMING ACTIVITY AND VISUALLY GUIDED AVOIDANCE BEHAVIOR. THESE FINDINGS EXTEND OUR UNDERSTANDING OF HISTONE MODIFICATION IN THE GABAERGIC DIFFERENTIATION AND NEUROTRANSMISSION DURING EARLY BRAIN DEVELOPMENT. 2022