1 908 135 CHRONIC EXPOSURE TO ENVIRONMENTALLY RELEVANT CONCENTRATION OF FLUORIDE IMPAIRS OSTEOBLAST'S COLLAGEN SYNTHESIS AND MATRIX MINERALIZATION: INVOLVEMENT OF EPIGENETIC REGULATION IN SKELETAL FLUOROSIS. GLOBALLY, 200 MILLION PEOPLE ARE SUFFERING FROM TOXIC MANIFESTATIONS OF FLUORIDE(F), DENTAL AND SKELETAL FLUOROSIS; UNFORTUNATELY, THERE IS NO TREATMENT. TO UNRAVEL THE PATHOGENESIS OF SKELETAL FLUOROSIS, WE ESTABLISHED FLUOROSIS MICE BY TREATING ENVIRONMENTALLY RELEVANT CONCENTRATION OF F (15 PPM NAF) THROUGH DRINKING WATER FOR 4 MONTHS. AS IN SKELETAL FLUOROSIS, LOCOMOTOR DISABILITY, CRIPPLING DEFORMITIES OCCUR AND THUS, OUR HYPOTHESIS WAS F MIGHT ADVERSELY AFFECTS COLLAGEN WHICH GIVES THE BONE TENSILE STRENGTH. THIS WORK INEVITABLY HAD TO BE CARRIED OUT ON OSTEOBLAST CELLS, RESPONSIBLE FOR SYNTHESIS, DEPOSITION, AND MINERALIZATION OF BONE MATRIX. ISOLATED OSTEOBLAST CELLS WERE CONFIRMED BY ALP ACTIVITY AND MINERALIZED NODULES FORMATION. EXPRESSION OF COLLAGEN COL1A1, COL1A2, COL1A1 WAS SIGNIFICANTLY REDUCED IN TREATED MICE. FURTHER, A STUDY REVEALED THE INVOLVEMENT OF EPIGENETIC REGULATION BY PROMOTER HYPERMETHYLATION OF COL1A1; EXPRESSIONAL ALTERATIONS OF TRANSCRIPTION FACTORS, CALCIUM CHANNELS AND OTHER GENES E.G., CBFA-1, TGF-BETA1, BMP1, SP1, SP7, NF-(K)B P65, BMP-2, BGLAP, GPRC6A AND CAV(1.2) ARE ASSOCIATED WITH IMPAIRMENT OF COLLAGEN SYNTHESIS, DEPOSITION AND DECREASED MINERALIZATION THUS, ENFEEBLING BONE HEALTH. THIS STUDY INDICATES THE POSSIBLE ASSOCIATION OF EPIGENETIC REGULATION IN SKELETAL FLUOROSIS. HOWEVER, NO ASSOCIATION WAS FOUND BETWEEN POLYMORPHISMS IN THE COL1A1 (RSAI, HINDIII) AND COL1A2 (RSAI, HINDIII) GENES WITH FLUOROSIS IN MICE. 2023 2 907 42 CHRONIC EXPOSURE TO ENVIRONMENTALLY RELEVANT CONCENTRATION OF FLUORIDE ALTERS OGG1 AND RAD51 EXPRESSIONS IN MICE: INVOLVEMENT OF EPIGENETIC REGULATION. CHRONIC EXPOSURE TO FLUORIDE (F) BEYOND THE PERMISSIBLE LIMIT (1.5 PPM) IS KNOWN TO CAUSE DETRIMENTAL HEALTH EFFECTS BY INDUCTION OF OXIDATIVE STRESS-MEDIATED DNA DAMAGE OVERPOWERING THE DNA REPAIR MACHINERY. IN THE PRESENT STUDY, WE ASSESSED F INDUCED OXIDATIVE STRESS THROUGH MONITORING BIOCHEMICAL PARAMETERS AND LOOKED INTO THE EFFECT OF CHRONIC F EXPOSURE ON TWO CRUCIAL DNA REPAIR GENES OGG1 AND RAD51 HAVING IMPORTANT ROLE AGAINST ROS INDUCED DNA DAMAGES. TO ADDRESS THIS ISSUE, WE EXPOSED SWISS ALBINO MICE TO AN ENVIRONMENTALLY RELEVANT CONCENTRATION OF FLUORIDE (15 PPM NAF) FOR 8 MONTHS. RESULTS REVEALED HISTOARCHITECTURAL DAMAGES IN LIVER, BRAIN, KIDNEY AND SPLEEN. DEPLETION OF GSH, INCREASE IN LIPID PEROXIDATION AND CATALASE ACTIVITY IN LIVER AND BRAIN CONFIRMED THE GENERATION OF OXIDATIVE STRESS. QRT-PCR RESULT SHOWED THAT EXPRESSIONS OF OGG1 AND RAD51 WERE ALTERED AFTER F EXPOSURE IN THE AFFECTED ORGANS. PROMOTER HYPERMETHYLATION WAS ASSOCIATED WITH THE DOWNREGULATION OF RAD51. F-INDUCED DNA DAMAGE AND THE COMPROMISED DNA REPAIR MACHINERY TRIGGERED INTRINSIC PATHWAY OF APOPTOSIS IN LIVER AND BRAIN. THE PRESENT STUDY INDICATES THE POSSIBLE ASSOCIATION OF EPIGENETIC REGULATION WITH F INDUCED NEUROTOXICITY. 2020 3 122 33 A SYSTEMATIC REVIEW ON FLUORIDE-INDUCED EPIGENETIC TOXICITY IN MAMMALS. FLUORIDE, ONE OF THE GLOBAL GROUNDWATER CONTAMINANTS, IS UBIQUITOUS IN OUR DAY-TO-DAY LIFE FROM VARIOUS NATURAL AND ANTHROPOGENIC SOURCES. NUMEROUS IN VITRO, IN VIVO, AND EPIDEMIOLOGICAL STUDIES ARE CONDUCTED TO UNDERSTAND THE EFFECT OF FLUORIDE ON BIOLOGICAL SYSTEMS. A LOW CONCENTRATION OF FLUORIDE IS REPORTED TO INCREASE ORAL HEALTH, WHEREAS CHRONIC EXPOSURE TO HIGHER CONCENTRATIONS CAUSES FLUORIDE TOXICITY (FLUOROSIS). IT INCLUDES DENTAL FLUOROSIS, SKELETAL FLUOROSIS, AND FLUORIDE TOXICITY IN SOFT TISSUES. THE MECHANISM OF FLUORIDE TOXICITY HAS BEEN REVIEWED EXTENSIVELY. HOWEVER, EPIGENETIC REGULATION IN FLUORIDE TOXICITY HAS NOT BEEN REVIEWED. THIS SYSTEMATIC REVIEW SUMMARIZES THE CURRENT KNOWLEDGE REGARDING FLUORIDE-INDUCED EPIGENETIC TOXICITY IN THE IN VITRO, IN VIVO, AND EPIDEMIOLOGICAL STUDIES IN MAMMALIAN SYSTEMS. WE EXAMINED FOUR DATABASES FOR THE ASSOCIATION BETWEEN EPIGENETICS AND FLUORIDE EXPOSURE. OUT OF 932 ARTICLES (AS OF 31 MARCH 2022), 39 MET OUR INCLUSION CRITERIA. MOST OF THE STUDIES FOCUSED ON DIFFERENT GENES, AND OVERALL, PRELIMINARY EVIDENCE FOR EPIGENETIC REGULATION OF FLUORIDE TOXICITY WAS IDENTIFIED. WE FURTHER HIGHLIGHT THE NEED FOR EPIGENOME STUDIES RATHER THAN CANDIDATE GENES AND PROVIDE RECOMMENDATIONS FOR FUTURE RESEARCH. OUR RESULTS INDICATE A CORRELATION BETWEEN FLUORIDE EXPOSURE AND EPIGENETIC PROCESSES. FURTHER STUDIES ARE WARRANTED TO ELUCIDATE AND CONFIRM THE MECHANISM OF EPIGENETIC ALTERATIONS MEDIATED FLUORIDE TOXICITY. 2022 4 5555 43 ROLE OF FLUORIDE INDUCED EPIGENETIC ALTERATIONS IN THE DEVELOPMENT OF SKELETAL FLUOROSIS. FLUORIDE IS AN ESSENTIAL TRACE ELEMENT REQUIRED FOR PROPER BONE AND TOOTH DEVELOPMENT. SYSTEMIC HIGH EXPOSURE TO FLUORIDE THROUGH ENVIRONMENTAL EXPOSURE (DRINKING WATER AND FOOD) MAY RESULT IN TOXICITY CAUSING A DISORDER CALLED FLUOROSIS. IN THE PRESENT STUDY, WE INVESTIGATED THE ALTERATION IN DNA METHYLATION PROFILE WITH CHRONIC EXPOSURE (30 DAYS) TO FLUORIDE (8 MG/L) AND ITS RELEVANCE IN THE DEVELOPMENT OF FLUOROSIS. WHOLE GENOME BISULFITE SEQUENCING (WGBS) WAS CARRIED OUT IN HUMAN OSTEOSARCOMA CELLS (HOS) EXPOSED TO FLUORIDE. WHOLE GENOME BISULFITE SEQUENCING (WGBS) AND FUNCTIONAL ANNOTATION OF DIFFERENTIALLY METHYLATED GENES INDICATE ALTERATIONS IN METHYLATION STATUS OF GENES INVOLVED IN BIOLOGICAL PROCESSES ASSOCIATED WITH BONE DEVELOPMENT PATHWAYS. COMBINED ANALYSIS OF PROMOTER DNA HYPER METHYLATION, STRING: FUNCTIONAL PROTEIN ASSOCIATION NETWORKS AND GENE EXPRESSION ANALYSIS REVEALED EPIGENETIC ALTERATIONS IN BMP1, METAP2, MMP11 AND BACH1 GENES, WHICH PLAYS A ROLE IN THE EXTRACELLULAR MATRIX DISASSEMBLY, COLLAGEN CATABOLIC/ORGANIZATION PROCESS, SKELETAL MORPHOGENESIS/DEVELOPMENT, OSSIFICATION AND OSTEOBLAST DEVELOPMENT. THE PRESENT STUDY SHOWS THAT FLUORIDE CAUSES PROMOTER DNA HYPERMETHYLATION IN BMP1, METAP2, MMP11 AND BACH1 GENES WITH SUBSEQUENT DOWN-REGULATION IN THEIR EXPRESSION LEVEL (RNA LEVEL). THE RESULTS IMPLIES THAT FLUORIDE INDUCED DNA HYPERMETHYLATION OF THESE GENES MAY HAMPER EXTRACELLULAR MATRIX DEPOSITION, CARTILAGE FORMATION, ANGIOGENESIS, VASCULAR SYSTEM DEVELOPMENT AND POROSITY OF BONE, THUS PROMOTE SKELETAL FLUOROSIS. 2019 5 5556 40 ROLE OF FLUORIDE INDUCED HISTONE TRIMETHYLATION IN DEVELOPMENT OF SKELETAL FLUOROSIS. CHRONIC EXPOSURE TO FLUORIDE HAS BEEN ASSOCIATED WITH THE DEVELOPMENT OF SKELETAL FLUOROSIS. LIMITED REPORTS ARE AVAILABLE ON FLUORIDE INDUCED HISTONE MODIFICATION. HOWEVER, THE ROLE OF HISTONE MODIFICATION IN THE PATHOGENESIS OF SKELETAL FLUOROSIS IS NOT INVESTIGATED. IN THE PRESENT STUDY, WE HAVE INVESTIGATED THE ROLE OF FLUORIDE INDUCED HISTONE MODIFICATION ON FLUOROSIS DEVELOPMENT USING HUMAN OSTEOSARCOMA (HOS) CELL LINE. THE EXPRESSION OF HISTONE METHYLTRANSFERASES (EHMT1 AND EHZ2) AND LEVEL OF GLOBAL HISTONE TRIMETHYLATION (H3K9 AND H3K27) HAVE BEEN ASSESSED AND OBSERVED TO BE INCREASED SIGNIFICANTLY AFTER FLUORIDE EXPOSURE (8 MG/L). EPITECT CHROMATIN IMMUNOPRECIPITATION (CHIP) QPCR ARRAY (HUMAN TGFBETA/BMP SIGNALING PATHWAY) WAS PERFORMED TO ASSESS THE H3K9 TRIMETHYLATION AT PROMOTER REGIONS OF PATHWAY-SPECIFIC GENES. H3K9 CHIP PCR ARRAY ANALYSIS IDENTIFIED HYPER H3K9 TRIMETHYLATION IN PROMOTER REGIONS OF TGFBR2 AND SMAD3. QPCR AND STRING ANALYSIS WAS CARRIED OUT TO DETERMINE THE REPRESSIVE EPIGENETIC EFFECT OF H3K9 TRIMETHYLATION ON EXPRESSION PATTERN AND FUNCTIONAL ASSOCIATION OF IDENTIFIED GENES. IDENTIFIED GENES (TGFBR2 AND SMAD3) SHOWED DOWN-REGULATION WHICH CONFIRMS THE REPRESSIVE EPIGENETIC EFFECT OF PROMOTER H3K9 HYPER TRIMETHYLATION. EXPRESSION OF TWO OTHER VITAL GENES COL1A1 AND MMP13 INVOLVED IN TGFBR2-SMAD SIGNALING PATHWAY WAS ALSO FOUND TO BE DOWN-REGULATED WITH A DECREASE IN EXPRESSION OF TGFBR2 AND SMAD3. STRING ANALYSIS REVEALED FUNCTIONAL ASSOCIATION AND INVOLVEMENT OF IDENTIFIED GENES TGFBR2, SMAD3, COL1A1 AND MMP13 IN THE COLLAGEN AND CARTILAGE DEVELOPMENT/MORPHOGENESIS, CONNECTIVE TISSUE FORMATION, BIO-MINERAL TISSUE DEVELOPMENT, ENDOCHONDRAL BONE FORMATION, BONE AND SKELETAL MORPHOGENESIS. IN CONCLUSION, PRESENT INVESTIGATION IS A FIRST ATTEMPT TO LINK FLUORIDE INDUCED HYPER H3K9 TRI-METHYLATION MEDIATED REPRESSION OF TGFBR2 AND SMAD3 WITH THE DEVELOPMENT OF SKELETAL FLUOROSIS. 2018 6 2197 23 EPIGENETIC MODIFICATION OF BDNF MEDIATES NEUROPATHIC PAIN VIA MIR-30A-3P/EP300 AXIS IN CCI RATS. RECENT INVESTIGATION OF MICRORNAS ON CHRONIC PAIN HAS DEVELOPED A BREAKTHROUGH IN NEUROPATHIC PAIN MANAGEMENT. IN THE PRESENT STUDY, DECREASED EXPRESSION OF MIR-30A-3P WAS REPORTED USING QRT-PCR ANALYSIS AND LOSS OF MIR-30A-3P PROMOTED NEUROPATHIC PAIN PROGRESSION IN SCIATIC NERVE CHRONIC CONSTRICTIVE INJURY RATS THROUGH DETERMINING THE PAIN THRESHOLD. WE PREDICTED MIR-30A-3P COULD TARGET E-CADHERIN TRANSCRIPTIONAL ACTIVATOR (EP300) VIA BIOINFORMATICS ANALYSIS. MEANWHILE, WE FOUND THAT BRAIN-DERIVED NEUROTROPHIC FACTOR (BDNF) IS INVOLVED IN NEUROPATHIC PAIN. HERE, WE EXHIBITED THAT EP300 EPIGENETICALLY UP-REGULATED BDNF VIA ENHANCING ACETYLATED HISTONE H3 AND H4 ON THE PROMOTER. FOR ANOTHER, MIR-30A-3P WAS ABLE TO MODIFY THE LEVEL OF BDNF AND ACETYLATED HISTONE H3 AND H4. LOSS OF MIR-30A-3P ENHANCED EP300 AND BDNF COLOCALIZATION IN CCI RATS. SUBSEQUENTLY, IT WAS SHOWN THAT INCREASED EP300 INDUCED NEUROPATHIC PAIN BY AN ENHANCEMENT OF NEURONAL BDNF LEVEL IN VIVO. TO SUM UP, IT WAS REVEALED THAT EPIGENETIC MODIFICATION OF BDNF PROMOTED NEUROPATHIC PAIN VIA EP300 INDUCED BY MIR-30A-3P IN CCI RATS. 2020 7 6166 20 THE GLUTATHIONE SYSTEM: A NEW DRUG TARGET IN NEUROIMMUNE DISORDERS. GLUTATHIONE (GSH) HAS A CRUCIAL ROLE IN CELLULAR SIGNALING AND ANTIOXIDANT DEFENSES EITHER BY REACTING DIRECTLY WITH REACTIVE OXYGEN OR NITROGEN SPECIES OR BY ACTING AS AN ESSENTIAL COFACTOR FOR GSH S-TRANSFERASES AND GLUTATHIONE PEROXIDASES. GSH ACTING IN CONCERT WITH ITS DEPENDENT ENZYMES, KNOWN AS THE GLUTATHIONE SYSTEM, IS RESPONSIBLE FOR THE DETOXIFICATION OF REACTIVE OXYGEN AND NITROGEN SPECIES (ROS/RNS) AND ELECTROPHILES PRODUCED BY XENOBIOTICS. ADEQUATE LEVELS OF GSH ARE ESSENTIAL FOR THE OPTIMAL FUNCTIONING OF THE IMMUNE SYSTEM IN GENERAL AND T CELL ACTIVATION AND DIFFERENTIATION IN PARTICULAR. GSH IS A UBIQUITOUS REGULATOR OF THE CELL CYCLE PER SE. GSH ALSO HAS CRUCIAL FUNCTIONS IN THE BRAIN AS AN ANTIOXIDANT, NEUROMODULATOR, NEUROTRANSMITTER, AND ENABLER OF NEURON SURVIVAL. DEPLETION OF GSH LEADS TO EXACERBATION OF DAMAGE BY OXIDATIVE AND NITROSATIVE STRESS; HYPERNITROSYLATION; INCREASED LEVELS OF PROINFLAMMATORY MEDIATORS AND INFLAMMATORY POTENTIAL; DYSFUNCTIONS OF INTRACELLULAR SIGNALING NETWORKS, E.G., P53, NUCLEAR FACTOR-KAPPAB, AND JANUS KINASES; DECREASED CELL PROLIFERATION AND DNA SYNTHESIS; INACTIVATION OF COMPLEX I OF THE ELECTRON TRANSPORT CHAIN; ACTIVATION OF CYTOCHROME C AND THE APOPTOTIC MACHINERY; BLOCKADE OF THE METHIONINE CYCLE; AND COMPROMISED EPIGENETIC REGULATION OF GENE EXPRESSION. AS SUCH, GSH DEPLETION HAS MARKED CONSEQUENCES FOR THE HOMEOSTATIC CONTROL OF THE IMMUNE SYSTEM, OXIDATIVE AND NITROSATIVE STRESS (O&NS) PATHWAYS, REGULATION OF ENERGY PRODUCTION, AND MITOCHONDRIAL SURVIVAL AS WELL. GSH DEPLETION AND CONCOMITANT INCREASE IN O&NS AND MITOCHONDRIAL DYSFUNCTIONS PLAY A ROLE IN THE PATHOPHYSIOLOGY OF DIVERSE NEUROIMMUNE DISORDERS, INCLUDING DEPRESSION, MYALGIC ENCEPHALOMYELITIS/CHRONIC FATIGUE SYNDROME AND PARKINSON'S DISEASE, SUGGESTING THAT DEPLETED GSH IS AN INTEGRAL PART OF THESE DISEASES. THERAPEUTICAL INTERVENTIONS THAT AIM TO INCREASE GSH CONCENTRATIONS IN VIVO INCLUDE N-ACETYL CYSTEINE; NRF-2 ACTIVATION VIA HYPERBARIC OXYGEN THERAPY; DIMETHYL FUMARATE; PHYTOCHEMICALS, INCLUDING CURCUMIN, RESVERATROL, AND CINNAMON; AND FOLATE SUPPLEMENTATION. 2014 8 5480 24 RESVERATROL REVERSES MORPHINE-INDUCED NEUROINFLAMMATION IN MORPHINE-TOLERANT RATS BY REVERSAL HDAC1 EXPRESSION. BACKGROUND/PURPOSE: WE PREVIOUSLY SHOWED THAT SUBSEQUENT INTRATHECAL (I.T.) INJECTION OF RESVERATROL (30 MUG) SIGNIFICANTLY REVERSES MORPHINE-EVOKED NEUROINFLAMMATION IN MORPHINE-TOLERANT RATS. THE PRESENT STUDY EXAMINED THE UNDERLYING MECHANISM. METHODS: MALE WISTAR RATS WERE IMPLANTED WITH TWO I.T. CATHETERS, ONE OF WHICH WAS CONNECTED TO A MINIOSMOTIC PUMP AND USED FOR MORPHINE (15 MUG/H) OR SALINE INFUSION FOR 120 HOURS. TO EXAMINE THE EFFECTS ON SPINAL CORD EXPRESSION OF HISTONE DEACETYLASE 1 (HDAC1), THE INFLAMMATORY CYTOKINE TUMOR NECROSIS FACTOR-ALPHA (TNF-ALPHA), AND TNF RECEPTOR (TNFR) 1 AND TNFR2 DURING TOLERANCE INDUCTION, A TAIL-FLICK TEST WAS PERFORMED PRIOR TO INFUSION AND AFTER 24 HOURS, 48 HOURS, 72 HOURS, 96 HOURS, AND 120 HOURS OF INFUSION. RESULTS: RESVERATROL TREATMENT PRIOR TO MORPHINE CHALLENGE RESTORED THE ANTINOCICEPTIVE EFFECT OF MORPHINE IN MORPHINE-TOLERANT RATS AND REVERSED THE MORPHINE INFUSION-INDUCED INCREASE IN HDAC1, TNF-ALPHA, AND TNFR1 EXPRESSION. MOREOVER, CHRONIC MORPHINE INFUSION INCREASED TNFR1-SPECIFIC EXPRESSION IN NEURON IN MORPHINE-TOLERANT RAT SPINAL CORDS, AND THIS EFFECT WAS ALMOST COMPLETELY INHIBITED BY RESVERATROL TREATMENT PRIOR TO MORPHINE CHALLENGE. CONCLUSION: RESVERATROL RESTORES THE ANTINOCICEPTIVE EFFECT OF MORPHINE BY REVERSING MORPHINE INFUSION-INDUCED SPINAL CORD NEUROINFLAMMATION AND INCREASE IN TNFR1 EXPRESSION. THE REVERSAL OF THE MORPHINE-INDUCED INCREASE IN TNFR1 EXPRESSION BY RESVERATROL IS PARTIALLY DUE TO REVERSAL OF THE MORPHINE INFUSION-INDUCED INCREASE IN HDAC1 EXPRESSION. RESVERATROL PRETREATMENT CAN BE USED AS AN ADJUVANT IN CLINICAL PAIN MANAGEMENT FOR PATIENTS WHO NEED LONG-TERM MORPHINE TREATMENT OR WITH NEUROPATHIC PAIN. 2016 9 6108 32 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 10 3999 28 LOSS OF HDAC3 RESULTS IN NONRECEPTIVE ENDOMETRIUM AND FEMALE INFERTILITY. ENDOMETRIOSIS IS A DISEASE IN WHICH TISSUE THAT NORMALLY GROWS INSIDE THE UTERUS GROWS OUTSIDE THE UTERUS AND CAUSES CHRONIC PELVIC PAIN AND INFERTILITY. HOWEVER, THE EXACT MECHANISMS OF THE PATHOGENESIS OF ENDOMETRIOSIS-ASSOCIATED INFERTILITY ARE UNKNOWN. EPIGENETIC DYSREGULATION HAS RECENTLY BEEN IMPLICATED IN INFERTILITY. HERE, WE REPORT A REDUCTION OF HISTONE DEACETYLASE 3 (HDAC3) PROTEIN AMOUNTS IN EUTOPIC ENDOMETRIUM OF INFERTILE WOMEN WITH ENDOMETRIOSIS COMPARED TO A CONTROL GROUP. TO INVESTIGATE THE EFFECT OF HDAC3 LOSS IN THE UTERUS, WE GENERATED MICE WITH CONDITIONAL ABLATION OF HDAC3 IN PROGESTERONE RECEPTOR (PGR)-POSITIVE CELLS (PGR(CRE/+)HDAC3(F/F) ; HDAC3(D/D) ). LOSS OF HDAC3 IN THE UTERUS OF MICE RESULTS IN INFERTILITY DUE TO IMPLANTATION FAILURE AND DECIDUALIZATION DEFECT. EXPRESSION MICROARRAY AND CHIP-SEQ ANALYSES IDENTIFIED COL1A1 AND COL1A2 AS DIRECT TARGETS OF HDAC3 IN BOTH MICE AND HUMANS. REDUCTION OF HDAC3 ABROGATED DECIDUALIZATION IN A PRIMARY CULTURE OF HUMAN ENDOMETRIAL STROMAL CELLS (HESCS) SIMILAR TO THAT OBSERVED IN INFERTILE PATIENTS WITH ENDOMETRIOSIS. WHEREAS ATTENUATION OF HDAC3 RESULTED IN P300 RECRUITMENT TO COL1A1 AND COL1A2 GENES IN THE UTERUS OF MICE AS WELL AS HESCS, INHIBITION OF P300 PERMITTED HESCS TO UNDERGO DECIDUALIZATION. COLLECTIVELY, WE FOUND ATTENUATION OF HDAC3 AND OVEREXPRESSION OF COLLAGEN TYPE I IN THE EUTOPIC ENDOMETRIUM OF INFERTILE PATIENTS WITH ENDOMETRIOSIS. HDAC3 LOSS CAUSED A DEFECT OF DECIDUALIZATION THROUGH THE ABERRANT TRANSCRIPTIONAL ACTIVATION OF COL1A1 AND COL1A2 GENES IN MICE AND COL1A1 AND COL1A2 GENES IN HUMANS. OUR RESULTS SUGGEST THAT HDAC3 IS CRITICAL FOR ENDOMETRIAL RECEPTIVITY AND DECIDUALIZATION. 2019 11 6612 22 ULTRA-LOW-DOSE NALOXONE ENHANCES THE ANTINOCICEPTIVE EFFECT OF MORPHINE IN PTX-TREATED RATS: REGULATION ON GLOBAL HISTONE METHYLATION. OBJECTIVE: EPIGENETIC REPROGRAMMING MAY HAVE A POSSIBLE ROLE IN NEUROPATHIC PAIN DEVELOPMENT; THE PRESENT STUDY EXAMINED THE GLOBAL PATTERNS OF LYSINE HISTONE MODIFICATION. IN THIS SERIAL STUDY WE ANALYZED THE LEVELS OF HISTONE 3 LYSINE 4 MONOMETHYLATION, HISTONE 3 LYSINE 4 DIMETHYLATION, AND HISTONE 3 LYSINE 9 TRIMETHYLATION IN PERTUSSIS TOXIN (PTX)-INDUCED THERMAL HYPERALGESIC RAT SPINAL CORDS. METHODS: MALE WISTAR RATS IMPLANTED WITH AN INTRATHECAL CATHETER RECEIVED A SINGLE INTRATHECAL PTX (1 MUG IN 5 MUL SALINE) INJECTION. FOUR DAYS LATER, THEY WERE RANDOMLY ASSIGNED TO RECEIVE EITHER A SINGLE INJECTION OF SALINE, OR ULTRA-LOW-DOSE NALOXONE (15 NG IN 5 MUL SALINE), FOLLOWED BY MORPHINE (10 MUG IN 5 MUL SALINE) INJECTION 30 MINUTES LATER. RESULTS: THE RESULTS SHOWED THAT PTX INJECTION INDUCED THERMAL HYPERALGESIA AND SIGNIFICANT INCREASE OF GLOBAL HISTONE METHYLATION IN THE SPINAL CORDS. INTRATHECAL MORPHINE ALONE DID NOT AFFECT THE THERMAL HYPERALGESIA AND GLOBAL HISTONE METHYLATION. IN CONTRAST, INTRATHECAL ADMINISTRATION OF ULTRA-LOW-DOSE NALOXONE PLUS MORPHINE SIGNIFICANTLY ATTENUATED THE PTX-INDUCED THERMAL HYPERALGESIA AND DOWN-REGULATED THE GLOBAL HISTONE METHYLATION. CONCLUSION: THE RESULTS SUGGEST THAT ULTRA-LOW-DOSE NALOXONE MIGHT BE CLINICAL VALUABLE FOR NEUROPATHIC PAIN MANAGEMENT VIA REGULATING GLOBAL HISTONE MODIFICATION. 2012 12 5191 30 PRENATAL DEXAMETHASONE EXPOSURE PROGRAMS THE DECREASED TESTOSTERONE SYNTHESIS IN OFFSPRING RATS BY LOW LEVEL OF ENDOGENOUS GLUCOCORTICOIDS. PRENATAL DEXAMETHASONE EXPOSURE (PDE) CAN DECREASE MATERNAL ENDOGENOUS GLUCOCORTICOID LEVEL AND INDUCE TESTICULAR DYSPLASIA IN MALE OFFSPRING RATS. IN THIS STUDY WE INVESTIGATED LOW LEVEL ENDOGENOUS GLUCOCORTICOID-MEDIATED TESTICULAR DYSPLASIA IN PDE OFFSPRING AND ELUCIDATED THE INTRAUTERINE EPIGENETIC PROGRAMMING MECHANISMS. PREGNANT RATS WERE INJECTED WITH DEXAMETHASONE (0.2 MG.KG(-1).D(-1), SC) ON GESTATIONAL DAY (GD) 9-20. THE OFFSPRING RAT BLOOD AND TESTIS WERE COLLECTED AFTER EUTHANASIA ON GD20, POSTNATAL WEEK (PW) 12 OR PW28. WE SHOWED THAT PDE INDUCED ABNORMAL MORPHOLOGY OF TESTIS AND SIGNIFICANTLY DECREASED THE EXPRESSION OF TESTOSTERONE SYNTHESIS-RELATED GENES AS WELL AS TESTOSTERONE PRODUCTION BEFORE AND AFTER BIRTH. MEANWHILE, SERUM CORTICOSTERONE, THE EXPRESSION AND HISTONE 3 LYSINE 14 ACETYLATION (H3K14AC) OF TESTICULAR INSULIN-LIKE GROWTH FACTOR 1 (IGF1) WERE SIGNIFICANTLY DECREASED. AFTER THE PREGNANT RATS WERE SUBJECTED TO CHRONIC STRESS FOR 2 WEEKS (PW10-12), SERUM CORTICOSTERONE LEVEL WAS INCREASED IN THE ADULT PDE OFFSPRING, AND THE ABOVE-MENTIONED OTHER INDICATORS WERE ALSO IMPROVED. CULTURED LEYDIG CELLS (TM3) WERE TREATED WITH CORTICOSTERONE (62.5-500 NM) IN VITRO. WE SHOWED THAT CORTICOSTERONE CONCENTRATION-DEPENDENTLY INHIBITED GLUCOCORTICOID RECEPTOR ALPHA (GRALPHA) AND MIR-124-3P EXPRESSION, INCREASED HISTONE DEACETYLASE 5 (HDAC5) EXPRESSION, AND DECREASED IGF1 H3K14AC LEVEL AND THE EXPRESSION OF IGF1/STEROIDOGENIC ACUTE REGULATORY PROTEIN (STAR), SUGGESTING THAT CORTICOSTERONE AT LOWER THAN PHYSIOLOGICAL LEVEL (<500 NM) INHIBITED TESTOSTERONE SYNTHESIS BY REDUCING H3K14AC AND THE EXPRESSION LEVEL OF IGF1 THROUGH GRALPHA/MIR-124-3P/HDAC5 PATHWAY. IN CONCLUSION, PDE CAN CAUSE PERSISTENT INHIBITION OF TESTOSTERONE SYNTHESIS BEFORE AND AFTER BIRTH IN THE OFFSPRING RATS BY LOW LEVEL OF ENDOGENOUS GLUCOCORTICOIDS. 2022 13 1809 22 EFFECTS OF ANTIPSYCHOTIC DRUGS ON THE EPIGENETIC MODIFICATION OF BRAIN-DERIVED NEUROTROPHIC FACTOR GENE EXPRESSION IN THE HIPPOCAMPI OF CHRONIC RESTRAINT STRESS RATS. RECENT STUDIES HAVE SHOWN THAT ANTIPSYCHOTIC DRUGS HAVE EPIGENETIC EFFECTS. HOWEVER, THE EFFECTS OF ANTIPSYCHOTIC DRUGS ON HISTONE MODIFICATION REMAIN UNCLEAR. THEREFORE, WE INVESTIGATED THE EFFECTS OF ANTIPSYCHOTIC DRUGS ON THE EPIGENETIC MODIFICATION OF THE BDNF GENE IN THE RAT HIPPOCAMPUS. RATS WERE SUBJECTED TO CHRONIC RESTRAINT STRESS (6 H/D FOR 21 D) AND THEN WERE ADMINISTERED WITH EITHER OLANZAPINE (2 MG/KG) OR HALOPERIDOL (1 MG/KG). THE LEVELS OF HISTONE H3 ACETYLATION AND MECP2 BINDING AT BDNF PROMOTER IV WERE ASSESSED WITH CHROMATIN IMMUNOPRECIPITATION ASSAYS. THE MRNA LEVELS OF TOTAL BDNF WITH EXON IV, HDAC5, DNMT1, AND DNMT3A WERE ASSESSED WITH A QUANTITATIVE RT-PCR PROCEDURE. CHRONIC RESTRAINT STRESS RESULTED IN THE DOWNREGULATION OF TOTAL AND EXON IV BDNF MRNA LEVELS AND A DECREASE IN HISTONE H3 ACETYLATION AND AN INCREASE IN MECP2 BINDING AT BDNF PROMOTER IV. FURTHERMORE, THERE WERE ROBUST INCREASES IN THE EXPRESSION OF HDAC5 AND DNMTS. OLANZAPINE ADMINISTRATION LARGELY PREVENTED THESE CHANGES. THE ADMINISTRATION OF HALOPERIDOL HAD NO EFFECT. THESE FINDINGS SUGGEST THAT THE ANTIPSYCHOTIC DRUG OLANZAPINE INDUCED HISTONE MODIFICATION OF BDNF GENE EXPRESSION IN THE HIPPOCAMPUS AND THAT THESE EPIGENETIC ALTERATIONS MAY REPRESENT ONE OF THE MECHANISMS UNDERLYING THE ACTIONS OF ANTIPSYCHOTIC DRUGS. 2018 14 1320 31 DEMETHYLATION REGULATION OF BDNF GENE EXPRESSION IN DORSAL ROOT GANGLION NEURONS IS IMPLICATED IN OPIOID-INDUCED PAIN HYPERSENSITIVITY IN RATS. REPEATED ADMINISTRATION OF MORPHINE MAY RESULT IN OPIOID-INDUCED HYPERSENSITIVITY (OIH), WHICH INVOLVES ALTERED EXPRESSION OF NUMEROUS GENES, INCLUDING BRAIN-DERIVED NEUROTROPHIC FACTOR (BDNF) IN DORSAL ROOT GANGLION (DRG) NEURONS. YET, IT REMAINS UNCLEAR HOW BDNF EXPRESSION IS INCREASED IN DRG NEURONS AFTER REPEATED MORPHINE TREATMENT. DNA METHYLATION IS AN IMPORTANT MECHANISM OF EPIGENETIC CONTROL OF GENE EXPRESSION. IN THE CURRENT STUDY, WE HYPOTHESIZED THAT THE DEMETHYLATION REGULATION OF CERTAIN BDNF GENE PROMOTERS IN DRG NEURONS MAY CONTRIBUTE TO THE DEVELOPMENT OF OIH. REAL-TIME RT-PCR WAS USED TO ASSESS CHANGES IN THE MRNA TRANSCRIPTION LEVELS OF MAJOR BDNF EXONS INCLUDING EXON I, II, IV, VI, AS WELL AS TOTAL BDNF MRNA IN DRGS FROM RATS AFTER REPEATED MORPHINE ADMINISTRATION. THE LEVELS OF EXON IV AND TOTAL BDNF MRNA WERE SIGNIFICANTLY UPREGULATED BY REPEATED MORPHINE ADMINISTRATION, AS COMPARED TO THAT IN SALINE CONTROL GROUP. FURTHER, ELISA ARRAY AND IMMUNOCYTOCHEMISTRY STUDY REVEALED A ROBUST UPREGULATION OF BDNF PROTEIN EXPRESSION IN DRG NEURONS AFTER REPEATED MORPHINE EXPOSURE. CORRESPONDINGLY, THE METHYLATION LEVELS OF BDNF EXON IV PROMOTER SHOWED A SIGNIFICANT DOWNREGULATION BY MORPHINE TREATMENT. IMPORTANTLY, INTRATHECAL ADMINISTRATION OF A BDNF ANTIBODY, BUT NOT CONTROL IGG, SIGNIFICANTLY INHIBITED MECHANICAL HYPERSENSITIVITY THAT DEVELOPED IN RATS AFTER REPEATED MORPHINE TREATMENT. CONVERSELY, INTRATHECAL ADMINISTRATION OF AN INHIBITOR OF DNA METHYLATION, 5-AZA-2'-DEOXYCYTIDINE (5-AZA-DC) MARKEDLY UPREGULATED THE BDNF PROTEIN EXPRESSION IN DRG NEURONS AND ENHANCED THE MECHANICAL ALLODYNIA AFTER REPEATED MORPHINE EXPOSURE. TOGETHER, OUR FINDINGS SUGGEST THAT DEMETHYLATION REGULATION OF BDNF GENE PROMOTER MAY BE IMPLICATED IN THE DEVELOPMENT OF OIH THROUGH EPIGENETIC CONTROL OF BDNF EXPRESSION IN DRG NEURONS. 2016 15 3437 29 HYPERGLYCEMIC MICROENVIRONMENT COMPROMISES THE HOMEOSTASIS OF COMMUNICATION BETWEEN THE BONE-BRAIN AXIS BY THE EPIGENETIC REPRESSION OF THE OSTEOCALCIN RECEPTOR, GPR158 IN THE HIPPOCAMPUS. DIABETES MELLITUS (DM) IS A CHRONIC METABOLIC DISEASE, MAINLY CHARACTERIZED BY INCREASED BLOOD GLUCOSE AND INSULIN DYSFUNCTION. IN RESPONSE TO THE PERSISTENT SYSTEMIC HYPERGLYCEMIC STATE, NUMEROUS METABOLIC AND PHYSIOLOGICAL COMPLICATIONS HAVE ALREADY BEEN WELL CHARACTERIZED. HOWEVER, ITS RELATIONSHIP TO BONE FRAGILITY, COGNITIVE DEFICITS AND INCREASED RISK OF DEMENTIA STILL NEEDS TO BE BETTER UNDERSTOOD. THE IMPACT OF CHRONIC HYPERGLYCEMIA ON BONE PHYSIOLOGY AND ARCHITECTURE WAS ASSESSED IN A MODEL OF CHRONIC HYPERGLYCEMIA INDUCED BY A SINGLE INTRAPERITONEAL ADMINISTRATION OF STREPTOZOTOCIN (STZ; 55 MG/KG) IN WISTAR RATS. IN ADDITION, THE BONE-TO-BRAIN COMMUNICATION WAS INVESTIGATED BY ANALYZING THE GENE EXPRESSION AND METHYLATION STATUS OF GENES THAT ENCODE THE MAIN OSTEOKINES RELEASED BY THE BONE [FGF23 (FIBROBLAST GROWTH FACTOR 23), BGLAP (BONE GAMMA-CARBOXYGLUTAMATE PROTEIN) AND LCN2 (LIPOCALIN 2) AND THEIR RECEPTORS IN BOTH, THE BONE AND THE BRAIN [FGFR1 (FIBROBLAST GROWTH FACTOR RECEPTOR 1), GPR6A (G-PROTEIN COUPLED RECEPTOR FAMILY C GROUP 6 MEMBER A), GPR158 (G PROTEIN-COUPLED RECEPTOR 158) AND SLC22A17 (SOLUTE CARRIER FAMILY 22 MEMBER 17)]. IT WAS OBSERVED THAT CHRONIC HYPERGLYCEMIA NEGATIVELY IMPACTED ON BONE BIOLOGY AND COMPROMISED THE BALANCE OF THE BONE-BRAIN ENDOCRINE AXIS. ULTRASTRUCTURAL DISORGANIZATION WAS ACCOMPANIED BY GLOBAL DNA HYPOMETHYLATION AND CHANGES IN GENE EXPRESSION OF DNA-MODIFYING ENZYMES THAT WERE ACCOMPANIED BY CHANGES IN THE METHYLATION STATUS OF THE OSTEOKINE PROMOTER REGION BGLAP AND LCN2 (LIPOCALIN 2) IN THE FEMUR. ADDITIONALLY, THE CHRONIC HYPERGLYCEMIC STATE WAS ACCOMPANIED BY MODULATION OF GENE EXPRESSION OF THE OSTEOKINES FGF23 (FIBROBLAST GROWTH FACTOR 23), BGLAP (BONE GAMMA-CARBOXYGLUTAMATE PROTEIN) AND LCN2 (LIPOCALIN 2) IN THE DIFFERENT BRAIN REGIONS. HOWEVER, TRANSCRIPTIONAL REGULATION MEDIATED BY DNA METHYLATION WAS OBSERVED ONLY FOR THE OSTEOKINE RECEPTORS, FGFR1(FIBROBLAST GROWTH FACTOR RECEPTOR 1) IN THE STRIATUM AND GPR158 (G PROTEIN-COUPLED RECEPTOR 158) IN THE HIPPOCAMPUS. THIS IS A PIONEER STUDY DEMONSTRATING THAT THE CHRONIC HYPERGLYCEMIC STATE COMPROMISES THE CROSSTALK BETWEEN BONE TISSUE AND THE BRAIN, MAINLY AFFECTING THE HIPPOCAMPUS, THROUGH TRANSCRIPTIONAL SILENCING OF THE BGLAP RECEPTOR BY HYPERMETHYLATION OF GPR158 GENE. 2023 16 6456 23 THYMOSIN BETA4 PREVENTS OXIDATIVE STRESS, INFLAMMATION, AND FIBROSIS IN ETHANOL- AND LPS-INDUCED LIVER INJURY IN MICE. THYMOSIN BETA 4 (TBETA4), AN ACTIN-SEQUESTERING PROTEIN, IS INVOLVED IN TISSUE DEVELOPMENT AND REGENERATION. IT PREVENTS INFLAMMATION AND FIBROSIS IN SEVERAL TISSUES. WE INVESTIGATED THE ROLE OF TBETA4 IN CHRONIC ETHANOL- AND ACUTE LIPOPOLYSACCHARIDE- (LPS-) INDUCED MOUSE LIVER INJURY. C57BL/6 MICE WERE FED 5% ETHANOL IN LIQUID DIET FOR 4 WEEKS PLUS BINGE ETHANOL (5 G/KG, GAVAGE) WITH OR WITHOUT LPS (2 MG/KG, INTRAPERITONEAL) FOR 6 HOURS. TBETA4 (1 MG/KG, INTRAPERITONEAL) WAS ADMINISTERED FOR 1 WEEK. WE DEMONSTRATED THAT TBETA4 PREVENTED ETHANOL- AND LPS-MEDIATED INCREASE IN LIVER INJURY MARKERS AS WELL AS CHANGES IN LIVER PATHOLOGY. IT ALSO PREVENTED ETHANOL- AND LPS-MEDIATED INCREASE IN OXIDATIVE STRESS BY DECREASING ROS AND LIPID PEROXIDATION AND INCREASING THE ANTIOXIDANTS, REDUCED GLUTATHIONE AND MANGANESE-DEPENDENT SUPEROXIDE DISMUTASE. IT ALSO PREVENTED THE ACTIVATION OF NUCLEAR FACTOR KAPPA B BY BLOCKING THE PHOSPHORYLATION OF THE INHIBITORY PROTEIN, IKAPPAB, THEREBY PREVENTED PROINFLAMMATORY CYTOKINE PRODUCTION. MOREOVER, TBETA4 PREVENTED FIBROGENESIS BY SUPPRESSING THE EPIGENETIC REPRESSOR, METHYL-CPG-BINDING PROTEIN 2, THAT COORDINATELY REVERSED THE EXPRESSION OF PEROXISOME PROLIFERATOR-ACTIVATED RECEPTOR-GAMMA AND DOWNREGULATED FIBROGENIC GENES, PLATELET-DERIVED GROWTH FACTOR-BETA RECEPTOR, ALPHA-SMOOTH MUSCLE ACTIN, COLLAGEN 1, AND FIBRONECTIN, RESULTING IN REDUCED FIBROSIS. OUR DATA SUGGEST THAT TBETA4 HAS ANTIOXIDANT, ANTI-INFLAMMATORY, AND ANTIFIBROTIC POTENTIAL DURING ALCOHOLIC LIVER INJURY. 2018 17 513 29 ASSOCIATION OF SEROTONIN TRANSPORTER GENE ALUJB METHYLATION WITH MAJOR DEPRESSION, AMYGDALA RESPONSIVENESS, 5-HTTLPR/RS25531 POLYMORPHISM, AND STRESS. DNA METHYLATION PROFILES OF THE SEROTONIN TRANSPORTER GENE (SLC6A4) HAVE BEEN SHOWN TO ALTER SLC6A4 EXPRESSION, DRIVE ANTIDEPRESSANT TREATMENT RESPONSE AND MODIFY BRAIN FUNCTIONS. THIS STUDY INVESTIGATED WHETHER METHYLATION OF AN ALUJB ELEMENT IN THE SLC6A4 PROMOTOR WAS ASSOCIATED WITH MAJOR DEPRESSIVE DISORDER (MDD), AMYGDALA REACTIVITY TO EMOTIONAL FACES, 5-HTTLPR/RS25531 POLYMORPHISM, AND RECENT STRESS. MDD PATIENTS (N=122) AND HEALTHY CONTROLS (HC, N=176) UNDERWENT FMRI DURING AN EMOTIONAL FACE-MATCHING TASK. INDIVIDUAL SLC6A4 ALUJB METHYLATION PROFILES WERE ASCERTAINED AND ASSOCIATED WITH MDD, AMYGDALA REACTIVITY, 5-HTTLPR/RS25531, AND STRESS. SLC6A4 ALUJB METHYLATION WAS SIGNIFICANTLY LOWER IN MDD COMPARED TO HC AND IN STRESSED COMPARED TO LESS STRESSED PARTICIPANTS. LOWER ALUJB METHYLATION WAS PARTICULARLY FOUND IN 5-HTTLPR/RS25531 RISK ALLELE CARRIERS UNDER STRESS AND CORRELATED WITH LESS DEPRESSIVE EPISODES. FMRI ANALYSIS REVEALED A SIGNIFICANT INTERACTION OF ALUJB METHYLATION AND DIAGNOSIS IN THE AMYGDALA, WITH MDD PATIENTS SHOWING LOWER ALUJB METHYLATION ASSOCIATED WITH DECREASED AMYGDALA REACTIVITY. WHILE NO JOINT EFFECT OF ALUJB METHYLATION AND 5-HTTLPR/RS25531 EXISTED, RISK ALLELE CARRIERS SHOWED SIGNIFICANTLY INCREASED BILATERAL AMYGDALA ACTIVATION. THESE FINDINGS SUGGEST A ROLE OF SLC6A4 ALUJB METHYLATION IN MDD, AMYGDALA REACTIVITY, AND STRESS REACTION, PARTLY INTERWOVEN WITH 5-HTTLPR/RS25531 EFFECTS. PATIENTS WITH LOW METHYLATION IN CONJUNCTION WITH A SHORTER MDD HISTORY AND DECREASED AMYGDALA REACTIVITY MIGHT FEATURE A MORE STRESS-ADAPTIVE EPIGENETIC PROCESS, MAYBE VIA THEORETICALLY POSSIBLE ENDOGENOUS ANTIDEPRESSANT-LIKE EFFECTS. IN CONTRAST, PATIENTS WITH HIGHER METHYLATION MIGHT POSSIBLY SUFFER FROM IMPAIRED EPIGENETIC ADAPTION TO CHRONIC STRESS. FURTHER, THE 5-HTTLPR/RS25531 ASSOCIATION WITH AMYGDALA ACTIVATION WAS CONFIRMED IN OUR LARGE SAMPLE. 2018 18 1831 28 EFFECTS OF MATERNAL SEPARATION AND ANTIDEPRESSANT DRUG ON EPIGENETIC REGULATION OF THE BRAIN-DERIVED NEUROTROPHIC FACTOR EXON I PROMOTER IN THE ADULT RAT HIPPOCAMPUS. AIM: EARLY LIFE STRESS CAN INDUCE EPIGENETIC CHANGES THROUGH GENETIC AND ENVIRONMENTAL INTERACTIONS AND IS A RISK FACTOR FOR DEPRESSION. BRAIN-DERIVED NEUROTROPHIC FACTOR (BDNF) HAS BEEN IMPLICATED IN THE PATHOPHYSIOLOGY OF DEPRESSION AND ANTIDEPRESSANT DRUG ACTION. WE INVESTIGATED EPIGENETIC CHANGES AT THE BDNF EXON I PROMOTER IN THE HIPPOCAMPUS OF ADULT RATS SUBJECTED TO MATERNAL SEPARATION (MS) DURING EARLY LIFE AND TREATED WITH AN ANTIDEPRESSANT DRUG AS ADULTS. METHODS: RAT PUPS WERE SUBJECTED TO MS FROM POSTNATAL DAY 1 TO 21 AND RECEIVED CHRONIC ESCITALOPRAM (ESC) AS ADULTS. WE ASSESSED THE EFFECTS OF MS AND ESC ON BDNF EXON I AND DNA METHYLTRANSFERASES (DNMT) MRNA LEVELS (QUANTITATIVE REVERSE-TRANSCRIPTION POLYMERASE CHAIN REACTION), ACETYLATED HISTONE H3, AND MECP2 BINDING TO THE BDNF PROMOTER I (CHROMATIN IMMUNOPRECIPITATION FOLLOWED BY REAL-TIME POLYMERASE CHAIN REACTION), AND BDNF PROTEIN LEVELS (ENZYME-LINKED IMMUNOSORBENT ASSAY). RESULTS: THE LEVELS OF BDNF PROTEIN, EXON I MRNA, HISTONE H3 ACETYLATION, AND DNMT1 AND DNMT3A MRNA WERE ALTERED IN THE MS GROUP COMPARED WITH THE CONTROL GROUP. SIGNIFICANT DECREASES WERE OBSERVED IN THE BDNF PROTEIN, EXON I MRNA, AND HISTONE H3 ACETYLATION LEVELS AND THERE WERE SIGNIFICANT INCREASES IN DNMT1 AND DNMT3A MRNA LEVELS. THE COMPARISON BETWEEN THE MS + ESC AND MS GROUPS REVEALED SIGNIFICANT INCREASES IN BDNF PROTEIN, EXON I MRNA, AND HISTONE H3 ACETYLATION LEVELS AND SIGNIFICANT DECREASES IN MECP2 AND DNMT1 AND DNMT3A MRNA LEVELS. CONCLUSION: THESE FINDINGS INDICATE THAT MS INDUCED EPIGENETIC CHANGES AT THE BDNF EXON I PROMOTER AND THESE CHANGES WERE PREVENTED BY ANTIDEPRESSANT DRUG TREATMENT DURING ADULTHOOD. 2018 19 5253 31 PROGRAMMING CHANGES OF HIPPOCAMPAL MIR-134-5P/SOX2 SIGNAL MEDIATE THE SUSCEPTIBILITY TO DEPRESSION IN PRENATAL DEXAMETHASONE-EXPOSED FEMALE OFFSPRING. DEPRESSION IS A NEUROPSYCHIATRIC DISORDER AND HAS INTRAUTERINE DEVELOPMENTAL ORIGINS. THIS STUDY AIMED TO CONFIRM THE DEPRESSION SUSCEPTIBILITY IN OFFSPRING RATS INDUCED BY PRENATAL DEXAMETHASONE EXPOSURE (PDE) AND TO FURTHER EXPLORE THE INTRAUTERINE PROGRAMMING MECHANISM. WISTAR RATS WERE INJECTED WITH DEXAMETHASONE (0.2 MG/KG.D) SUBCUTANEOUSLY DURING THE GESTATIONAL DAYS 9-20 AND PART OF THE OFFSPRING WAS GIVEN CHRONIC STRESS AT POSTNATAL WEEKS 10-12. BEHAVIORAL RESULTS SHOWED THAT THE ADULT PDE FEMALE OFFSPRING WAS SUSCEPTIBLE TO DEPRESSION, ACCOMPANIED BY INCREASED HIPPOCAMPAL MIR-134-5P EXPRESSION AND DECREASED SEX-DETERMINING REGION Y-BOX 2 (SOX2) EXPRESSION, AS WELL AS DISORDERS OF NEURAL PROGENITOR CELLS PROLIFERATION AND HIPPOCAMPAL NEUROGENESIS. THE PDE FEMALE FETAL RATS PRESENTED CONSISTENT CHANGES WITH THE ADULT OFFSPRING, ACCOMPANIED BY THE UPREGULATION OF GLUCOCORTICOID RECEPTOR (GR) EXPRESSION AND DECREASED SIRTUIN 1 (SIRT1) EXPRESSION. WE FURTHER FOUND THAT THE H3K9AC LEVEL OF THE MIR-134-5P PROMOTER WAS SIGNIFICANTLY INCREASED IN THE PDE FETAL HIPPOCAMPUS, AS WELL AS IN ADULT OFFSPRING BEFORE AND AFTER CHRONIC STRESS. IN VITRO, THE CHANGES OF GR/SIRT1/MIR-134-5P/SOX2 SIGNAL BY DEXAMETHASONE WERE CONSISTENT WITH IN VIVO EXPERIMENTS, WHICH COULD BE REVERSED BY GR RECEPTOR ANTAGONIST, SIRT1 AGONIST, AND MIR-134-5P INHIBITOR. THIS STUDY CONFIRMED THAT PDE LED TO AN INCREASED EXPRESSION LEVEL AS WELL AS H3K9AC LEVEL OF MIR-134-5P BY ACTIVATING THE GR/SIRT1 PATHWAY IN THE FETAL HIPPOCAMPUS AND THEN INHIBITED THE SOX2 EXPRESSION. THE PROGRAMMING EFFECT MEDIATED BY THE ABNORMAL EPIGENETIC MODIFICATION COULD LAST FROM INTRAUTERINE TO ADULTHOOD, WHICH CONSTITUTES THE INTRAUTERINE PROGRAMMING MECHANISM LEADING TO HIPPOCAMPAL NEUROGENESIS DISORDERS AND DEPRESSION SUSCEPTIBILITY IN FEMALE OFFSPRING. INTRAUTERINE PROGRAMMING MECHANISM FOR THE INCREASED DEPRESSIVE SUSCEPTIBILITY IN ADULT FEMALE OFFSPRING BY PRENATAL DEXAMETHASONE EXPOSURE (PDE). GR, GLUCOCORTICOID RECEPTOR; SIRT1, SIRTUIN 1; SOX2, SEX-DETERMINING REGION Y-BOX 2; NPCS, NEUROPROGENITOR CELLS; H3K9AC, HISTONE 3 LYSINE 9 ACETYLATION; GRE, GLUCOCORTICOID RESPONSE ELEMENT. 2022 20 1504 27 DNA METHYLATION AND HISTONE DEACETYLATION REGULATING INSULIN SENSITIVITY DUE TO CHRONIC COLD EXPOSURE. IN THIS STUDY, WE INVESTIGATED THE CAUSAL RELATIONSHIP BETWEEN CHRONIC COLD EXPOSURE AND INSULIN RESISTANCE AND THE MECHANISMS OF HOW DNA METHYLATION AND HISTONE DEACETYLATION REGULATE COLD-REDUCED INSULIN RESISTANCE. 46 ADULT MALE MICE FROM POSTNATAL DAY 90-180 WERE RANDOMLY ASSIGNED TO CONTROL GROUP AND COLD-EXPOSURE GROUP. MICE IN COLD-EXPOSURE GROUP WERE PLACED AT TEMPERATURE FROM -1 TO 4 DEGREES C FOR 30 DAYS TO MIMIC CHRONIC COLD ENVIRONMENT. THEN, FASTING BLOOD GLUCOSE, BLOOD INSULIN LEVEL AND INSULIN RESISTANCE INDEX WERE MEASURED WITH ENZYMATIC METHODS. IMMUNOFLUORESCENT LABELING WAS CARRIED OUT TO VISUALIZE THE INSULIN RECEPTOR SUBSTRATE 2 (IRS2), OBESE RECEPTOR (OB-R, A LEPTIN RECEPTOR), VOLTAGE-DEPENDENT ANION CHANNEL PROTEIN 1 (VDAC1), CYTOCHROME C (CYTC), 5-METHYLCYTOSINE (5-MC) POSITIVE CELLS IN HIPPOCAMPAL CA1 AREA. FURTHERMORE, THE EXPRESSIONS OF SOME PROTEINS MENTIONED ABOVE WERE DETECTED WITH WESTERN BLOT. THE RESULTS SHOWED: 1 IN CIRCLE CHRONIC COLD EXPOSURE COULD REDUCE THE INSULIN RESISTANCE INDEX (P < 0.01) AND INCREASE THE NUMBER OF IRS2 POSITIVE CELLS AND OB-R POSITIVE CELLS IN HIPPOCAMPUS (P < 0.01). 2 IN CIRCLE THE EXPRESSIONS OF MITOCHONDRIAL ENERGY-RELATIVE PROTEINS, VDAC1 AND CYTC, WERE HIGHER IN COLD-EXPOSURE GROUP THAN IN CONTROL GROUP WITH BOTH IMMUNOHISTOCHEMICAL STAINING AND WESTERN BLOT (P < 0.01). 3 IN CIRCLE CHRONIC COLD EXPOSURE INCREASED DNA METHYLATION AND HISTONE DEACETYLATION IN THE PYRAMIDAL CELLS OF CA1 AREA AND LED TO AN INCREASE IN THE EXPRESSION OF HISTONE DEACETYLASE 1 (HDAC1) AND DNA METHYLATION RELATIVE ENZYMES (P < 0.01). IN CONCLUSION, CHRONIC COLD EXPOSURE CAN IMPROVE INSULIN SENSITIVITY, WITH THE INVOLVEMENT OF DNA METHYLATION, HISTONE DEACETYLATION AND THE REGULATION OF MITOCHONDRIAL ENERGY METABOLISM. THESE EPIGENETIC MODIFICATIONS PROBABLY FORM THE BASIC MECHANISM OF COLD-REDUCED INSULIN RESISTANCE. 2017