1 4259 145 METTL3 SUPPRESSES NEUROPATHIC PAIN VIA MODULATING N6-METHYLADENOSINE-DEPENDENT PRIMARY MIR-150 PROCESSING. METHYLTRANSFERASE-LIKE 3 (METTL3)-MODULATED N6-METHYLADENOSINE (M6A) WAS RECENTLY IDENTIFIED AS AN IMPORTANT EPIGENETIC REGULATION TYPE DURING RNA PROCESSING AND CONTRIBUTES TO MULTIPLE PATHOLOGICAL PROCESSES. NEUROPATHIC PAIN (NP) IS INDUCED BY A LESION OF THE SOMATOSENSORY NERVOUS SYSTEM, AND THE DETAILED PATHWAYS BY WHICH METTL3/M6A REGULATED TO MODULATE GENE DYSREGULATION AND ENABLE NP HAVE REMAINED UNCLEAR. THEREFORE, THIS STUDY INVESTIGATED THE FUNCTION OF METTL3-MEDIATED M6A METHYLATION ON MIRNA MATURATION, AND INVESTIGATED HOW THIS REGULATION CONTRIBUTES TO NP PROGRESSION. A RAT MODEL CHARACTERIZED WITH TYPICAL NP WAS ESTABLISHED BY A SPARED NERVE-INJURY (SNI) METHOD. BY ANALYZING THE EXPRESSION LEVELS OF METTL3 AND M6A METHYLATION, WE FOUND THAT METTL3, ALONG WITH M6A METHYLATION, WAS DRAMATICALLY DOWNREGULATED IN NP RATS IN CONTRAST TO THE SHAM ONES. FUNCTIONALLY, ENHANCED METTL3 PROMOTED THE M6A METHYLATION IN TOTAL RNAS AND INHIBITED NP PROGRESSION, WHEREAS SILENCING METTL3 SUPPRESSED M6A METHYLATION AND INCREASED NP SEVERITY. MECHANISTICALLY, METTL3 ACCELERATED MIR-150 MATURATION VIA MEDIATING M6A METHYLATION OF PRIMIR-150 AT LOCUS 498, COOPERATING WITH THE "M6A READER" YTHDF2. MEANWHILE, MIR-150 COULD DIRECTLY TARGET BRAIN-DERIVED NEUROTROPHIC FACTOR (BDNF) MRNA, AND THE METTL3/MIR-150/BDNF REGULATORY PATHWAY WAS FINALLY ESTABLISHED. CLINICALLY, WE PROVED THAT SERUM METTL3 MRNA WAS ALSO DOWNREGULATED IN SHINGLES PATIENTS WITH NP, SUGGESTING ITS DIAGNOSTIC POTENTIAL. IN CONCLUSION, WE DEMONSTRATED AN ESSENTIAL FUNCTION OF METTL3-REGULATED N6-METHYLADENOSINE DURING NP PROGRESSION VIA MODULATING PRIMIR-150 MATURATION. SERUM METTL3 COULD EFFECTIVELY DIFFERENTIATE NP PATIENTS FROM HEALTHY PEOPLE, AND IS USEFUL FOR DYNAMIC MONITORING OF DISEASES AFTER TREATMENT. THEREFORE, THE METTL3/MIR-150/BDNF PATHWAY MAY BE A PROMISING THERAPEUTIC TARGET FOR NP PATIENTS. 2022 2 4260 46 METTL3-MEDIATED M6A MODIFICATION OF SIRT1 MRNA INHIBITS PROGRESSION OF ENDOMETRIOSIS BY CELLULAR SENESCENCE ENHANCING. BACKGROUND: ENDOMETRIOSIS (EMS), THE ECTOPIC PLANTING OF FUNCTIONAL ENDOMETRIUM OUTSIDE OF THE UTERUS, IS A LEADING CAUSE OF INFERTILITY AND PELVIC PAIN. AS A FUNDAMENTAL MRNA MODIFICATION, N6-METHYLADENOSINE (M6A) PARTICIPATES IN VARIOUS PATHOLOGICAL PROCESSES. HOWEVER, THE ROLE OF M6A RNA MODIFICATION IN ENDOMETRIOSIS REMAINS UNCLEAR. THE PRESENT STUDY EXPLORES METTL3-MEDIATED M6A MODIFICATION AND THE MECHANISMS INVOLVED IN ENDOMETRIOSIS. METHODS: THE DOMINANT M6A REGULATORS IN EMS WERE ANALYSED USING RT?PCR. CANDIDATE TARGETS AND POSSIBLE MECHANISMS OF METTL3 WERE ASSESSED BY M6A-MRNA EPITRANSCRIPTOMIC MICROARRAY AND RNA SEQUENCING. A PRIMARY ESCS MODEL WAS EMPLOYED TO VERIFY THE EFFECT OF METTL3 ON M6A MODIFICATION OF SIRT1 MRNA, AND THE MECHANISM WAS ELUCIDATED BY RT?PCR, WESTERN BLOTTING, MERIP, AND RIP ASSAYS. CCK-8 VIABILITY ASSAYS, TRANSWELL INVASION ASSAYS, EDU PROLIFERATION ASSAYS, WOUND HEALING MIGRATION ASSAYS, AND SENESCENCE-ASSOCIATED BETA-GALACTOSIDASE STAINING WERE PERFORMED TO ILLUMINATE THE POTENTIAL BIOLOGICAL MECHANISM OF METTL3 AND SIRT1 IN ESCS IN VITRO. AN IN VIVO PGRCRE/ + METTL3 -/- FEMALE HOMOZYGOUS MOUSE MODEL AND A NUDE MOUSE XENOGRAFT MODEL WERE EMPLOYED TO FURTHER INVESTIGATE THE PHYSIOLOGIC CONSEQUENCES OF METTL3-MEDIATED M6A ALTERATION ON EMS. RESULTS: OUR DATA SHOW THAT DECREASED METTL3 EXPRESSION SIGNIFICANTLY DOWNREGULATES M6A RNA METHYLATION LEVELS IN ESCS. SILENCING M6A MODIFICATIONS MEDIATED BY METTL3 ACCELERATES ESCS VIABILITY, PROLIFERATION, MIGRATION, AND INVASION IN VITRO. THE M6A READER PROTEIN YTHDF2 BINDS TO M6A MODIFICATIONS TO INDUCE THE DEGRADATION OF SIRT1 MRNA. SIRT1/FOXO3A SIGNALLING PATHWAY ACTIVATION IS SUBSEQUENTLY INHIBITED, PROMOTING THE CELLULAR SENESCENCE OF ESCS AND INHIBITING THE ECTOPIC IMPLANTATION OF ESCS IN VITRO AND IN VIVO. CONCLUSIONS: OUR FINDINGS DEMONSTRATE THAT METTL3-MEDIATED M6A METHYLATION EPIGENETICALLY REGULATES THE ECTOPIC IMPLANTATION OF ESCS, RESULTING IN THE PROGRESSION OF ENDOMETRIOSIS. OUR STUDY ESTABLISHES METTL3-YTHDF2-SIRT1/FOXO3A AS A CRITICAL AXIS AND POTENTIAL MECHANISM IN ENDOMETRIOSIS. 2023 3 4579 30 N(6)-METHYLADENOSINE METHYLASE METTL3 CONTRIBUTES TO NEUROPATHIC PAIN BY EPIGENETIC SILENCING OF MU OPIOID RECEPTOR. WE AIMED AT EXPLORING THE ROLE AND MECHANISM OF METTL3-MEDIATED M(6)A MODIFICATION IN NEUROPATHIC PAIN. MALE SPRAGUE-DAWLEY RATS WERE RANDOMLY DIVIDED INTO FOUR GROUPS: SHAM OPERATION GROUP (SHAM GROUP), CHRONIC CONSTRICTION INJURY (CCI) OF THE SCIATIC NERVE MODEL GROUP (NPP GROUP), INTRATHECAL INJECTION OF VIRUS DOWN-REGULATED METTL3 + CCI MODEL GROUP (M3 + NPP GROUP) AND INTRATHECAL INJECTION OF NEGATIVE CONTROL VIRUS + CCI MODEL GROUP (SCR + NPP GROUP). THE M3 + NPP GROUP AND THE SCR + NPP GROUP WERE INTRATHECALLY INJECTED WITH VIRUS NINETEEN DAYS BEFORE OPERATION. THE PAW WITHDRAWAL MECHANICAL THRESHOLDS AND PAW WITHDRAWAL LATENCY WERE RESPECTIVELY RECORDED ONE DAY BEFORE OPERATION, THREE DAYS, FIVE DAYS AND SEVEN DAYS AFTER OPERATION. THE RATS WERE SACRIFICED ON THE SEVENTH DAY AFTER OPERATION, AND THEIR SPINAL CORD TISSUES WERE TAKEN. THE FROZEN SECTIONS OF RATS WERE PERFORMED TO OBSERVE THE EXPRESSION OF GREEN FLUORESCENT PROTEIN OF THE VIRUS. THE METHYLATION LEVEL OF RNA, THE PROTEIN EXPRESSION OF M(6)A-RELATED ENZYME (METTL3) AND MU OPIOID RECEPTOR (MOR) IN SPINAL CORD TISSUES OF THE FOUR GROUPS WERE MEASURED. DOWNREGULATION OF METTL3 HAD NO EFFECT ON THE OVERALL METHYLATION LEVEL OF THE SPINAL CORD, BUT IT COULD REGULATE THE METHYLATION LEVEL OF THE OPRM1 GENE RNA ENCODING MOR, PARTIALLY RESTORE THE EXPRESSION OF MOR, AND RELIEVE PAIN IN RATS. IN THE PROCESS OF NPP, METTL3 MAY INHIBIT THE EXPRESSION OF MOR BY REGULATING THE METHYLATION LEVEL OF OPRM1 GENE RNA ENCODING MOR, AND ULTIMATELY PROMOTE THE OCCURRENCE AND DEVELOPMENT OF NPP. 2023 4 4713 38 NON-CODING RNA AND N6-METHYLADENOSINE MODIFICATION PLAY CRUCIAL ROLES IN NEUROPATHIC PAIN. AFTER PERIPHERAL NERVE INJURY, PAIN SIGNALS ARE TRANSMITTED FROM PRIMARY SENSORY NEURONS IN THE DORSAL ROOT GANGLION (DRG) TO THE CENTRAL NERVOUS SYSTEM. EPIGENETIC MODIFICATION AFFECTS NEUROPATHIC PAIN THROUGH ALTERATIONS IN THE GENE EXPRESSION IN PAIN-RELATED AREAS AND GLIAL CELL ACTIVATION. RECENT STUDIES HAVE SHOWN THAT NON-CODING RNA AND N6-METHYLADENOSINE (M6A) METHYLATION MODIFICATION PLAY PIVOTAL REGULATORY ROLES IN THE OCCURRENCE AND MAINTENANCE OF NEUROPATHIC PAIN. DYSREGULATION OF THE RNA M6A LEVEL VIA DYNAMIC CHANGES IN METHYLTRANSFERASE AND DEMETHYLASE AFTER CENTRAL OR PERIPHERAL NERVE INJURY COMMONLY REGULATES PAIN-ASSOCIATED GENES, CONTRIBUTING TO THE INDUCTION AND MAINTENANCE OF NEUROPATHIC PAIN. THE DYNAMIC PROCESS HAS SIGNIFICANT IMPLICATIONS FOR THE DEVELOPMENT AND MAINTENANCE OF NEUROPATHIC PAIN. HOWEVER, THE UNDERLYING MECHANISMS BY WHICH NON-CODING RNA AND M6A RNA MODIFICATION REGULATE NEUROPATHIC PAIN ARE NOT WELL-CHARACTERIZED. THIS ARTICLE ELUCIDATES THE MULTIPLE MECHANISMS OF NON-CODING RNA AND M6A METHYLATION IN THE CONTEXT OF NEUROPATHIC PAIN, AND SUMMARIZES ITS POTENTIAL FUNCTIONS AS WELL AS RECENT ADVANCES. 2022 5 885 41 CHRONIC CONSTRICTION INJURY-INDUCED CHANGES IN CIRCULAR RNA EXPRESSION PROFILING OF THE DORSAL ROOT GANGLION IN A RAT MODEL OF NEUROPATHIC PAIN. BACKGROUND: THE PATHOGENESIS OF NEUROPATHIC PAIN (NP) HAS NOT BEEN FULLY ELUCIDATED. GENE CHANGES IN DORSAL ROOT GANGLIA (DRG) MAY CONTRIBUTE TO THE DEVELOPMENT OF NP. CIRCULAR RNAS (CIRCRNAS) ARE A CLASS OF ENDOGENOUS NONCODING RNAS THAT FORM COVALENTLY CLOSED LOOP STRUCTURES AND ARE CRUCIAL FOR GENETIC AND EPIGENETIC REGULATION. HOWEVER, LITTLE IS KNOWN ABOUT CIRCRNA CHANGES IN DRG NEURONS AFTER PERIPHERAL NERVE INJURY. METHODS: A SCIATIC NERVE CHRONIC CONSTRICTION INJURY (CCI) MODEL WAS ESTABLISHED TO INDUCE NEUROPATHIC PAIN. WE PERFORMED GENOME-WIDE CIRCRNA ANALYSIS OF FOUR PAIRED DORSAL ROOT GANGLION (DRG) SAMPLES (L4-L5) FROM CCI AND NEGATIVE CONTROL (NC) RATS USING NEXT-GENERATION SEQUENCING TECHNOLOGY. THE DIFFERENTIALLY EXPRESSED CIRCRNAS (DECIRCRNAS) WERE IDENTIFIED BY DIFFERENTIAL EXPRESSION ANALYSIS, AND THE EXPRESSION PROFILE OF CIRCRNAS WAS VALIDATED BY QUANTITATIVE PCR. GENE ONTOLOGY AND KYOTO ENCYCLOPEDIA OF GENES AND GENOMES ANALYSES WERE PERFORMED TO PREDICT THE FUNCTION OF DECIRCRNAS. RESULTS: A TOTAL OF 374 DECIRCRNAS WERE IDENTIFIED BETWEEN CCI AND NC RATS USING CIRCRNA HIGH-THROUGHPUT SEQUENCING. AMONG THEM, 290 WERE UPREGULATED AND 84 WERE DOWNREGULATED IN THE CCI GROUP. THE EXPRESSION LEVELS OF NINE DECIRCRNAS WERE VALIDATED BY QPCR. FUNCTIONAL ANNOTATION ANALYSIS SHOWED THAT THE DECIRCRNAS WERE MAINLY ENRICHED IN PATHWAYS AND FUNCTIONS, INCLUDING 'DOPAMINERGIC SYNAPSE,' 'RENIN SECRETION,' 'MITOGEN-ACTIVATED PROTEIN KINASE SIGNALING PATHWAY,' AND 'NEUROGENESIS.' COMPETING ENDOGENOUS RNA ANALYSIS SHOWED THAT THE TOP 50 CIRCRNAS EXHIBITED INTERACTIONS WITH FOUR PAIN-RELATED MICRORNAS (MIRNAS). CIRC:CHR2:33950934-33955969 WAS THE LARGEST NODE IN THE CIRCRNA-MIRNA INTERACTION NETWORK. CONCLUSIONS: PERIPHERAL NERVE INJURY-INDUCED NEUROPATHIC PAIN LED TO CHANGES IN THE COMPREHENSIVE EXPRESSION PROFILE OF CIRCRNAS IN THE DRG OF RATS. DECIRCRNAS MAY ADVANCE OUR UNDERSTANDING OF THE MOLECULAR MECHANISMS UNDERLYING NEUROPATHIC PAIN. 2022 6 1631 42 DNMT3A METHYLATION IN NEUROPATHIC PAIN. BACKGROUND: MU OPIOID RECEPTOR (MOR) PLAYS A CRUCIAL ROLE IN MEDIATING ANALGESIC EFFECTS OF OPIOIDS AND IS CLOSELY ASSOCIATED WITH THE PATHOLOGIES OF NEUROPATHIC PAIN. PREVIOUS STUDIES HAVE REPORTED THAT PERIPHERAL NERVE INJURY DOWNREGULATES MOR EXPRESSION, BUT THE EPIGENETIC MECHANISMS REMAIN UNKNOWN. OBJECTIVE: THEREFORE, WE INVESTIGATED DNA METHYLTRANSFERASE3A (DNMT3A) EXPRESSION OR METHYLATION CHANGES WITHIN MOR PROMOTER IN THE SPINAL CORD IN A NEUROPATHIC PAIN INDUCED BY A CHRONIC CONSTRICTION INJURY (CCI) MOUSE MODEL AND FURTHER DETERMINED WHETHER THESE INJURY-ASSOCIATED CHANGES ARE REVERSIBLE BY PHARMACOLOGICAL INTERVENTIONS. METHODS: A CCI MOUSE MODEL WAS ESTABLISHED AND TISSUE SPECIMENS OF LUMBAR SPINAL CORDS WERE COLLECTED. THE NOCICEPTION THRESHOLD WAS EVALUATED BY A MODEL HEATED 400 BASE. DNMT3A AND MOR MRNA AND PROTEIN LEVEL WERE DETECTED BY REAL-TIME-POLYMERASE CHAIN REACTION AND WESTERN BLOT, RESPECTIVELY. METHYLATION OF DNMT3A GENE WAS MEASURED BY METHYLATION-SPECIFIC PCR. RESULTS: OUR DATA SHOWED THAT CHRONIC NERVE INJURY LED TO A SIGNIFICANT UPREGULATION OF DNMT3A EXPRESSION THAT WAS ASSOCIATED WITH INCREASED METHYLATION OF MOR GENE PROMOTER AND DECREASED MOR PROTEIN EXPRESSION IN THE SPINAL CORD. INHIBITION OF DNMT3A CATALYTIC ACTIVITY WITH DNMT INHIBITOR RG108 SIGNIFICANTLY BLOCKED THE INCREASE IN METHYLATION OF THE MOR PROMOTER, AND THEN UPREGULATED MOR EXPRESSION AND ATTENUATED THERMAL HYPERALGESIA IN NEUROPATHIC PAIN MICE. CONCLUSION: THIS STUDY DEMONSTRATES THAT AN INCREASE OF DNMT3A EXPRESSION AND MOR METHYLATION EPIGENETICALLY PLAY AN IMPORTANT ROLE IN NEUROPATHIC PAIN. TARGETING DNMT3A TO THE PROMOTER OF MOR GENE BY DNMT INHIBITOR MAY BE A PROMISING APPROACH TO THE DEVELOPMENT OF NEW NEUROPATHIC PAIN THERAPY. 2017 7 6461 38 TIME-COURSE PROGRESSION OF WHOLE TRANSCRIPTOME EXPRESSION CHANGES OF TRIGEMINAL GANGLIA COMPARED TO DORSAL ROOT GANGLIA IN RATS EXPOSED TO NERVE INJURY. MECHANISMS UNDERLYING NEUROPATHIC PAIN (NP) ARE COMPLEX WITH MULTIPLE GENES, THEIR INTERACTIONS, ENVIRONMENTAL AND EPIGENETIC FACTORS BEING IMPLICATED. TRANSCRIPTIONAL CHANGES IN THE TRIGEMINAL (TG) AND DORSAL ROOT (DRG) GANGLIA HAVE BEEN IMPLICATED IN THE DEVELOPMENT AND MAINTENANCE OF NP. DESPITE EFFORTS TO UNRAVEL MOLECULAR MECHANISMS OF NP, MANY REMAIN UNKNOWN. ALSO, MOST OF THE STUDIES FOCUSED ON THE SPINAL SYSTEM. ALTHOUGH THE SPINAL AND TRIGEMINAL SYSTEMS SHARE SOME OF THE MOLECULAR MECHANISMS, DIFFERENCES EXIST. WE USED RNA-SEQUENCING TECHNOLOGY TO IDENTIFY DIFFERENTIALLY EXPRESSED GENES (DEGS) IN THE TG AND DRG AT BASELINE AND 3 TIME-POINTS FOLLOWING THE INFRAORBITAL OR SCIATIC NERVE INJURIES, RESPECTIVELY. PATHWAY ANALYSIS AND COMPARISON ANALYSIS WERE PERFORMED TO IDENTIFY DIFFERENTIALLY EXPRESSED PATHWAYS. ADDITIONALLY, UPSTREAM REGULATOR EFFECTS WERE INVESTIGATED IN THE TWO SYSTEMS. DEG (DIFFERENTIALLY EXPRESSED GENES) ANALYSES IDENTIFIED 3,225 GENES TO BE DIFFERENTIALLY EXPRESSED BETWEEN TG AND DRG IN NAIVE ANIMALS, 1,828 GENES FOUR DAYS POST INJURY, 5,644 AT DAY 8 AND 9,777 DEGS AT 21 DAYS POST INJURY. COMPARISON OF TOP ENRICHED CANONICAL PATHWAYS REVEALED THAT A NUMBER OF SIGNALING PATHWAY WAS SIGNIFICANTLY INHIBITED IN THE TG AND ACTIVATED IN THE DRG AT 21 DAYS POST INJURY. FINALLY, CORT UPSTREAM REGULATOR WAS PREDICTED TO BE INHIBITED IN THE TG WHILE EXPRESSION LEVELS OF CSF1 UPSTREAM REGULATOR WERE SIGNIFICANTLY ELEVATED IN THE DRG AT 21 DAYS POST INJURY. THIS STUDY PROVIDES A BASIS FOR FURTHER IN-DEPTH STUDIES INVESTIGATING TRANSCRIPTIONAL CHANGES, PATHWAYS, AND UPSTREAM REGULATION IN TG AND DRG IN RATS EXPOSED TO PERIPHERAL NERVE INJURIES. 2023 8 3141 38 GLOBAL GENE EXPRESSION AND CHROMATIN ACCESSIBILITY OF THE PERIPHERAL NERVOUS SYSTEM IN ANIMAL MODELS OF PERSISTENT PAIN. BACKGROUND: EFFORTS TO UNDERSTAND GENETIC VARIABILITY INVOLVED IN AN INDIVIDUAL'S SUSCEPTIBILITY TO CHRONIC PAIN SUPPORT A ROLE FOR UPSTREAM REGULATION BY EPIGENETIC MECHANISMS. METHODS: TO EXAMINE THE TRANSCRIPTOMIC AND EPIGENETIC BASIS OF CHRONIC PAIN THAT RESIDES IN THE PERIPHERAL NERVOUS SYSTEM, WE USED RNA-SEQ AND ATAC-SEQ OF THE RAT DORSAL ROOT GANGLION (DRG) TO IDENTIFY NOVEL MOLECULAR PATHWAYS ASSOCIATED WITH PAIN HYPERSENSITIVITY IN TWO WELL-STUDIED PERSISTENT PAIN MODELS INDUCED BY CHRONIC CONSTRICTION INJURY (CCI) OF THE SCIATIC NERVE AND INTRA-PLANTAR INJECTION OF COMPLETE FREUND'S ADJUVANT (CFA) IN RATS. RESULTS: OUR RNA-SEQ STUDIES IDENTIFY A VARIETY OF BIOLOGICAL PROCESS RELATED TO SYNAPSE ORGANIZATION, MEMBRANE POTENTIAL, TRANSMEMBRANE TRANSPORT, AND ION BINDING. INTERESTINGLY, GENES THAT ENCODE TRANSCRIPTIONAL REGULATORS WERE DISPROPORTIONATELY DOWNREGULATED IN BOTH MODELS. OUR ATAC-SEQ DATA PROVIDE A COMPREHENSIVE MAP OF CHROMATIN ACCESSIBILITY CHANGES IN THE DRG. A TOTAL OF 1123 REGIONS SHOWED CHANGES IN CHROMATIN ACCESSIBILITY IN ONE OR BOTH MODELS WHEN COMPARED TO THE NAIVE AND 31 SHARED DIFFERENTIALLY ACCESSIBLE REGIONS (DAR)S. FUNCTIONAL ANNOTATION OF THE DARS IDENTIFIED DISPARATE MOLECULAR FUNCTIONS ENRICHED FOR EACH PAIN MODEL WHICH SUGGESTS THAT CHROMATIN STRUCTURE MAY BE ALTERED DIFFERENTLY FOLLOWING SCIATIC NERVE INJURY AND HIND PAW INFLAMMATION. MOTIF ANALYSIS IDENTIFIED 17 DNA SEQUENCES KNOWN TO BIND TRANSCRIPTION FACTORS IN THE CCI DARS AND 33 IN THE CFA DARS. TWO MOTIFS WERE SIGNIFICANTLY ENRICHED IN BOTH MODELS. CONCLUSIONS: OUR IMPROVED UNDERSTANDING OF THE CHANGES IN CHROMATIN ACCESSIBILITY THAT OCCUR IN CHRONIC PAIN STATES MAY IDENTIFY REGULATORY GENOMIC ELEMENTS THAT PLAY ESSENTIAL ROLES IN MODULATING GENE EXPRESSION IN THE DRG. 2021 9 2297 33 EPIGENETIC REGULATION OF ACUTE INFLAMMATORY PAIN. ACUTE PAIN IS ASSOCIATED WITH TISSUE DAMAGE, WHICH RESULTS IN THE RELEASE OF INFLAMMATORY MEDIATORS. RECENT STUDIES POINT TO THE INVOLVEMENT OF EPIGENETIC MECHANISMS (DNA METHYLATION) IN THE DEVELOPMENT OF PAIN. WE HAVE FOUND THAT DURING ACUTE INFLAMMATORY PAIN INDUCED BY THE APPLICATION OF 10% MUSTARD OIL ON THE TONGUES OF RATS, LEVELS OF DNMT3A AND 3B WERE ELEVATED MARKEDLY (36 AND 42 % RESPECTIVELY), WHEREAS THE LEVEL OF DNMT1 WAS NOT CHANGED SIGNIFICANTLY. PREVIOUS INJECTION OF XEFOCAM WITH 0,4 MG/KG DOSE DECREASED LEVELS OF DNMT3A AND 3B (25 AND 24% RESPECTIVELY). THE LEVEL OF DNMT1 WAS NOT CHANGED SIGNIFICANTLY COMPARED TO THE CONTROL GROUP. THE FINDINGS SUPPORT THE IDEA THAT INHIBITORS OF DNA-METHYLTRANSFERASES COULD BE USEFUL FOR PAIN MANAGEMENT. OUR DATA SUGGEST THAT NSAIDS (ALONE OR IN COMBINATION WITH DNMT INHIBITORS) MAY BE PROPOSED AS POSSIBLE EPIGENETIC REGULATORY AGENTS, WHICH MAY PLAY A ROLE IN EPIGENETIC MECHANISMS INDIRECTLY THROUGH ALTERING THE ACTIVITY OF INFLAMMATORY MEDIATORS INVOLVED IN PAIN DEVELOPMENT. 2014 10 2253 36 EPIGENETIC MODULATION OF WNT SIGNALING CONTRIBUTES TO NEUROPATHIC PAIN IN RATS. PREVIOUS STUDIES HAVE DEMONSTRATED THAT THE WNT/BETA?CATENIN SIGNALING PATHWAY IS CRITICAL TO THE INDUCTION AND MAINTENANCE OF CHRONIC NEUROPATHIC PAIN CAUSED BY PERIPHERAL INFLAMMATION AND NERVE DAMAGE. EMERGING EVIDENCE FROM RECENT STUDIES SUGGESTS THAT EPIGENETIC MECHANISMS MAY ALSO BE CRITICAL TO THE PATHOGENESIS OF CHRONIC PAIN. THE PRESENT STUDY AIMED TO ELUCIDATE THE EPIGENETIC MECHANISMS UNDERLYING ALTERED WNT SIGNALING AND THEIR INVOLVEMENT IN CCI?INDUCED NEUROPATHIC PAIN IN RAT SCIATIC NERVES. THE RESULTS OF THE PRESENT STUDY DEMONSTRATED A SIGNIFICANT INCREASE IN THE EXPRESSION LEVELS OF WNT3A IN THE DORSAL HORN OF THE RATS WITH CCI. IN ADDITION, A SIGNIFICANT INCREASE IN HISTONE H3 ACETYLATION, AND A SIGNIFICANT DECREASE IN CYTOSINE METHYLATION IN THE PROMOTER REGION OF WNT3A WAS OBSERVED IN THE DORSAL HORN OF THE RATS WITH CCI. INTRATHECAL APPLICATION OF XAV939, WHICH ACTS AS AN INHIBITOR OF WNT SIGNALING, SIGNIFICANTLY DECREASED THE EXPRESSION LEVELS OF ACTIVE BETA?CATENIN, AND ATTENUATED THE RAT BEHAVIORAL RESPONSES TO THERMAL AND MECHANICAL PAIN STIMULI. THESE RESULTS SUGGEST THAT THE EPIGENETIC UPREGULATION OF WNT3A IN THE DORSAL HORN CONTRIBUTES TO THE MAINTENANCE OF PAIN?INDUCED BEHAVIOR IN RATS WITH CCI. 2015 11 3082 46 GENOME-WIDE REDISTRIBUTION OF MECP2 IN DORSAL ROOT GANGLIA AFTER PERIPHERAL NERVE INJURY. BACKGROUND: METHYL-CPG-BINDING PROTEIN 2 (MECP2), A PROTEIN WITH AFFINITY FOR METHYLATED CYTOSINES, IS CRUCIAL FOR NEURONAL DEVELOPMENT AND FUNCTION. MECP2 REGULATES GENE EXPRESSION THROUGH ACTIVATION, REPRESSION AND CHROMATIN REMODELING. MUTATIONS IN MECP2 CAUSE RETT SYNDROME, AND THESE PATIENTS DISPLAY IMPAIRED NOCICEPTION. WE OBSERVED AN INCREASE IN MECP2 EXPRESSION IN MOUSE DORSAL ROOT GANGLIA (DRG) AFTER PERIPHERAL NERVE INJURY. THE FUNCTIONAL IMPLICATION OF INCREASED MECP2 IS LARGELY UNKNOWN. TO IDENTIFY REGIONS OF THE GENOME BOUND BY MECP2 IN THE DRG AND THE CHANGES INDUCED BY NERVE INJURY, A CHROMATIN IMMUNOPRECIPITATION OF MECP2 FOLLOWED BY SEQUENCING (CHIP-SEQ) WAS PERFORMED 4 WEEKS AFTER SPARED NERVE INJURY (SNI). RESULTS: WHILE THE NUMBER OF BINDING SITES ACROSS THE GENOME REMAINED SIMILAR IN THE SNI MODEL AND SHAM CONTROL, SNI INDUCED THE REDISTRIBUTION OF MECP2 TO TRANSCRIPTIONALLY RELEVANT REGIONS. TO DETERMINE HOW DIFFERENTIAL BINDING OF MECP2 CAN AFFECT GENE EXPRESSION IN THE DRG, WE INVESTIGATED MMU-MIR-126, A MICRORNA LOCUS THAT HAD ENRICHED MECP2 BINDING IN THE SNI MODEL. ENRICHED MECP2 BINDING TO MIR-126 LOCUS AFTER NERVE INJURY REPRESSED MIR-126 EXPRESSION, AND THIS WAS NOT MEDIATED BY ALTERATIONS IN METHYLATION PATTERN AT THE MIR-126 LOCUS. DOWNREGULATION OF MIR-126 RESULTED IN THE UPREGULATION OF ITS TWO TARGET GENES DNMT1 AND VEGFA IN NEURO 2A CELLS AND IN SNI MODEL COMPARED TO CONTROL. THESE TARGET GENES WERE SIGNIFICANTLY DOWNREGULATED IN MECP2-NULL MICE COMPARED TO WILD-TYPE LITTERMATES, INDICATING A REGULATORY ROLE FOR MECP2 IN ACTIVATING DNMT1 AND VEGFA EXPRESSION. INTRATHECAL DELIVERY OF MIR-126 WAS NOT SUFFICIENT TO REVERSE NERVE INJURY-INDUCED MECHANICAL AND THERMAL HYPERSENSITIVITY, BUT DECREASED DNMT1 AND VEGFA EXPRESSION IN THE DRG. CONCLUSIONS: OUR STUDY SHOWS A REGULATORY ROLE FOR MECP2 IN THAT CHANGES IN GLOBAL REDISTRIBUTION CAN RESULT IN DIRECT AND INDIRECT MODULATION OF GENE EXPRESSION IN THE DRG. ALTERATIONS IN GENOME-WIDE BINDING OF MECP2 THEREFORE PROVIDE A MOLECULAR BASIS FOR A BETTER UNDERSTANDING OF EPIGENETIC REGULATION-INDUCED MOLECULAR CHANGES UNDERLYING NERVE INJURY. 2016 12 1612 30 DNA METHYLATION: A TARGET IN NEUROPATHIC PAIN. NEUROPATHIC PAIN (NP), CAUSED BY AN INJURY OR A DISEASE AFFECTING THE SOMATOSENSORY NERVOUS SYSTEM OF THE CENTRAL AND PERIPHERAL NERVOUS SYSTEMS, HAS BECOME A GLOBAL HEALTH CONCERN. RECENT STUDIES HAVE DEMONSTRATED THAT EPIGENETIC MECHANISMS ARE AMONG THOSE THAT UNDERLIE NP; THUS, ELUCIDATING THE MOLECULAR MECHANISM OF DNA METHYLATION IS CRUCIAL TO DISCOVERING NEW THERAPEUTIC METHODS FOR NP. IN THIS REVIEW, WE FIRST BRIEFLY DISCUSS DNA METHYLATION, DEMETHYLATION, AND THE ASSOCIATED KEY ENZYMES, SUCH AS METHYLASES AND DEMETHYLASES. WE THEN DISCUSS THE RELATIONSHIP BETWEEN NP AND DNA METHYLATION, FOCUSING ON DNA METHYLTRANSFERASES INCLUDING METHYL-CPG-BINDING DOMAIN (MBD) FAMILY PROTEINS AND TEN-ELEVEN TRANSLOCATION (TET) ENZYMES. BASED ON EXPERIMENTAL RESULTS OF NEURALGIA IN ANIMAL MODELS, THE MECHANISM OF DNA METHYLATION-RELATED NEURALGIA IS SUMMARIZED, AND USEFUL TARGETS FOR EARLY DRUG INTERVENTION IN NP ARE DISCUSSED. 2022 13 4033 44 M6A HYPOMETHYLATION OF DNMT3B REGULATED BY ALKBH5 PROMOTES INTERVERTEBRAL DISC DEGENERATION VIA E4F1 DEFICIENCY. BACKGROUND: THE INTERVERTEBRAL DISC (IVD) DEGENERATION IS THE LEADING CAUSE OF LOW BACK PAIN, WHICH ACCOUNTS FOR A MAIN CAUSE OF DISABILITY. N6-METHYLADENOSINE (M6A) IS THE MOST ABUNDANT INTERNAL MODIFICATION IN EUKARYOTIC MESSENGER RNAS AND IS INVOLVED IN VARIOUS DISEASES AND CELLULAR PROCESSES BY MODULATING MRNA FATE. HOWEVER, THE CRITICAL ROLE OF M6A REGULATION IN IVD DEGENERATION REMAINS UNCLEAR. NUCLEUS PULPOSUS CELL (NPC) SENESCENCE IS CRITICAL FOR THE PROGRESSION OF IVD DEGENERATION. HERE, WE UNCOVERED THE ROLE AND EXPLORED THE REGULATORY MECHANISM OF M6A IN NPC SENESCENCE DURING IVD DEGENERATION. METHODS: IDENTIFICATION OF NPC SENESCENCE DURING IVD DEGENERATION WAS BASED ON THE ANALYSIS OF TISSUE SAMPLES AND THE CELLULAR MODEL. ALKBH5 UPREGULATION INDUCING CELLULAR SENESCENCE WAS CONFIRMED BY FUNCTIONAL EXPERIMENTS IN VIVO AND IN VITRO. CHIP-QPCR AND DNA-PULLDOWN WERE USED TO REVEAL INCREASED ALKBH5 WAS REGULATED BY KDM4A-MEDIATED H3K9ME3. FURTHERMORE, ME-RIP-SEQ WAS PERFORMED TO IDENTIFY M6A HYPOMETHYLATION OF DNMT3B TRANSCRIPTS IN SENESCENT NPCS. STABILITY ANALYSIS SHOWED THAT DNMT3B EXPRESSION WAS ENHANCED FOR LESS YTHDF2 RECOGNITION AND INCREASED DNMT3B PROMOTED NPC SENESCENCE AND IVD DEGENERATION VIA E4F1 METHYLATION BY IN VIVO AND IN VITRO ANALYSES. RESULTS: EXPRESSION OF ALKBH5 IS ENHANCED DURING IVD DEGENERATION AND NPC SENESCENCE, DUE TO DECREASED KDM4A-MEDIATED H3K9ME3 MODIFICATION. FUNCTIONALLY, ALKBH5 CAUSES NPC SENESCENCE BY DEMETHYLATING DNMT3B TRANSCRIPTS AND IN TURN PROMOTING ITS EXPRESSION VIA LESS YTHDF2 RECOGNITION AND FOLLOWING DEGRADATION DUE TO TRANSCRIPT HYPOMETHYLATION IN VITRO AND IN VIVO. INCREASED DNMT3B PROMOTES THE DEVELOPMENT OF IVD DEGENERATION AND NPC SENESCENCE, MECHANISTICALLY BY METHYLATING CPG ISLANDS OF E4F1 AT THE PROMOTER REGION AND THUS RESTRAINING ITS TRANSCRIPTION AND EXPRESSION. CONCLUSIONS: COLLECTIVELY, OUR FINDINGS REVEAL AN EPIGENETIC INTERPLAY MECHANISM IN NPC SENESCENCE AND IVD DEGENERATION, PRESENTING A CRITICAL PRO-SENESCENCE ROLE OF ALKBH5 AND M6A HYPOMETHYLATION, HIGHLIGHTING THE THERAPEUTIC POTENTIAL OF TARGETING THE M6A/DNMT3B/E4F1 AXIS FOR TREATING IVD DEGENERATION. 2022 14 345 43 ALTERED BRAIN EXPRESSION OF DNA METHYLATION AND HYDROXYMETHYLATION EPIGENETIC ENZYMES IN A RAT MODEL OF NEUROPATHIC PAIN. THE ROLE OF EPIGENETICS IN CHRONIC PAIN AT THE SUPRASPINAL LEVEL IS YET TO BE FULLY CHARACTERIZED. DNA HISTONE METHYLATION IS CRUCIALLY REGULATED BY DE NOVO METHYLTRANSFERASES (DNMT1-3) AND TEN-ELEVEN TRANSLOCATION DIOXYGENASES (TET1-3). EVIDENCE HAS SHOWN THAT METHYLATION MARKERS ARE ALTERED IN DIFFERENT CNS REGIONS RELATED TO NOCICEPTION, NAMELY THE DORSAL ROOT GANGLIA, THE SPINAL CORD, AND DIFFERENT BRAIN AREAS. DECREASED GLOBAL METHYLATION WAS FOUND IN THE DRG, THE PREFRONTAL CORTEX, AND THE AMYGDALA, WHICH WAS ASSOCIATED WITH DECREASED DNMT1/3A EXPRESSION. IN CONTRAST, INCREASED METHYLATION LEVELS AND MRNA LEVELS OF TET1 AND TET3 WERE LINKED TO AUGMENTED PAIN HYPERSENSITIVITY AND ALLODYNIA IN INFLAMMATORY AND NEUROPATHIC PAIN MODELS. SINCE EPIGENETIC MECHANISMS MAY BE RESPONSIBLE FOR THE REGULATION AND COORDINATION OF VARIOUS TRANSCRIPTIONAL MODIFICATIONS DESCRIBED IN CHRONIC PAIN STATES, WITH THIS STUDY, WE AIMED TO EVALUATE THE FUNCTIONAL ROLE OF TET1-3 AND DNMT1/3A GENES IN NEUROPATHIC PAIN IN SEVERAL BRAIN AREAS. IN A SPARED NERVE INJURY RAT MODEL OF NEUROPATHIC PAIN, 21 DAYS AFTER SURGERY, WE FOUND INCREASED TET1 EXPRESSION IN THE MEDIAL PREFRONTAL CORTEX AND DECREASED EXPRESSION IN THE CAUDATE-PUTAMEN AND THE AMYGDALA; TET2 WAS UPREGULATED IN THE MEDIAL THALAMUS; TET3 MRNA LEVELS WERE REDUCED IN THE MEDIAL PREFRONTAL CORTEX AND THE CAUDATE-PUTAMEN; AND DNMT1 WAS DOWNREGULATED IN THE CAUDATE-PUTAMEN AND THE MEDIAL THALAMUS. NO STATISTICALLY SIGNIFICANT CHANGES IN EXPRESSION WERE OBSERVED WITH DNMT3A. OUR RESULTS SUGGEST A COMPLEX FUNCTIONAL ROLE FOR THESE GENES IN DIFFERENT BRAIN AREAS IN THE CONTEXT OF NEUROPATHIC PAIN. THE NOTION OF DNA METHYLATION AND HYDROXYMETHYLATION BEING CELL-TYPE SPECIFIC AND NOT TISSUE SPECIFIC, AS WELL AS THE POSSIBILITY OF CHRONOLOGICALLY DIFFERENTIAL GENE EXPRESSION AFTER THE ESTABLISHMENT OF NEUROPATHIC OR INFLAMMATORY PAIN MODELS, OUGHT TO BE ADDRESSED IN FUTURE STUDIES. 2023 15 5347 43 RARBETA AGONIST DRUG (C286) DEMONSTRATES EFFICACY IN A PRE-CLINICAL NEUROPATHIC PAIN MODEL RESTORING MULTIPLE PATHWAYS VIA DNA REPAIR MECHANISMS. NEUROPATHIC PAIN (NP) IS ASSOCIATED WITH PROFOUND GENE EXPRESSION ALTERATIONS WITHIN THE NOCICEPTIVE SYSTEM. DNA MECHANISMS, SUCH AS EPIGENETIC REMODELING AND REPAIR PATHWAYS HAVE BEEN IMPLICATED IN NP. HERE WE HAVE USED A RAT MODEL OF PERIPHERAL NERVE INJURY TO STUDY THE EFFECT OF A RECENTLY DEVELOPED RARBETA AGONIST, C286, CURRENTLY UNDER CLINICAL RESEARCH, IN NP. A 4-WEEK TREATMENT INITIATED 2 DAYS AFTER THE INJURY NORMALIZED PAIN SENSATION. GENOME-WIDE AND PATHWAY ENRICHMENT ANALYSIS SHOWED THAT MULTIPLE MECHANISMS PERSISTENTLY ALTERED IN THE SPINAL CORD WERE RESTORED TO PREINJURY LEVELS BY THE AGONIST. CONCOMITANT UPREGULATION OF DNA REPAIR PROTEINS, ATM AND BRCA1, THE LATTER BEING REQUIRED FOR C286-MEDIATED PAIN MODULATION, SUGGESTS THAT EARLY DNA REPAIR MAY BE IMPORTANT TO PREVENT PHENOTYPIC EPIGENETIC IMPRINTS IN NP. THUS, C286 IS A PROMISING DRUG CANDIDATE FOR NEUROPATHIC PAIN AND DNA REPAIR MECHANISMS MAY BE USEFUL THERAPEUTIC TARGETS TO EXPLORE. 2019 16 5579 41 ROLE OF MORPHINE, MIR-212/132 AND MU OPIOID RECEPTOR IN THE REGULATION OF BDNF IN ZEBRAFISH EMBRYOS. BACKGROUND: MORPHINE IS ONE OF THE FIRST-LINE THERAPIES FOR THE TREATMENT OF PAIN DESPITE ITS SECONDARY EFFECTS. IT MODIFIES THE EXPRESSION OF EPIGENETIC FACTORS LIKE MIRNAS. IN THE PRESENT STUDY, WE ANALYZED MIR-212 AND MIR-132 AND THEIR IMPLICATION IN MORPHINE EFFECTS IN THE ZEBRAFISH CENTRAL NERVOUS SYSTEM (CNS) THROUGH THE REGULATION OF BDNF EXPRESSION. METHODS: WE USED CONTROL AND KNOCK-DOWN ZEBRAFISH EMBRYOS TO ASSESS THE EFFECTS OF MORPHINE IN MIRNAS 212/132 AND MITOTIC OR APOPTOTIC CELLS BY QPCR, IMMUNOHISTOCHEMISTRY AND TUNEL ASSAY, RESPECTIVELY. BDNF AND TRKB WERE STUDIED BY WESTERN BLOT AND THROUGH A PRIMARY NEURON CULTURE. A LUCIFERASE ASSAY WAS PERFORMED TO CONFIRM THE BINDING OF MIRNAS 212/132 TO MECP2. RESULTS: MORPHINE EXPOSURE DECREASES MIR-212 BUT UPREGULATES MIR-132, AS WELLS AS BDNF AND TRKB, AND CHANGES THE LOCALIZATION OF PROLIFERATIVE CELLS. HOWEVER, BDNF EXPRESSION WAS DOWNREGULATED WHEN MIRNAS 212/132 AND OPRM1 WERE KNOCKED-DOWN. FURTHERMORE, WE PROVED THAT THESE MIRNAS INHIBIT MECP2 EXPRESSION BY BINDING TO ITS MRNA SEQUENCE. THE DESCRIBED EFFECTS WERE CORROBORATED IN A PRIMARY NEURON CULTURE FROM ZEBRAFISH EMBRYOS. CONCLUSIONS: WE PROPOSE A MECHANISM IN WHICH MORPHINE ALTERS THE LEVELS OF MIRNAS 212/132 INCREASING BDNF EXPRESSION THROUGH MECP2 INHIBITION. OPRM1 IS ALSO DIRECTLY INVOLVED IN THIS REGULATION. THE PRESENT WORK CONFIRMS A RELATIONSHIP BETWEEN THE OPIOID SYSTEM AND NEUROTROPHINS AND SHOWS A KEY ROLE OF MIR-212 AND MIR-132 ON MORPHINE EFFECTS THROUGH THE REGULATION OF BDNF PATHWAY. GENERAL SIGNIFICANCE: MIRNAS 212/132 ARE NOVEL REGULATORS OF MORPHINE EFFECTS ON CNS. OPRM1 CONTROLS THE NORMAL EXPRESSION OF BDNF. 2016 17 3754 41 INTEGRATED ANALYSIS OF OMICS DATA REVEAL AP-1 AS A POTENTIAL REGULATION HUB IN THE INFLAMMATION-INDUCED HYPERALGESIA RAT MODEL. INFLAMMATION-ASSOCIATED CHRONIC PAIN IS A GLOBAL CLINICAL PROBLEM, AFFECTING MILLIONS OF PEOPLE WORLDWIDE. HOWEVER, THE UNDERLYING MECHANISMS THAT MEDIATE INFLAMMATION-ASSOCIATED CHRONIC PAIN REMAIN UNCLEAR. A RAT MODEL OF CUTANEOUS INFLAMMATION INDUCED BY COMPLETE FREUND'S ADJUVANT (CFA) HAS BEEN WIDELY USED AS AN INFLAMMATION-INDUCED PAIN HYPERSENSITIVITY MODEL. WE PRESENT THE TRANSCRIPTOMICS PROFILE OF CFA-INDUCED INFLAMMATION IN THE RAT DORSAL ROOT GANGLION (DRG) VIA AN APPROACH THAT TARGETS GENE EXPRESSION, DNA METHYLATION, AND POST-TRANSCRIPTIONAL REGULATION. WE IDENTIFIED 418 DIFFERENTIALLY EXPRESSED MRNAS, 120 DIFFERENTIALLY EXPRESSED MICRORNAS (MIRNAS), AND 2,670 DIFFERENTIALLY METHYLATED REGIONS (DMRS), WHICH WERE ALL HIGHLY ASSOCIATED WITH MULTIPLE INFLAMMATION-RELATED PATHWAYS, INCLUDING NUCLEAR FACTOR KAPPA B (NF-KAPPAB) AND INTERFERON (IFN) SIGNALING PATHWAYS. AN INTEGRATED ANALYSIS FURTHER DEMONSTRATED THAT THE ACTIVATOR PROTEIN 1 (AP-1) NETWORK, WHICH MAY ACT AS A REGULATOR OF THE INFLAMMATORY RESPONSE, IS REGULATED AT BOTH THE TRANSCRIPTOMIC AND EPIGENETIC LEVELS. WE BELIEVE OUR DATA WILL NOT ONLY PROVIDE DRUG SCREENING TARGETS FOR THE TREATMENT OF CHRONIC PAIN AND INFLAMMATION BUT WILL ALSO SHED LIGHT ON THE MOLECULAR NETWORK ASSOCIATED WITH INFLAMMATION-INDUCED HYPERALGESIA. 2021 18 4617 41 NERVE INJURY-INDUCED CHRONIC PAIN IS ASSOCIATED WITH PERSISTENT DNA METHYLATION REPROGRAMMING IN DORSAL ROOT GANGLION. NERVE INJURY-INDUCED HYPERACTIVITY OF PRIMARY SENSORY NEURONS IN THE DORSAL ROOT GANGLION (DRG) CONTRIBUTES TO CHRONIC PAIN DEVELOPMENT, BUT THE UNDERLYING EPIGENETIC MECHANISMS REMAIN POORLY UNDERSTOOD. HERE WE DETERMINED GENOME-WIDE CHANGES IN DNA METHYLATION IN THE NERVOUS SYSTEM IN NEUROPATHIC PAIN. SPINAL NERVE LIGATION (SNL), BUT NOT PACLITAXEL TREATMENT, IN MALE SPRAGUE DAWLEY RATS INDUCED A CONSISTENT LOW-LEVEL HYPOMETHYLATION IN THE CPG SITES IN THE DRG DURING THE ACUTE AND CHRONIC PHASES OF NEUROPATHIC PAIN. DNA METHYLATION REMODELING IN THE DRG OCCURRED EARLY AFTER SNL AND PERSISTED FOR AT LEAST 3 WEEKS. SNL CAUSED DNA METHYLATION CHANGES AT 8% OF CPG SITES WITH PREVAILING HYPOMETHYLATION OUTSIDE OF CPG ISLANDS, IN INTRONS, INTERGENIC REGIONS, AND REPETITIVE SEQUENCES. IN CONTRAST, SNL CAUSED MORE GAINS OF METHYLATION IN THE SPINAL CORD AND PREFRONTAL CORTEX. THE DNA METHYLATION CHANGES IN THE INJURED DRGS RECAPITULATED DEVELOPMENTAL REPROGRAMMING AT THE NEONATAL STAGE. METHYLATION REPROGRAMMING WAS CORRELATED WITH INCREASED GENE EXPRESSION VARIABILITY. A DIET DEFICIENT IN METHYL DONORS INDUCED HYPOMETHYLATION AND PAIN HYPERSENSITIVITY. INTRATHECAL ADMINISTRATION OF THE DNA METHYLTRANSFERASE INHIBITOR RG108 CAUSED LONG-LASTING PAIN HYPERSENSITIVITY. DNA METHYLATION REPROGRAMMING IN THE DRG THUS CONTRIBUTES TO NERVE INJURY-INDUCED CHRONIC PAIN. RESTORING DNA METHYLATION MAY REPRESENT A NEW THERAPEUTIC APPROACH TO TREAT NEUROPATHIC PAIN.SIGNIFICANCE STATEMENT EPIGENETIC MECHANISMS ARE CRITICALLY INVOLVED IN THE TRANSITION FROM ACUTE TO CHRONIC PAIN AFTER NERVE INJURY. HOWEVER, GENOME-WIDE CHANGES IN DNA METHYLATION IN THE NERVOUS SYSTEM AND THEIR ROLES IN NEUROPATHIC PAIN DEVELOPMENT REMAIN UNCLEAR. HERE WE USED DIGITAL RESTRICTION ENZYME ANALYSIS OF METHYLATION TO QUANTITATIVELY DETERMINE GENOME-WIDE DNA METHYLATION CHANGES CAUSED BY NERVE INJURY. WE SHOWED THAT NERVE INJURY CAUSED DNA METHYLATION CHANGES AT 8% OF CPG SITES WITH PREVAILING HYPOMETHYLATION OUTSIDE OF CPG ISLANDS IN THE DORSAL ROOT GANGLION. REDUCING DNA METHYLATION INDUCED PAIN HYPERSENSITIVITY, WHEREAS INCREASING DNA METHYLATION ATTENUATED NEUROPATHIC PAIN. THESE FINDINGS EXTEND OUR UNDERSTANDING OF THE EPIGENETIC MECHANISM OF CHRONIC NEUROPATHIC PAIN AND SUGGEST NEW STRATEGIES TO TREAT NERVE INJURY-INDUCED CHRONIC PAIN. 2018 19 4879 25 OVERLAPPING SIGNATURES OF CHRONIC PAIN IN THE DNA METHYLATION LANDSCAPE OF PREFRONTAL CORTEX AND PERIPHERAL T CELLS. WE TESTED THE HYPOTHESIS THAT EPIGENETIC MECHANISMS IN THE BRAIN AND THE IMMUNE SYSTEM ARE ASSOCIATED WITH CHRONIC PAIN. GENOME-WIDE DNA METHYLATION ASSESSED IN 9 MONTHS POST NERVE-INJURY (SNI) AND SHAM RATS, IN THE PREFRONTAL CORTEX (PFC) AS WELL AS IN T CELLS REVEALED A VAST DIFFERENCE IN THE DNA METHYLATION LANDSCAPE IN THE BRAIN BETWEEN THE GROUPS AND A REMARKABLE OVERLAP (72%) BETWEEN DIFFERENTIALLY METHYLATED PROBES IN T CELLS AND PREFRONTAL CORTEX. DNA METHYLATION STATES IN THE PFC SHOWED ROBUST CORRELATION WITH PAIN SCORE OF ANIMALS IN SEVERAL GENES INVOLVED IN PAIN. FINALLY, ONLY 11 DIFFERENTIALLY METHYLATED PROBES IN T CELLS WERE SUFFICIENT TO DISTINGUISH SNI OR SHAM INDIVIDUAL RATS. THIS STUDY SUPPORTS THE PLAUSIBILITY OF DNA METHYLATION INVOLVEMENT IN CHRONIC PAIN AND DEMONSTRATES THE POTENTIAL FEASIBILITY OF DNA METHYLATION MARKERS IN T CELLS AS NONINVASIVE BIOMARKERS OF CHRONIC PAIN SUSCEPTIBILITY. 2016 20 226 34 ACUTE TRANSCRIPTOMIC AND EPIGENETIC ALTERATIONS AT T12 AFTER RAT T10 SPINAL CORD CONTUSIVE INJURY. SPINAL CORD INJURY IS A SEVERELY DEBILITATING CONDITION AFFECTING A SIGNIFICANT POPULATION IN THE USA. SPINAL CORD INJURY PATIENTS OFTEN HAVE INCREASED RISK OF DEVELOPING PERSISTENT NEUROPATHIC PAIN AND OTHER NEURODEGENERATIVE CONDITIONS BEYOND THE PRIMARY LESION CENTER LATER IN THEIR LIFE. THE MOLECULAR MECHANISM CONFERRING TO THE "LATENT" DAMAGES AT DISTAL TISSUES, HOWEVER, REMAINS ELUSIVE. HERE, WE STUDIED MOLECULAR CHANGES CONFERRING ABNORMAL FUNCTIONALITY AT DISTAL SPINAL CORD (T12) BEYOND THE LESION CENTER (T10) BY COMBINING NEXT-GENERATION SEQUENCING (RNA- AND BISULFITE SEQUENCING), SUPER-RESOLUTION MICROSCOPY, AND IMMUNOFLUORESCENCE STAINING AT 7 DAYS POST INJURY. WE OBSERVED SIGNIFICANT TRANSCRIPTOMIC CHANGES PRIMARILY ENRICHED IN NEUROINFLAMMATION AND SYNAPTOGENESIS ASSOCIATED PATHWAYS. TRANSCRIPTION FACTORS (TFS) THAT REGULATE NEUROGENESIS AND NEURON PLASTICITY, INCLUDING EGR1, KLF4, AND MYC, ARE SIGNIFICANTLY UPREGULATED. ALONG WITH GLOBAL CHANGES IN CHROMATIN ARRANGEMENTS AND DNA METHYLATION, INCLUDING 5-METHYLCYTOSINE (5MC) AND 5-HYDROXYMETHYLCYTOSINE (5HMC), BISULFITE SEQUENCING FURTHER REVEALS THE INVOLVEMENT OF DNA METHYLATION CHANGES IN REGULATING CYTOKINE, GROWTH FACTOR, AND ION CHANNEL EXPRESSION. COLLECTIVELY, OUR RESULTS PAVE THE WAY TOWARDS UNDERSTANDING TRANSCRIPTOMIC AND EPIGENOMIC MECHANISM IN CONFERRING LONG-TERM DISEASE RISKS AT DISTAL TISSUES AWAY FROM THE PRIMARY LESION CENTER AND SHED LIGHT ON POTENTIAL MOLECULAR TARGETS THAT GOVERN THE REGULATORY MECHANISM AT DISTAL SPINAL CORD TISSUES. 2023