1 2871 123 FUNCTIONAL GENOMICS IN EXPERIMENTAL AND HUMAN TEMPORAL LOBE EPILEPSY: POWERFUL NEW TOOLS TO IDENTIFY MOLECULAR DISEASE MECHANISMS OF HIPPOCAMPAL DAMAGE. THE HUMAN GENOME PROJECT IS A MILESTONE FOR MOLECULAR GENETIC STUDIES ON COMPLEX, SPORADIC DISORDERS IN THE HUMAN CENTRAL NERVOUS SYSTEM (CNS). FUNCTIONAL ANALYSIS AND TISSUE-/CELL-SPECIFIC EXPRESSION PROFILES WILL BE OF PARTICULAR IMPORTANCE ANTICIPATING THE MAGNITUDE OF EXPRESSED GENES IN THE BRAIN AND THEIR DYNAMIC EPIGENETIC MODIFICATIONS. THE RECENT PROGRESS IN MICROARRAY TECHNOLOGIES ALLOWS EXPRESSION STUDIES FOR A LARGE NUMBER OF GENES. IN COMBINATION WITH LASER-MICRODISSECTION AND QUANTITATIVE REVERSE TRANSCRIPTION-POLYMERASE CHAIN REACTION TECHNOLOGIES, SUCH LARGE-SCALE EXPRESSION ANALYSES CAN BE SUCCESSFULLY ADDRESSED IN WELL-DEFINED TISSUE SPECIMENS OR CELLULAR SUBPOPULATIONS. COMPLEX, SPORADIC DISEASES, SUCH AS TEMPORAL LOBE EPILEPSY (TLE), ARE CHALLENGING FOR FUNCTIONAL GENOMICS. ISSUES OF PARTICULAR IMPORTANCE IN THIS FIELD INCLUDE MOLECULAR MECHANISMS OF NEURODEVELOPMENTAL ABNORMALITIES, NEURONAL PLASTICITY AND HYPEREXCITABILITY AS WELL AS NEURONAL CELL DAMAGE IN AFFECTED CNS AREAS. THE AVAILABILITY OF ANATOMICALLY WELL-PRESERVED SURGICAL SPECIMENS, I.E. HIPPOCAMPUS OBTAINED FROM EPILEPSY PATIENTS WITH AMMON'S HORN SCLEROSIS OR FOCAL LESIONS NOT AFFECTING THE HIPPOCAMPUS PROPER AS WELL AS COMPARISONS WITH EXPERIMENTAL TLE MODELS MAY HELP TO ELUCIDATE SPECIFIC MOLECULAR-PATHOLOGICAL MECHANISMS DURING EPILEPTOGENESIS AND IN CHRONIC CONDITIONS OF THE DISEASE. 2002 2 2536 33 EPIGENETICS IN EPILEPSY. EPILEPSY AFFECTS OVER 50 MILLION INDIVIDUALS GLOBALLY, MAKING IT THE MOST PREVALENT CHRONIC AND SERIOUS NEUROLOGICAL CONDITION. A PRECISE THERAPEUTIC STRATEGY IS COMPLICATED BY POOR UNDERSTANDING OF THE PATHOLOGICAL CHANGES IN EPILEPSY THUS, 30% OF TLE PATIENTS ARE RESISTANT TO DRUG THERAPY. IN THE BRAIN, EPIGENETIC PROCESSES TRANSLATE INFORMATION FROM TRANSIENT CELLULAR IMPULSES AND ADJUSTMENTS IN NEURONAL ACTIVITY INTO LONG-LASTING IMPACTS ON GENE EXPRESSION. RESEARCH SUGGESTS THAT EPIGENETIC PROCESSES CAN BE MANIPULATED IN THE FUTURE TO TREAT OR PREVENT EPILEPSY AS EPIGENETICS HAS BEEN SHOWN TO HAVE A PROFOUND INFLUENCE ON HOW GENES ARE EXPRESSED IN EPILEPSY. AS WELL AS BEING POTENTIAL BIOMARKERS FOR EPILEPSY DIAGNOSIS, EPIGENETIC CHANGES CAN ALSO BE USED AS PROGNOSTIC INDICATORS OF TREATMENT RESPONSE. IN THIS CHAPTER, WE REVIEW THE MOST RECENT FINDINGS IN SEVERAL MOLECULAR PATHWAYS LINKED WITH THE PATHOGENESIS OF TLE THAT ARE CONTROLLED BY EPIGENETIC MECHANISMS HIGHLIGHTING THEIR POTENTIAL UTILITY AS BIOMARKERS FOR UPCOMING TREATMENT STRATEGIES. 2023 3 262 25 ADVANCES IN THE POTENTIAL BIOMARKERS OF EPILEPSY. EPILEPSY IS A GROUP OF CHRONIC NEUROLOGICAL DISORDERS CHARACTERIZED BY RECURRENT, SPONTANEOUS, AND UNPREDICTABLE SEIZURES. IT IS ONE OF THE MOST COMMON NEUROLOGICAL DISORDERS, AFFECTING TENS OF MILLIONS OF PEOPLE WORLDWIDE. COMPREHENSIVE STUDIES ON EPILEPSY IN RECENT DECADES HAVE REVEALED THE COMPLEXITY OF EPILEPTOGENESIS, IN WHICH IMMUNOLOGICAL PROCESSES, EPIGENETIC MODIFICATIONS, AND STRUCTURAL CHANGES IN NEURONAL TISSUES HAVE BEEN IDENTIFIED AS PLAYING A CRUCIAL ROLE. THIS REVIEW DISCUSSES THE RECENT ADVANCES IN THE BIOMARKERS OF EPILEPSY. WE EVALUATE THE POSSIBLE MOLECULAR BACKGROUND UNDERLYING THE CLINICAL CHANGES OBSERVED IN RECENT STUDIES, FOCUSING ON THERAPEUTIC INVESTIGATIONS, AND THE EVIDENCE OF THEIR SAFETY AND EFFICACY IN THE HUMAN POPULATION. THIS ARTICLE REVIEWS THE PATHOPHYSIOLOGY OF EPILEPSY, INCLUDING RECENT REPORTS ON THE EFFECTS OF OXIDATIVE STRESS AND HYPOXIA, AND FOCUSES ON SPECIFIC BIOMARKERS AND THEIR CLINICAL IMPLICATIONS, ALONG WITH FURTHER PERSPECTIVES IN EPILEPSY RESEARCH. 2019 4 5497 50 REVIEW: ANIMAL MODELS OF ACQUIRED EPILEPSY: INSIGHTS INTO MECHANISMS OF HUMAN EPILEPTOGENESIS. IN MANY PATIENTS WHO SUFFER FROM EPILEPSIES, RECURRENT EPILEPTIC SEIZURES DO NOT START AT BIRTH BUT DEVELOP LATER IN LIFE. THIS HOLDS PARTICULARLY TRUE FOR EPILEPSIES WITH A FOCAL SEIZURE ORIGIN INCLUDING FOCAL CORTICAL DYSPLASIAS AND TEMPORAL LOBE EPILEPSY (TLE). TLE MOST FREQUENTLY HAS ITS SEIZURE ONSET IN THE HIPPOCAMPAL FORMATION. HIPPOCAMPAL BIOPSIES OF PHARMACORESISTANT TLE PATIENTS UNDERGOING EPILEPSY SURGERY FOR SEIZURE CONTROL MOST FREQUENTLY REVEAL THE DAMAGE PATTERN OF HIPPOCAMPAL SCLEROSIS, THAT IS, SEGMENTAL NEURONAL CELL LOSS AND CONCOMITANT ASTROGLIOSIS. MANY TLE PATIENTS REPORT ON TRANSIENT BRAIN INSULTS EARLY IN LIFE, WHICH IS FOLLOWED BY A 'LATENCY' PERIOD LACKING SEIZURE ACTIVITY OF MONTHS OR EVEN YEARS BEFORE CHRONIC RECURRENT SEIZURES START. THE PLETHORA OF STRUCTURAL AND CELLULAR MECHANISMS THAT CONVERT THE HIPPOCAMPAL FORMATION TO BECOME CHRONICALLY HYPEREXCITABLE AFTER A TRANSIENT INSULT TO THE BRAIN ARE SUMMARIZED UNDER THE TERM EPILEPTOGENESIS. IN CONTRAST TO THE OBSTACLES ARISING FOR EXPERIMENTAL STUDIES OF EPILEPTOGENESIS ASPECTS IN HUMAN SURGICAL HIPPOCAMPAL TISSUE, RECENT ANIMAL MODEL APPROACHES ALLOW INSIGHTS INTO MECHANISMS OF EPILEPTOGENESIS. RELEVANT MODELS OF TRANSIENT BRAIN INSULTS IN THIS CONTEXT COMPRISE SEVERAL DISTINCT TYPES OF LESIONS INCLUDING EXCITOXIC STATUS EPILEPTICUS (SE), ELECTRICAL SEIZURE INDUCTION, TRAUMATIC BRAIN INJURY, INDUCTION OF INFLAMMATORY PROCESSES BY HYPERTHERMIA AND VIRAL INFLAMMATION AND OTHERS. IN PATHOGENETIC TERMS, ABERRANT TRANSCRIPTIONAL AND EPIGENETIC REPROGRAMMING, ACQUIRED CHANNEL- AND SYNAPTOPATHIES, NEURONAL NETWORK AND BLOOD-BRAIN BARRIER DYSFUNCTION AS WELL AS INNATE AND ADAPTIVE IMMUNITY-MEDIATED DAMAGE PLAY MAJOR ROLES. IN SUBSEQUENT STEPS, RESPECTIVE ANIMAL MODELS HAVE BEEN USED IN ORDER TO TEST WHETHER THIS DYNAMIC PROCESS CAN BE EITHER RETARDED OR EVEN ABOLISHED BY INTERFERING WITH EPILEPTOGENIC MECHANISMS. WELL-CONTROLLED SUBSEQUENT ANALYSES OF EPILEPTOGENIC CASCADES CHARACTERIZED IN ANIMAL MODELS USING CAREFULLY STRATIFIED HUMAN HIPPOCAMPAL BIOPSIES TO EXPLOIT THE UNIQUE OPPORTUNITIES GIVEN BY THESE RARE AND PRECIOUS BRAIN TISSUE SAMPLES AIM TO TRANSLATE INTO NOVEL ANTIEPILEPTOGENIC APPROACHES. RESPECTIVE PRECLINICAL TESTS CAN OPEN ENTIRELY NEW PERSPECTIVES FOR TAILOR-MADE TREATMENTS IN PATIENTS WITH THE POTENTIAL TO AVOID THE EMERGENCE OF CHRONIC FOCAL SEIZURE EVENTS. 2018 5 6024 34 THE BIOCHEMISTRY AND EPIGENETICS OF EPILEPSY: FOCUS ON ADENOSINE AND GLYCINE. EPILEPSY, ONE OF THE MOST PREVALENT NEUROLOGICAL CONDITIONS, PRESENTS AS A COMPLEX DISORDER OF NETWORK HOMEOSTASIS CHARACTERIZED BY SPONTANEOUS NON-PROVOKED SEIZURES AND ASSOCIATED COMORBIDITIES. CURRENTLY USED ANTIEPILEPTIC DRUGS HAVE BEEN DESIGNED TO SUPPRESS NEURONAL HYPEREXCITABILITY AND THEREBY TO SUPPRESS EPILEPTIC SEIZURES. HOWEVER, THE CURRENT ARMAMENTARIUM OF ANTIEPILEPTIC DRUGS IS NOT EFFECTIVE IN OVER 30% OF PATIENTS, DOES NOT AFFECT THE COMORBIDITIES OF EPILEPSY, AND DOES NOT PREVENT THE DEVELOPMENT AND PROGRESSION OF EPILEPSY (EPILEPTOGENESIS). PREVENTION OF EPILEPSY AND ITS PROGRESSION REMAINS THE HOLY GRAIL FOR EPILEPSY RESEARCH AND THERAPY DEVELOPMENT, REQUIRING NOVEL CONCEPTUAL ADVANCES TO FIND A SOLUTION TO THIS URGENT MEDICAL NEED. THE METHYLATION HYPOTHESIS OF EPILEPTOGENESIS SUGGESTS THAT CHANGES IN DNA METHYLATION ARE IMPLICATED IN THE PROGRESSION OF THE DISEASE. IN PARTICULAR, GLOBAL DNA HYPERMETHYLATION APPEARS TO BE ASSOCIATED WITH CHRONIC EPILEPSY. CLINICAL AS WELL AS EXPERIMENTAL EVIDENCE DEMONSTRATES THAT EPILEPSY AND ITS PROGRESSION CAN BE PREVENTED BY BIOCHEMICAL MANIPULATIONS AND THOSE THAT TARGET PREVIOUSLY UNRECOGNIZED EPIGENETIC FUNCTIONS CONTRIBUTING TO EPILEPSY DEVELOPMENT AND MAINTENANCE OF THE EPILEPTIC STATE. THIS MINI-REVIEW WILL DISCUSS, EPIGENETIC MECHANISMS IMPLICATED IN EPILEPTOGENESIS AND BIOCHEMICAL INTERACTIONS BETWEEN ADENOSINE AND GLYCINE AS A CONCEPTUAL ADVANCE TO UNDERSTAND THE CONTRIBUTION OF MALADAPTIVE CHANGES IN BIOCHEMISTRY AS A MAJOR CONTRIBUTING FACTOR TO THE DEVELOPMENT OF EPILEPSY. NEW FINDINGS BASED ON BIOCHEMICAL MANIPULATION OF THE DNA METHYLOME SUGGEST THAT: (I) EPIGENETIC MECHANISMS PLAY A FUNCTIONAL ROLE IN EPILEPTOGENESIS; AND (II) THERAPEUTIC RECONSTRUCTION OF THE EPIGENOME IS AN EFFECTIVE ANTIEPILEPTOGENIC THERAPY. 2016 6 2139 38 EPIGENETIC INSIGHTS INTO MULTIPLE SCLEROSIS DISEASE PROGRESSION. MULTIPLE SCLEROSIS (MS), A CHRONIC INFLAMMATORY DEMYELINATING AND NEURODEGENERATIVE DISEASE OF THE CENTRAL NERVOUS SYSTEM, IS TODAY A LEADING CAUSE OF UNPREDICTABLE LIFELONG DISABILITY IN YOUNG ADULTS. THE TREATMENT OF PATIENTS IN PROGRESSIVE STAGES REMAINS HIGHLY CHALLENGING, ALLUDING TO OUR LIMITED UNDERSTANDING OF THE UNDERLYING PATHOLOGICAL PROCESSES. IN THIS REVIEW, WE PROVIDE INSIGHTS INTO THE MECHANISMS UNDERPINNING MS PROGRESSION FROM A PERSPECTIVE OF EPIGENETICS, THAT REFERS TO STABLE AND MITOTICALLY HERITABLE, YET REVERSIBLE, CHANGES IN THE GENOME ACTIVITY AND GENE EXPRESSION. WE FIRST RECAPITULATE FINDINGS FROM EPIGENETIC STUDIES EXAMINING THE BRAIN TISSUE OF PROGRESSIVE MS PATIENTS, WHICH SUPPORT A CONTRIBUTION OF DNA AND HISTONE MODIFICATIONS IN IMPAIRED OLIGODENDROCYTE DIFFERENTIATION, DEFECTIVE MYELINATION/REMYELINATION AND SUSTAINED NEURO-AXONAL VULNERABILITY. WE NEXT EXPLORE POSSIBILITIES FOR IDENTIFYING FACTORS AFFECTING PROGRESSION USING EASILY ACCESSIBLE TISSUES SUCH AS BLOOD BY COMPARING EPIGENETIC SIGNATURES IN PERIPHERAL IMMUNE CELLS AND BRAIN TISSUE. DESPITE MINOR OVERLAP AT INDIVIDUAL METHYLATION SITES, NEARLY 30% OF ALTERED GENES REPORTED IN PERIPHERAL IMMUNE CELLS OF PROGRESSIVE MS PATIENTS WERE FOUND IN BRAIN TISSUE, JOINTLY CONVERGING ON ALTERATIONS OF NEURONAL FUNCTIONS. WE FURTHER SPECULATE ABOUT THE MECHANISMS UNDERLYING SHARED EPIGENETIC PATTERNS BETWEEN BLOOD AND BRAIN, WHICH LIKELY IMPLY THE INFLUENCE OF INTERNAL (GENETIC CONTROL) AND/OR EXTERNAL (E.G. SMOKING AND AGEING) FACTORS IMPRINTING A COMMON SIGNATURE IN BOTH COMPARTMENTS. OVERALL, WE PROPOSE THAT EPIGENETICS MIGHT SHED LIGHT ON CLINICALLY RELEVANT MECHANISMS INVOLVED IN DISEASE PROGRESSION AND OPEN NEW AVENUES FOR THE TREATMENT OF PROGRESSIVE MS PATIENTS IN THE FUTURE. 2020 7 2523 35 EPIGENETICS AND THE TRANSITION FROM ACUTE TO CHRONIC PAIN. OBJECTIVE: THE OBJECTIVE OF THIS STUDY WAS TO REVIEW THE EPIGENETIC MODIFICATIONS INVOLVED IN THE TRANSITION FROM ACUTE TO CHRONIC PAIN AND TO IDENTIFY POTENTIAL TARGETS FOR THE DEVELOPMENT OF NOVEL, INDIVIDUALIZED PAIN THERAPEUTICS. BACKGROUND: EPIGENETICS IS THE STUDY OF HERITABLE MODIFICATIONS IN GENE EXPRESSION AND PHENOTYPE THAT DO NOT REQUIRE A CHANGE IN GENETIC SEQUENCE TO MANIFEST THEIR EFFECTS. ENVIRONMENTAL TOXINS, MEDICATIONS, DIET, AND PSYCHOLOGICAL STRESSES CAN ALTER EPIGENETIC PROCESSES SUCH AS DNA METHYLATION, HISTONE ACETYLATION, AND RNA INTERFERENCE. AS EPIGENETIC MODIFICATIONS POTENTIALLY PLAY AN IMPORTANT ROLE IN INFLAMMATORY CYTOKINE METABOLISM, STEROID RESPONSIVENESS, AND OPIOID SENSITIVITY, THEY ARE LIKELY KEY FACTORS IN THE DEVELOPMENT OF CHRONIC PAIN. ALTHOUGH OUR KNOWLEDGE OF THE HUMAN GENETIC CODE AND DISEASE-ASSOCIATED POLYMORPHISMS HAS GROWN SIGNIFICANTLY IN THE PAST DECADE, WE HAVE NOT YET BEEN ABLE TO ELUCIDATE THE MECHANISMS THAT LEAD TO THE DEVELOPMENT OF PERSISTENT PAIN AFTER NERVE INJURY OR SURGERY. DESIGN: THIS IS A FOCUSED LITERATURE REVIEW OF EPIGENETIC SCIENCE AND ITS RELATIONSHIP TO CHRONIC PAIN. RESULTS: SIGNIFICANT LABORATORY AND CLINICAL DATA SUPPORT THE NOTION THAT EPIGENETIC MODIFICATIONS ARE AFFECTED BY THE ENVIRONMENT AND LEAD TO DIFFERENTIAL GENE EXPRESSION. SIMILAR TO MECHANISMS INVOLVED IN THE DEVELOPMENT OF CANCER, NEURODEGENERATIVE DISEASE, AND INFLAMMATORY DISORDERS, THE LITERATURE ENDORSES AN IMPORTANT POTENTIAL ROLE FOR EPIGENETICS IN CHRONIC PAIN. CONCLUSIONS: EPIGENETIC ANALYSIS MAY IDENTIFY MECHANISMS CRITICAL TO THE DEVELOPMENT OF CHRONIC PAIN AFTER INJURY, AND MAY PROVIDE NEW PATHWAYS AND TARGET MECHANISMS FOR FUTURE DRUG DEVELOPMENT AND INDIVIDUALIZED MEDICINE. 2012 8 2498 33 EPIGENETICS AND EPILEPSY PREVENTION: THE THERAPEUTIC POTENTIAL OF ADENOSINE AND METABOLIC THERAPIES. PREVENTION OF EPILEPSY AND ITS PROGRESSION REMAINS THE MOST URGENT NEED FOR EPILEPSY RESEARCH AND THERAPY DEVELOPMENT. NOVEL CONCEPTUAL ADVANCES ARE REQUIRED TO MEANINGFULLY ADDRESS THIS FUNDAMENTAL CHALLENGE. MALADAPTIVE EPIGENETIC CHANGES, WHICH INCLUDE METHYLATION OF DNA AND ACETYLATION OF HISTONES - AMONG OTHER MECHANISMS, ARE NOW WELL RECOGNIZED TO PLAY A FUNCTIONAL ROLE IN THE DEVELOPMENT OF EPILEPSY AND ITS PROGRESSION. THE METHYLATION HYPOTHESIS OF EPILEPTOGENESIS SUGGESTS THAT CHANGES IN DNA METHYLATION ARE IMPLICATED IN THE PROGRESSION OF THE DISEASE. IN THIS CONTEXT, GLOBAL DNA HYPERMETHYLATION IS PARTICULARLY ASSOCIATED WITH CHRONIC EPILEPSY. LIKEWISE, ACETYLATION CHANGES OF HISTONES HAVE BEEN LINKED TO EPILEPSY DEVELOPMENT. CLINICAL AS WELL AS EXPERIMENTAL EVIDENCE DEMONSTRATE THAT EPILEPSY AND ITS PROGRESSION CAN BE PREVENTED BY METABOLIC AND BIOCHEMICAL MANIPULATIONS THAT TARGET PREVIOUSLY UNRECOGNIZED EPIGENETIC FUNCTIONS CONTRIBUTING TO EPILEPSY DEVELOPMENT AND MAINTENANCE OF THE EPILEPTIC STATE. THIS REVIEW WILL DISCUSS EPIGENETIC MECHANISMS IMPLICATED IN EPILEPSY DEVELOPMENT AS WELL AS METABOLIC AND BIOCHEMICAL INTERACTIONS THOUGHT TO DRIVE EPILEPTOGENESIS. THEREFORE, METABOLIC AND BIOCHEMICAL MECHANISMS ARE IDENTIFIED AS NOVEL TARGETS FOR EPILEPSY PREVENTION. WE WILL SPECIFICALLY DISCUSS ADENOSINE BIOCHEMISTRY AS A NOVEL THERAPEUTIC STRATEGY TO RECONSTRUCT THE DNA METHYLOME AS ANTIEPILEPTOGENIC STRATEGY AS WELL AS METABOLIC MEDIATORS, SUCH AS BETA-HYDROXYBUTYRATE, WHICH AFFECT HISTONE ACETYLATION. FINALLY, METABOLIC DIETARY INTERVENTIONS (SUCH AS THE KETOGENIC DIET) WHICH HAVE THE UNIQUE POTENTIAL TO PREVENT EPILEPTOGENESIS THROUGH RECENTLY IDENTIFIED EPIGENETIC MECHANISMS WILL BE REVIEWED. THIS ARTICLE IS PART OF THE SPECIAL ISSUE ENTITLED 'NEW EPILEPSY THERAPIES FOR THE 21ST CENTURY - FROM ANTISEIZURE DRUGS TO PREVENTION, MODIFICATION AND CURE OF EPILEPSY'. 2020 9 2141 42 EPIGENETIC INTERVENTIONS FOR EPILEPTOGENESIS: A NEW FRONTIER FOR CURING EPILEPSY. THIS ARTICLE HIGHLIGHTS THE EMERGING THERAPEUTIC POTENTIAL OF SPECIFIC EPIGENETIC MODULATORS AS PROMISING ANTIEPILEPTOGENIC OR DISEASE-MODIFYING AGENTS FOR CURING EPILEPSY. CURRENTLY, THERE IS AN UNMET NEED FOR ANTIEPILEPTOGENIC AGENTS THAT TRULY PREVENT THE DEVELOPMENT OF EPILEPSY IN PEOPLE AT RISK. THERE IS STRONG EVIDENCE THAT EPIGENETIC SIGNALING, WHICH EXERTS HIGH FIDELITY REGULATION OF GENE EXPRESSION, PLAYS A CRUCIAL ROLE IN THE PATHOPHYSIOLOGY OF EPILEPTOGENESIS AND CHRONIC EPILEPSY. THESE MODIFICATIONS ARE NOT HARD-WIRED INTO THE GENOME AND ARE CONSTANTLY REPROGRAMMED BY ENVIRONMENTAL INFLUENCES. THE POTENTIAL EPIGENETIC MECHANISMS, INCLUDING HISTONE MODIFICATIONS, DNA METHYLATION, MICRORNA-BASED TRANSCRIPTIONAL CONTROL, AND BROMODOMAIN READING ACTIVITY, CAN DRASTICALLY ALTER THE NEURONAL GENE EXPRESSION PROFILE BY EXERTING THEIR SUMMATIVE EFFECTS IN A COORDINATED FASHION. SUCH AN EPIGENETIC INTERVENTION APPEARS MORE RATIONAL STRATEGY FOR PREVENTING EPILEPSY BECAUSE IT TARGETS THE PRIMARY PATHWAY THAT INITIALLY TRIGGERS THE NUMEROUS DOWNSTREAM CELLULAR AND MOLECULAR EVENTS MEDIATING EPILEPTOGENESIS. AMONG CURRENTLY APPROVED EPIGENETIC DRUGS, THE MAJORITY ARE ANTICANCER DRUGS WITH WELL-ESTABLISHED PROFILES IN CLINICAL TRIALS AND PRACTICE. EVIDENCE FROM PRECLINICAL STUDIES SUPPORTS THE PREMISE THAT THESE DRUGS MAY BE APPLIED TO A WIDE RANGE OF BRAIN DISORDERS. TARGETING HISTONE DEACETYLATION BY INHIBITING HISTONE DEACETYLASE ENZYMES APPEARS TO BE ONE PROMISING EPIGENETIC THERAPY SINCE CERTAIN INHIBITORS HAVE BEEN SHOWN TO PREVENT EPILEPTOGENESIS IN ANIMAL MODELS. HOWEVER, DEVELOPING NEURONAL SPECIFIC EPIGENETIC MODULATORS REQUIRES RATIONAL, PATHOPHYSIOLOGY-BASED OPTIMIZATION TO EFFICIENTLY INTERCEPT THE UPSTREAM PATHWAYS IN EPILEPTOGENESIS. OVERALL, EPIGENETIC AGENTS HAVE BEEN WELL POSITIONED AS NEW FRONTIER TOOLS TOWARDS THE NATIONAL GOAL OF CURING EPILEPSY. 2017 10 1518 34 DNA METHYLATION AS AN EPIGENETIC MECHANISM IN THE DEVELOPMENT OF MULTIPLE SCLEROSIS. THE EPIGENETIC MECHANISMS OF GENE EXPRESSION REGULATION ARE A GROUP OF THE KEY CELLULAR AND MOLECULAR PATHWAYS THAT LEAD TO INHERITED ALTERATIONS IN GENES' ACTIVITY WITHOUT CHANGING THEIR CODING SEQUENCE. DNA METHYLATION AT THE C5 POSITION OF CYTOSINE IN CPG DINUCLEOTIDES IS AMONGST THE CENTRAL EPIGENETIC MECHANISMS. CURRENTLY, THE NUMBER OF STUDIES THAT ARE DEVOTED TO THE IDENTIFICATION OF METHYLATION PATTERNS SPECIFIC TO MULTIPLE SCLEROSIS (MS), A SEVERE CHRONIC AUTOIMMUNE DISEASE OF THE CENTRAL NERVOUS SYSTEM, IS ON A RAPID RISE. HOWEVER, THE ISSUE OF THE CONTRIBUTION OF DNA METHYLATION TO THE DEVELOPMENT OF THE DIFFERENT CLINICAL PHENOTYPES OF THIS HIGHLY HETEROGENEOUS DISEASE HAS ONLY BEGUN TO ATTRACT THE ATTENTION OF RESEARCHERS. THIS REVIEW SUMMARIZES THE DATA ON THE MOLECULAR MECHANISMS UNDERLYING DNA METHYLATION AND THE MS RISK FACTORS THAT CAN AFFECT THE DNA METHYLATION PROFILE AND, THEREBY, MODULATE THE EXPRESSION OF THE GENES INVOLVED IN THE DISEASE'S PATHOGENESIS. THE FOCUS OF OUR ATTENTION IS CENTERED ON THE ANALYSIS OF THE PUBLISHED DATA ON THE DIFFERENTIAL METHYLATION OF DNA FROM VARIOUS BIOLOGICAL SAMPLES OF MS PATIENTS OBTAINED USING BOTH THE CANDIDATE GENE APPROACH AND HIGH-THROUGHPUT METHODS. 2021 11 2094 29 EPIGENETIC EFFECTS MEDIATED BY ANTIEPILEPTIC DRUGS AND THEIR POTENTIAL APPLICATION. AN EPIGENETIC EFFECT MAINLY REFERS TO A HERITABLE MODULATION IN GENE EXPRESSION IN THE SHORT TERM BUT DOES NOT INVOLVE ALTERATIONS IN THE DNA ITSELF. EPIGENETIC MOLECULAR MECHANISMS INCLUDE DNA METHYLATION, HISTONE MODIFICATION, AND UNTRANSLATED RNA REGULATION. ANTIEPILEPTIC DRUGS HAVE DRAWN ATTENTION TO BIOLOGICAL AND TRANSLATIONAL MEDICINE BECAUSE THEIR IMPACT ON EPIGENETIC MECHANISMS WILL LEAD TO THE IDENTIFICATION OF NOVEL BIOMARKERS AND POSSIBLE THERAPEUTIC STRATEGIES FOR THE PREVENTION AND TREATMENT OF VARIOUS DISEASES RANGING FROM NEUROPSYCHOLOGICAL DISORDERS TO CANCERS AND OTHER CHRONIC CONDITIONS. HOWEVER, THESE TRANSCRIPTIONAL AND POSTTRANSCRIPTIONAL ALTERATIONS CAN ALSO RESULT IN ADVERSE REACTIONS AND TOXICITY IN VITRO AND IN VIVO. HENCE, IN THIS REVIEW, WE FOCUS ON RECENT FINDINGS SHOWING EPIGENETIC PROCESSES MEDIATED BY ANTIEPILEPTIC DRUGS TO ELUCIDATE THEIR APPLICATION IN MEDICAL EXPERIMENTS AND SHED LIGHT ON EPIGENETIC RESEARCH FOR MEDICINAL PURPOSES. 2020 12 6866 37 [PAIN AND EMOTIONAL DYSREGULATION: CELLULAR MEMORY DUE TO PAIN]. GENETIC FACTORS ARE INVOLVED IN DETERMINANTS FOR THE RISK OF PSYCHIATRIC DISORDERS, AND NEUROLOGICAL AND NEURODEGENERATIVE DISEASES. CHRONIC PAIN STIMULI AND INTENSE PAIN HAVE EFFECTS AT A CELLULAR AND/OR GENE EXPRESSION LEVEL, AND WILL EVENTUALLY INDUCE "CELLULAR MEMORY DUE TO PAIN", WHICH MEANS THAT TISSUE DAMAGE, EVEN IF ONLY TRANSIENT, CAN ELICIT EPIGENETICALLY ABNORMAL TRANSCRIPTION/TRANSLATION AND POST-TRANSLATIONAL MODIFICATION IN RELATED CELLS DEPENDING ON THE DEGREE OR KIND OF INJURY OR ASSOCIATED CONDITIONS. SUCH CELL MEMORY/TRANSFORMATION DUE TO PAIN CAN CAUSE AN ABNORMALITY IN A FUNDAMENTAL INTRACELLULAR RESPONSE, SUCH AS A CHANGE IN THE THREE-DIMENSIONAL STRUCTURE OF DNA, TRANSCRIPTION, OR TRANSLATION. ON THE OTHER HAND, PAIN IS A MULTIDIMENSIONAL EXPERIENCE WITH SENSORY-DISCRIMINATIVE AND MOTIVATIONAL-AFFECTIVE COMPONENTS. RECENT HUMAN BRAIN IMAGING STUDIES HAVE EXAMINED DIFFERENCES IN ACTIVITY IN THE NUCLEUS ACCUMBENS BETWEEN CONTROLS AND PATIENTS WITH CHRONIC PAIN, AND HAVE REVEALED THAT THE NUCLEUS ACCUMBENS PLAYS A ROLE IN PREDICTING THE VALUE OF A NOXIOUS STIMULUS AND ITS OFFSET, AND IN THE CONSEQUENT CHANGES IN THE MOTIVATIONAL STATE. IN THIS REVIEW, WE PROVIDE A VERY BRIEF OVERVIEW OF A COMPREHENSIVE UNDERSTANDING OF CHRONIC PAIN ASSOCIATED WITH EMOTIONAL DYSREGULATION DUE TO TRANSCRIPTIONAL REGULATION, EPIGENETIC MODIFICATION AND MIRNA REGULATION. 2015 13 5047 34 PHARMACOLOGICAL AND THERAPEUTIC APPROACHES IN THE TREATMENT OF EPILEPSY. EPILEPSY AFFECTS AROUND 50 MILLION PEOPLE ACROSS THE GLOBE AND IS THE THIRD MOST COMMON CHRONIC BRAIN DISORDER. IT IS A NON-COMMUNICABLE DISEASE OF THE BRAIN THAT AFFECTS PEOPLE OF ALL AGES. IT IS ACCOMPANIED BY DEPRESSION, ANXIETY, AND SUBSTANTIALLY INCREASED MORBIDITY AND MORTALITY. A LARGE NUMBER OF THIRD-GENERATION ANTI-EPILEPTIC DRUGS ARE AVAILABLE, BUT THEY HAVE MULTIPLE SIDE-EFFECTS CAUSING A DECLINE IN THE QUALITY OF LIFE. THE INHERITANCE AND ETIOLOGY OF EPILEPSY ARE COMPLEX WITH MULTIPLE UNDERLYING GENETIC AND EPIGENETIC MECHANISMS. DIFFERENT NEUROTRANSMITTERS PLAY INTRICATE FUNCTIONS TO MAINTAIN THE NORMAL PHYSIOLOGY OF VARIOUS NEURONS. IF THERE IS ANY DYSREGULATION OF NEUROTRANSMISSION DUE TO ABERRANT TRANSMITTER LEVELS OR THEIR RECEPTOR BIOLOGY, IT CAN RESULT IN SEIZURES. IN THIS REVIEW, WE HAVE DISCUSSED THE ROLES PLAYED BY VARIOUS NEUROTRANSMITTERS AND THEIR RECEPTORS IN THE PATHOPHYSIOLOGY OF EPILEPSY. DRUG-RESISTANT EPILEPSY (DRE) HAS REMAINED ONE OF THE FOREFRONT AREAS OF EPILEPSY RESEARCH FOR A LONG TIME. UNDERSTANDING THE MECHANISMS UNDERLYING DRE IS OF UTMOST IMPORTANCE BECAUSE OF ITS HIGH INCIDENCE RATE AMONG EPILEPSY PATIENTS AND INCREASED RISKS OF PSYCHOSOCIAL PROBLEMS AND PREMATURE DEATH. HERE WE HAVE ENUMERATED VARIOUS HYPOTHESES OF DRE. FURTHER, WE HAVE DISCUSSED DIFFERENT NON-CONVENTIONAL THERAPEUTIC STRATEGIES, INCLUDING COMBINATION THERAPY AND NON-DRUG TREATMENT. THE RECENT STUDIES SUPPORTING THE MODERN APPROACHES FOR THE TREATMENT OF EPILEPSY HAVE BEEN DELIBERATED WITH PARTICULAR REFERENCE TO THE MTOR PATHWAY, BREAKDOWN OF THE BLOOD-BRAIN BARRIER, AND INFLAMMATORY PATHWAYS. 2021 14 5928 18 TARGETING EPIGENETIC MECHANISMS FOR PAIN RELIEF. EPIGENETIC CHANGES ARE CHEMICAL MODIFICATIONS TO CHROMATIN THAT MODULATE GENE ACTIVITY WITHOUT ALTERING THE DNA SEQUENCE. WHILE RESEARCH ON EPIGENETICS HAS GROWN EXPONENTIALLY OVER THE PAST FEW YEARS, VERY FEW STUDIES HAVE INVESTIGATED EPIGENETIC MECHANISMS IN RELATION TO PAIN STATES. HOWEVER, EPIGENETIC MECHANISMS ARE CRUCIAL TO MEMORY FORMATION THAT REQUIRES SIMILAR SYNAPTIC PLASTICITY TO PAIN PROCESSING, INDICATING THAT THEY MAY PLAY A KEY ROLE IN THE CONTROL OF PAIN STATES. THIS ARTICLE REVIEWS THE EARLY EVIDENCE SUGGESTING THAT EPIGENETIC MECHANISMS ARE ENGAGED AFTER INJURY AND IN CHRONIC PAIN STATES, AND THAT DRUGS USED CLINICALLY TO TARGET THE EPIGENETIC MACHINERY FOR THE TREATMENT OF CANCER MIGHT BE USEFUL FOR THE MANAGEMENT OF CHRONIC PAIN. 2012 15 6771 31 [ACQUIRED DISORDERS AND EPIGENETICS]. EPIGENETIC MODIFICATIONS, INVOLVING DNA METHYLATION AND HISTONE MODIFICATIONS, ARE MAINTAINED UPON SOMATIC CELL REPLICATION, AND ARE FUNDAMENTAL MECHANISMS FOR CELLULAR MEMORY. DNA METHYLATION OF PROMOTER CPG ISLANDS OF TUMOR-SUPPRESSOR GENES CAN SILENCE THEIR DOWNSTREAM GENES, AND CAN BE CAUSALLY INVOLVED IN CANCER DEVELOPMENT AND PROGRESSION. SINCE THIS EFFECT IS THE SAME WITH THAT OF INACTIVATING MUTATIONS, THE NATURES OF DNA METHYLATION WERE ONCE CONSIDERED TO BE SIMILAR TO MUTATIONS. HOWEVER, RECENTLY, IT WAS REVEALED THAT A LARGE NUMBER OF EPIGENETIC ALTERATIONS ARE PRESENT IN A SINGLE CANCER CELL, THAT A LARGE NUMBER OF CELLS HAVE AN EPIGENETIC ALTERATION OF A SPECIFIC GENE IN NON-CANCEROUS, THUS POLYCLONAL, TISSUES, THAT GENE SPECIFICITY IN METHYLATION INDUCTION IS PRESENT ACCORDING TO TISSUE TYPES AND INDUCERS, AND THAT CHRONIC INFLAMMATION IS DEEPLY INVOLVED IN METHYLATION INDUCTION. THESE FACTS SUGGEST THAT EPIGENETIC ALTERATIONS OF KEY GENES INVOLVED IN ACQUIRED CHRONIC DISORDERS CAN BE PRESENT IN A SIGNIFICANT FRACTION OF CELLS IN A TISSUE, AND THUS CAN IMPAIR THE FUNCTION OF THE TISSUE. ASSOCIATIONS BETWEEN EPIGENETIC ALTERATIONS AND BEHAVIOR, MEMORY, MENTAL DISORDERS, NEUROLOGICAL DISORDERS, METABOLIC DISORDERS, ALLERGY, AUTOIMMUNE DISORDERS, AND OTHER DISORDERS HAVE BEEN REPORTED. FURTHER RESEARCH IN THE FIELD IS NECESSARY TO CLARIFY THE CAUSAL ROLES OF THESE EPIGENETIC ALTERATIONS IN DISEASE DEVELOPMENT, AND TO APPLY THE FINDINGS TO NEW STRATEGIES OF DISEASE PREVENTION, DIAGNOSIS, AND TREATMENT. 2010 16 4277 35 MICROGLIA SEQUELAE: BRAIN SIGNATURE OF INNATE IMMUNITY IN SCHIZOPHRENIA. SCHIZOPHRENIA IS A PSYCHIATRIC DISORDER WITH SIGNIFICANT IMPACT ON INDIVIDUALS AND SOCIETY. THE CURRENT PHARMACOLOGIC TREATMENT, WHICH PRINCIPALLY ALLEVIATES PSYCHOSIS, IS FOCUSED ON NEUROTRANSMITTERS MODULATION, RELYING ON DRUGS WITH SEVERE SIDE EFFECTS AND INEFFECTIVENESS IN A SIGNIFICANT PERCENTAGE OF CASES. THEREFORE, AND DUE TO DIFFICULTIES INHERENT TO DIAGNOSIS AND TREATMENT, IT IS VITAL TO REASSESS ALTERNATIVE CELLULAR AND MOLECULAR DRUG TARGETS. DISTINCT RISK FACTORS - GENETIC, DEVELOPMENTAL, EPIGENETIC, AND ENVIRONMENTAL - HAVE BEEN ASSOCIATED WITH DISEASE ONSET AND PROGRESSION, GIVING RISE TO THE PROPOSAL OF DIFFERENT PATHOPHYSIOLOGICAL MECHANISMS AND PUTATIVE PHARMACOLOGICAL TARGETS. IMMUNITY IS INVOLVED AND, PARTICULARLY MICROGLIA - INNATE IMMUNE CELLS OF THE CENTRAL NERVOUS SYSTEM, CRITICALLY INVOLVED IN BRAIN DEVELOPMENT - HAVE CAPTURED ATTENTION AS CELLULAR PLAYERS. MICROGLIA UNDERGO MARKED MORPHOLOGIC AND FUNCTIONAL ALTERATIONS IN THE HUMAN DISEASE, AS WELL AS IN ANIMAL MODELS OF SCHIZOPHRENIA, AS REPORTED IN SEVERAL ORIGINAL PAPERS. WE CLUSTER THE MAIN FINDINGS OF CLINICAL STUDIES BY GROUPS OF PATIENTS: (1) AT ULTRA-HIGH RISK OF PSYCHOSIS, (2) WITH A FIRST EPISODE OF PSYCHOSIS OR RECENT-ONSET SCHIZOPHRENIA, AND (3) WITH CHRONIC SCHIZOPHRENIA; IN TRANSLATIONAL STUDIES, WE HIGHLIGHT THE TIME WINDOW OF APPEARANCE OF PARTICULAR MICROGLIA ALTERATIONS IN THE MOST WELL STUDIED ANIMAL MODEL IN THE FIELD (MATERNAL IMMUNE ACTIVATION). THE ORGANIZATION OF CLINICAL AND TRANSLATIONAL FINDINGS BASED ON SCHIZOPHRENIA-ASSOCIATED MICROGLIA CHANGES IN DIFFERENT PHASES OF THE DISEASE COURSE MAY HELP DEFINING A TEMPORAL PATTERN OF MICROGLIA CHANGES AND MAY DRIVE THE DESIGN OF NOVEL THERAPEUTIC STRATEGIES. 2022 17 4128 27 MECHANISMS OF DRUG RESISTANCE IN THE PATHOGENESIS OF EPILEPSY: ROLE OF NEUROINFLAMMATION. A LITERATURE REVIEW. EPILEPSY IS A CHRONIC NEUROLOGICAL DISORDER CHARACTERIZED BY RECURRING SPONTANEOUS SEIZURES. DRUG RESISTANCE APPEARS IN 30% OF PATIENTS AND IT CAN LEAD TO PREMATURE DEATH, BRAIN DAMAGE OR A REDUCED QUALITY OF LIFE. THE PURPOSE OF THE STUDY WAS TO ANALYZE THE DRUG RESISTANCE MECHANISMS, ESPECIALLY NEUROINFLAMMATION, IN THE EPILEPTOGENESIS. THE INFORMATION BASES OF BIOMEDICAL LITERATURE SCOPUS, PUBMED, GOOGLE SCHOLAR AND SCIVERSE WERE USED. TO OBTAIN FULL-TEXT DOCUMENTS, ELECTRONIC RESOURCES OF PUBMED CENTRAL AND RESEARCH GATE WERE USED. THE ARTICLE EXAMINES THE RECENT RESEARCH OF THE MECHANISMS OF DRUG RESISTANCE IN EPILEPSY AND DISCUSSES THE HYPOTHESES OF DRUG RESISTANCE DEVELOPMENT (GENETIC, EPIGENETIC, TARGET HYPOTHESIS, ETC.). DRUG-RESISTANT EPILEPSY IS ASSOCIATED WITH NEUROINFLAMMATORY, AUTOIMMUNE AND NEURODEGENERATIVE PROCESSES. NEUROINFLAMMATION CAUSES IMMUNE, PATHOPHYSIOLOGICAL, BIOCHEMICAL AND PSYCHOLOGICAL CONSEQUENCES. FOCAL OR SYSTEMIC UNREGULATED INFLAMMATORY PROCESSES LEAD TO THE FORMATION OF ABERRANT NEURAL CONNECTIONS AND HYPEREXCITABLE NEURAL NETWORKS. INFLAMMATORY MEDIATORS AFFECT THE ENDOTHELIUM OF CEREBRAL VESSELS, DESTROY CONTACTS BETWEEN ENDOTHELIAL CELLS AND INDUCE ABNORMAL ANGIOGENESIS (THE FORMATION OF "LEAKY" VESSELS), THEREBY AFFECTING THE BLOOD-BRAIN BARRIER PERMEABILITY. THUS, THE ANALYSIS OF PRO-INFLAMMATORY AND OTHER COMPONENTS OF EPILEPTOGENESIS CAN CONTRIBUTE TO THE FURTHER DEVELOPMENT OF THE THERAPEUTIC TREATMENT OF DRUG-RESISTANT EPILEPSY. 2021 18 1686 28 DRUGGING THE PAIN EPIGENOME. MORE THAN 20% OF ADULTS WORLDWIDE EXPERIENCE DIFFERENT TYPES OF CHRONIC PAIN, WHICH ARE FREQUENTLY ASSOCIATED WITH SEVERAL COMORBIDITIES AND A DECREASE IN QUALITY OF LIFE. SEVERAL APPROVED PAINKILLERS ARE AVAILABLE, BUT CURRENT ANALGESICS ARE OFTEN HAMPERED BY INSUFFICIENT EFFICACY AND/OR SEVERE ADVERSE EFFECTS. CONSEQUENTLY, NOVEL STRATEGIES FOR SAFE, HIGHLY EFFICACIOUS TREATMENTS ARE HIGHLY DESIRABLE, PARTICULARLY FOR CHRONIC PAIN. EPIGENETIC MECHANISMS SUCH AS DNA METHYLATION, HISTONE MODIFICATIONS AND MICRORNAS (MIRNAS) STRONGLY AFFECT THE REGULATION OF GENE EXPRESSION, POTENTIALLY FOR LONG PERIODS OVER YEARS OR EVEN GENERATIONS, AND HAVE BEEN ASSOCIATED WITH PATHOPHYSIOLOGICAL PAIN. SEVERAL STUDIES, MOSTLY IN ANIMALS, REVEALED THAT INHIBITORS OF DNA METHYLATION, ACTIVATORS AND INHIBITORS OF HISTONE MODIFICATION AND MODULATORS OF MIRNAS REVERSE A NUMBER OF PATHOLOGICAL CHANGES IN THE PAIN EPIGENOME, WHICH ARE ASSOCIATED WITH ALTERED EXPRESSION OF PAIN-RELEVANT GENES. THIS EPIGENETIC MODULATION MIGHT THEN REDUCE THE NOCICEPTIVE RESPONSE AND PROVIDE NOVEL THERAPEUTIC OPTIONS FOR ANALGESIC THERAPY OF CHRONIC PAIN STATES. HOWEVER, A NUMBER OF CHALLENGES, SUCH AS NONSPECIFIC EFFECTS AND POOR DELIVERY TO TARGET CELLS AND TISSUES, HINDER THE RAPID DEVELOPMENT OF SUCH ANALGESICS. IN THIS REVIEW, WE CRITICALLY SUMMARIZE DATA ON EPIGENETICS AND PAIN, FOCUSING ON CHALLENGES IN CLINICAL DEVELOPMENT AS WELL AS POSSIBLE NEW APPROACHES TO THE DRUG MODULATION OF THE PAIN EPIGENOME. 2017 19 6809 32 [EPIGENETICS IN INFLAMMATORY SYSTEMIC DISEASES]. IN ADDITION TO ANALYSIS OF THE GENETIC CODE, IN RECENT YEARS MORE AND MORE STUDIES HAVE CONCENTRATED ON CHANGES IN THE EPIGENETIC CODE. EPIGENETIC MECHANISMS DETERMINE WHICH GENES IN A CELL ARE TRANSCRIBED AND THUS FORM THE PHENOTYPE OF A CELL. THE EPIGENETIC CODE CAN BE CHANGED BY ENVIRONMENTAL INFLUENCES, WHICH ALLOWS CELLS TO ADAPT TO LONGSTANDING CHANGES IN THE ENVIRONMENT. THEREFORE, IT IS FEASIBLE TO ASSUME THAT EPIGENETIC CHANGES ARE THE MOLECULAR BASIS FOR LONG-TERM EFFECTS OF THE ENVIRONMENT ON DISEASE DEVELOPMENT. IN PARTICULAR IN TUMORS AND CHRONIC INFLAMMATORY DISEASES EPIGENETIC CHANGES WERE FOUND TO CORRELATE WITH DISEASE SEVERITY AND PROGRESSION. KNOWLEDGE ABOUT THESE EPIGENETIC CHANGES MIGHT HELP THAT EPIGENETIC MODIFICATIONS CAN BE USED IN THE FUTURE AS BIOMARKERS, PROGNOSTIC FACTORS AND THERAPEUTIC TARGETS. 2014 20 2963 21 GENETIC AND EPIGENETIC MECHANISMS LINKING PAIN AND PSYCHIATRIC DISORDERS. THE NEUROPHYSIOLOGICAL LINK BETWEEN NEUROPATHIC PAIN AND DEPRESSION REMAINS UNKNOWN DESPITE EVIDENT HIGH COMORBIDITY OF THESE TWO DISORDERS. HOWEVER, THERE IS CONVINCING EVIDENCE THAT GENOTYPE PLAYS A ROLE IN BOTH PAIN AND DEPRESSION. USING VARIOUS TYPES OF GENETIC ANALYSIS - POPULATION GENETICS, CYTOGENETICS AND MOLECULAR TECHNOLOGIES - SPECIFIC GENES HAVE BEEN IMPLICATED IN MEDIATING ALMOST ALL ASPECTS OF NOCICEPTION AND MOOD DISORDERS. THE CURRENT REVIEW ATTEMPTS TO IDENTIFY SPECIFIC GENES AND EPIGENETIC MECHANISMS COMMON TO BOTH DISORDERS. IT IS CONCLUDED THAT EXTERNAL AND INTERNAL FACTORS (INFLAMMATION, STRESS, GENDER, ETC.) THAT CONTRIBUTE TO THE PATHOLOGIES MAY DO SO THROUGH EPIGENETIC MECHANISMS THAT MAY AFFECT EXPRESSION OF THESE PARTICULAR GENES. THE POSSIBLE INVOLVEMENT OF EPIGENETIC REGULATION IN PAIN AND PSYCHIATRIC DISORDERS SUGGESTS THAT TREATMENTS TARGETING EPIGENETIC MECHANISMS THAT MEDIATE ADVERSE LIFE EVENTS SHOULD BE CONSIDERED. 2015