1 4721 97 NONCODING RNAS IN MULTIPLE SCLEROSIS. MULTIPLE SCLEROSIS (MS), A CHRONIC INFLAMMATORY DEMYELINATING DISEASE OF THE CENTRAL NERVOUS SYSTEM, IS CHARACTERIZED BY AXONAL DEGENERATION AND GLIOSIS. ALTHOUGH THE CAUSES OF MS REMAIN UNKNOWN, GENE DYSREGULATION IN THE CENTRAL NERVOUS SYSTEM HAS BEEN ASSOCIATED WITH THE DISEASE PATHOGENESIS. AS SUCH, THE VARIOUS REGULATORS OF GENE EXPRESSION MAY BE CONTRIBUTING FACTORS. THE NONCODING (NC) RNAS HAVE PIQUED THE INTEREST OF MS RESEARCHERS DUE TO THEIR KNOWN FUNCTIONS IN HUMAN PHYSIOLOGY AND VARIOUS PATHOLOGICAL PROCESSES, DESPITE BEING GENERALLY CHARACTERIZED AS TRANSCRIPTS WITHOUT APPARENT PROTEIN-CODING CAPACITY. ACCUMULATING EVIDENCE HAS INDICATED THAT NCRNAS PARTICIPATE IN THE REGULATION OF MS BY ACTING AS EPIGENETIC FACTORS, ESPECIALLY THE LONG (L) NCRNAS AND THE MICRO (MI) RNAS, AND THEY ARE NOW RECOGNIZED AS KEY REGULATORY MOLECULES IN MS. IN THIS REVIEW, WE SUMMARIZE THE MOST CURRENT STUDIES ON THE CONTRIBUTION OF NCRNAS IN MS PATHOGENIC PROCESSES AND DISCUSS THEIR POTENTIAL APPLICATIONS IN THE DIAGNOSIS AND TREATMENT OF MS. 2018 2 6907 35 [THE ROLE OF THE CIRCULAR RNAS IN MULTIPLE SCLEROSIS AND OTHER NEUROIMMUNE DISORDERS]. IN RECENT YEARS NON-CODING RNAS HAVE RECEIVED INCREASING ATTENTION AS AN IMPORTANT EPIGENETIC MECHANISM, WITH PARTICULAR ROLE OF MICRO RNAS. AS THE REGULATION OF MIRNA EXPRESSION IS HIGHLY DYNAMIC AND COMPLEX, GROWING EVIDENCE SUGGESTS THE EXISTENCE OF ANOTHER HIGHER LEVEL OF REGULATORY MECHANISM INVOLVED IN MIRNA ACTIVITY - CIRCULAR RNAS (CIRCRNAS). CIRCRNAS REPRESENT NOVEL, UNIQUE CLASS OF ENDOGENOUS NCRNAS CONTROLLING THE EXPRESSION AND FUNCTION OF MIRNA. THEY ARE CALLED NATURAL MIRNA "SPONGES". ACCUMULATING EVIDENCE REVEALS CIRCRNAS ROLE IN PHYSIOLOGICAL AND PATHOLOGICAL PROCESSES INCLUDING CNS AND IMMUNE REGULATION. PREVIOUS STUDIES IMPLICATED MIRNAS IN REGULATION OF AUTOIMMUNE DEMYELINATION IN MS. MULTIPLE SCLEROSIS IS A CHRONIC NEUROLOGICAL INFLAMMATORY DEMYELINATING DISORDER OF THE CENTRAL NERVOUS SYSTEM. WHILE THE ETIOLOGY OF MS IS STILL NOT FULLY UNDERSTOOD, ACCUMULATING EVIDENCE SUGGESTS THAT IT IS A MULTIFACTORIAL ENTITY WITH SIGNIFICANT INVOLVEMENT OF AUTOIMMUNE PROCESSES. 2022 3 6734 46 WHAT DO WE KNOW ABOUT THE ROLE OF LNCRNAS IN MULTIPLE SCLEROSIS? MULTIPLE SCLEROSIS IS A CHRONIC, INFLAMMATORY AND DEGENERATIVE DISEASE OF THE CENTRAL NERVOUS SYSTEM OF UNKNOWN AETIOLOGY ALTHOUGH WELL-DEFINED EVIDENCE SUPPORTS AN AUTOIMMUNE PATHOGENESIS. SO FAR, THE EXACT MECHANISMS LEADING TO AUTOIMMUNE DISEASES ARE STILL ONLY PARTIALLY UNDERSTOOD. WE KNOW THAT GENETIC, EPIGENETIC, MOLECULAR, AND CELLULAR FACTORS RESULTING IN PATHOGENIC INFLAMMATORY RESPONSES ARE CERTAINLY INVOLVED. LONG NON-CODING RNAS (LNCRNAS) ARE NON-PROTEIN CODING TRANSCRIPTS LONGER THAN 200 NUCLEOTIDES THAT PLAY AN IMPORTANT ROLE IN BOTH INNATE AND ACQUIRED IMMUNITY, SO THERE IS GREAT INTEREST IN LNCRNAS INVOLVED IN AUTOIMMUNE DISEASES. THE RESEARCH ON MULTIPLE SCLEROSIS HAS BEEN ENRICHED WITH MANY STUDIES ON THE MOLECULAR ROLE OF LNCRNAS IN THE PATHOGENESIS OF THE DISEASE AND THEIR POTENTIAL APPLICATION AS DIAGNOSTIC AND PROGNOSTIC BIOMARKERS. IN PARTICULAR, MANY MULTIPLE SCLEROSIS FIELDS OF RESEARCH ARE BASED ON THE IDENTIFICATION OF LNCRNAS AS POSSIBLE BIOMARKERS ABLE TO PREDICT THE ONSET OF THE DISEASE, ITS ACTIVITY DEGREE, ITS PROGRESSION PHASE AND THE RESPONSE TO DISEASE-MODIFYING DRUGS. LAST BUT NOT LEAST, STUDIES ON LNCRNAS CAN PROVIDE A NEW MOLECULAR TARGET FOR NEW THERAPIES, MISSING, SO FAR, A CURE FOR MULTIPLE SCLEROSIS. WHILE OUR KNOWLEDGE ON THE ROLE OF LNCRNA IN MULTIPLE SCLEROSIS HAS RECENTLY IMPROVED, FURTHER STUDIES ARE REQUIRED TO BETTER UNDERSTAND THE SPECIFIC ROLE OF LNCRNAS IN THIS NEUROLOGICAL DISEASE. IN THIS REVIEW, WE PRESENT THE MOST RECENT STUDIES ON MOLECULAR CHARACTERIZATION OF LNCRNAS IN MULTIPLE SCLEROSIS DISORDER DISCUSSING THEIR CLINICAL RELEVANCE AS BIOMARKERS FOR DIAGNOSIS AND TREATMENTS. 2021 4 2224 20 EPIGENETIC MODIFICATIONS IN THE PATHOGENESIS OF SYSTEMIC SCLEROSIS. SYSTEMIC SCLEROSIS IS A RARE CHRONIC AUTOIMMUNE DISEASE, WHICH MAINLY MANIFESTS AS IMMUNE DISORDERS, VASCULAR DAMAGE, AND PROGRESSIVE FIBROSIS. THE ETIOLOGY OF SSC IS COMPLEX AND INVOLVES MULTIPLE FACTORS. BOTH GENETIC AND ENVIRONMENTAL FACTORS ARE INVOLVED IN ITS PATHOGENESIS. AS ONE OF THE MOLECULAR MECHANISMS OF ENVIRONMENTAL FACTORS, EPIGENETIC REGULATION PLAYS AN IMPORTANT ROLE IN THE OCCURRENCE AND DEVELOPMENT OF SYSTEMIC SCLEROSIS, WHICH INVOLVES DNA METHYLATION, HISTONE MODIFICATION AND NON-CODING RNA REGULATION. THIS REVIEW SUMMARIZES RESEARCH ADVANCES IN EPIGENETICS, INCLUDING EXOSOMES, LNCRNA, AND MENTIONS POSSIBLE BIOMARKERS AND THERAPEUTIC TARGETS AMONG THEM. 2022 5 2004 33 EPIGENETIC ASPECTS OF MULTIPLE SCLEROSIS AND FUTURE THERAPEUTIC OPTIONS. MULTIPLE SCLEROSIS (MS) IS A CHRONIC INFLAMMATORY AND NEURODEGENERATIVE DISEASE ACCOMPANIED BY DEMYELINATION OF NEURONS IN THE CENTRAL NERVOUS SYSTEM THAT MOSTLY AFFECTS YOUNG ADULTS, ESPECIALLY WOMEN. THIS DISEASE HAS TWO PHASES INCLUDING RELAPSING-REMITTING FORM (RR-MS) BY EPISODES OF RELAPSE AND PERIODS OF CLINICAL REMISSION AND SECONDARY-PROGRESSIVE FORM (SP-MS), WHICH CAUSES MORE DISABILITY. THE INHERITANCE PATTERN OF MS IS NOT EXACTLY IDENTIFIED AND THERE IS AN AGREEMENT THAT IT HAS A COMPLEX PATTERN WITH AN INTERPLAY AMONG ENVIRONMENTAL, GENETIC AND EPIGENETIC ALTERNATIONS. EPIGENETIC MECHANISMS THAT ARE IDENTIFIED FOR MS PATHOGENESIS ARE DNA METHYLATION, HISTONE MODIFICATION AND SOME MICRORNAS' ALTERNATIONS. SEVERAL CELLULAR PROCESSES INCLUDING APOPTOSIS, DIFFERENTIATION AND EVOLUTION CAN BE MODIFIED ALONG WITH EPIGENETIC CHANGES. SOME ALTERNATIONS ARE ASSOCIATED WITH EPIGENETIC MECHANISMS IN MS PATIENTS AND THESE CHANGES CAN BECOME KEY POINTS FOR MS THERAPY. THEREFORE, THE AIM OF THIS REVIEW WAS TO DISCUSS EPIGENETIC MECHANISMS THAT ARE ASSOCIATED WITH MS PATHOGENESIS AND FUTURE THERAPEUTIC APPROACHES. 2021 6 6136 45 THE EPIGENETICS OF MULTIPLE SCLEROSIS AND OTHER RELATED DISORDERS. MULTIPLE SCLEROSIS (MS) IS A DEMYELINATING DISEASE CHARACTERIZED BY CHRONIC INFLAMMATION OF THE CENTRAL NERVOUS SYSTEM (CNS) GRAY AND WHITE MATTER. ALTHOUGH THE CAUSE OF MS IS UNKNOWN, IT IS WIDELY APPRECIATED THAT INNATE AND ADAPTIVE IMMUNE PROCESSES CONTRIBUTE TO ITS PATHOGENESIS. THESE INCLUDE MICROGLIA/MACROPHAGE ACTIVATION, PRO-INFLAMMATORY T-CELL (TH1) RESPONSES AND HUMORAL RESPONSES. ADDITIONALLY, THERE IS EVIDENCE INDICATING THAT MS HAS A NEURODEGENERATIVE COMPONENT SINCE NEURONAL AND AXONAL LOSS OCCURS EVEN IN THE ABSENCE OF OVERT INFLAMMATION. THESE ASPECTS ALSO FORM THE RATIONALE FOR CLINICAL MANAGEMENT OF THE DISEASE. HOWEVER, THE CURRENTLY AVAILABLE THERAPIES TO CONTROL THE DISEASE ARE ONLY PARTIALLY EFFECTIVE AT BEST INDICATING THAT MORE EFFECTIVE THERAPEUTIC SOLUTIONS ARE URGENTLY NEEDED. IT IS APPRECIATED THAT IN THE IMMUNE-DRIVEN AND NEURODEGENERATIVE PROCESSES MS-SPECIFIC DEREGULATION OF GENE EXPRESSIONS AND RESULTING PROTEIN DYSFUNCTION ARE THOUGHT TO PLAY A CENTRAL ROLE. THESE DEVIATIONS IN GENE EXPRESSION PATTERNS CONTRIBUTE TO THE INFLAMMATORY RESPONSE IN THE CNS, AND TO NEURONAL OR AXONAL LOSS. EPIGENETIC MECHANISMS CONTROL TRANSCRIPTION OF MOST, IF NOT ALL GENES, IN NUCLEATED CELLS INCLUDING CELLS OF THE CNS AND IN HAEMATOPOIETIC CELLS. MS-SPECIFIC ALTERATIONS IN EPIGENETIC REGULATION OF GENE EXPRESSION MAY THEREFORE LIE AT THE HEART OF THE DEREGULATION OF GENE EXPRESSION IN MS. AS SUCH, EPIGENETIC MECHANISMS MOST LIKELY PLAY AN IMPORTANT ROLE IN DISEASE PATHOGENESIS. IN THIS REVIEW WE DISCUSS A ROLE FOR MS-SPECIFIC DEREGULATION OF EPIGENETIC FEATURES THAT CONTROL GENE EXPRESSION IN THE CNS AND IN THE PERIPHERY. FURTHERMORE, WE DISCUSS THE APPLICATION OF SMALL MOLECULE INHIBITORS THAT TARGET THE EPIGENETIC MACHINERY TO AMELIORATE DISEASE IN EXPERIMENTAL ANIMAL MODELS, INDICATING THAT SUCH APPROACHES MAY BE APPLICABLE TO MS PATIENTS. 2014 7 2404 38 EPIGENETIC RESEARCH IN MULTIPLE SCLEROSIS: PROGRESS, CHALLENGES, AND OPPORTUNITIES. MULTIPLE SCLEROSIS (MS) IS A CHRONIC INFLAMMATORY AND DEMYELINATING DISEASE OF THE CENTRAL NERVOUS SYSTEM. MS LIKELY RESULTS FROM A COMPLEX INTERPLAY BETWEEN PREDISPOSING CAUSAL GENE VARIANTS (THE STRONGEST INFLUENCE COMING FROM HLA CLASS II LOCUS) AND ENVIRONMENTAL RISK FACTORS SUCH AS SMOKING, INFECTIOUS MONONUCLEOSIS, AND LACK OF SUN EXPOSURE/VITAMIN D. HOWEVER, LITTLE IS KNOWN ABOUT THE MECHANISMS UNDERLYING MS DEVELOPMENT AND PROGRESSION. MOREOVER, THE CLINICAL HETEROGENEITY AND VARIABLE RESPONSE TO TREATMENT REPRESENT ADDITIONAL CHALLENGES TO A COMPREHENSIVE UNDERSTANDING AND EFFICIENT TREATMENT OF DISEASE. EPIGENETIC PROCESSES, SUCH AS DNA METHYLATION AND HISTONE POSTTRANSLATIONAL MODIFICATIONS, INTEGRATE INFLUENCES FROM THE GENES AND THE ENVIRONMENT TO REGULATE GENE EXPRESSION ACCORDINGLY. STUDYING EPIGENETIC MODIFICATIONS, WHICH ARE STABLE AND REVERSIBLE, MAY PROVIDE AN ALTERNATIVE APPROACH TO BETTER UNDERSTAND AND MANAGE DISEASE. WE HERE AIM TO REVIEW FINDINGS FROM EPIGENETIC STUDIES IN MS AND FURTHER DISCUSS THE CHALLENGES AND CLINICAL OPPORTUNITIES ARISING FROM EPIGENETIC RESEARCH, MANY OF WHICH APPLY TO OTHER DISEASES WITH SIMILAR COMPLEX ETIOLOGY. A GROWING BODY OF EVIDENCE SUPPORTS A ROLE OF EPIGENETIC PROCESSES IN THE MECHANISMS UNDERLYING IMMUNE PATHOGENESIS AND NERVOUS SYSTEM DYSFUNCTION IN MS. HOWEVER, DISPARITIES BETWEEN STUDIES SHED LIGHT ON THE NEED TO CONSIDER POSSIBLE CONFOUNDERS AND METHODOLOGICAL LIMITATIONS FOR A BETTER INTERPRETATION OF THE DATA. NEVERTHELESS, TRANSLATIONAL USE OF EPIGENETICS MIGHT OFFER NEW OPPORTUNITIES IN EPIGENETIC-BASED DIAGNOSTICS AND THERAPEUTIC TOOLS FOR A PERSONALIZED CARE OF MS PATIENTS. 2017 8 4536 41 MULTIPLE SCLEROSIS - RISK FACTORS. MULTIPLE SCLEROSIS (MS) IS A CHRONIC AUTOIMMUNOLOGICAL CONDITION OF THE CENTRAL NERVOUS SYSTEM (CNS) AFFECTING MAINLY YOUNG ADULT INDIVIDUALS. THE PREVALENCE RANGES APPROXIMATELY BETWEEN 50 AND 300 PER 100000 INDIVIDUALS. IT IS CHARACTERIZED BY AN INFLAMMATORY PROCESS, DEMYELINATION AND AXONAL LOSS. IMMUNOLOGICAL MECHANISMS RESULTING IN THE DAMAGE TO THE MYELIN SHEATH EFFECTING THEN IN IMPAIRED NERVE IMPULSE CONDUCTION HAVE THE KEY ROLE IN MS PATHOGENESIS. THE ROLE OF INFLAMMATORY FACTORS HAS ALSO BEEN PROVED. HOWEVER, IT HAS NOT BEEN EXPLICITLY SHOWN WHETHER SUCH AN INFLAMMATORY PROCESS IS THE TRIGGERING FACTOR OR SECONDARY TO A YET UNKNOWN INFECTIOUS FACTOR OR A DEGENERATIVE PROCESS OF THE CNS. THEREFORE, RECOGNITION OF THE EPIGENETIC RISK FACTORS, SUCH AS: GEOGRAPHICAL LATITUDE, VITAMIN D LEVEL, HYGIENE HYPOTHESIS, EPSTEIN-BARR VIRUS (EBV) INFECTION AND OTHERS MAY CONTRIBUTE TO BETTER UNDERSTANDING OF THE MECHANISM UNDERLYING MULTIPLE SCLEROSIS. ADDITIONALLY, THEY MAY PROVIDE GUIDELINES FOR MORE EFFICIENT THERAPIES AND BETTER PREVENTION OF THE DISEASE. AIM OF THIS REVIEW IS TO PRESENT MOST CURRENT DATA ON MULTIPLE SCLEROSIS RISK FACTORS, CONSIDERING THOSE LESS KNOWN. 2020 9 6152 31 THE FUNCTION OF NCRNAS IN RHEUMATIC DISEASES. RHEUMATIC DISEASES ARE A GROUP OF CHRONIC HETEROGENEOUS AUTOIMMUNE DISORDERS CHARACTERIZED BY ABNORMAL REGULATION OF THE INNATE AND ADAPTIVE IMMUNE SYSTEMS. DESPITE EXTENSIVE EFFORTS, THE FULL SPECTRUM OF MOLECULAR FACTORS THAT CONTRIBUTE TO THE PATHOGENESIS OF RHEUMATIC DISEASES REMAINS UNCLEAR. NCRNAS CAN GOVERN GENE EXPRESSION AT THE TRANSCRIPTIONAL AND POST-TRANSCRIPTIONAL LEVELS IN MULTIPLE DISEASES. RECENT STUDIES HAVE DEMONSTRATED AN IMPORTANT ROLE FOR NCRNAS, SUCH AS MIRNAS AND LNCRNAS, IN THE DEVELOPMENT OF IMMUNE CELLS AND RHEUMATIC DISEASES. HERE, WE FOCUS ON THE EPIGENETIC REGULATORY ROLES OF NCRNAS IN THE PATHOGENESIS OF RHEUMATIC DISEASES AND AS BIOMARKERS OF DISEASE STATE. 2019 10 6347 31 THE ROLE OF EPIGENETICS IN NEUROINFLAMMATORY-DRIVEN DISEASES. NEURODEGENERATIVE DISORDERS ARE CHARACTERIZED BY THE PROGRESSIVE LOSS OF CENTRAL AND/OR PERIPHERAL NERVOUS SYSTEM NEURONS. WITHIN THIS CONTEXT, NEUROINFLAMMATION COMES UP AS ONE OF THE MAIN FACTORS LINKED TO NEURODEGENERATION PROGRESSION. IN FACT, NEUROINFLAMMATION HAS BEEN RECOGNIZED AS AN OUTSTANDING FACTOR FOR ALZHEIMER'S DISEASE (AD), AMYOTROPHIC LATERAL SCLEROSIS (ALS), PARKINSON'S DISEASE (PD), AND MULTIPLE SCLEROSIS (MS). INTERESTINGLY, NEUROINFLAMMATORY DISEASES ARE CHARACTERIZED BY DRAMATIC CHANGES IN THE EPIGENETIC PROFILE, WHICH MIGHT PROVIDE NOVEL PROGNOSTIC AND THERAPEUTIC FACTORS TOWARDS NEUROINFLAMMATORY TREATMENT. DEEP CHANGES IN DNA AND HISTONE METHYLATION, ALONG WITH HISTONE ACETYLATION AND ALTERED NON-CODING RNA EXPRESSION, HAVE BEEN REPORTED AT THE ONSET OF INFLAMMATORY DISEASES. THE AIM OF THIS WORK IS TO REVIEW THE CURRENT KNOWLEDGE ON THIS FIELD. 2022 11 2139 36 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 12 3540 36 IMMUNE-DERIVED CYTOKINES IN THE NERVOUS SYSTEM: EPIGENETIC INSTRUCTIVE SIGNALS OR NEUROPATHOGENIC MEDIATORS? THE INVESTIGATION OF THE EFFECTS OF INFLAMMATORY CYTOKINES (IC) ON THE GROWTH AND DIFFERENTIATION OF NEURAL CELLS HAS PROVIDED NEW INSIGHTS ON THE ROLE OF SUCH SOLUBLE MEDIATORS IN NERVOUS SYSTEM DEVELOPMENT AND/OR PLASTIC REMODELING AS WELL AS IN THE PATHOGENESIS OF INFLAMMATORY NEURODEGENERATIVE DISORDERS, WHICH ARE CHARACTERIZED BY CHRONIC IC DYSREGULATION IN THE CENTRAL NERVOUS SYSTEM (CNS). THUS, THE STUDY OF THE INTERACTION BETWEEN CNS AND IMMUNE-DERIVED SOLUBLE SIGNALS IN PHYSIOLOGICAL OR PATHOLOGICAL CONDITIONS IS OF INCREASING INTEREST. THIS REVIEW FIRST DISCUSSES EXPERIMENTAL EVIDENCE SUPPORTING THE INSTRUCTIVE/PERMISSIVE ROLE OF IMMUNE-DERIVED CYTOKINES ON CNS DEVELOPMENT AND PLASTICITY. NEXT, WE FOCUS ON HUMAN NEUROLOGICAL DISEASE STATES SUCH AS MULTIPLE SCLEROSIS AND THE NEURODEGENERATION ASSOCIATED TO THE ACQUIRED IMMUNE DEFICIENCY SYNDROME IN WHICH DIFFERENT INFLAMMATORY CYTOKINES HAVE BEEN PROPOSED AS POTENTIAL NEUROPATHOGENIC MEDIATORS. 1999 13 4439 33 MOLECULAR GENETIC AND EPIGENETIC BASIS OF MULTIPLE SCLEROSIS. MULTIPLE SCLEROSIS (MS) IS A CHRONIC IMMUNE-MEDIATED DISEASE OF SPINAL CORD AND BRAIN. THE INITIAL EVENT IN MS OCCURS WHEN ACTIVATED CD4(+) T CELLS IN PERIPHERY EXACERBATES IMMUNE RESPONSES BY STIMULATING IMMUNE CELLS SUCH AS B CELLS, CD8(+) CELLS, MAST CELLS, GRANULOCYTES AND MONOCYTES. THESE PROINFLAMMATORY CELLS PASS BLOOD BRAIN BARRIER BY SECRETING PROINFLAMMATORY CYTOKINES INCLUDING TNF-ALPHA AND INF-(GAMMA) WHICH ACTIVATE ADHESION FACTORS. APCS (ANTIGEN-PRESENTING CELLS) REACTIVATE CD4(+) T CELLS AFTER INFILTRATING THE CNS AND CD4(+) T CELLS PRODUCE CYTOKINES AND CHEMOKINES. THESE PROINFLAMMATORY CYTOKINES AGGRAVATE INFLAMMATION BY INDUCING MYELIN PHAGOCYTOSIS THROUGH MICROGLIA AND ASTROCYTES ACTIVATION. MS IS BELIEVED TO HAVE A MULTIFACTORIAL ORIGIN THAT INCLUDES A COMBINATION OF MULTIPLE GENETIC, ENVIRONMENTAL AND STOCHASTIC FACTORS. ALTHOUGH THE EXACT COMPONENT OF MS RISKS THAT CAN BE EXPLAINED BY THESE FACTORS IS DIFFICULT TO DETERMINE, ESTIMATES BASED ON GENETIC AND EPIDEMIOLOGICAL STUDIES SUGGEST THAT UP TO 60-70 % OF THE TOTAL RISK OF MS MAY BE CONTRIBUTE TO GENETIC FACTORS. IN CONTINUE, FIRSTLY WE PROVIDE AN OVERVIEW OF THE CURRENT UNDERSTANDING OF EPIGENETIC MECHANISMS, AND SO PRESENT EVIDENCE OF HOW THE EPIGENETIC MODIFICATIONS CONTRIBUTE TO INCREASED SUSCEPTIBILITY OF MS. WE ALSO EXPLAIN HOW SPECIFIED EPIGENETIC MODIFICATIONS MAY INFLUENCE THE PATHOPHYSIOLOGY AND KEY ASPECTS OF DISEASE IN MS (DEMYELINATION, REMYELINATION, INFLAMMATION, AND NEURODEGENERATION). FINALLY, WE TEND TO DISCUSS HOW ENVIRONMENTAL FACTORS AND EPIGENETIC MECHANISMS MAY INTERACT TO HAVE AN EFFECT ON MS RISK AND CLINICAL OUTCOME AND RECOMMEND NEW THERAPEUTIC INTERVENTIONS THAT MIGHT MODULATE PATIENTS' EPIGENETIC PROFILES. 2017 14 2333 35 EPIGENETIC REGULATION OF INFLAMMATION: THE METABOLOMICS CONNECTION. EPIGENETIC FACTORS ARE CONSIDERED THE REGULATOR OF COMPLEX MACHINERY BEHIND INFLAMMATORY DISORDERS AND SIGNIFICANTLY CONTRIBUTED TO THE EXPRESSION OF INFLAMMATION-ASSOCIATED GENES. EPIGENETIC MODIFICATIONS MODULATE VARIATION IN THE EXPRESSION PATTERN OF TARGET GENES WITHOUT AFFECTING THE DNA SEQUENCE. THE CURRENT KNOWLEDGE OF EPIGENETIC RESEARCH FOCUSED ON THEIR ROLE IN THE PATHOGENESIS OF VARIOUS INFLAMMATORY DISEASES THAT CAUSES MORBIDITY AND MORTALITY WORLDWIDE. INFLAMMATORY DISEASES ARE CATEGORIZED AS ACUTE AND CHRONIC BASED ON THE DISEASE SEVERITY AND ARE REGULATED BY THE EXPRESSION PATTERN OF VARIOUS GENES. HENCE, UNDERSTANDING THE ROLE OF EPIGENETIC MODIFICATIONS DURING INFLAMMATION PROGRESSION WILL CONTRIBUTE TO THE DISEASE OUTCOMES AND THERAPEUTIC APPROACHES. THIS REVIEW ALSO FOCUSES ON THE METABOLOMICS APPROACH ASSOCIATED WITH THE STUDY OF INFLAMMATORY DISORDERS. INFLAMMATORY RESPONSES AND METABOLIC REGULATION ARE HIGHLY INTEGRATED AND VARIOUS ADVANCED TECHNIQUES ARE ADOPTED TO STUDY THE METABOLIC SIGNATURE MOLECULES. HERE WE DISCUSS SEVERAL METABOLOMICS APPROACHES USED TO LINK INFLAMMATORY DISORDERS AND EPIGENETIC CHANGES. WE PROPOSED THAT DECIPHERING THE MECHANISM BEHIND THE INFLAMMATION-METABOLISM LOOP MAY HAVE IMMENSE IMPORTANCE IN BIOMARKERS RESEARCH AND MAY ACT AS A PRINCIPAL COMPONENT IN DRUG DISCOVERY AS WELL AS THERAPEUTIC APPLICATIONS. 2022 15 2546 42 EPIGENETICS IN MULTIPLE SCLEROSIS: MOLECULAR MECHANISMS AND DIETARY INTERVENTION. INTRODUCTION: MULTIPLE SCLEROSIS (MS) IS A CHRONIC, INFLAMMATORY, NEURODEGENERATIVE DEMYELINATING DISEASE OF THE CENTRAL NERVOUS SYSTEM (CNS). UNFORTUNATELY, MS CAUSES IMPORTANT DISABILITY IN YOUNG ADULTS AND ITS PREVALENCE IS INCREASING. WHILE THE ETIOLOGY OF MS ETIOLOGY IS NOT COMPLETELY UNDERSTOOD, IT SEEMS TO BE A MULTIFACTORIAL ENTITY THAT IS INFLUENCED BY BOTH GENETIC AND EPIGENETIC MODIFICATIONS. EPIGENETIC MECHANISMS ADD OR REMOVE DIFFERENT CHEMICAL GROUPS FOR THE ACTIVATION OR INHIBITION OF GENE EXPRESSION TO BLOCK THE PRODUCTION OF PROINFLAMMATORY PROTEINS. IT IS TRULY IMPORTANT TO IDENTIFY THE FACTORS THAT CAN TRIGGER EPIGENETIC CHANGES IN MS TO COMPLEMENT THE THERAPEUTIC APPROACH, PREVENT DISABILITY AND IMPROVE PATIENTS QUALITY OF LIFE. HERE, WE HAVE CONDUCTED A REVIEW OF EXTERNAL FACTORS THAT INFLUENCE IN MS AND THEIR EPIGENETIC MECHANISMS. FOR EXAMPLE, HYPOMETHYLATION CAN PROMOTE CHANGES IN THE MYELIN AND SUBSEQUENT AUTOIMMUNE REACTIONS. THERAPEUTIC TOOLS CAN BE USED, INCLUDING THE HISTONE DEACETYLASE INHIBITOR TRICHOSTATIN A, WHICH AMELIORATES DEMYELINATING DISEASES IN RODENTS. HOWEVER, DRUGS ARE NOT ONLY THE THERAPEUTIC OPTION: RECENT STUDIES HAVE ALSO EVALUATED THE THERAPEUTIC POTENTIAL OF SEVERAL BIOACTIVE DIETARY COMPONENTS IN NEURODEGENERATION AND AXONAL DYSFUNCTION. NUMEROUS FOOD-DERIVED MOLECULES EXERT IMPORTANT METABOLIC ACTIONS. THESE MOLECULES INCLUDE PLANT POLYPHENOLS SUCH AS CATECHINS AND ISOFLAVONES, OMEGA-3 AND OMEGA-6 POLYUNSATURATED FATTY ACIDS, SHORT-CHAIN FATTY ACIDS, SULFUR-CONTAINING COMPOUNDS SUCH AS DALLY SULFIDE AND OTHER COMPOUNDS. ANTIOXIDANT AND ANTI-INFLAMMATORY COMPONENTS IN THE DIET INVOLVE TRANSCRIPTION FACTORS AS WELL. HOWEVER, MANY EXTERNAL FACTORS HAVE SHOWN TO INFLUENCE MS, ALTHOUGH NO SPECIFIC EPIGENETIC MECHANISMS ARE KNOWN. CONCLUSION: IN THIS REVIEW, WE GATHER BOTH ESTABLISHED AND NEW EVIDENCES ABOUT THE GENETIC, EPIGENETIC AND ENVIRONMENTAL FACTORS INFLUENCING MS AND THE DIETARY COMPONENTS THAT COULD MODULATE MS RELAPSE AND PROGRESSION. 2018 16 4289 36 MICRORNA IN OSTEOARTHRITIS. OSTEOARTHRITIS (OA) IS THE MOST PREVALENT DEGENERATIVE JOINT DISEASE AND IS ACCOMPANIED BY PAIN AND JOINT DYSFUNCTION. ITS CLINICAL TREATMENT TENDS TO BE UNSATISFACTORY. NOVEL TARGETS IN OA INCLUDE GENES THAT ARE INVOLVED IN OA PATHOPHYSIOLOGY AND HAVE BEEN DISCOVERED USING GENE NETWORK, EPIGENETIC AND MICRORNA (MIRNA) APPROACHES. MIRNA HAS BEEN IMPLICATED IN IMPORTANT CELLULAR PROCESSES SUCH AS LIPID METABOLISM, APOPTOSIS, DIFFERENTIATION AND ORGAN DEVELOPMENT. THE IMPORTANCE OF MIRNA REGULATION IN CELLULAR FUNCTION IS BECOMING INCREASINGLY CLEAR AS NEW MIRNA TARGETS ARE REVEALED. THE PRESENT REVIEW SUMMARIZES THE CURRENT EVIDENCE OF THE IMPORTANT ROLE PLAYED BY MIRNA IN DETERMINING THE COMPLEX GENE EXPRESSION PATTERNS OF OA CHONDROCYTES AND THEIR ROLE IN THE REGULATION OF TRANSCRIPTION, AND POSSIBLE DEMETHYLATION MECHANISMS THAT MIGHT BE APPLICABLE IN OA. IN SUMMARY, MIRNA MAY HAVE IMPORTANT DIAGNOSTIC AND THERAPEUTIC POTENTIAL, AND MIGHT PROVIDE A NOVEL MEANS OF TREATING OA. 2011 17 1172 34 CONTRIBUTION OF THE ENVIRONMENT, EPIGENETIC MECHANISMS AND NON-CODING RNAS IN PSORIASIS. DESPITE THE INCREASING RESEARCH AND CLINICAL INTEREST IN THE PREDISPOSITION OF PSORIASIS, A CHRONIC INFLAMMATORY SKIN DISEASE, THE MULTITUDE OF GENETIC AND ENVIRONMENTAL FACTORS INVOLVED IN ITS PATHOGENESIS REMAIN UNCLEAR. THIS COMPLEXITY IS FURTHER EXACERBATED BY THE SEVERAL CELL TYPES THAT ARE IMPLICATED IN PSORIASIS'S PROGRESSION, INCLUDING KERATINOCYTES, MELANOCYTES AND VARIOUS IMMUNE CELL TYPES. THE OBSERVED INTERACTIONS BETWEEN THE GENETIC SUBSTRATE AND THE ENVIRONMENT LEAD TO EPIGENETIC ALTERATIONS THAT DIRECTLY OR INDIRECTLY AFFECT GENE EXPRESSION. CHANGES IN DNA METHYLATION AND HISTONE MODIFICATIONS THAT ALTER DNA-BINDING SITE ACCESSIBILITY, AS WELL AS NON-CODING RNAS IMPLICATED IN THE POST-TRANSCRIPTIONAL REGULATION, ARE MECHANISMS OF GENE TRANSCRIPTIONAL ACTIVITY MODIFICATION AND THEREFORE AFFECT THE PATHWAYS INVOLVED IN THE PATHOGENESIS OF PSORIASIS. IN THIS REVIEW, WE SUMMARIZE THE RESEARCH CONDUCTED ON THE ENVIRONMENTAL FACTORS CONTRIBUTING TO THE DISEASE ONSET, EPIGENETIC MODIFICATIONS AND NON-CODING RNAS EXHIBITING DEREGULATION IN PSORIASIS, AND WE FURTHER CATEGORIZE THEM BASED ON THE UNDER-STUDY CELL TYPES. WE ALSO ASSESS THE RECENT LITERATURE CONSIDERING THERAPEUTIC APPLICATIONS TARGETING MOLECULES THAT COMPROMISE THE EPIGENOME, AS A WAY TO SUPPRESS THE INFLAMMATORY CUTANEOUS CASCADE. 2022 18 3965 25 LONG NONCODING RNAS IN THE METABOLIC CONTROL OF INFLAMMATION AND IMMUNE DISORDERS. THE METABOLIC CONTROL OF IMMUNE CELL DEVELOPMENT AND FUNCTION HAS BEEN SHOWN TO BE CRITICAL FOR THE MAINTENANCE OF IMMUNE HOMEOSTASIS AND IS ALSO INVOLVED IN THE PATHOGENESIS OF IMMUNE DISORDERS. PATHOGENIC INFECTIONS OR CANCERS MAY INDUCE METABOLIC REPROGRAMMING THROUGH DIFFERENT PATHWAYS TO MEET THE ENERGY AND METABOLITE DEMANDS FOR PATHOGEN PROPAGATION OR CANCER PROGRESSION. IN ADDITION, SOME DEREGULATED METABOLITES COULD TRIGGER OR REGULATE IMMUNE RESPONSES, THUS CAUSING CHRONIC INFLAMMATION OR IMMUNE DISORDERS, SUCH AS VIRAL INFECTION, CANCER AND OBESITY. THEREFORE, THE METHODS THROUGH WHICH METABOLISM IS REGULATED AND THE ROLE OF METABOLIC REGULATION IN INFLAMMATION AND IMMUNITY ATTRACT MUCH ATTENTION. EPIGENETIC REGULATION OF INFLAMMATION AND IMMUNITY IS AN EMERGING FIELD. LONG NONCODING RNAS (LNCRNAS) HAVE BEEN WELL DOCUMENTED TO PLAY CRUCIAL ROLES IN MANY BIOLOGICAL PROCESSES THROUGH DIVERSE MECHANISMS, INCLUDING IMMUNE REGULATION AND METABOLIC ALTERNATION. HERE, WE REVIEW THE FUNCTIONS AND MECHANISMS OF LNCRNAS IN THE METABOLIC REGULATION OF INFLAMMATORY IMMUNE DISORDERS, AIMING TO DEEPEN OUR UNDERSTANDING OF THE EPIGENETIC REGULATION OF INFLAMMATION AND IMMUNITY. 2019 19 6340 29 THE ROLE OF EPIGENETIC FACTORS IN PSORIASIS. PSORIASIS IS A CHRONIC, SYSTEMIC, IMMUNE-MEDIATED DISEASE WITH AN INCIDENCE OF APPROXIMATELY 2%. THE PATHOGENESIS OF THE DISEASE IS COMPLEX AND NOT YET FULLY UNDERSTOOD. GENETIC FACTORS PLAY A SIGNIFICANT ROLE IN THE PATHOGENESIS OF THE DISEASE. IN PREDISPOSED INDIVIDUALS, MULTIPLE TRIGGER FACTORS MAY CONTRIBUTE TO DISEASE ONSET AND EXACERBATIONS OF SYMPTOMS. ENVIRONMENTAL FACTORS (STRESS, INFECTIONS, CERTAIN MEDICATIONS, NICOTINISM, ALCOHOL, OBESITY) PLAY A SIGNIFICANT ROLE IN THE PATHOGENESIS OF PSORIASIS. IN ADDITION, EPIGENETIC MECHANISMS ARE CONSIDERED RESULT IN MODULATION OF INDIVIDUAL GENE EXPRESSION AND AN INCREASED LIKELIHOOD OF THE DISEASE. STUDIES HIGHLIGHT THE SIGNIFICANT ROLE OF EPIGENETIC FACTORS IN THE ETIOLOGY AND PATHOGENESIS OF PSORIASIS. EPIGENETIC MECHANISMS IN PSORIASIS INCLUDE DNA METHYLATION, HISTONE MODIFICATIONS AND NON-CODING RNAS. EPIGENETIC MECHANISMS INDUCE GENE EXPRESSION CHANGES UNDER THE INFLUENCE OF CHEMICAL MODIFICATIONS OF DNA AND HISTONES, WHICH ALTER CHROMATIN STRUCTURE AND ACTIVATE TRANSCRIPTION FACTORS OF SELECTED GENES, THUS LEADING TO TRANSLATION OF NEW MRNA WITHOUT AFFECTING THE DNA SEQUENCE. EPIGENETIC FACTORS CAN REGULATE GENE EXPRESSION AT THE TRANSCRIPTIONAL (VIA HISTONE MODIFICATION, DNA METHYLATION) AND POSTTRANSCRIPTIONAL LEVELS (VIA MICRORNAS AND LONG NON-CODING RNAS). THIS STUDY AIMS TO PRESENT AND DISCUSS THE DIFFERENT EPIGENETIC MECHANISMS IN PSORIASIS BASED ON A REVIEW OF THE AVAILABLE LITERATURE. 2021 20 4451 29 MOLECULAR MECHANISMS AND FUNCTIONS OF LNCRNAS IN THE INFLAMMATORY REACTION OF DIABETES MELLITUS. DIABETES IS A CHRONIC INFLAMMATORY STATE, AND SEVERAL STUDIES HAVE SHOWN THAT THE MECHANISMS OF INSULIN RESISTANCE AND ABNORMAL ISLET BETA-CELL FUNCTION IN DIABETES ARE CLOSELY RELATED TO INFLAMMATORY REACTIONS. INFLAMMATION PLAYS A CRITICAL ROLE IN DIABETIC COMPLICATIONS. LONG NONCODING RNAS (LNCRNAS), A NEW AREA OF GENOMIC RESEARCH FOR GENE REGULATION, HAVE COMPLEX BIOLOGICAL FUNCTIONS IN VARIOUS ASPECTS OF CELLULAR BIOLOGICAL ACTIVITY. RECENT STUDIES HAVE SHOWN THAT LNCRNAS ARE ASSOCIATED WITH THE REGULATION OF INFLAMMATORY RESPONSES IN VARIOUS WAYS, INCLUDING AT THE EPIGENETIC, TRANSCRIPTIONAL, AND POSTTRANSCRIPTIONAL LEVELS. THIS PAPER PRESENTS A BRIEF REVIEW OF STUDIES ON THE MECHANISMS OF LNCRNAS IN DIABETIC INFLAMMATION. THE PURPOSE OF THIS ARTICLE IS TO DETERMINE THE ROLE OF LNCRNAS IN THE PROCESS OF DIABETIC INFLAMMATION AND TO PROVIDE NEW STRATEGIES FOR THE USE OF LNCRNAS IN THE TREATMENTS FOR DIABETIC INFLAMMATION. 2021