1 1904 158 ENHANCED RETINAL GANGLION CELL SURVIVAL IN GLAUCOMA BY HYPOXIC POSTCONDITIONING AFTER DISEASE ONSET. THE NEUROPROTECTIVE EFFICACY OF ADAPTIVE EPIGENETICS, WHEREIN BENEFICIAL GENE EXPRESSION CHANGES ARE INDUCED BY NONHARMFUL "CONDITIONING" STIMULI, IS NOW WELL ESTABLISHED IN SEVERAL ACUTE, PRECLINICAL CENTRAL NERVOUS SYSTEM INJURY MODELS. RECENTLY, IN A MOUSE MODEL OF GLAUCOMA, WE DEMONSTRATED RETINAL GANGLION CELL (RGC) PROTECTION BY REPETITIVELY "PRECONDITIONING" WITH HYPOXIA PRIOR TO DISEASE ONSET, INDICATING AN EPIGENETIC APPROACH MAY ALSO YIELD BENEFITS IN CHRONIC NEURODEGENERATIVE DISEASE. HEREIN, WE DETERMINED WHETHER PRESENTING THE REPETITIVE HYPOXIC STIMULUS AFTER DISEASE INITIATION [REPETITIVE HYPOXIC "POSTCONDITIONING" (RH-POST)] COULD AFFORD SIMILAR FUNCTIONAL AND MORPHOLOGIC PROTECTION AGAINST GLAUCOMATOUS RGC INJURY. CHRONIC ELEVATIONS IN INTRAOCULAR PRESSURE (IOP) WERE INDUCED UNILATERALLY IN ADULT MALE C57BL/6 MICE BY EPISCLERAL VEIN LIGATION. MICE WERE RANDOMIZED TO AN RH-POST [1 H OF SYSTEMIC HYPOXIA (11% OXYGEN) EVERY OTHER DAY, STARTING 4 DAYS AFTER IOP ELEVATION] OR AN UNTREATED CONTROL GROUP. AFTER 3 WEEKS OF EXPERIMENTAL GLAUCOMA, THE 21-27% REDUCTION AND 5-25% PROLONGATION IN FLASH VISUAL-EVOKED POTENTIAL AMPLITUDES AND LATENCIES, RESPECTIVELY, AND THE 30% IMPAIRMENT IN VISUAL ACUITY WERE ROBUSTLY IMPROVED IN RH-POST-TREATED MICE, AS WAS THE 17% LOSS IN RGC SOMA NUMBER AND 20% REDUCTION IN AXON INTEGRITY. THESE PROTECTIVE EFFECTS WERE OBSERVED WITHOUT RH-POST AFFECTING IOP. THE PRESENT FINDINGS DEMONSTRATE THAT FUNCTIONAL AND MORPHOLOGIC PROTECTION OF RGCS CAN BE REALIZED BY STIMULATING EPIGENETIC RESPONSES DURING THE EARLY STAGES OF DISEASE, AND THUS CONSTITUTE A NEW CONCEPTUAL APPROACH TO GLAUCOMA THERAPEUTICS. 2015 2 6654 33 UPDATE ON PSEUDOEXFOLIATION SYNDROME PATHOGENESIS AND ASSOCIATIONS WITH INTRAOCULAR PRESSURE, GLAUCOMA AND SYSTEMIC DISEASES. PURPOSE OF REVIEW: PSEUDOEXFOLIATION (PEX) SYNDROME IS A COMMON AGE-RELATED DISORDER AFFECTING INTRAOCULAR AND EXTRAOCULAR TISSUES. THIS REVIEW FOCUSES ON RECENT PUBLICATIONS RELATED WITH THE PATHOGENESIS AND ASSOCIATIONS OF PEX SYNDROME WITH INTRAOCULAR PRESSURE (IOP), GLAUCOMA AND SYSTEMIC DISEASES. RECENT FINDINGS: IN PEX TISSUES, EXPRESSION OF LYSYL OXIDASE-LIKE 1 (LOXL1) WAS FOUND TO BE MARKEDLY DYSREGULATED. THIS MAY ADVERSELY AFFECT ELASTIN METABOLISM AND LEAD TO ELASTOTIC ALTERATION IN TISSUES SUCH AS LAMINA CRIBROSA. THERE IS INCREASING EVIDENCE THAT CELLULAR STRESS CONDITIONS AND LOW-GRADE CHRONIC INFLAMMATORY PROCESSES ARE INVOLVED IN THE PATHOGENESIS OF PEX. ALTHOUGH THERE IS AN INCREASED RISK FOR GLAUCOMA DEVELOPMENT IN PATIENTS WITH PEX AND OCULAR HYPERTENSION AS COMPARED WITH NON-PEX PATIENTS WITH OCULAR HYPERTENSION, LOXL1 SINGLE NUCLEOTIDE POLYMORPHISMS WERE NOT ASSOCIATED WITH INTRAOCULAR PRESSURE (IOP) DIFFERENCES. LACK OF ASSOCIATION OF PEX WITH ALL-CAUSE MORTALITY OR DEMENTIA HAS BEEN REPORTED RECENTLY. THE ASSOCIATION WITH VASCULAR DISEASES IS NOT CONSISTENT AMONG DIFFERENT STUDIES. SUMMARY: DESPITE THE HIGH PREVALENCE OF THE LOXL1 VARIANTS IN THE GENERAL POPULATION, A MUCH LOWER PROPORTION OF THE POPULATION DEVELOPS PEX, SUGGESTING THAT IN ADDITION TO LOXL1, OTHER GENETIC, EPIGENETIC AND ENVIRONMENTAL FACTORS MAY CONTRIBUTE TO THE DEVELOPMENT OF PEX. ALSO, LOXL1 CANNOT HELP TO IDENTIFY THOSE WITH PEX AT INCREASED RISK FOR GLAUCOMA DEVELOPMENT. INCREASED RISK FOR GLAUCOMA DEVELOPMENT IN PEX PATIENTS WHO PRESENT WITH INCREASED IOP MAY BE RELATED TO OTHER FACTORS BEYOND IOP, CONTRIBUTING TO INCREASED VULNERABILITY OF THE OPTIC NERVE TO GLAUCOMA DEVELOPMENT IN THE PRESENCE OF PEX. 2015 3 809 39 CHANGES IN CLASS I AND IIB HDACS BY DELTA-OPIOID IN CHRONIC RAT GLAUCOMA MODEL. PURPOSE: THIS STUDY DETERMINES IF DELTA-OPIOID RECEPTOR AGONIST (I.E. SNC-121)-INDUCED EPIGENETIC CHANGES VIA REGULATION OF HISTONE DEACETYLASES (HDACS) FOR RETINAL GANGLION CELL (RGC) NEUROPROTECTION IN GLAUCOMA MODEL. METHODS: INTRAOCULAR PRESSURE WAS RAISED IN RAT EYES BY INJECTING 2M HYPERTONIC SALINE INTO THE LIMBAL VEINS. SNC-121 (1 MG/KG; I.P.) WAS ADMINISTERED TO THE ANIMALS FOR 7 DAYS. RETINAS WERE COLLECTED AT DAYS 7 AND 42, POST-INJURY FOLLOWED BY MEASUREMENT OF HDAC ACTIVITIES, MRNA, AND PROTEIN EXPRESSION BY ENZYME ASSAY, QUANTITATIVE REAL-TIME PCR (QRT-PCR), WESTERN BLOTTING, AND IMMUNOHISTOCHEMISTRY. RESULTS: THE VISUAL ACUITY, CONTRAST SENSITIVITY, AND PATTERN ELECTRORETINOGRAMS (ERGS) WERE DECLINED IN OCULAR HYPERTENSIVE ANIMALS, WHICH WERE SIGNIFICANTLY IMPROVED BY SNC-121 TREATMENT. CLASS I AND IIB HDACS ACTIVITIES WERE SIGNIFICANTLY INCREASED AT DAYS 7 AND 42 IN OCULAR HYPERTENSIVE ANIMALS. THE MRNA AND PROTEIN EXPRESSION OF HDAC 1 WAS INCREASED BY 1.33 +/- 0.07-FOLD AND 20.2 +/- 2.7%, HDAC 2 BY 1.4 +/- 0.05-FOLD AND 17.0 +/- 2.4%, HDAC 3 BY 1.4 +/- 0.06-FOLD AND 17.4 +/- 3.4%, AND HDAC 6 BY 1.5 +/- 0.09-FOLD AND 15.1 +/- 3.3% AT DAY 7, POST-INJURY. BOTH THE MRNA AND PROTEIN EXPRESSION OF HDACS WERE POTENTIATED FURTHER AT DAY 42 IN OCULAR HYPERTENSIVE ANIMALS. HDAC ACTIVITIES, MRNA, AND PROTEIN EXPRESSION WERE BLOCKED BY SNC-121 TREATMENT AT DAYS 7 AND 42 IN OCULAR HYPERTENSIVE ANIMALS. CONCLUSIONS: DATA SUGGESTS THAT CLASS I AND IIB HDACS ARE ACTIVATED AND UPREGULATED DURING EARLY STAGES OF GLAUCOMA. EARLY INTERVENTION WITH DELTA-OPIOID RECEPTOR ACTIVATION RESULTED IN THE PROLONGED SUPPRESSION OF CLASS I AND IIB HDACS ACTIVITIES AND EXPRESSION, WHICH MAY, IN PART, PLAY A CRUCIAL ROLE IN RGC NEUROPROTECTION. 2020 4 123 25 A SYSTEMATIC REVIEW, META-ANALYSIS, AND NETWORK ANALYSIS OF DIAGNOSTIC MICRORNAS IN GLAUCOMA. GLAUCOMA IS A CHRONIC NEURODEGENERATIVE PROCESS OF THE OPTIC NERVE THAT IS THE LEADING CAUSE OF BLINDNESS WORLDWIDE, AND EARLY DIAGNOSIS OF THE DISEASE COULD GREATLY AFFECT PATIENTS' PROGNOSES. THE PATHOPHYSIOLOGY OF GLAUCOMA IS COMPLICATED BY A COMBINATION OF GENETIC AND EPIGENETIC FACTORS. DECIPHERING THE EARLY DIAGNOSTIC BIOMARKERS IN GLAUCOMA COULD ATTENUATE THE DISEASE'S GLOBAL BURDEN AND HELP US UNDERSTAND THE EXACT MECHANISMS INVOLVED IN GLAUCOMA. THE MICRORNAS ARE MEMBERS OF A LARGER FAMILY OF NON-CODING RNAS THAT PLAY AN ESSENTIAL ROLE IN THE EPIGENETIC BASIS OF GLAUCOMA. A SYSTEMATIC STUDY AND META-ANALYSIS OF DIAGNOSTIC MICRORNAS IN GLAUCOMA, JOINTLY WITH NETWORK ANALYSIS OF TARGET GENES, WERE CARRIED OUT ON PUBLISHED PAPERS ASSESSING DIFFERENTIALLY EXPRESSED MICRORNAS IN HUMAN SUBJECTS. IN TOTAL, 321 ARTICLES WERE FOUND, AND, AFTER SCREENING, SIX STUDIES WERE ELIGIBLE FOR FURTHER ANALYSIS. 52 DIFFERENTIALLY EXPRESSED MICRORNAS WERE FOUND, OF WHICH 28 AND 24 WERE UP-REGULATED AND DOWN-REGULATED, RESPECTIVELY. ONLY 12 MICRORNAS WERE QUALIFIED FOR META-ANALYSIS, WITH OVERALL SENSITIVITY AND SPECIFICITY OF 80% AND 74%, RESPECTIVELY. THEN, USING NETWORK ANALYSIS, IT BECAME APPARENT THAT THE VEGF-A, AKT1, CXCL12, AND HRAS GENES WERE THE MOST IMPORTANT TARGETS FOR THE MICRORNAS. PERTURBATIONS IN WNT SIGNALING, PROTEIN TRANSPORT, AND EXTRACELLULAR MATRIX ORGANIZATION PATHWAYS WERE DISCOVERED TO BE IMPORTANT IN THE ETIOLOGY OF GLAUCOMA USING THE COMMUNITY DETECTION APPROACH. THIS STUDY TRIES TO UNCOVER THE PROMISING MICRORNAS AND THEIR TARGET GENES THAT GOVERN THE EPIGENETICS OF GLAUCOMA. 2023 5 1430 31 DIFFERENTIAL EXPRESSION OF SOX11 AND BDNF MRNA ISOFORMS IN THE INJURED AND REGENERATING NERVOUS SYSTEMS. IN BOTH THE CENTRAL NERVOUS SYSTEM (CNS) AND THE PERIPHERAL NERVOUS SYSTEM (PNS), AXONAL INJURY INDUCES CHANGES IN NEURONAL GENE EXPRESSION. IN THE PNS, A RELATIVELY WELL-CHARACTERIZED ALTERATION IN TRANSCRIPTIONAL ACTIVATION IS KNOWN TO PROMOTE AXONAL REGENERATION. THIS TRANSCRIPTIONAL CASCADE INCLUDES THE NEUROTROPHIN BDNF AND THE TRANSCRIPTION FACTOR SOX11. ALTHOUGH BOTH MOLECULES ACT TO FACILITATE SUCCESSFUL AXON REGENERATION IN THE PNS, THIS PROCESS DOES NOT OCCUR IN THE CNS. THE PRESENT STUDY EXAMINES THE DIFFERENTIAL EXPRESSION OF SOX11 AND BDNF MRNA ISOFORMS IN THE PNS AND CNS USING THREE EXPERIMENTAL PARADIGMS AT DIFFERENT TIME POINTS: (I) THE ACUTELY INJURED CNS (RETINA AFTER OPTIC NERVE CRUSH) AND PNS (DORSAL ROOT GANGLION AFTER SCIATIC NERVE CRUSH), (II) A CNS REGENERATION MODEL (RETINA AFTER OPTIC NERVE CRUSH AND INDUCED REGENERATION); AND (III) THE RETINA DURING A CHRONIC FORM OF CENTRAL NEURODEGENERATION (THE DBA/2J GLAUCOMA MODEL). WE FIND AN INITIAL INCREASE OF SOX11 IN BOTH PNS AND CNS AFTER INJURY; HOWEVER, THE EXPRESSION OF BDNF ISOFORMS IS HIGHER IN THE PNS RELATIVE TO THE CNS. SUSTAINED UPREGULATION OF SOX11 IS SEEN IN THE INJURED RETINA FOLLOWING REGENERATION TREATMENT, WHILE THE EXPRESSION OF TWO BDNF MRNA ISOFORMS IS SUPPRESSED. FURTHERMORE, TWO ISOFORMS OF SOX11 WITH DIFFERENT 3'UTR LENGTHS ARE PRESENT IN THE RETINA, AND THE LONG ISOFORM IS SPECIFICALLY UPREGULATED IN LATER STAGES OF GLAUCOMA. THESE RESULTS PROVIDE INSIGHT INTO THE MOLECULAR CASCADES ACTIVE DURING AXONAL INJURY AND REGENERATION IN MAMMALIAN NEURONS. 2017 6 5690 36 SILENCING OF FEM1CR3 GENE EXPRESSION IN THE DBA/2J MOUSE PRECEDES RETINAL GANGLION CELL DEATH AND IS ASSOCIATED WITH HISTONE DEACETYLASE ACTIVITY. PURPOSE: DOWNREGULATION OF NORMAL GENE EXPRESSION IN DYING RETINAL GANGLION CELLS HAS BEEN DOCUMENTED IN BOTH ACUTE AND CHRONIC MODELS OF OPTIC NERVE DISEASE. THE AUTHORS EXAMINED THE MECHANISM AND TIMING OF THIS PHENOMENON IN DBA/2J MICE, USING GENETICALLY MODIFIED SUBSTRAINS OF THIS INBRED LINE. METHODS: DBA/2J MICE, DOUBLY CONGENIC FOR THE BAX MUTANT ALLELE AND THE GANGLION CELL REPORTER GENE FEM1C(ROSA3) (R3), WERE EVALUATED TO ELUCIDATE THE TIMING OF LOSS OF NORMAL GENE EXPRESSION DURING THE APOPTOTIC PROCESS. THE LOCALIZATION OF HISTONE DEACETYLASE 3 (HDAC3) AND NUCLEAR HISTONE H4 ACETYLATION WERE EXAMINED BY IMMUNOFLUORESCENCE IN DYING CELLS. THE ROLE OF HDACS IN GENE SILENCING DURING GLAUCOMA WAS INTERROGATED USING THE GLOBAL HDAC INHIBITOR TRICHOSTATIN A (TSA). RESULTS: SILENCING OF THE R3 ALLELE OCCURRED IN BAX(-/-) GANGLION CELLS, INDICATING THAT THIS PROCESS PRECEDED THE COMMITTED STEP OF THE INTRINSIC APOPTOTIC PATHWAY. WEEKLY TSA TREATMENT, BETWEEN THE AGES OF 6 AND 10 MONTHS, WAS ABLE TO ATTENUATE THE LOSS OF R3 EXPRESSION IN THE RETINA, BUT HAD NO EFFECT ON OPTIC NERVE DEGENERATION. DYING CELLS IN AGING DBA/2J MICE EXHIBITED NUCLEAR LOCALIZATION OF HDAC3 AND A DECREASE IN THE LEVEL OF H4 ACETYLATION. CONCLUSIONS: RETINAL GANGLION CELLS EXHIBIT A LOSS OF NORMAL GENE EXPRESSION AS AN EARLY (PRE-BAX INVOLVEMENT) PART OF THEIR APOPTOTIC PROGRAM DURING GLAUCOMATOUS DEGENERATION. THIS PROCESS CAN BE AMELIORATED, BUT NOT COMPLETELY BLOCKED, USING HDAC INHIBITORS. EPIGENETIC CHANGES TO ACTIVE CHROMATIN, SUCH AS DEACETYLATION, MAY BE MEDIATED BY HDAC3 IN DYING NEURONS. 2012 7 6364 30 THE ROLE OF LONG NONCODING RNAS IN NEURODEGENERATIVE DISEASES. LONG NONCODING RNAS (LNCRNAS) ARE TRANSCRIPTS WITH LOW PROTEIN-CODING POTENTIAL BUT OCCUPY A LARGE PART OF TRANSCRIPTIONAL OUTPUT. THEIR ROLES INCLUDE REGULATING GENE EXPRESSION AT THE EPIGENETIC, TRANSCRIPTIONAL, AND POST-TRANSCRIPTIONAL LEVEL IN CELLULAR HOMEOSTASIS. HOWEVER, LNCRNA STUDIES ARE STILL IN THEIR INFANCY AND THE FUNCTIONS OF THE VAST MAJORITY OF LNCRNA TRANSCRIPTS REMAIN UNKNOWN. IT IS GENERALLY KNOWN THAT THE FUNCTION OF THE HUMAN NERVOUS SYSTEM LARGELY RELIES ON THE PRECISE REGULATION OF GENE EXPRESSION. VARIOUS STUDIES HAVE SHOWN THAT LNCRNAS HAVE A SIGNIFICANT IMPACT ON NORMAL NEURAL DEVELOPMENT AND ON THE DEVELOPMENT AND PROGRESSION OF NEURODEGENERATIVE DISEASES. IN THIS REVIEW, WE FOCUSED ON RECENT STUDIES ASSOCIATED WITH LNCRNAS IN NEURODEGENERATIVE DISEASES, INCLUDING ALZHEIMER'S DISEASE (AD), PARKINSON'S DISEASE (PD), HUNTINGTON'S DISEASE (HD), AMYOTROPHIC LATERAL SCLEROSIS (ALS), MULTIPLE SYSTEM ATROPHY (MSA), FRONTOTEMPORAL LOBAR DEGENERATION (FTLD), AND GLAUCOMA. GLAUCOMA, CAUSED BY UNEXPLAINED GANGLION CELL LESION AND APOPTOSIS, IS NOW LABELED AS A CHRONIC NEURODEGENERATIVE DISORDER [1], AND THEREFORE, WE DISCUSSED THE ASSOCIATION OF LNCRNAS WITH GLAUCOMA AS WELL. WE ILLUSTRATE THE ROLE OF SOME SPECIFIC LNCRNAS, WHICH MAY PROVIDE NEW INSIGHTS INTO OUR UNDERSTANDING OF THE ETIOLOGY AND PATHOPHYSIOLOGY OF THE NEURODEGENERATIVE DISEASES MENTIONED ABOVE. 2017 8 6567 32 TRANSLATOMIC RESPONSE OF RETINAL MULLER GLIA TO ACUTE AND CHRONIC STRESS. ANALYSIS OF RETINA CELL TYPE-SPECIFIC EPIGENETIC AND TRANSCRIPTOMIC SIGNATURES IS CRUCIAL TO UNDERSTANDING THE PATHOPHYSIOLOGY OF RETINAL DEGENERATIONS SUCH AS AGE-RELATED MACULAR DEGENERATION (AMD) AND DELINEATING CELL AUTONOMOUS AND CELL-NON-AUTONOMOUS MECHANISMS. WE HAVE DISCOVERED THAT ALDH1L1 IS SPECIFICALLY EXPRESSED IN THE MAJOR MACROGLIA OF THE RETINA, MULLER GLIA, AND, UNLIKE THE BRAIN, IS NOT EXPRESSED IN RETINAL ASTROCYTES. THIS ALLOWS USE OF ALDH1L1 CRE DRIVERS AND NUCLEAR TAGGING AND TRANSLATING RIBOSOME AFFINITY PURIFICATION (NUTRAP) CONSTRUCTS FOR TEMPORALLY CONTROLLED LABELING AND PAIRED ANALYSIS OF MULLER GLIA EPIGENOMES AND TRANSLATOMES. AS VALIDATED THROUGH A VARIETY OF APPROACHES, THE ALDH1L1CRE/ERT2-NUTRAP MODEL PROVIDES MULLER GLIA SPECIFIC TRANSLATOMIC AND EPIGENOMIC PROFILES WITHOUT THE NEED TO ISOLATE WHOLE CELLS. APPLICATION OF THIS APPROACH TO MODELS OF ACUTE INJURY (OPTIC NERVE CRUSH) AND CHRONIC STRESS (AGING) UNCOVERED FEW COMMON MULLER GLIA-SPECIFIC TRANSCRIPTOME CHANGES IN INFLAMMATORY PATHWAYS, AND MOSTLY DIFFERENTIAL SIGNATURES FOR EACH STIMULUS. THE EXPRESSION OF MEMBERS OF THE IL-6 AND INTEGRIN-LINKED KINASE SIGNALING PATHWAYS WAS ENHANCED IN MULLER GLIA IN RESPONSE TO OPTIC NERVE CRUSH BUT NOT AGING. UNIQUE CHANGES IN NEUROINFLAMMATION AND FIBROSIS SIGNALING PATHWAYS WERE OBSERVED IN RESPONSE TO AGING BUT NOT WITH OPTIC NERVE CRUSH. THE ALDH1L1CRE/ERT2-NUTRAP MODEL ALLOWS FOCUSED MOLECULAR ANALYSES OF A SINGLE, MINORITY CELL TYPE WITHIN THE RETINA, PROVIDING MORE SUBSTANTIAL EFFECT SIZES THAN WHOLE TISSUE ANALYSES. THE NUTRAP MODEL, NUCLEIC ACID ISOLATION, AND VALIDATION APPROACHES PRESENTED HERE CAN BE APPLIED TO ANY RETINA CELL TYPE FOR WHICH A CELL TYPE-SPECIFIC CRE IS AVAILABLE. 2022 9 2751 29 EXPRESSION OF ACETYL-HISTONE H3 AND ACETYL-HISTONE H4 IN DORSAL ROOT GANGLION AND SPINAL DORSAL HORN IN RAT CHRONIC PAIN MODELS. AIMS: HISTONE ACETYLATION AND DEACETYLATION ARE TWO HISTONE POSTTRANSLATIONAL MODIFICATIONS THAT ARE USUALLY CONTROLLED BY HISTONE ACETYLTRANSFERASES (HATS) AND HISTONE DEACETYLASES (HDACS). ALTHOUGH HATS OR HDACS INHIBITORS COULD RELIEVE PAIN HYPERSENSITIVITIES IN CHRONIC PAIN ANIMAL MODELS, IT IS NOT CLEAR ON THE EXPRESSION OF GLOBAL HISTONE ACETYLATION IN THE DORSAL ROOT GANGLION (DRG) OR SPINAL DORSAL HORN IN CHRONIC PAIN CONDITIONS. MAIN METHODS: A SPINAL NERVE LIGATION (SNL)-INDUCED NEUROPATHIC PAIN MODEL AND A COMPLETE FREUND'S ADJUVANT (CFA)-INDUCED INFLAMMATORY PAIN MODEL IN RATS WERE USED TO EXAMINE THE EXPRESSION OF TOTAL ACETYL-HISTONE H3 (ACH3) AND TOTAL ACETYL-HISTONE H4 (ACH4) BY IMMUNOFLUORESCENCE OR WESTERN BLOT. KEY FINDINGS: ACH3 AND ACH4 NOT ONLY LOCALIZED IN NEURONAL NUCLEI, BUT ALSO IN NUCLEI OF GLIAL CELLS IN THE DRG. UNILATERAL SNL INDUCED THE INCREASE OF ACH3 AND ACH4 EXPRESSION IN THE INJURED LUMBAR 5 (L5) DRG, BUT NOT IN THE UNINJURED L5 DRG OR THE SPINAL DORSAL HORN, WHILE UNILATERAL INTRAPLANTAR INJECTION OF CFA INCREASED ACH3 AND ACH4 EXPRESSION IN THE IPSILATERAL L4/5 SPINAL DORSAL HORN, BUT NOT IN THE L4/5 DRG. SIGNIFICANCE: THESE RESULTS PROVIDE MORPHOLOGICAL EVIDENCE FOR GLOBAL HISTONE ACETYLATION EXPRESSION IN THE DRG AND SPINAL CORD AND INDICATE THE DIFFERENTIAL EXPRESSION IN THE DRG AND SPINAL DORSAL HORN IN DIFFERENT CHRONIC PAIN MODELS. MORE PRECISE EPIGENETIC MECHANISMS OF HISTONE ACETYLATION ON THE TARGET GENES NEED TO BE REVEALED. 2018 10 3332 29 HISTONE DEACETYLASE INHIBITOR-INDUCED EMERGENCE OF SYNAPTIC DELTA-OPIOID RECEPTORS AND BEHAVIORAL ANTINOCICEPTION IN PERSISTENT NEUROPATHIC PAIN. THE EFFICACY OF OPIOIDS IN PATIENTS WITH CHRONIC NEUROPATHIC PAIN REMAINS CONTROVERSIAL. ALTHOUGH ACTIVATION OF DELTA-OPIOID RECEPTORS (DORS) IN THE BRAINSTEM REDUCES INFLAMMATION-INDUCED PERSISTENT HYPERALGESIA, IT IS NOT EFFECTIVE UNDER PERSISTENT NEUROPATHIC PAIN CONDITIONS AND THESE CLINICAL PROBLEMS REMAIN LARGELY UNKNOWN. IN THIS STUDY, BY USING A CHRONIC CONSTRICTION INJURY (CCI) OF THE SCIATIC NERVE IN RATS, WE FOUND THAT IN THE BRAINSTEM NUCLEUS RAPHE MAGNUS (NRM), DORS EMERGED ON THE SURFACE MEMBRANE OF CENTRAL SYNAPTIC TERMINALS ON DAY 3 AFTER CCI SURGERY AND DISAPPEARED ON DAY 14. HISTONE DEACETYLASE (HDAC) INHIBITORS MICROINJECTED INTO THE NRM IN VIVO INCREASED THE LEVEL OF SYNAPTOSOMAL DOR PROTEIN AND NRM INFUSION OF DOR AGONISTS PRODUCING AN ANTINOCICEPTIVE EFFECT IN A NERVE GROWTH FACTOR (NGF) SIGNALING-DEPENDENT MANNER. IN VITRO, IN CCI RAT SLICES INCUBATED WITH HDAC INHIBITORS, DOR AGONISTS SIGNIFICANTLY INHIBITED EPSCS. THIS EFFECT WAS BLOCKED BY TYROSINE RECEPTOR KINASE A ANTAGONISTS. CHROMATIN IMMUNOPRECIPITATION ANALYSIS REVEALED THAT NRM INFUSION OF HDAC INHIBITORS IN CCI RATS INCREASED THE LEVEL OF HISTONE H4 ACETYLATION AT NGF GENE PROMOTER REGIONS. NGF WAS INFUSED INTO THE NRM OR INCUBATED CCI RAT SLICES DROVE DORS TO THE SURFACE MEMBRANE OF SYNAPTIC TERMINALS. TAKEN TOGETHER, EPIGENETIC UPREGULATION OF NGF ACTIVITY BY HDAC INHIBITORS IN THE NRM PROMOTES THE TRAFFICKING OF DORS TO PAIN-MODULATING NEURONAL SYNAPSES UNDER NEUROPATHIC PAIN CONDITIONS, LEADING TO DELTA-OPIOID ANALGESIA. THESE FINDINGS INDICATE THAT THERAPEUTIC USE OF DOR AGONISTS COMBINED WITH HDAC INHIBITORS MIGHT BE EFFECTIVE IN CHRONIC NEUROPATHIC PAIN MANAGEMENTS. 2016 11 2300 28 EPIGENETIC REGULATION OF BDNF EXPRESSION IN THE PRIMARY SENSORY NEURONS AFTER PERIPHERAL NERVE INJURY: IMPLICATIONS IN THE DEVELOPMENT OF NEUROPATHIC PAIN. BRAIN-DERIVED NEUROTROPHIC FACTOR (BDNF) IS KNOWN TO BE UP-REGULATED IN THE DORSAL ROOT GANGLION (DRG) AFTER PERIPHERAL NERVE INJURY, AND TO CONTRIBUTE TO NEUROPATHIC PAIN. HERE, WE FOUND THAT THERMAL HYPERALGESIA AND MECHANICAL ALLODYNIA AT DAY 7 POST-INJURY WERE INHIBITED ONLY WHEN ANTI-BDNF ANTIBODY WAS INTRATHECALLY ADMINISTRATED AT DAY 2 POST-INJURY. CONSISTENT WITH BEHAVIORAL RESULTS, WESTERN BLOT ANALYSIS SHOWED THAT THE EXPRESSION LEVELS OF BDNF PROTEIN IN THE SPINAL DORSAL HORN WERE MARKEDLY INDUCED DURING EARLY STAGE POST-INJURY. MOREOVER, THE MAXIMAL INCREASE IN BDNF MRNA EXPRESSION IN THE DRG WAS OBSERVED AT DAY 1 POST-INJURY, AND SIGNIFICANTLY ELEVATED LEVELS WERE SUSTAINED FOR AT LEAST 14 DAYS. FOUR OF FIVE BDNF MRNA TRANSCRIPTS WERE UP-REGULATED AFTER NERVE INJURY, AND THE MOST INDUCIBLE TRANSCRIPT WAS EXON I. USING A CHROMATIN IMMUNOPRECIPITATION (CHIP) ASSAY, WE FOUND THAT NERVE INJURY PROMOTES HISTONE H3 AND H4 ACETYLATION, TRANSCRIPTIONALLY ACTIVE MODIFICATIONS, AT BDNF PROMOTER I AT DAY 1 POST-INJURY, AND THE LEVELS OF HISTONE ACETYLATION REMAIN ELEVATED FOR AT LEAST 7 DAYS. TAKEN TOGETHER, OUR FINDINGS SUGGEST THAT AN INITIAL INCREASE IN BDNF EXON I EXPRESSION CONTROLLED BY EPIGENETIC MECHANISMS MIGHT HAVE A CRUCIAL ROLE IN THE DEVELOPMENT OF NEUROPATHIC PAIN. 2013 12 3832 24 INVOLVEMENT OF SPINAL SIRT1 IN DEVELOPMENT OF CHRONIC CONSTRICTION INJURY INDUCED NEUROPATHIC PAIN IN RATS. IT IS KNOWN THAT THE EPIGENETIC PROCESS OF HISTONE ACETYLATION IS INVOLVED IN THE NEUROPATHIC PAIN. THE AIM OF THIS STUDY WAS TO DETERMINE WHETHER SIRTUIN TYPE 1 (SIRT1), AN NAD(+) DEPENDENT DEACETYLASE, AFFECTED ALLODYNIA AND HYPERALGESIA IN NEUROPATHIC PAIN. THE NEUROPATHIC PAIN MODEL WAS ESTABLISHED BY LIGATURE OF THE RIGHT SCIATIC NERVE TO INDUCE CHRONIC CONSTRICTION INJURY (CCI) IN RATS. HISTONE ACETYLTRANSFERASE (HAT) ACTIVITY WAS INCREASED AND, AND HISTONE DEACETYLASE (HDAC) ACTIVITY WAS DECLINED IN TISSUE OF THE SPINAL DORSA HORN IN CCI RATES BY MEANS OF ENZYME-LINKED IMMUNOSORBENT ASSAY (ELISA). THE PERSISTENT HYPERALGESIA AND ALLODYNIA CAUSED BY CCI WERE ASSOCIATED WITH DOWNREGULATION OF SIRT1 AND UPREGULATION OF ACETYLATED-H3 (AC-H3) IN TISSUE OF THE SPINAL CORD BY WESTERN BLOT ASSAY, WHICH WAS REVERSED AFTER INTRATHECAL INJECTION OF SIRT1 AGONIST SRT1720. SRT1720 TREATMENT ACHIEVED ANALGESIC THROUGH INHIBITING THE ACETYLATION OF NUCLEAR FACTOR KAPPA B (NF-KAPPAB) AND BLOCKING THE RELEASES OF THE INFLAMMATORY FACTORS INCLUDING TUMOR NECROSIS FACTOR-ALPHA (TNF-ALPHA) AND INTERLEUKIN (IL)-6 BY MEANS OF WESTERN BLOT AND REAL-TIME QUANTITATIVE PCR (RT-PCR), RESPECTIVELY. TAKEN TOGETHER, THESE DATA SUGGEST THAT SIRT1 IN THE SPINAL CORD PLAYS AN IMPORTANT ROLE IN THE NEUROPATHIC PAIN IN THE RAT MODEL. 2018 13 1654 27 DORSAL ROOT GANGLIA COACTIVATOR-ASSOCIATED ARGININE METHYLTRANSFERASE 1 CONTRIBUTES TO PERIPHERAL NERVE INJURY-INDUCED PAIN HYPERSENSITIVITIES. NEUROPATHIC PAIN IS ASSOCIATED WITH GENE EXPRESSION CHANGES WITHIN THE DORSAL ROOT GANGLION (DRG) AFTER PERIPHERAL NERVE INJURY, WHICH INVOLVES EPIGENETIC MECHANISMS. COACTIVATOR-ASSOCIATED ARGININE METHYLTRANSFERASE 1 (CARM1), AN EPIGENETIC ACTIVATOR, REGULATES GENE TRANSCRIPTIONAL ACTIVITY BY PROTEIN POSTTRANSLATIONAL MODIFICATIONS. HOWEVER, WHETHER CARM1 PLAYS AN ESSENTIAL ROLE IN THE DEVELOPMENT AND MAINTENANCE OF NEUROPATHIC PAIN IS UNKNOWN. WE REPORT HERE THAT PERIPHERAL NERVE INJURY INDUCED THE UPREGULATION OF THE MRNA AND PROTEIN EXPRESSION OF CARM1 IN THE INJURED DRG, AND BLOCKING ITS EXPRESSION THROUGH SMALL INTERFERING RNA (SIRNA) IN THE INJURED DRG ATTENUATED THE DEVELOPMENT AND MAINTENANCE OF NEUROPATHIC PAIN. FURTHERMORE, PHARMACOLOGICAL INHIBITION OF CARM1 MITIGATED PERIPHERAL NERVE INJURY-INDUCED MECHANICAL ALLODYNIA AND THERMAL HYPERALGESIA. GIVEN THAT CARM1 INHIBITION OR KNOCKDOWN ATTENUATED THE INDUCTION AND MAINTENANCE OF NEUROPATHIC PAIN AFTER PERIPHERAL NERVE INJURY, OUR FINDINGS SUGGEST THAT CARM1 MAY SERVE AS A PROMISING THERAPEUTIC TARGET FOR NEUROPATHIC PAIN TREATMENT IN CLINICAL APPLICATIONS. 2018 14 5574 26 ROLE OF MICRORNA-143 IN NERVE INJURY-INDUCED UPREGULATION OF DNMT3A EXPRESSION IN PRIMARY SENSORY NEURONS. PERIPHERAL NERVE INJURY INCREASED THE EXPRESSION OF THE DNA METHYLTRANSFERASE 3A (DNMT3A) MRNA AND ITS ENCODING DNMT3A PROTEIN IN INJURED DORSAL ROOT GANGLIA (DRG). THIS INCREASE IS CONSIDERED AS AN ENDOGENOUS INSTIGATOR IN NEUROPATHIC PAIN GENESIS THROUGH EPIGENETIC SILENCING OF PAIN-ASSOCIATED GENES (SUCH AS OPRM1) IN INJURED DRG. HOWEVER, HOW DRG DNMT3A IS INCREASED FOLLOWING PERIPHERAL NERVE INJURY IS STILL ELUSIVE. WE REPORTED HERE THAT PERIPHERAL NERVE INJURY CAUSED BY THE FIFTH SPINAL NERVE LIGATION (SNL) DOWNREGULATED MICRORNA (MIR)-143 EXPRESSION IN INJURED DRG. THIS DOWNREGULATION WAS REQUIRED FOR SNL-INDUCED DRG DNMT3A INCREASE AS RESCUING MIR-143 DOWNREGULATION THROUGH MICROINJECTION OF MIR-143 MIMICS INTO INJURED DRG BLOCKED THE SNL-INDUCED INCREASE IN DNMT3A AND RESTORED THE SNL-INDUCED DECREASES IN OPRM1 MRNA AND ITS ENCODING MU OPIOID RECEPTOR (MOR) IN INJURED DRG, IMPAIRED SPINAL CORD CENTRAL SENSITIZATION AND NEUROPATHIC PAIN, AND IMPROVED MORPHINE ANALGESIC EFFECTS FOLLOWING SNL. MIMICKING SNL-INDUCED DRG MIR-143 DOWNREGULATION THROUGH DRG MICROINJECTION OF MIR143 INHIBITORS IN NAIVE RATS INCREASED THE EXPRESSION OF DNMT3A AND REDUCED THE EXPRESSION OF OPRM1 MRNA AND MOR IN INJECTED DRG AND PRODUCED NEUROPATHIC PAIN-LIKE SYMPTOMS. THESE FINDINGS SUGGEST THAT MIR-143 IS A NEGATIVE REGULATOR IN DNMT3A EXPRESSION IN THE DRG UNDER NEUROPATHIC PAIN CONDITIONS AND MAY BE A POTENTIAL TARGET FOR THERAPEUTIC MANAGEMENT OF NEUROPATHIC PAIN. 2017 15 5402 30 REDUCTION OF SIRT1-MEDIATED EPIGENETIC UPREGULATION OF NAV1.7 CONTRIBUTES TO OXALIPLATIN-INDUCED NEUROPATHIC PAIN. BACKGROUND: CLINICALLY, NEUROPATHIC PAIN IS A SEVERE SIDE EFFECT OF OXALIPLATIN CHEMOTHERAPY, WHICH USUALLY LEADS TO DOSE REDUCTION OR CESSATION OF TREATMENT. DUE TO THE UNAWARENESS OF DETAILED MECHANISMS OF OXALIPLATIN-INDUCED NEUROPATHIC PAIN, IT IS DIFFICULT TO DEVELOP AN EFFECTIVE THERAPY AND LIMITS ITS CLINICAL USE. OBJECTIVES: THE AIM OF THE PRESENT STUDY WAS TO IDENTIFY THE ROLE OF SIRTUIN 1 (SIRT1) REDUCTION IN EPIGENETIC REGULATION OF THE EXPRESSION OF VOLTAGE-GATED SODIUM CHANNELS 1.7 (NAV1.7) IN THE DORSAL ROOT GANGLION (DRG) DURING OXALIPLATIN-INDUCED NEUROPATHIC PAIN. STUDY DESIGN: CONTROLLED ANIMAL STUDY. SETTING: UNIVERSITY LABORATORY. METHODS: THE VON FREY TEST WAS PERFORMED TO EVALUATE PAIN BEHAVIOR IN RATS. REAL-TIME QUANTITATIVE POLYMERASE CHAIN REACTION, WESTERN BLOTTING, ELECTROPHYSIOLOGICAL RECORDING, CHROMATIN IMMUNOPRECIPITATION, AND SMALL INTERFERING RNA (SIRNA) WERE USED TO ILLUSTRATE THE MECHANISMS. RESULTS: IN THE PRESENT STUDY, WE FOUND THAT BOTH THE ACTIVITY AND EXPRESSION OF SIRT1 WERE SIGNIFICANTLY DECREASED IN RAT DRG FOLLOWING OXALIPLATIN TREATMENT. THE ACTIVATOR OF SIRT1, RESVERATROL, NOT ONLY INCREASED THE ACTIVITY AND EXPRESSION OF SIRT1, BUT ALSO ATTENUATED THE MECHANICAL ALLODYNIA FOLLOWING OXALIPLATIN TREATMENT. IN ADDITION, LOCAL KNOCKDOWN OF SIRT1 BY INTRATHECAL INJECTION OF SIRT1 SIRNA CAUSED MECHANICAL ALLODYNIA IN NAIVE RATS. BESIDES, OXALIPLATIN TREATMENT ENHANCED THE ACTION POTENTIAL FIRING FREQUENCY OF DRG NEURONS AND THE EXPRESSION OF NAV1.7 IN DRG AND ACTIVATION OF SIRT1 BY RESVERATROL REVERSED THIS EFFECT. FURTHERMORE, BLOCKING NAV1.7 BY PROTX II (A SELECTIVE NAV1.7 CHANNEL BLOCKER) REVERSED OXALIPLATIN-INDUCED MECHANICAL ALLODYNIA. IN ADDITION, HISTONE H3 HYPERACETYLATION AT THE NAV1.7 PROMOTER IN DRG OF RATS FOLLOWING OXALIPLATIN TREATMENT WAS SIGNIFICANTLY SUPPRESSED BY ACTIVATION OF SIRT1 WITH RESVERATROL. MOREOVER, BOTH THE EXPRESSION OF NAV1.7 AND HISTONE H3 ACETYLATION AT THE NAV1.7 PROMOTER WERE UPREGULATED IN THE DRG BY LOCAL KNOCKDOWN OF SIRT1 WITH SIRT1 SIRNA IN NAIVE RATS. LIMITATIONS: MORE UNDERLYING MECHANISM(S) OF SIRT1 REDUCTION AFTER OXALIPLATIN TREATMENT NEEDS TO BE EXPLORED IN FUTURE RESEARCH. CONCLUSIONS: THESE FINDINGS SUGGEST THAT REDUCTION OF SIRT1-MEDIATED EPIGENETIC UPREGULATION OF NAV1.7 IN THE DRG CONTRIBUTES TO THE DEVELOPMENT OF OXALIPLATIN-INDUCED NEUROPATHIC PAIN IN RATS. THE INTRATHECAL DRUG DELIVERY TREATMENT OF ACTIVATING SIRT1 MIGHT BE A NOVEL THERAPEUTIC OPTION FOR OXALIPLATIN-INDUCED NEUROPATHIC PAIN. 2023 16 2112 18 EPIGENETIC GENE SILENCING UNDERLIES C-FIBER DYSFUNCTIONS IN NEUROPATHIC PAIN. PERIPHERAL NERVE INJURY CAUSES NEUROPATHIC PAIN, WHICH IS CHARACTERIZED BY THE PARADOXICAL SENSATIONS OF POSITIVE AND NEGATIVE SYMPTOMS. CLINICALLY, NEGATIVE SIGNS ARE FREQUENTLY OBSERVED; HOWEVER, THEIR UNDERLYING MOLECULAR MECHANISMS ARE LARGELY UNKNOWN. DYSFUNCTION OF C-FIBERS IS ASSUMED TO UNDERLIE NEGATIVE SYMPTOMS AND IS ACCOMPANIED BY LONG-LASTING DOWNREGULATION OF NA(V)1.8 SODIUM CHANNEL AND MU-OPIOID RECEPTOR (MOP) IN THE DORSAL ROOT GANGLION (DRG). IN THE PRESENT STUDY, WE FOUND THAT NERVE INJURY UPREGULATES NEURON-RESTRICTIVE SILENCER FACTOR (NRSF) EXPRESSION IN THE DRG NEURONS MEDIATED THROUGH EPIGENETIC MECHANISMS. IN ADDITION, CHROMATIN IMMUNOPRECIPITATION ANALYSIS REVEALED THAT NERVE INJURY PROMOTES NRSF BINDING TO THE NEURON-RESTRICTIVE SILENCER ELEMENT WITHIN MOP AND NA(V)1.8 GENES, THEREBY CAUSING EPIGENETIC SILENCING. FURTHERMORE, NRSF KNOCKDOWN SIGNIFICANTLY BLOCKED NERVE INJURY-INDUCED DOWNREGULATIONS OF MOP AND NA(V)1.8 GENE EXPRESSIONS, C-FIBER HYPOESTHESIA, AND THE LOSSES OF PERIPHERAL MORPHINE ANALGESIA AND NA(V)1.8-SELECTIVE BLOCKER-INDUCED HYPOESTHESIA. TOGETHER, THESE DATA SUGGEST THAT NRSF CAUSES PATHOLOGICAL AND PHARMACOLOGICAL DYSFUNCTION OF C-FIBERS, WHICH UNDERLIES THE NEGATIVE SYMPTOMS IN NEUROPATHIC PAIN. 2010 17 3196 23 HDAC INHIBITORS RESTORE C-FIBRE SENSITIVITY IN EXPERIMENTAL NEUROPATHIC PAIN MODEL. BACKGROUND AND PURPOSE: HYPOESTHESIA IS A CLINICAL FEATURE OF NEUROPATHIC PAIN. THE FEATURE IS PARTLY EXPLAINED BY THE EVIDENCE OF EPIGENETIC REPRESSION OF NAV 1.8 SODIUM CHANNEL IN THE DORSAL ROOT GANGLION (DRG). EXPERIMENTAL APPROACH: WE INVESTIGATED THE POSSIBILITY OF TRICHOSTATIN A (TSA), VALPROIC ACID (VPA) AND SUBEROYLANILIDE HYDROXAMIC ACID (SAHA) TO REVERSE THE UNIQUE C-FIBRE SENSITIVITY OBSERVED FOLLOWING PARTIAL LIGATION OF SCIATIC NERVE IN MICE. KEY RESULTS: NERVE INJURY-INDUCED DOWN-REGULATION OF DRG NAV 1.8 SODIUM CHANNEL AND C-FIBRE-RELATED HYPOESTHESIA WERE REVERSED BY TSA, VPA AND SAHA TREATMENTS, WHICH INHIBIT HISTONE DEACETYLASE (HDAC), AND INCREASE HISTONE ACETYLATION AT THE REGULATORY SEQUENCE OF NAV 1.8. CONCLUSIONS AND IMPLICATIONS: TAKEN TOGETHER, THESE STUDIES PROVIDE THE EVIDENCE THAT HYPOESTHESIA AND UNDERLYING DOWN-REGULATION OF NAV 1.8, NEGATIVE SYMPTOMS OBSERVED IN NERVE INJURY-INDUCED NEUROPATHIC PAIN MODELS ARE REGULATED BY AN EPIGENETIC CHROMATIN REMODELLING THROUGH HDAC-RELATED MACHINERIES. 2013 18 4616 26 NERVE INJURY INCREASES BRAIN-DERIVED NEUROTROPHIC FACTOR LEVELS TO SUPPRESS BK CHANNEL ACTIVITY IN PRIMARY SENSORY NEURONS. ABNORMAL HYPEREXCITABILITY OF PRIMARY SENSORY NEURONS CONTRIBUTES TO NEUROPATHIC PAIN DEVELOPMENT AFTER NERVE INJURY. NERVE INJURY PROFOUNDLY REDUCES THE EXPRESSION OF BIG CONDUCTANCE CA(2+) -ACTIVATED K(+) (BK) CHANNELS IN THE DORSAL ROOT GANGLION (DRG). HOWEVER, LITTLE IS KNOWN ABOUT HOW NERVE INJURY AFFECTS BK CHANNEL ACTIVITY IN DRG NEURONS. IN THIS STUDY, WE DETERMINED THE CHANGES IN BK CHANNEL ACTIVITY IN DRG NEURONS IN A RAT MODEL OF NEUROPATHIC PAIN AND THE CONTRIBUTION OF BRAIN-DERIVED NEUROTROPHIC FACTOR (BDNF) TO REDUCED BK CHANNEL ACTIVITY. THE BK CHANNEL ACTIVITY WAS PRESENT PREDOMINANTLY IN SMALL AND MEDIUM DRG NEURONS, AND LIGATION OF L5 AND L6 SPINAL NERVES PROFOUNDLY DECREASED THE BK CURRENT DENSITY IN THESE NEURONS. BLOCKING BK CHANNELS SIGNIFICANTLY INCREASED NEURONAL EXCITABILITY IN SHAM CONTROL, BUT NOT IN NERVE-INJURED, RATS. THE BDNF CONCENTRATION IN THE DRG WAS SIGNIFICANTLY GREATER IN NERVE-INJURED RATS THAN IN CONTROL RATS. BDNF TREATMENT LARGELY REDUCED BK CURRENTS IN DRG NEURONS IN CONTROL RATS, WHICH WAS BLOCKED BY EITHER ANTI-BDNF ANTIBODY OR K252A, A TRK RECEPTOR INHIBITOR. FURTHERMORE, EITHER ANTI-BDNF ANTIBODY OR K252A REVERSED REDUCTION IN BK CURRENTS IN INJURED DRG NEURONS. BDNF TREATMENT REDUCED THE MRNA LEVELS OF BKALPHA1 SUBUNIT IN DRG NEURONS, AND ANTI-BDNF ANTIBODY ATTENUATED THE REDUCTION IN THE BKALPHA1 MRNA LEVEL IN INJURED DRG NEURONS. THESE FINDINGS SUGGEST THAT NERVE INJURY PRIMARILY DIMINISHES THE BK CHANNEL ACTIVITY IN SMALL AND MEDIUM DRG NEURONS. INCREASED BDNF LEVELS CONTRIBUTE TO REDUCED BK CHANNEL ACTIVITY IN DRG NEURONS THROUGH EPIGENETIC AND TRANSCRIPTIONAL MECHANISMS IN NEUROPATHIC PAIN. 2012 19 5426 35 REGULATION OF SIRTUIN EXPRESSION IN AUTOIMMUNE NEUROINFLAMMATION: INDUCTION OF SIRT1 IN OLIGODENDROCYTE PROGENITOR CELLS. IN MULTIPLE SCLEROSIS (MS) REGENERATION OF OLIGODENDROCYTES FOLLOWING INFLAMMATORY DEMYELINATION IS LIMITED BY THE COMPROMISED ABILITY OF PROGENITORS TO REPOPULATE LESIONED AREAS AND TRANSITION TO FUNCTIONALLY COMPETENT OLIGODENDROCYTES. REGARDING UNDERLYING MECHANISMS, THE INVOLVEMENT OF EPIGENETIC PROCESSES HAS BEEN SUGGESTED, E.G. THE CONTRIBUTION OF HISTONE DEACETYLASES (HDAC) KNOWN TO REGULATE OLIGODENDROCYTE PROGENITOR CELL (OPC) DIFFERENTIATION. HOWEVER, THEIR PRECISE EXPRESSION PATTERNS, PARTICULAR OF REDOX-SENSITIVE NAD(+) HDACS, REMAINS LARGELY UNKNOWN. IN THIS STUDY, WE DETERMINED THE EXPRESSION AND ACTIVITY OF SIRTUINS, MEMBERS OF THE HDAC CLASS III FAMILY WITH A SPECIFIC FOCUS ON SIRT1, PREVIOUSLY ASSOCIATED WITH NEURODEGENERATIVE, INFLAMMATORY AND DEMYELINATING DISORDERS OF THE CENTRAL NERVOUS SYSTEM (CNS). BY INVESTIGATING MOUSE EXPERIMENTAL AUTOIMMUNE ENCEPHALOMYELITIS (EAE), A MODEL FOR MS, WE FOUND THAT TRANSCRIPTION OF SIRT1, SIRT2 AND SIRT6 WAS SIGNIFICANTLY INCREASED IN THE CNS DURING CHRONIC DISEASE STAGES. WE CONFIRMED THIS FINDING FOR SIRT1 PROTEIN EXPRESSION AND WERE ABLE TO LOCALIZE UPREGULATED SIRT1 IN NUCLEI OF NG2(+) OR PDGFRALPHA(+) OPCS IN DEMYELINATED BRAIN LESIONS. IN CULTURED MOUSE A2B5(+) OPCS BLOCKADE OF SIRT1 ACTIVITY BY THE SMALL MOLECULE COMPOUND EX527 ENHANCED MITOTIC ACTIVITY BUT DID NOT AFFECT THE CAPACITY TO DIFFERENTIATE. A SIMILAR PATTERN WAS DETECTABLE IN OPCS DERIVED FROM SIRT1-DEFICIENT ANIMALS. TAKEN TOGETHER, OUR DATA SUGGEST THAT SIRT1 INHIBITION MAY HELP TO EXPAND THE ENDOGENOUS POOL OF OPCS WITHOUT AFFECTING THEIR DIFFERENTIATION. 2019 20 21 19 5-HYDROXYMETHYLCYTOSINE (5HMC) AND TEN-ELEVEN TRANSLOCATION 1-3 (TET1-3) PROTEINS IN THE DORSAL ROOT GANGLIA OF MOUSE: EXPRESSION AND DYNAMIC REGULATION IN NEUROPATHIC PAIN. EPIGENETIC MECHANISMS ARE INCREASINGLY IMPLICATED IN CHRONIC PAIN PATHOLOGY. IN THIS STUDY, WE DEMONSTRATE THAT THE NOVEL EPIGENETIC MARK 5-HYDROXYMETHYLCYTOSINE (5HMC) IS PRESENT IN DORSAL ROOT GANGLIA (DRG) NEURONS AND GLIA, AND ITS LEVELS INCREASE FOLLOWING NERVE INJURY. FURTHERMORE, WE SHOW THAT THE 5HMC-GENERATING TEN-ELEVEN TRANSLOCATION 1-3 (TET1-3) PROTEINS ARE EXPRESSED IN A CELL-TYPE SPECIFIC MANNER IN THE DRG, WITH TET3 DISPLAYING DIFFERENTIAL UPREGULATION AFTER INJURY, SUGGESTING A POTENTIAL ROLE IN NEUROPATHIC PAIN. 2017