1 243 135 ADOLESCENT CHRONIC INTERMITTENT TOLUENE INHALATION DYNAMICALLY REGULATES THE TRANSCRIPTOME AND NEURONAL METHYLOME WITHIN THE RAT MEDIAL PREFRONTAL CORTEX. INHALANTS CONTAINING THE VOLATILE SOLVENT TOLUENE ARE MISUSED TO INDUCE EUPHORIA OR INTOXICATION. INHALANT ABUSE IS MOST COMMON DURING ADOLESCENCE AND CAN RESULT IN COGNITIVE IMPAIRMENTS DURING AN IMPORTANT MATURATIONAL PERIOD. DESPITE EVIDENCE SUGGESTING THAT EPIGENETIC MODIFICATIONS MAY UNDERPIN THE COGNITIVE EFFECTS OF INHALANTS, NO STUDIES TO DATE HAVE THOROUGHLY INVESTIGATED TOLUENE-INDUCED REGULATION OF THE TRANSCRIPTOME OR DISCRETE EPIGENETIC MODIFICATIONS WITHIN THE BRAIN. TO ADDRESS THIS, WE INVESTIGATED EFFECTS OF ADOLESCENT CHRONIC INTERMITTENT TOLUENE (CIT) INHALATION ON GENE EXPRESSION AND DNA METHYLATION PROFILES WITHIN THE RAT MEDIAL PREFRONTAL CORTEX (MPFC), WHICH UNDERGOES MATURATION THROUGHOUT ADOLESCENCE AND HAS BEEN IMPLICATED IN TOLUENE-INDUCED COGNITIVE DEFICITS. EMPLOYING BOTH RNA-SEQ AND GENOME-WIDE METHYL CPG BINDING DOMAIN (MBD) ULTRA-SEQ ANALYSIS, WE DEMONSTRATE THAT ADOLESCENT CIT INHALATION (10 000 PPM FOR 1 H/DAY, 3 DAYS/WEEK FOR 4 WEEKS) INDUCES BOTH TRANSIENT AND PERSISTENT CHANGES TO THE TRANSCRIPTOME AND DNA METHYLOME WITHIN THE RAT MPFC FOR AT LEAST 2 WEEKS FOLLOWING TOLUENE EXPOSURE. WE DEMONSTRATE FOR THE FIRST TIME THAT ADOLESCENT CIT EXPOSURE RESULTS IN DYNAMIC REGULATION OF THE MPFC TRANSCRIPTOME LIKELY RELATING TO ACUTE INFLAMMATORY RESPONSES AND PERSISTENT DEFICITS IN SYNAPTIC PLASTICITY. THESE ADAPTATIONS MAY CONTRIBUTE TO THE COGNITIVE DEFICITS ASSOCIATED WITH CHRONIC TOLUENE EXPOSURE AND PROVIDE NOVEL MOLECULAR TARGETS FOR PREVENTING LONG-TERM NEUROPHYSIOLOGICAL ABNORMALITIES FOLLOWING CHRONIC TOLUENE INHALATION. 2021 2 6477 36 TOLUENE IMPAIRS LEARNING AND MEMORY, HAS ANTINOCICEPTIVE EFFECTS, AND MODIFIES HISTONE ACETYLATION IN THE DENTATE GYRUS OF ADOLESCENT AND ADULT RATS. TOLUENE MISUSE USUALLY INITIATES AT AN EARLY AGE WHEN THE CENTRAL NERVOUS SYSTEM IS STILL IMMATURE, CAUSING DELETERIOUS EFFECTS SUCH AS COGNITIVE IMPAIRMENT. EPIGENETIC REGULATORY MECHANISMS HAVE BEEN PROPOSED TO EXPLAIN LONG-TERM CHANGES INVOLVED NOT ONLY IN MEMORY, BUT ALSO IN TOLUENE'S ACTIONS. THE AIM OF THIS STUDY WAS TO EVALUATE THE EFFECTS OF ACUTE AND CHRONIC TOLUENE EXPOSURE ON LEARNING, MEMORY AND HISTONE ACETYLATION IN THE RAT HIPPOCAMPUS DURING TWO STAGES OF LIFE: ADOLESCENCE AND YOUNG ADULTHOOD. BECAUSE THE MEMORY TESTS USED IN THIS WORK INVOLVED OBJECT EXPLORATION AND THE PERCEPTION OF A NOXIOUS STIMULUS, GENERAL ACTIVITY AND NOCICEPTION TESTS WERE ALSO CONDUCTED. ACUTE AND CHRONIC TOLUENE INHALATION IMPAIRED LEARNING, SHORT-TERM AND LONG-TERM MEMORY IN AN OBJECT-RECOGNITION TEST AND IN AN INHIBITORY AVOIDANCE TASK IN BOTH GROUPS OF AGE. THIS EFFECT WAS CONCENTRATION-DEPENDENT AND OCCURRED EVEN AT LOW TOLUENE CONCENTRATIONS (1000, 2000 PPM) THAT WERE OTHERWISE NON-EFFECTIVE. ACUTE TOLUENE INHALATION PRODUCED ANTINOCICEPTION, AND TOLERANCE TO THIS EFFECT DEVELOPED AFTER CHRONIC EXPOSURE. HISTONE ACETYLATION IN THE DENTATE GYRUS SHOWED DIFFERENCES DEPENDING ON THE HISTONE, TREATMENT AND AGE: A SINGLE TOLUENE EXPOSURE INCREASED H4 ACETYLATION IN ADOLESCENTS AND YOUNG ADULT RATS, WHEREAS CHRONIC EXPOSURE DECREASED H3 ACETYLATION, BUT ONLY IN ADULTS. IN CONCLUSION, THIS WORK PROVIDES EVIDENCE OF TOLUENE-INDUCED IMPAIRMENT ON LEARNING, SHORT- AND LONG-TERM MEMORY IN ADOLESCENT AND YOUNG ADULT RATS, AND SHOWS THAT EVEN A SINGLE TOLUENE EXPOSURE CAN INDUCE EPIGENETIC MODIFICATIONS IN THE RAT HIPPOCAMPUS. 2012 3 5444 44 REPEATED TOLUENE EXPOSURE MODIFIES THE ACETYLATION PATTERN OF HISTONES H3 AND H4 IN THE RAT BRAIN. TOLUENE IS A VOLATILE ORGANIC SOLVENT WITH ADDICTIVE POTENTIAL THAT EXHIBITS SIMILARITIES IN ITS PHYSIOLOGICAL EFFECTS AND MODES OF ACTION TO OTHER ADDICTIVE DRUGS. DESPITE ITS WIDESPREAD ABUSE, THE MOLECULAR MECHANISMS DRIVING THE RESPONSE AND ADAPTATION OF THE ORGANISM TO THIS DRUG ARE NOT FULLY UNDERSTOOD. IN RECENT YEARS, DIFFERENT EPIGENETIC MECHANISMS THAT MODULATE GENE EXPRESSION HAVE BEEN SHOWN TO BE ASSOCIATED TO COCAINE, AMPHETAMINE AND ALCOHOL MISUSE-INDUCED ALTERATIONS IN NEURONAL FUNCTION. FOR EXAMPLE, IT HAS BEEN DEMONSTRATED THAT DRUG CONSUMPTION INDUCES VARIATIONS IN HISTONE ACETYLATION LEVELS IN BRAIN REWARD REGIONS AND THESE PLAY A RELEVANT ROLE ON THE ABUSE-ASSOCIATED BEHAVIORAL PLASTICITY. IN ORDER TO DECIPHER WHETHER REPEATED TOLUENE EXPOSURE COULD MEDIATE EPIGENETIC CHANGES IN THE RAT BRAIN, WE HERE ANALYZED THE ACETYLATION PATTERN OF HISTONES H3 AND H4 IN THREE BRAIN AREAS THAT HAVE BEEN PREVIOUSLY ASSOCIATED TO SUBSTANCE ABUSE REWARD PATHWAYS: THE NUCLEUS ACCUMBENS (NAC), THE VENTRAL TEGMENTAL AREA (VTA) AND THE CENTRAL AMYGDALA (CEA). USING IMMUNOFLUORESCENCE ANALYSIS OF BRAIN SECTIONS WITH SPECIFIC ANTIBODIES THAT RECOGNIZE THE ACETYLATED FORMS OF HISTONES H3 AND H4, WE DEMONSTRATE THAT CHRONIC TOLUENE INHALATION DIFFERENTIALLY MODIFIES HISTONE H3 AND H4 ACETYLATION IN THE NAC AND THE VTA WHILE NO EFFECT IS OBSERVED IN THE CEA. OUR RESULTS SUGGEST THAT THE ACTIVITY OF CHROMATIN-MODIFYING ENZYMES SUCH AS HISTONE DE-ACETYLASES (HDACS) IN CERTAIN BRAIN AREAS ARE RESPONSIVE TO TOLUENE INHALATION AND MIGHT BE CRUCIAL MEDIATORS IN THE ADDICTIVE RESPONSE TO TOLUENE. 2011 4 1808 40 EFFECTS OF ADOLESCENT SOCIAL STRESS AND ANTIDEPRESSANT TREATMENT ON COGNITIVE INFLEXIBILITY AND BDNF EPIGENETIC MODIFICATIONS IN THE MPFC OF ADULT MICE. ADOLESCENT SOCIAL STRESS (ASS) CAN INCREASE SUSCEPTIBILITY TO DEPRESSION IN ADULTHOOD. HOWEVER, THE UNDERLYING PSYCHOLOGICAL AND NEURAL MECHANISMS REMAIN UNCLEAR. CORTICALLY MEDIATED COGNITIVE DYSFUNCTIONS ARE INCREASINGLY RECOGNIZED AS AN INDEPENDENT AND IMPORTANT RISK FACTOR OF DEPRESSION. USING SOCIAL DEFEAT STRESS, A CLASSICAL ANIMAL MODEL OF DEPRESSION, OUR PREVIOUS STUDIES FOUND THAT MICE SUBJECTED TO THIS FORM OF STRESS DURING EARLY ADOLESCENCE DISPLAYED COGNITIVE INFLEXIBILITY (CI) IN ADULTHOOD. THIS CHANGE WAS ACCOMPANIED BY A DOWN-REGULATION OF BDNF GENE EXPRESSION IN THE MEDIAL PREFRONTAL CORTEX (MPFC); THIS GENE ENCODES A KEY MOLECULE INVOLVED IN DEPRESSION AND ANTIDEPRESSANT ACTION. IN THE PRESENT PAPER, WE IDENTIFIED EPIGENETIC MODIFICATION OF BDNF AS A POSSIBLE MECHANISM UNDERLYING THE BEHAVIORAL AND MOLECULAR CHANGES. ASS INDUCED A SET OF DEPRESSIVE PHENOTYPES, INCLUDING INCREASED SOCIAL AVOIDANCE AND CI, AS WELL AS REDUCED LEVELS OF TOTAL BDNF AND ISOFORM IV BUT NOT ISOFORM I OR VI TRANSCRIPTS IN THE MPFC. IN PARALLEL WITH CHANGES IN BDNF GENE EXPRESSION, PREVIOUSLY STRESSED ADULT MICE SHOWED INCREASED LEVELS OF DIMETHYLATION OF HISTONE H3 AT LYSINE K9 (H3K9ME2) IMMEDIATELY DOWNSTREAM OF THE BDNF IV PROMOTER. ON THE OTHER HAND, NO DIFFERENCES WERE FOUND IN TRIMETHYLATION OF HISTONE H3 AT LYSINE K4 (H3K4ME3) OR IN ACETYLATION OF HISTONE H3 AT LYSINE K9 (H3K9AC) OR AT K4 (H3K4AC) IN THE BDNF IV PROMOTER. LIKEWISE, NO ALTERATIONS WERE FOUND IN DNA METHYLATION OF THE BDNF IV PROMOTER. ADDITIONALLY, TREATMENT WITH THE CHRONIC ANTIDEPRESSANT TRANYLCYPROMINE REVERSED BDNF EPIGENETIC CHANGES AND RELATED GENE TRANSCRIPTION WHILE ALSO REVERSING CI, BUT NOT SOCIAL AVOIDANCE, IN PREVIOUSLY STRESSED ADULT MICE. THESE RESULTS SUGGEST THAT EPIGENETIC CHANGES TO THE BDNF GENE IN THE MPFC AFTER ADOLESCENT SOCIAL ADVERSITY MAY BE INVOLVED IN THE REGULATION OF COGNITIVE DYSFUNCTION IN DEPRESSION AND ANTIDEPRESSANT ACTION IN ADULTHOOD. 2018 5 993 43 CHRONIC STRESS INDUCES PERSISTENT CHANGES IN GLOBAL DNA METHYLATION AND GENE EXPRESSION IN THE MEDIAL PREFRONTAL CORTEX, ORBITOFRONTAL CORTEX, AND HIPPOCAMPUS. CHRONIC STRESS IS ASSOCIATED WITH A PLETHORA OF COGNITIVE SYMPTOMS SUCH AS EMOTIONAL DYSREGULATION AND IMPAIRED EXECUTIVE FUNCTION THAT HAVE BEEN ATTRIBUTED TO MODIFICATIONS IN NEUROANATOMY IN THE ORBITOFRONTAL CORTEX (OFC), MEDIAL PREFRONTAL CORTEX (MPFC), AND HIPPOCAMPUS (HPC). WHILE MANY STUDIES HAVE EXAMINED STRESS-INDUCED CHANGES IN NEURONAL MORPHOLOGY, SYNAPTIC PLASTICITY, AND CELLULAR FUNCTION, THERE HAS BEEN LITTLE INVESTIGATION INTO PERSISTENT CHANGES IN GENE EXPRESSION THAT MAY BE RESPONSIBLE FOR THE MAINTENANCE OF THESE CHANGES. THIS STUDY EXPOSED ADULT RATS TO A CHRONIC STRESSOR AND THEN EXAMINED CHANGES IN MRNA GENE EXPRESSION IN THE OFC, MPFC AND HPC FOLLOWING A TWO-WEEK WITHDRAWAL PERIOD. MRNA BIO-SEQUENCING RESULTS REVEALED SEX- AND REGION-DEPENDENT CHANGES. SURPRISINGLY THE GREATEST CHANGES IN GENE EXPRESSION WERE FOUND IN THE OFC, AND SIMILAR TO ANATOMICAL STUDIES, ANALYSIS OF GENE CHANGES WITH INGENUITY PATHWAY ANALYSIS SOFTWARE DEMONSTRATED THAT THE MPFC AND OFC EXHIBITED CONTRASTING ACTIVATION OF CANONICAL PATHWAYS AND FUNCTIONAL NETWORKS. THE HPC DEMONSTRATED THE LARGEST DEGREE OF SEX-DEPENDENT CHANGE IN GENE EXPRESSION. IN GENERAL, CHRONIC STRESS INDUCED PERSISTENT CHANGES IN GENE EXPRESSION IN THE THREE BRAIN REGIONS WE EXAMINED AND THESE CHANGES COULD BE ASSOCIATED WITH THE COMMONLY REPORTED COGNITIVE SYMPTOMS. THE CURRENT STUDY HIGHLIGHTS THE REGION- AND SEX-DEPENDENT NATURE OF THE BRAIN'S RESPONSE TO CHRONIC STRESS AND THE DIFFICULTY WE FACE WHEN ATTEMPTING TO DEVELOP TREATMENT OPTIONS. 2016 6 586 29 BEHAVIOURAL AND EPIGENETIC EFFECTS OF PATERNAL EXPOSURE TO CANNABINOIDS DURING ADOLESCENCE ON OFFSPRING VULNERABILITY TO STRESS. CHRONIC CANNABINOID EXPOSURE DURING ADOLESCENCE IN MALE RATS INDUCES CHRONIC COGNITIVE AND EMOTIONAL IMPAIRMENTS. HOWEVER, THE IMPACT OF THIS FORM OF EXPOSURE ON OFFSPRING VULNERABILITY TO STRESS IS UNKNOWN. THE AIM OF THIS STUDY WAS TO EVALUATE THE BEHAVIOURAL AND EPIGENETIC EFFECTS OF STRESS IN THE OFFSPRING OF MALE RATS WHOSE FATHERS WERE EXPOSED TO CANNABINOIDS DURING ADOLESCENCE. MALE ADOLESCENT OFFSPRING OF WIN55,212-2 (1.2 MG/KG) TREATED RATS WERE EXPOSED DURING ONE WEEK TO VARIABLE STRESSORS AND SUBJECTED TO BEHAVIOURAL TESTS OF ANXIETY AND EPISODIC-LIKE MEMORY, FOLLOWED BY AN ASSESSMENT OF GLOBAL DNA METHYLATION AND EXPRESSION OF DNA METHYLTRANSFERASES ENZYMES DNMT1 AND DNMT3A MRNA IN THE PREFRONTAL CORTEX. STRESS EXPOSURE INDUCED A SIGNIFICANT ANXIOGENIC-LIKE EFFECT BUT DID NOT AFFECT THE EPISODIC-LIKE MEMORY IN THE OFFSPRING OF WIN55,212-2 EXPOSED FATHERS IN COMPARISON TO THE OFFSPRING OF NON-EXPOSED FATHERS. THESE BEHAVIOURAL CHANGES WERE SUBSEQUENT TO A SIGNIFICANT INCREASE IN GLOBAL DNA METHYLATION AND DNMT1 AND DNMTA3 TRANSCRIPTION IN THE PREFRONTAL CORTEX. THESE DATA SUGGEST THAT THE DELETERIOUS EFFECT OF CHRONIC EXPOSURE TO CANNABINOIDS DURING ADOLESCENCE ARE NOT LIMITED TO THE EXPOSED INDIVIDUALS BUT MAY INCREASE THE VULNERABILITY TO STRESS-INDUCED ANXIETY IN THE OFFSPRING AND ALTER THEIR EPIGENETIC PROGRAMMING. 2019 7 989 28 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 8 3042 40 GENOME-WIDE ALTERATION OF HISTONE METHYLATION PROFILES ASSOCIATED WITH COGNITIVE CHANGES IN RESPONSE TO DEVELOPMENTAL ARSENIC EXPOSURE IN MICE. INORGANIC ARSENIC IS A XENOBIOTIC ENTERING THE BODY PRIMARILY THROUGH CONTAMINATED DRINKING WATER AND FOOD. THERE ARE DEFINED MECHANISMS THAT DESCRIBE ARSENIC'S ASSOCIATION WITH INCREASED CANCER INCIDENCE, HOWEVER MECHANISMS EXPLAINING ARSENIC EXPOSURE AND NEURODEVELOPMENTAL OR AGING DISORDERS ARE POORLY DEFINED. IN RECENT YEARS, ARSENIC EFFECTS ON EPIGENOME HAVE BECOME A PARTICULAR FOCUS. WE HYPOTHESIZE THAT HUMAN RELEVANT ARSENIC EXPOSURE DURING PARTICULAR DEVELOPMENTAL WINDOWS, OR LONG-TERM EXPOSURE LATER IN LIFE INDUCE PATHOPHYSIOLOGICAL NEURAL CHANGES THROUGH EPIGENOMIC ALTERATIONS, IN PARTICULAR HISTONE METHYLATION PROFILE, MANIFESTING AS COGNITIVE DECLINE. C57BL/6 WILD-TYPE MICE WERE CONTINUALLY EXPOSED TO SODIUM ARSENITE (100 MICROG/L) IN DRINKING WATER PRIOR TO MATING THROUGH WEANING OF THE EXPERIMENTAL PROGENY. A SECOND COHORT OF AGED APP/PS MICE WERE CHRONICALLY EXPOSED TO THE SAME LEVEL OF ARSENIC. COGNITIVE TESTING, HISTOLOGICAL EXAMINATION OF BRAINS AND GENOME-WIDE METHYLATION LEVELS OF H3K4ME3 AND H3K27ME3 EXAMINED AFTER CHIP-SEQ WERE USED TO DETERMINE THE EFFECTS OF ARSENIC EXPOSURE. DEVELOPMENTAL ARSENIC EXPOSURE CAUSED SIGNIFICANTLY DIMINISHED COGNITION IN WILD-TYPE MICE. THE ANALYSIS OF CHIP-SEQ DATA AND EXPERIMENTS WITH MOUSE EMBRYONIC STEM CELLS DEMONSTRATED THAT EPIGENETIC CHANGES INDUCED BY ARSENIC EXPOSURE TRANSLATED INTO GENE EXPRESSION ALTERATIONS ASSOCIATED WITH NEURONAL DEVELOPMENT AND NEUROLOGICAL DISEASE. INCREASED HIPPOCAMPAL AMYLOID PLAQUES LEVELS OF APP/PS MICE AND COGNITIVE DECLINE PROVIDED EVIDENCE THAT ARSENIC EXPOSURE AGGRAVATED AN EXISTING ALZHEIMER'S DISEASE-LIKE PHENOTYPE. WE SHOW DEVELOPMENTAL ARSENIC EXPOSURE SIGNIFICANTLY IMPACTS HISTONE MODIFICATIONS IN BRAIN WHICH REMAIN PRESENT INTO ADULTHOOD AND PROVIDE A POTENTIAL MECHANISM BY WHICH DEVELOPMENTAL ARSENIC EXPOSURE INFLUENCES COGNITIVE FUNCTIONS. WE ALSO SHOW THAT HUMAN RELEVANT, CHRONIC ARSENIC EXPOSURE HAS DELETERIOUS EFFECTS ON ADULT APP/PS MICE AND EXACERBATES EXISTING ALZHEIMER'S DISEASE-LIKE SYMPTOMS. THE RESULTS DEMONSTRATE HOW DEVELOPMENTAL ARSENIC EXPOSURE IMPACTS THE BRAIN EPIGENOME, LEADING TO ALTERED GENE EXPRESSION LATER IN LIFE. 2022 9 2740 28 EXPOSURE TO EARLY LIFE STRESS RESULTS IN EPIGENETIC CHANGES IN NEUROTROPHIC FACTOR GENE EXPRESSION IN A PARKINSONIAN RAT MODEL. EARLY LIFE ADVERSITY INCREASES THE RISK OF MENTAL DISORDERS LATER IN LIFE. CHRONIC EARLY LIFE STRESS MAY ALTER NEUROTROPHIC FACTOR GENE EXPRESSION INCLUDING THOSE FOR BRAIN DERIVED NEUROTROPHIC FACTOR (BDNF) AND GLIAL CELL DERIVED NEUROTROPHIC FACTOR (GDNF) THAT ARE IMPORTANT IN NEURONAL GROWTH, SURVIVAL, AND MAINTENANCE. MATERNAL SEPARATION WAS USED IN THIS STUDY TO MODEL EARLY LIFE STRESS. FOLLOWING UNILATERAL INJECTION OF A MILD DOSE OF 6-HYDROXYDOPAMINE (6-OHDA), WE MEASURED CORTICOSTERONE (CORT) IN THE BLOOD AND STRIATUM OF STRESSED AND NONSTRESSED RATS; WE ALSO MEASURED DNA METHYLATION AND BDNF AND GDNF GENE EXPRESSION IN THE STRIATUM USING REAL TIME PCR. IN THE PRESENCE OF STRESS, WE FOUND THAT THERE WAS INCREASED CORTICOSTERONE CONCENTRATION IN BOTH BLOOD AND STRIATAL TISSUE. FURTHER TO THIS, WE FOUND HIGHER DNA METHYLATION AND DECREASED NEUROTROPHIC FACTOR GENE EXPRESSION. 6-OHDA LESION INCREASED NEUROTROPHIC FACTOR GENE EXPRESSION IN BOTH STRESSED AND NONSTRESSED RATS BUT THIS INCREASE WAS HIGHER IN THE NONSTRESSED RATS. OUR RESULTS SUGGEST THAT EXPOSURE TO EARLY POSTNATAL STRESS INCREASES CORTICOSTERONE CONCENTRATION WHICH LEADS TO INCREASED DNA METHYLATION. THIS EFFECT RESULTS IN DECREASED BDNF AND GDNF GENE EXPRESSION IN THE STRIATUM LEADING TO DECREASED PROTECTION AGAINST SUBSEQUENT INSULTS LATER IN LIFE. 2016 10 377 43 AN EPIGENETIC HYPOTHESIS FOR THE GENOMIC MEMORY OF PAIN. CHRONIC PAIN IS ACCOMPANIED WITH LONG-TERM SENSORY, AFFECTIVE AND COGNITIVE DISTURBANCES. WHAT ARE THE MECHANISMS THAT MEDIATE THE LONG-TERM CONSEQUENCES OF PAINFUL EXPERIENCES AND EMBED THEM IN THE GENOME? WE HYPOTHESIZE THAT ALTERATIONS IN DNA METHYLATION, AN ENZYMATIC COVALENT MODIFICATION OF CYTOSINE BASES IN DNA, SERVE AS A "GENOMIC" MEMORY OF PAIN IN THE ADULT CORTEX. DNA METHYLATION IS AN EPIGENETIC MECHANISM FOR LONG-TERM REGULATION OF GENE EXPRESSION. NEURONAL PLASTICITY AT THE NEUROANATOMICAL, FUNCTIONAL, MORPHOLOGICAL, PHYSIOLOGICAL AND MOLECULAR LEVELS HAS BEEN DEMONSTRATED THROUGHOUT THE NEUROAXIS IN RESPONSE TO PERSISTENT PAIN, INCLUDING IN THE ADULT PREFRONTAL CORTEX (PFC). WE HAVE PREVIOUSLY REPORTED WIDESPREAD CHANGES IN GENE EXPRESSION AND DNA METHYLATION IN THE PFC MANY MONTHS FOLLOWING PERIPHERAL NERVE INJURY. IN SUPPORT OF THIS HYPOTHESIS, WE SHOW HERE THAT UP-REGULATION OF A GENE INVOLVED WITH SYNAPTIC FUNCTION, SYNAPTOTAGMIN II (SYT2), IN THE PFC IN A CHRONIC PAIN MODEL IS ASSOCIATED WITH LONG-TERM CHANGES IN DNA METHYLATION. THE CHALLENGES OF UNDERSTANDING THE CONTRIBUTIONS OF EPIGENETIC MECHANISMS SUCH AS DNA METHYLATION WITHIN THE PFC TO PAIN CHRONICITY AND THEIR THERAPEUTIC IMPLICATIONS ARE DISCUSSED. 2015 11 5199 40 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 12 5750 34 SOCIAL DEFEAT STRESS IN ADULT MICE CAUSES ALTERATIONS IN GENE EXPRESSION, ALTERNATIVE SPLICING, AND THE EPIGENETIC LANDSCAPE OF H3K4ME3 IN THE PREFRONTAL CORTEX: AN IMPACT OF EARLY-LIFE STRESS. CHRONIC STRESS IS THE LEADING RISK FACTOR OF A BROAD RANGE OF SEVERE PSYCHOPATHOLOGIES. NONETHELESS, THE MOLECULAR MECHANISMS TRIGGERING THESE PATHOLOGICAL PROCESSES ARE NOT WELL UNDERSTOOD. IN OUR STUDY, WE INVESTIGATED THE EFFECTS OF 15-DAY SOCIAL DEFEAT STRESS (SDS) ON THE GENOME-WIDE LANDSCAPE OF TRIMETHYLATION AT THE 4TH LYSINE RESIDUE OF HISTONE H3 (H3K4ME3) AND ON THE TRANSCRIPTOME IN THE PREFRONTAL CORTEX OF MICE THAT WERE REARED NORMALLY (GROUP SDS) OR SUBJECTED TO MATERNAL SEPARATION EARLY IN LIFE (GROUP MS+SDS). THE MICE WITH THE HISTORY OF STRESS EARLY IN LIFE SHOWED INCREASED SUSCEPTIBILITY TO SDS IN ADULTHOOD AND DEMONSTRATED LONG-LASTING GENOME-WIDE ALTERATIONS IN GENE EXPRESSION AND SPLICING AS WELL AS IN THE H3K4ME3 EPIGENETIC LANDSCAPE IN THE PREFRONTAL CORTEX. THUS, THE HIGH-THROUGHPUT TECHNIQUES APPLIED HERE ALLOWED US TO SIMULTANEOUSLY DETECT, FOR THE FIRST TIME, GENOME-WIDE EPIGENETIC AND TRANSCRIPTIONAL CHANGES IN THE MURINE PREFRONTAL CORTEX THAT ARE ASSOCIATED WITH BOTH CHRONIC SDS AND INCREASED SUSCEPTIBILITY TO THIS STRESSOR. 2021 13 5007 36 PERIPHERAL NERVE INJURY IS ASSOCIATED WITH CHRONIC, REVERSIBLE CHANGES IN GLOBAL DNA METHYLATION IN THE MOUSE PREFRONTAL CORTEX. CHANGES IN BRAIN STRUCTURE AND CORTICAL FUNCTION ARE ASSOCIATED WITH MANY CHRONIC PAIN CONDITIONS INCLUDING LOW BACK PAIN AND FIBROMYALGIA. THE MAGNITUDE OF THESE CHANGES CORRELATES WITH THE DURATION AND/OR THE INTENSITY OF CHRONIC PAIN. MOST STUDIES REPORT CHANGES IN COMMON AREAS INVOLVED IN PAIN MODULATION, INCLUDING THE PREFRONTAL CORTEX (PFC), AND PAIN-RELATED PATHOLOGICAL CHANGES IN THE PFC CAN BE REVERSED WITH EFFECTIVE TREATMENT. WHILE THE MECHANISMS UNDERLYING THESE CHANGES ARE UNKNOWN, THEY MUST BE DYNAMICALLY REGULATED. EPIGENETIC MODULATION OF GENE EXPRESSION IN RESPONSE TO EXPERIENCE AND ENVIRONMENT IS REVERSIBLE AND DYNAMIC. EPIGENETIC MODULATION BY DNA METHYLATION IS ASSOCIATED WITH ABNORMAL BEHAVIOR AND PATHOLOGICAL GENE EXPRESSION IN THE CENTRAL NERVOUS SYSTEM. DNA METHYLATION MIGHT ALSO BE INVOLVED IN MEDIATING THE PATHOLOGIES ASSOCIATED WITH CHRONIC PAIN IN THE BRAIN. WE THEREFORE TESTED A) WHETHER ALTERATIONS IN DNA METHYLATION ARE FOUND IN THE BRAIN LONG AFTER CHRONIC NEUROPATHIC PAIN IS INDUCED IN THE PERIPHERY USING THE SPARED NERVE INJURY MODAL AND B) WHETHER THESE INJURY-ASSOCIATED CHANGES ARE REVERSIBLE BY INTERVENTIONS THAT REVERSE THE PATHOLOGIES ASSOCIATED WITH CHRONIC PAIN. SIX MONTHS FOLLOWING PERIPHERAL NERVE INJURY, ABNORMAL SENSORY THRESHOLDS AND INCREASED ANXIETY WERE ACCOMPANIED BY DECREASED GLOBAL METHYLATION IN THE PFC AND THE AMYGDALA BUT NOT IN THE VISUAL CORTEX OR THE THALAMUS. ENVIRONMENTAL ENRICHMENT ATTENUATED NERVE INJURY-INDUCED HYPERSENSITIVITY AND REVERSED THE CHANGES IN GLOBAL PFC METHYLATION. FURTHERMORE, GLOBAL PFC METHYLATION CORRELATED WITH MECHANICAL AND THERMAL SENSITIVITY IN NEUROPATHIC MICE. IN SUMMARY, INDUCTION OF CHRONIC PAIN BY PERIPHERAL NERVE INJURY IS ASSOCIATED WITH EPIGENETIC CHANGES IN THE BRAIN. THESE CHANGES ARE DETECTED LONG AFTER THE ORIGINAL INJURY, AT A LONG DISTANCE FROM THE SITE OF INJURY AND ARE REVERSIBLE WITH ENVIRONMENTAL MANIPULATION. CHANGES IN BRAIN STRUCTURE AND CORTICAL FUNCTION THAT ARE ASSOCIATED WITH CHRONIC PAIN CONDITIONS MAY THEREFORE BE MEDIATED BY EPIGENETIC MECHANISMS. 2013 14 1418 32 DIFFERENCES IN DNA METHYLATION REPROGRAMMING UNDERLIE THE SEXUAL DIMORPHISM OF BEHAVIORAL DISORDER CAUSED BY PRENATAL STRESS IN RATS. PRENATAL STRESS (PS) CAN LEAD TO NEUROENDOCRINE AND EMOTIONAL DISORDERS LATER IN ADOLESCENCE. SEXUAL DIMORPHISM IN THESE NEURODEVELOPMENTAL OUTCOMES HAVE BEEN OBSERVED; HOWEVER, THE UNDERLYING MECHANISMS ARE NOT FULLY UNDERSTOOD. TO ADDRESS THIS ISSUE, WE INVESTIGATED WHETHER THERE ARE SEX DIFFERENCES IN EPIGENETIC REPROGRAMMING IN RATS EXPOSED TO PS. PREGNANT FEMALE RATS WERE SUBJECTED TO CHRONIC RESTRAINT STRESS FROM GESTATIONAL DAY (G)12 TO G18. FROM POSTNATAL DAY (P)38 TO P45, SUBGROUPS OF OFFSPRING INCLUDING BOTH MALES AND FEMALES WERE SUBJECTED TO BEHAVIORAL TESTING AND BRAIN TISSUE SPECIMENS WERE ANALYZED BY DNA PYROSEQUENCING, WESTERN BLOTTING, AND GOLGI STAINING TO ASSESS CHANGES IN METHYLATION PATTERN OF GLUCOCORTICOID RECEPTOR (GR) GENE, EXPRESSION OF DNA METHYLTRANSFERASE (DNMT) AND DNA DEMETHYLASE, AND DENDRITE MORPHOLOGY, RESPECTIVELY. THE DNA METHYLTRANSFERASE INHIBITOR DECITABINE WAS ADMINISTERED TO RATS PRIOR TO PS TO FURTHER EVALUATE THE ROLE OF METHYLATION IN THE SEXUALLY DIMORPHIC EFFECTS OF PS. THE RESULTS SHOWED THAT PS INCREASED ANXIETY-LIKE BEHAVIOR IN OFFSPRING, ESPECIALLY IN FEMALES, WHILE DEPRESSION-LIKE BEHAVIOR WAS INCREASED IN MALE OFFSPRING COMPARED TO CONTROL LITTERMATES. THE METHYLATION PATTERN IN THE PROMOTER REGION OF THE GR GENE DIFFERED BETWEEN MALES AND FEMALES. SEX-SPECIFIC CHANGES IN THE EXPRESSION OF DNMTS (DNMT1 AND DNMT3A) AND DNA DEMETHYLASE (TET METHYLCYTOSINE DIOXYGENASE 2) WERE ALSO OBSERVED. INTERESTINGLY, DECITABINE ALLEVIATED THE BEHAVIORAL DISORDER CAUSED BY PS AND RESTORED DENDRITE DENSITY AND MORPHOLOGY IN FEMALE BUT NOT MALE RATS. THESE FINDINGS SUGGEST THAT DIFFERENT CHANGE PATTERNS OF DNMT AND DEMETHYLASE IN THE TWO SEXES AFTER PS ARE RESPONSIBLE FOR THE SEXUALLY DIMORPHISM, WHICH COULD HAVE IMPLICATIONS FOR THE CLINICAL MANAGEMENT OF STRESS-RELATED DISORDERS. 2020 15 5485 34 REVERSAL OF COCAINE-CONDITIONED PLACE PREFERENCE THROUGH METHYL SUPPLEMENTATION IN MICE: ALTERING GLOBAL DNA METHYLATION IN THE PREFRONTAL CORTEX. ANALYSIS OF GLOBAL METHYLATION IN CELLS HAS REVEALED CORRELATIONS BETWEEN OVERALL DNA METHYLATION STATUS AND SOME BIOLOGICAL STATES. RECENT STUDIES SUGGEST THAT EPIGENETIC REGULATION THROUGH DNA METHYLATION COULD BE RESPONSIBLE FOR NEUROADAPTATIONS INDUCED BY ADDICTIVE DRUGS. HOWEVER, THERE IS NO INVESTIGATION TO DETERMINE GLOBAL DNA METHYLATION STATUS FOLLOWING REPEATED EXPOSURE TO ADDICTIVE DRUGS. USING MICE CONDITIONED PLACE PREFERENCE (CPP) PROCEDURE, WE MEASURED GLOBAL DNA METHYLATION LEVEL IN THE NUCLEUS ACCUMBENS (NAC) AND THE PREFRONTAL CORTEX (PFC) ASSOCIATED WITH DRUG REWARDING EFFECTS. WE FOUND THAT COCAINE-, BUT NOT MORPHINE- OR FOOD-CPP TRAINING DECREASED GLOBAL DNA METHYLATION IN THE PFC. CHRONIC TREATMENT WITH METHIONINE, A METHYL DONOR, FOR 25 CONSECUTIVE DAYS PRIOR TO AND DURING CPP TRAINING INHIBITED THE ESTABLISHMENT OF COCAINE, BUT NOT MORPHINE OR FOOD CPP. WE ALSO FOUND THAT BOTH MRNA AND PROTEIN LEVEL OF DNMT (DNA METHYTRANSFERASE) 3B IN THE PFC WERE DOWNREGULATED FOLLOWING THE ESTABLISHMENT OF COCAINE CPP, AND THE DOWNREGULATION COULD BE REVERSED BY REPEATED ADMINISTRATION OF METHIONINE. OUR STUDY INDICATES A CRUCIAL ROLE OF GLOBAL PFC DNA HYPOMETHYLATION IN THE REWARDING EFFECTS OF COCAINE. REVERSAL OF GLOBAL DNA HYPOMETHYLATION COULD SIGNIFICANTLY ATTENUATE THE REWARDING EFFECTS INDUCED BY COCAINE. OUR RESULTS SUGGEST THAT METHIONINE MAY HAVE BECOME A POTENTIAL THERAPEUTIC TARGET TO TREAT COCAINE ADDICTION. 2012 16 1004 34 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 17 1466 24 DISTINCT ACTIONS OF ANCESTRAL VINCLOZOLIN AND JUVENILE STRESS ON NEURAL GENE EXPRESSION IN THE MALE RAT. EXPOSURE TO THE ENDOCRINE DISRUPTING CHEMICAL VINCLOZOLIN DURING GESTATION OF AN F0 GENERATION AND/OR CHRONIC RESTRAINT STRESS DURING ADOLESCENCE OF THE F3 DESCENDANTS AFFECTS BEHAVIOR, PHYSIOLOGY, AND GENE EXPRESSION IN THE BRAIN. GENES RELATED TO THE NETWORKS OF GROWTH FACTORS, SIGNALING PEPTIDES, AND RECEPTORS, STEROID HORMONE RECEPTORS AND ENZYMES, AND EPIGENETIC RELATED FACTORS WERE MEASURED USING QUANTITATIVE POLYMERASE CHAIN REACTION VIA TAQMAN LOW DENSITY ARRAYS TARGETING 48 GENES IN THE CENTRAL AMYGDALOID NUCLEUS, MEDIAL AMYGDALOID NUCLEUS, MEDIAL PREOPTIC AREA (MPOA), LATERAL HYPOTHALAMUS (LH), AND THE VENTROMEDIAL NUCLEUS OF THE HYPOTHALAMUS. WE FOUND THAT GROWTH FACTORS ARE PARTICULARLY VULNERABLE TO ANCESTRAL EXPOSURE IN THE CENTRAL AND MEDIAL AMYGDALA; RESTRAINT STRESS DURING ADOLESCENCE AFFECTED NEURAL GROWTH FACTORS IN THE MEDIAL AMYGDALA. SIGNALING PEPTIDES WERE AFFECTED BY BOTH ANCESTRAL EXPOSURE AND STRESS DURING ADOLESCENCE PRIMARILY IN HYPOTHALAMIC NUCLEI. STEROID HORMONE RECEPTORS AND ENZYMES WERE STRONGLY AFFECTED BY RESTRAINT STRESS IN THE MPOA. EPIGENETIC RELATED GENES WERE AFFECTED BY STRESS IN THE VENTROMEDIAL NUCLEUS AND BY BOTH ANCESTRAL EXPOSURE AND STRESS DURING ADOLESCENCE INDEPENDENTLY IN THE CENTRAL AMYGDALA. IT IS NOTEWORTHY THAT THE LH SHOWED NO EFFECTS OF EITHER MANIPULATION. GENE EXPRESSION IS DISCUSSED IN THE CONTEXT OF BEHAVIORAL AND PHYSIOLOGICAL MEASURES PREVIOUSLY PUBLISHED. 2015 18 6427 42 THE TRANSITION FROM ACUTE TO CHRONIC PAIN: DYNAMIC EPIGENETIC REPROGRAMMING OF THE MOUSE PREFRONTAL CORTEX UP TO 1 YEAR AFTER NERVE INJURY. CHRONIC PAIN IS ASSOCIATED WITH PERSISTENT STRUCTURAL AND FUNCTIONAL CHANGES THROUGHOUT THE NEUROAXIS, INCLUDING IN THE PREFRONTAL CORTEX (PFC). THE PFC IS IMPORTANT IN THE INTEGRATION OF SENSORY, COGNITIVE, AND EMOTIONAL INFORMATION AND IN CONDITIONED PAIN MODULATION. WE PREVIOUSLY REPORTED WIDESPREAD EPIGENETIC REPROGRAMMING IN THE PFC MANY MONTHS AFTER NERVE INJURY IN RODENTS. EPIGENETIC MODIFICATIONS, INCLUDING DNA METHYLATION, CAN DRIVE CHANGES IN GENE EXPRESSION WITHOUT MODIFYING DNA SEQUENCES. TO DATE, LITTLE IS KNOWN ABOUT EPIGENETIC DYSREGULATION AT THE ONSET OF ACUTE PAIN OR HOW IT PROGRESSES AS PAIN TRANSITIONS FROM ACUTE TO CHRONIC. WE HYPOTHESIZE THAT ACUTE PAIN AFTER INJURY RESULTS IN RAPID AND PERSISTENT EPIGENETIC REMODELLING IN THE PFC THAT EVOLVES AS PAIN BECOMES CHRONIC. WE FURTHER PROPOSE THAT UNDERSTANDING EPIGENETIC REMODELLING WILL PROVIDE INSIGHTS INTO THE MECHANISMS DRIVING PAIN-RELATED CHANGES IN THE BRAIN. EPIGENOME-WIDE ANALYSIS WAS PERFORMED IN THE MOUSE PFC 1 DAY, 2 WEEKS, 6 MONTHS, AND 1 YEAR AFTER PERIPHERAL INJURY USING THE SPARED NERVE INJURY IN MICE. SPARED NERVE INJURY RESULTED IN RAPID AND PERSISTENT CHANGES IN DNA METHYLATION, WITH ROBUST DIFFERENTIAL METHYLATION OBSERVED BETWEEN SPARED NERVE INJURY AND SHAM-OPERATED CONTROL MICE AT ALL TIME POINTS. HUNDREDS OF DIFFERENTIALLY METHYLATED GENES WERE IDENTIFIED, INCLUDING MANY WITH KNOWN FUNCTION IN PAIN. PATHWAY ANALYSIS REVEALED ENRICHMENT IN GENES RELATED TO STIMULUS RESPONSE AT EARLY TIME POINTS, IMMUNE FUNCTION AT LATER TIME POINTS, AND ACTIN AND CYTOSKELETAL REGULATION THROUGHOUT THE TIME COURSE. THESE RESULTS EMPHASIZE THE IMPORTANCE OF CONSIDERING PAIN CHRONICITY IN BOTH PAIN RESEARCH AND IN TREATMENT OPTIMIZATION. 2020 19 5019 36 PERSISTENT INFLAMMATORY PAIN IS LINKED WITH ANXIETY-LIKE BEHAVIORS, INCREASED BLOOD CORTICOSTERONE, AND REDUCED GLOBAL DNA METHYLATION IN THE RAT AMYGDALA. CHRONIC PAIN INCREASES THE RISK OF DEVELOPING ANXIETY, WITH LIMBIC AREAS BEING LIKELY NEUROLOGICAL SUBSTRATES. DESPITE HIGH CLINICAL RELEVANCE, LITTLE IS KNOWN ABOUT THE PRECISE BEHAVIORAL, HORMONAL, AND BRAIN NEUROPLASTIC CORRELATES OF ANXIETY IN THE CONTEXT OF PERSISTENT PAIN. PREVIOUS STUDIES HAVE SHOWN THAT DECREASED NOCICEPTIVE THRESHOLDS IN CHRONIC PAIN MODELS ARE PARALLELED BY ANXIETY-LIKE BEHAVIOR IN RATS, BUT THERE ARE CONFLICTING IDEAS REGARDING ITS EFFECTS ON THE STRESS RESPONSE AND CIRCULATING CORTICOSTERONE LEVELS. EVEN LESS IS KNOWN ABOUT THE MOLECULAR MECHANISMS THROUGH WHICH THE BRAIN ENCODES PAIN-RELATED ANXIETY. THIS STUDY EXAMINES HOW PERSISTENT INFLAMMATORY PAIN IN A RAT MODEL WOULD IMPACT ANXIETY-LIKE BEHAVIORS AND CORTICOSTERONE RELEASE, AND WHETHER THESE CHANGES WOULD BE REFLECTED IN LEVELS OF GLOBAL DNA METHYLATION IN BRAIN AREAS INVOLVED IN STRESS REGULATION. COMPLETE FREUND'S ADJUVANT (CFA) OR SALINE WAS ADMINISTERED IN THE RIGHT HINDPAW OF ADULT MALE WISTAR RATS. BEHAVIORAL TESTING INCLUDED THE MEASUREMENT OF NOCICEPTIVE THRESHOLDS (DIGITAL ANESTHESIOMETER), MOTOR FUNCTION (OPEN FIELD TEST), AND ANXIETY-LIKE BEHAVIORS (ELEVATED PLUS MAZE AND THE DARK-LIGHT BOX TEST). CORTICOSTERONE WAS MEASURED VIA RADIOIMMUNOASSAY. GLOBAL DNA METHYLATION (ENZYME IMMUNOASSAY) AS WELL AS DNMT3A LEVELS (WESTERN BLOTTING) WERE QUANTIFIED IN THE AMYGDALA, PREFRONTAL CORTEX, AND VENTRAL HIPPOCAMPUS. CFA ADMINISTRATION RESULTED IN PERSISTENT REDUCTION IN NOCICEPTIVE THRESHOLD IN THE ABSENCE OF LOCOMOTOR ABNORMALITIES. INCREASED ANXIETY-LIKE BEHAVIORS WERE OBSERVED IN THE ELEVATED PLUS MAZE AND WERE ACCOMPANIED BY INCREASED BLOOD CORTICOSTERONE LEVELS 10 DAYS AFTER PAIN INDUCTION. GLOBAL DNA METHYLATION WAS DECREASED IN THE AMYGDALA, WITH NO CHANGES IN DNMT3A ABUNDANCE IN ANY OF THE REGIONS EXAMINED. PERSISTENT INFLAMMATORY PAIN PROMOTES ANXIETY -LIKE BEHAVIORS, HPA AXIS ACTIVATION, AND EPIGENETIC REGULATION THROUGH DNA METHYLATION IN THE AMYGDALA. THESE FINDINGS DESCRIBE A MOLECULAR MECHANISM THAT LINKS PAIN AND STRESS IN A WELL-CHARACTERIZED RODENT MODEL. 2022 20 584 43 BEHAVIORAL NEUROADAPTATION TO ALCOHOL: FROM GLUCOCORTICOIDS TO HISTONE ACETYLATION. A PRIME MECHANISM THAT CONTRIBUTES TO THE DEVELOPMENT AND MAINTENANCE OF ALCOHOLISM IS THE DYSREGULATION OF THE HYPOTHALAMIC-PITUITARY-ADRENAL AXIS ACTIVITY AND THE RELEASE OF GLUCOCORTICOIDS (CORTISOL IN HUMANS AND PRIMATES, CORTICOSTERONE IN RODENTS) FROM THE ADRENAL GLANDS. IN THE BRAIN, SUSTAINED, LOCAL ELEVATION OF GLUCOCORTICOID CONCENTRATION EVEN LONG AFTER CESSATION OF CHRONIC ALCOHOL CONSUMPTION COMPROMISES FUNCTIONAL INTEGRITY OF A CIRCUIT, INCLUDING THE PREFRONTAL CORTEX (PFC), THE HIPPOCAMPUS (HPC), AND THE AMYGDALA (AMG). THESE STRUCTURES ARE IMPLICATED IN LEARNING AND MEMORY PROCESSES AS WELL AS IN ORCHESTRATING NEUROADAPTIVE RESPONSES TO STRESS AND ANXIETY RESPONSES. THUS, POTENTIATION OF ANXIETY-RELATED NEUROADAPTATION BY ALCOHOL IS CHARACTERIZED BY AN ABNORMALLY AMG HYPERACTIVITY COUPLED WITH A HYPOFUNCTION OF THE PFC AND THE HPC. THIS REVIEW DESCRIBES RESEARCH ON MOLECULAR AND EPIGENETIC MECHANISMS BY WHICH ALCOHOL CAUSES DISTINCT REGION-SPECIFIC ADAPTIVE CHANGES IN GENE EXPRESSION PATTERNS AND ULTIMATELY LEADS TO A VARIETY OF COGNITIVE AND BEHAVIORAL IMPAIRMENTS ON PREFRONTAL- AND HIPPOCAMPAL-BASED TASKS. ALCOHOL-INDUCED NEUROADAPTATIONS INVOLVE THE DYSREGULATION OF NUMEROUS SIGNALING CASCADES, LEADING TO LONG-TERM CHANGES IN TRANSCRIPTIONAL PROFILES OF GENES, THROUGH THE ACTIONS OF TRANSCRIPTION FACTORS SUCH AS [CAMP RESPONSE ELEMENT-BINDING PROTEIN (CREB)] AND CHROMATIN REMODELING DUE TO POSTTRANSLATIONAL MODIFICATIONS OF HISTONE PROTEINS. WE DESCRIBE THE ROLE OF PREFRONTAL-HPC-AMG CIRCUIT IN MEDIATING THE EFFECTS OF ACUTE AND CHRONIC ALCOHOL ON LEARNING AND MEMORY, AND REGION-SPECIFIC MOLECULAR AND EPIGENETIC MECHANISMS INVOLVED IN THIS PROCESS. THIS REVIEW FIRST DISCUSSES THE IMPORTANCE OF BRAIN REGION-SPECIFIC DYSREGULATION OF GLUCOCORTICOID CONCENTRATION IN THE DEVELOPMENT OF ALCOHOL DEPENDENCE AND DESCRIBES HOW PERSISTENTLY INCREASED GLUCOCORTICOID LEVELS IN PFC MAY BE INVOLVED IN MEDIATING WORKING MEMORY IMPAIRMENTS AND NEUROADAPTIVE CHANGES DURING WITHDRAWAL FROM CHRONIC ALCOHOL INTAKE. IT THEN HIGHLIGHTS THE ROLE OF CAMP-PKA-CREB SIGNALING CASCADE AND HISTONE ACETYLATION WITHIN THE PFC AND LIMBIC STRUCTURES IN ALCOHOL-INDUCED ANXIETY AND BEHAVIORAL IMPAIRMENTS, AND HOW AN UNDERSTANDING OF FUNCTIONAL ALTERATIONS OF THESE PATHWAYS MIGHT LEAD TO BETTER TREATMENTS FOR NEUROPSYCHIATRIC DISORDERS. 2016