1 4315 78 MICRORNAS AS NEW TARGETS OF DIETARY POLYPHENOLS. IN THE LASTS YEARS IT HAS BECOME EVIDENT THAT POLYPHENOLS MODIFY CELL FUNCTIONALITY THROUGH EPIGENETIC MECHANISMS, SUCH AS MODULATING MICRORNA (MIRNA) LEVELS. MIRNAS ARE SMALL NON-CODING RNAS OF ABOUT 22 NUCLEOTIDES IN LENGTH, THAT MODULATE GENE EXPRESSION AT THE POST-TRANSCRIPTIONAL LEVEL. MIRNAS ARE INVOLVED IN ALMOST ALL BIOLOGICAL PROCESSES, AFFECT MOST METABOLIC PATHWAYS AND RECENT EVIDENCE SUGGESTS THEIR DYSREGULATION IN A NUMBER OF METABOLIC DISORDERS AND DISEASES. IN THIS SENSE, MIRNAS ARE EMERGING AS POTENTIAL BIOMARKERS OF NUMEROUS PATHOLOGIES AND THEREFORE AS NEW THERAPEUTIC TARGETS. POLYPHENOLIC MODULATION OF MIRNAS IS VERY ATTRACTIVE AS A STRATEGY TO TARGET NUMEROUS CELL PROCESSES AND POTENTIALLY REDUCE THE RISK OF CHRONIC DISEASES. 2014 2 4784 29 NUTRIMIROMICS: ROLE OF MICRORNAS AND NUTRITION IN MODULATING INFLAMMATION AND CHRONIC DISEASES. NUTRIMIROMICS STUDIES THE INFLUENCE OF THE DIET ON THE MODIFICATION OF GENE EXPRESSION DUE TO EPIGENETIC PROCESSES RELATED TO MICRORNAS (MIRNAS), WHICH MAY AFFECT THE RISK FOR THE DEVELOPMENT OF CHRONIC DISEASES. MIRNAS ARE A CLASS OF NON-CODING ENDOGENOUS RNA MOLECULES THAT ARE USUALLY INVOLVED IN POST-TRANSCRIPTIONAL GENE SILENCING BY INDUCING MRNA DEGRADATION OR TRANSLATIONAL REPRESSION BY BINDING TO A TARGET MESSENGER RNA. THEY CAN BE CONTROLLED BY ENVIRONMENTAL AND DIETARY FACTORS, PARTICULARLY BY ISOLATED NUTRIENTS OR BIOACTIVE COMPOUNDS, INDICATING THAT DIET MANIPULATION MAY HOLD PROMISE AS A THERAPEUTIC APPROACH IN MODULATING THE RISK OF CHRONIC DISEASES. THIS REVIEW SUMMARIZES THE EVIDENCE REGARDING THE INFLUENCE OF NUTRIENTS AND BIOACTIVE COMPOUNDS ON THE EXPRESSION OF MIRNAS RELATED TO INFLAMMATION AND CHRONIC DISEASE IN SEVERAL MODELS (CELL CULTURE, ANIMAL MODELS, AND HUMAN TRIALS). 2017 3 4289 29 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 4 2333 22 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 5 1838 32 EFFECTS OF POLYPHENOLS ON NCRNAS IN CANCER-AN UPDATE. IN RECENT YEARS, ONCOTHERAPY HAS RECEIVED CONSIDERABLE ATTENTION CONCERNING PLANT POLYPHENOLS. INCREASING EVIDENCE SUGGESTS THAT BECAUSE OF THE EFFICIENCY OF POLYPHENOLS, THEY MAY HAVE ANTI-TUMOUR EFFECTS IN VARIOUS CANCERS. HOWEVER, THEIR REGULATORY STRUCTURES REMAIN ELUSIVE. LONG NON-CODING RNAS (LNCRNAS) HAVE BEEN IDENTIFIED IN THE REGULATION OF VARIOUS FORMS OF TUMORIGENESIS AND TUMOUR DEVELOPMENT. LONG NON-CODING RNAS HAVE RECENTLY EMERGED AS REGULATORY EUKARYOTIC TRANSCRIPTS AND THERAPEUTIC TARGETS WITH IMPORTANT AND DIVERSE FUNCTIONS IN HEALTH AND DISEASES. LNCRNAS MAY BE ASSOCIATED WITH THE INITIATION, DEVELOPMENT, AND PROGRESSION OF CANCER. THIS REVIEW SUMMARIZES THE RESEARCH ON THE MODULATORY EFFECTS OF INCRNAS AND THEIR ROLES IN MEDIATING CELLULAR PROCESSES. THE MECHANISMS OF ACTION OF POLYPHENOLS UNDERLYING THEIR THERAPEUTIC EFFECTS ON CANCERS ARE ALSO DISCUSSED. BASED ON OUR REVIEW, POLYPHENOLS MIGHT FACILITATE A SIGNIFICANT EPIGENETIC MODIFICATION AS PART OF THEIR TISSUE- AND/OR CELL-RELATED BIOLOGICAL EFFECTS. THIS FINDING MAY BE ATTRIBUTED TO THEIR INTERACTION WITH CELLULAR SIGNALLING PATHWAYS INVOLVED IN CHRONIC DISEASES. CERTAIN LNCRNAS MIGHT BE THE TARGET OF SPECIFIC POLYPHENOLS, AND SOME CRITICAL SIGNALLING PROCESSES INVOLVED IN THE INTERVENTION OF CANCERS MIGHT MEDIATE THE THERAPEUTIC ROLES OF POLYPHENOLS. 2022 6 3834 27 INVOLVEMENTS OF LONG NONCODING RNAS IN OBESITY-ASSOCIATED INFLAMMATORY DISEASES. OBESITY IS ASSOCIATED WITH CHRONIC LOW-GRADE INFLAMMATION THAT AFFECTS THE PHENOTYPE OF MULTIPLE TISSUES AND THEREFORE IS IMPLICATED IN THE DEVELOPMENT AND PROGRESSION OF SEVERAL AGE-RELATED CHRONIC INFLAMMATORY DISORDERS. IMPORTANTLY, A NEW FAMILY OF NONCODING RNAS, TERMED LONG NONCODING RNAS (LNCRNAS), HAVE BEEN IDENTIFIED AS KEY REGULATORS OF INFLAMMATORY SIGNALLING PATHWAYS THAT CAN MEDIATE BOTH PRETRANSCRIPTIONAL AND POSTTRANSCRIPTIONAL GENE REGULATION. FURTHERMORE, SEVERAL LNCRNAS HAVE BEEN IDENTIFIED, WHICH ARE DIFFERENTIALLY EXPRESSED IN MULTIPLE TISSUE TYPES IN INDIVIDUALS WHO ARE OBESE OR IN PRECLINICAL MODELS OF OBESITY. IN THIS REVIEW, WE EXAMINE THE EVIDENCE FOR THE ROLE OF SEVERAL OF THE MOST WELL-STUDIED LNCRNAS IN THE REGULATION OF INFLAMMATORY PATHWAYS ASSOCIATED WITH OBESITY. WE HIGHLIGHT THE EVIDENCE FOR THEIR DIFFERENTIAL EXPRESSION IN THE OBESE STATE AND IN AGE-RELATED CONDITIONS INCLUDING INSULIN RESISTANCE, TYPE 2 DIABETES (T2D), SARCOPENIA, OSTEOARTHRITIS AND RHEUMATOID ARTHRITIS, WHERE OBESITY PLAYS A SIGNIFICANT ROLE. DETERMINING THE EXPRESSION AND FUNCTIONAL ROLE OF LNCRNAS IN MEDIATING OBESITY-ASSOCIATED CHRONIC INFLAMMATION WILL ADVANCE OUR UNDERSTANDING OF THE EPIGENETIC REGULATORY PATHWAYS THAT UNDERLIE AGE-RELATED INFLAMMATORY DISEASES AND MAY ALSO ULTIMATELY IDENTIFY NEW TARGETS FOR THERAPEUTIC INTERVENTION. 2021 7 2413 22 EPIGENETIC SIGNALING AND RNA REGULATION IN CARDIOVASCULAR DISEASES. RNA EPIGENETICS IS PERHAPS THE MOST RECENT FIELD OF INTEREST FOR TRANSLATIONAL EPIGENETICISTS. RNA MODIFICATIONS CREATE SUCH AN EXTENSIVE NETWORK OF EPIGENETICALLY DRIVEN COMBINATIONS WHOSE ROLE IN PHYSIOLOGY AND PATHOPHYSIOLOGY IS STILL FAR FROM BEING ELUCIDATED. NOT SURPRISINGLY, SOME OF THE PLAYERS DETERMINING CHANGES IN RNA STRUCTURE ARE IN COMMON WITH THOSE INVOLVED IN DNA AND CHROMATIN STRUCTURE REGULATION, WHILE OTHER MOLECULES SEEM VERY SPECIFIC TO RNA. IT IS ENVISAGED, THEN, THAT NEW SMALL MOLECULES, ACTING SELECTIVELY ON RNA EPIGENETIC CHANGES, WILL BE REPORTED SOON, OPENING NEW THERAPEUTIC INTERVENTIONS BASED ON THE CORRECTION OF THE RNA EPIGENETIC LANDSCAPE. IN THIS REVIEW, WE SHALL SUMMARIZE SOME ASPECTS OF RNA EPIGENETICS LIMITED TO THOSE IN WHICH THE POTENTIAL CLINICAL TRANSLATABILITY TO CARDIOVASCULAR DISEASE IS EMERGING. 2020 8 4336 29 MICRORNAS: THE UNDERLYING MEDIATORS OF PATHOGENETIC PROCESSES IN VASCULAR COMPLICATIONS OF DIABETES. DIABETES MELLITUS CAUSES CHRONIC COMPLICATIONS PRIMARILY AFFECTING THE VASCULATURE OF VARIOUS ORGANS, RISKING PATIENTS FOR RENAL FAILURE, VISION LOSS AND HEART FAILURE. A NEWLY DISCOVERED CLASS OF MOLECULES, MICRORNAS, MAY BE IMPORTANT IN THE GENESIS OF THESE PATHOLOGIC PROCESSES. MICRORNAS REGULATE GENE EXPRESSION AT THE POST-TRANSCRIPTIONAL LEVEL BY INHIBITING TARGET MESSENGER RNA TRANSLATION. IN DISEASE STATES, HOWEVER, THE EXPRESSION OF MICRORNAS OFTEN IS ALTERED, RESULTING IN FURTHER ALTERED EXPRESSION (MOSTLY OVEREXPRESSION) OF DOWNSTREAM TARGET GENES. INTERESTINGLY, RESTORING MICRORNA EXPRESSION TO NORMAL LEVELS CAN CORRECT DOWNSTREAM EFFECTS AND PREVENT DIABETES-ASSOCIATED CHANGES. INVESTIGATIONS INTO MICRORNA INVOLVED IN VARIOUS PATHOGENETIC PROCESSES MEDIATING DIABETIC NEPHROPATHY, RETINOPATHY AND CARDIOMYOPATHY ARE HIGHLIGHTED IN THIS REVIEW. FUTURE DIRECTIONS OF MICRORNA IN THERAPEUTICS AND DIAGNOSTICS ARE ALSO DISCUSSED. IT IS OUR INTENT TO HELP THE READER APPRECIATE THE DIVERSE INTERACTIONS MICRORNAS HAVE IN CELLULAR SIGNALLING AND HOW UNDERSTANDING EPIGENETIC ELEMENTS, SUCH AS MICRORNAS, POTENTIALLY CAN YIELD NEW THERAPEUTIC STRATEGIES. 2013 9 4330 34 MICRORNAS: AN EPIGENETIC TOOL TO STUDY CELIAC DISEASE. THIS ARTICLE SUMMARIZES RECENT FINDINGS ON THE ROLE OF MICRORNAS (MIRNAS) IN BIOLOGICAL PROCESSES ASSOCIATED WITH THE REGULATION OF CHRONIC INFLAMMATION AND AUTOIMMUNITY. MIRNAS ARE SMALL NON-CODING RNA MOLECULES THAT HAVE BEEN RECENTLY EMERGED AS A NEW CLASS OF MODULATORS OF GENE EXPRESSION AT THE POST-TRANSCRIPTIONAL LEVEL. MIRNAS BIND TO COMPLEMENTARY SEQUENCES OF SPECIFIC TARGETS OF MESSENGERS RNA, WHICH CAN INTERFERE WITH PROTEIN SYNTHESIS. WE REVIEWED STUDIES THAT EVALUATED THE EXPRESSION PATTERNS OF MIRNAS IN DIFFERENT AUTOIMMUNE DISEASES, ESPECIALLY IN CELIAC DISEASE (CD). CD IS A CHRONIC ENTEROPATHY TRIGGERED BY GLUTEN PROTEINS, CHARACTERIZED BY ALTERED IMMUNE RESPONSES IN GENETICALLY SUSCEPTIBLE INDIVIDUALS THAT RESULTS IN DAMAGE TO THE BOWEL MUCOSA. CD HAS A HIGH PREVALENCE AND AN EFFECTIVE TREATMENT BY A SPECIFIC DIET ("GLUTEN FREE DIET"). GENETIC FACTORS CONFER SUSCEPTIBILITY BUT DO NOT EXPLAIN THE WHOLE DISEASE, SUGGESTING THAT ENVIRONMENTAL FACTORS DO PLAY A RELEVANT ROLE IN THE DEVELOPMENT OF THE CONDITION.THE EVALUATION OF THE POTENTIAL ROLE OF MIRNA IS OF PARTICULAR INTEREST IN CD GIVEN THAT THESE EPIGENETIC MECHANISMS IN THE PATHOGENESIS OF AUTOIMMUNE AND INFLAMMATORY DISEASES HAVE BEEN RECENTLY DESCRIBED. IMPROVING OUR UNDERSTANDING OF MIRNAS IN CD WILL CONTRIBUTE TO CLARIFY THE ROLE OF ALTERED EPIGENETIC REGULATION IN THE DEVELOPMENT AND COURSE OF THIS DISEASE. 2014 10 3350 27 HISTONE DEACETYLATION MEETS MIRNA: EPIGENETICS AND POST-TRANSCRIPTIONAL REGULATION IN CANCER AND CHRONIC DISEASES. INTRODUCTION: EPIGENETIC REGULATION VIA DNA METHYLATION, HISTONE ACETYLATION, AS WELL AS BY MICRORNAS (MIRNAS) IS CURRENTLY IN THE SCIENTIFIC FOCUS DUE TO ITS ROLE IN CARCINOGENESIS AND ITS INVOLVEMENT IN INITIATION, PROGRESSION AND METASTASIS. WHILE MANY TARGET GENES OF DNA METHYLATION, HISTONE ACETYLATION AND MIRNAS ARE KNOWN, EVEN LESS INFORMATION EXISTS AS TO HOW THESE MECHANISMS COOPERATE AND HOW THEY MAY REGULATE EACH OTHER IN A SPECIFIC PATHOLOGICAL CONTEXT. FOR FURTHER DEVELOPMENT OF THERAPEUTIC APPROACHES, THIS REVIEW PRESENTS THE CURRENT STATUS OF THE CROSSTALK OF HISTONE ACETYLATION AND MIRNAS IN HUMAN CARCINOGENESIS AND CHRONIC DISEASES. AREAS COVERED: THIS ARTICLE REVIEWS INFORMATION FROM COMPREHENSIVE PUBMED SEARCHES TO EVALUATE RELEVANT LITERATURE WITH A FOCUS ON POSSIBLE ASSOCIATION BETWEEN HISTONE ACETYLATION, MIRNAS AND THEIR TARGETS. OUR ANALYSIS IDENTIFIED SPECIFIC MIRNAS WHICH COLLABORATE WITH HISTONE DEACETYLASES (HDACS) AND COOPERATIVELY REGULATE SEVERAL RELEVANT TARGET GENES. EXPERT OPINION: FOURTEEN MIRNAS COULD BE LINKED TO THE EXPRESSION OF EIGHT HDACS INFLUENCING THE ALPHA-(1,6)-FUCOSYLTRANSFERASE, POLYCYSTIN-2 AND THE FIBROBLAST-GROWTH-FACTOR 2 PATHWAYS. FOCUSING ON THE COMPLEX LINKAGE OF MIRNA AND HDAC EXPRESSION COULD GIVE DEEPER INSIGHTS IN NEW 'DRUGGABLE' TARGETS AND MIGHT PROVIDE POSSIBLE NOVEL THERAPEUTIC APPROACHES IN FUTURE. 2015 11 5264 20 PROMISING DIRECTIONS IN ATHEROSCLEROSIS TREATMENT BASED ON EPIGENETIC REGULATION USING MICRORNAS AND LONG NONCODING RNAS. ATHEROSCLEROSIS IS ONE OF THE LEADING CAUSES OF MORTALITY FROM CARDIOVASCULAR DISEASE (CVD) AND IS A CHRONIC INFLAMMATORY DISEASE OF THE MIDDLE AND LARGE ARTERIES CAUSED BY A DISRUPTION OF LIPID METABOLISM. NONCODING RNA (NCRNA), INCLUDING MICRORNA (MIRNA), SMALL INTERFERING RNA (SIRNA) AND LONG NONCODING RNA (LNCRNA), WAS INVESTIGATED FOR THE TREATMENT OF ATHEROSCLEROSIS. REGULATION OF THE EXPRESSION OF NONCODING RNA TARGETS THE CONSTITUENT ELEMENT OF THE PATHOGENESIS OF ATHEROSCLEROSIS. CURRENTLY, MIRNA THERAPY COMMONLY EMPLOYS MIRNA ANTAGONISTS AND MIMIC COMPOUNDS. IN THIS REVIEW, ATTENTION IS FOCUSED ON APPROACHES TO CORRECTING MOLECULAR DISORDERS BASED ON THE GENETIC REGULATION OF THE TRANSCRIPTION OF KEY GENES RESPONSIBLE FOR THE DEVELOPMENT OF ATHEROSCLEROSIS. PROMISING TECHNOLOGIES WERE CONSIDERED FOR THE TREATMENT OF ATHEROSCLEROSIS, AND EXAMPLES ARE GIVEN FOR TECHNOLOGIES THAT HAVE BEEN SHOWN TO BE EFFECTIVE IN CLINICAL TRIALS. 2019 12 3965 24 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 13 3964 34 LONG NONCODING RNAS IN LUNG CANCER. DESPITE GREAT PROGRESS IN RESEARCH AND TREATMENT OPTIONS, LUNG CANCER REMAINS THE LEADING CAUSE OF CANCER-RELATED DEATHS WORLDWIDE. ONCOGENIC DRIVER MUTATIONS IN PROTEIN-ENCODING GENES WERE DEFINED AND ALLOW FOR PERSONALIZED THERAPIES BASED ON GENETIC DIAGNOSES. NONETHELESS, DIAGNOSIS OF LUNG CANCER MOSTLY OCCURS AT LATE STAGES, AND CHRONIC TREATMENT IS FOLLOWED BY A FAST ONSET OF CHEMORESISTANCE. HENCE, THERE IS AN URGENT NEED FOR RELIABLE BIOMARKERS AND ALTERNATIVE TREATMENT OPTIONS. WITH THE ERA OF WHOLE GENOME AND TRANSCRIPTOME SEQUENCING TECHNOLOGIES, LONG NONCODING RNAS EMERGED AS A NOVEL CLASS OF VERSATILE, FUNCTIONAL RNA MOLECULES. ALTHOUGH FOR MOST OF THEM THE MECHANISM OF ACTION REMAINS TO BE DEFINED, ACCUMULATING EVIDENCE CONFIRMS THEIR INVOLVEMENT IN VARIOUS ASPECTS OF LUNG TUMORIGENESIS. THEY ARE FUNCTIONAL ON THE EPIGENETIC, TRANSCRIPTIONAL, AND POSTTRANSCRIPTIONAL LEVEL AND ARE REGULATORS OF PATHOPHYSIOLOGICAL KEY PATHWAYS INCLUDING CELL GROWTH, APOPTOSIS, AND METASTASIS. LONG NONCODING RNAS ARE GAINING INCREASING ATTENTION AS POTENTIAL BIOMARKERS AND A NOVEL CLASS OF DRUGGABLE MOLECULES. IT HAS BECOME CLEAR THAT WE ARE ONLY BEGINNING TO UNDERSTAND THE COMPLEXITY OF TUMORIGENIC PROCESSES. THE CLINICAL INTEGRATION OF LONG NONCODING RNAS IN TERMS OF PROGNOSTIC AND PREDICTIVE BIOMARKER SIGNATURES AND ADDITIONAL CANCER TARGETS COULD PROVIDE A CHANCE TO INCREASE THE THERAPEUTIC BENEFIT. HERE, WE REVIEW THE CURRENT KNOWLEDGE ABOUT THE EXPRESSION, REGULATION, BIOLOGICAL FUNCTION, AND CLINICAL RELEVANCE OF LONG NONCODING RNAS IN LUNG CANCER. 2016 14 6734 30 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 15 4451 22 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 16 2282 25 EPIGENETIC REGULATION IN EXPOSOME-INDUCED TUMORIGENESIS: EMERGING ROLES OF NCRNAS. ENVIRONMENTAL FACTORS, INCLUDING POLLUTANTS AND LIFESTYLE, CONSTITUTE A SIGNIFICANT ROLE IN SEVERE, CHRONIC PATHOLOGIES WITH AN ESSENTIAL SOCIETAL, ECONOMIC BURDEN. THE MEASUREMENT OF ALL ENVIRONMENTAL EXPOSURES AND ASSESSING THEIR CORRELATION WITH EFFECTS ON INDIVIDUAL HEALTH IS DEFINED AS THE EXPOSOME, WHICH INTERACTS WITH OUR UNIQUE CHARACTERISTICS SUCH AS GENETICS, PHYSIOLOGY, AND EPIGENETICS. EPIGENETICS INVESTIGATES MODIFICATIONS IN THE EXPRESSION OF GENES THAT DO NOT DEPEND ON THE UNDERLYING DNA SEQUENCE. SOME STUDIES HAVE CONFIRMED THAT ENVIRONMENTAL FACTORS MAY PROMOTE DISEASE IN INDIVIDUALS OR SUBSEQUENT PROGENY THROUGH EPIGENETIC ALTERATIONS. VARIATIONS IN THE EPIGENETIC MACHINERY CAUSE A SPECTRUM OF DIFFERENT DISORDERS SINCE THESE MECHANISMS ARE MORE SENSITIVE TO THE ENVIRONMENT THAN THE GENOME, DUE TO THE INHERENT REVERSIBLE NATURE OF THE EPIGENETIC LANDSCAPE. SEVERAL EPIGENETIC MECHANISMS, INCLUDING MODIFICATIONS IN DNA (E.G., METHYLATION), HISTONES, AND NONCODING RNAS CAN CHANGE GENOME EXPRESSION UNDER THE EXOGENOUS INFLUENCE. NOTABLY, THE ROLE OF LONG NONCODING RNAS IN EPIGENETIC PROCESSES HAS NOT BEEN WELL EXPLORED IN THE CONTEXT OF EXPOSOME-INDUCED TUMORIGENESIS. IN THE PRESENT REVIEW, OUR SCOPE IS TO PROVIDE RELEVANT EVIDENCE INDICATING THAT EPIGENETIC ALTERATIONS MEDIATE THOSE DETRIMENTAL EFFECTS CAUSED BY EXPOSURE TO ENVIRONMENTAL TOXICANTS, FOCUSING MAINLY ON A MULTI-STEP REGULATION BY DIVERSE NONCODING RNAS SUBTYPES. 2022 17 1172 26 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 1871 28 EMERGING ROLE OF EPIGENETICS IN EXPLAINING RELATIONSHIP OF PERIODONTITIS AND CARDIOVASCULAR DISEASES. CARDIOVASCULAR DISEASES SUCH AS ISCHEMIC HEART DISEASES OR STROKE ARE AMONG THE LEADING CAUSE OF DEATHS GLOBALLY, AND EVIDENCE SUGGESTS THAT THESE DISEASES ARE MODULATED BY A MULTIFACTORIAL AND COMPLEX INTERPLAY OF GENETIC, ENVIRONMENTAL, AND LIFESTYLE FACTORS. GENETIC PREDISPOSITION AND CHRONIC EXPOSURE TO MODIFIABLE RISK FACTORS HAVE BEEN EXPLORED TO BE INVOLVED IN THE PATHOPHYSIOLOGY OF CVD. ENVIRONMENTAL FACTORS CONTRIBUTE TO AN INDIVIDUAL'S PROPENSITY TO DEVELOP MAJOR CARDIOVASCULAR RISK FACTORS THROUGH EPIGENETIC MODIFICATIONS OF DNA AND HISTONES VIA MIRNA REGULATION OF PROTEIN TRANSLATION THAT ARE TYPES OF EPIGENETIC MECHANISMS AND PARTICIPATE IN DISEASE DEVELOPMENT. PERIODONTAL DISEASE (PD) IS ONE OF THE MOST COMMON ORAL DISEASES IN HUMANS THAT IS CHARACTERIZED BY LOW-GRADE INFLAMMATION AND HAS BEEN SHOWN TO INCREASE THE RISK OF CVDS. RISK FACTORS INVOLVED IN PD AND CVD ARE DETERMINED BOTH GENETICALLY AND BEHAVIORALLY. PERIODONTAL DISEASES SUCH AS CHRONIC INFLAMMATION PROMOTE DNA METHYLATION. EPIGENETIC MODIFICATIONS INVOLVED IN THE INITIATION AND PROGRESSION OF ATHEROSCLEROSIS PLAY AN ESSENTIAL ROLE IN PLAQUE DEVELOPMENT AND VULNERABILITY. EPIGENETICS HAS OPENED A NEW WORLD TO UNDERSTAND AND MANAGE HUMAN DISEASES, INCLUDING CVDS AND PERIODONTAL DISEASES. GENETIC MEDICINE HAS STARTED A NEW ERA OF EPIGENETICS TO OVERCOME HUMAN DISEASES WITH VARIOUS NEW METHODOLOGY. EPIGENETIC PROFILING MAY AID IN BETTER DIAGNOSIS AND STRATIFICATION OF PATIENTS SHOWING POTENTIAL PREDISPOSED STATES FOR DISEASE. A BETTER UNDERSTANDING OF THE EXACT REGULATORY MECHANISMS OF EPIGENETIC PATHWAYS DRIVING INFLAMMATION IS SLOWLY EMERGING AND WILL AID IN DEVELOPING NOVEL TOOLS FOR THE TREATMENT OF DISEASE. 2021 19 4321 26 MICRORNAS IN MAJOR DEPRESSIVE DISORDER. MAJOR DEPRESSIVE DISORDER (MDD) IS A SEVERE AND CHRONIC PSYCHIATRIC DISORDER WITH A HIGH PREVALENCE IN THE POPULATION. ALTHOUGH OUR UNDERSTANDING OF ITS PATHOPHYSIOLOGICAL MECHANISMS HAS SIGNIFICANTLY INCREASED OVER THE YEARS, AVAILABLE TREATMENTS STILL PRESENT SEVERAL LIMITATIONS AND ARE NOT EFFECTIVE TO ALL MDD PATIENTS. EPIGENETIC MECHANISMS HAVE RECENTLY BEEN SUGGESTED TO PLAY KEY ROLES IN MDD PATHOGENESIS AND TREATMENT, INCLUDING THE EFFECTS OF SMALL NONCODING RNAS KNOWN AS MICRORNAS (MIRNAS). MIRNAS CAN MODULATE GENE EXPRESSION POSTTRANSCRIPTIONALLY BY INTERFERING WITH THE STABILITY AND TRANSLATION OF MESSENGER RNA MOLECULES AND ARE ALSO KNOWN TO CROSS-TALK WITH OTHER EPIGENETIC MECHANISMS. IN THIS REVIEW, WE WILL SUMMARIZE AND DISCUSS RECENT FINDINGS OF ALTERATIONS IN MIRNAS IN TISSUES OF PATIENTS WITH MDD AND EVIDENCE OF TREATMENT-INDUCED EFFECTS IN THESE MOLECULES. 2019 20 2232 32 EPIGENETIC MODIFICATIONS OF MIRNAS IN OSTEOARTHRITIS: A SYSTEMATIC REVIEW ON THEIR METHYLATION LEVELS AND EFFECTS ON CHONDROCYTES, EXTRACELLULAR MATRIX AND JOINT INFLAMMATION. OSTEOARTHRITIS (OA) IS A JOINT DISORDER CHARACTERIZED BY PROGRESSIVE DEGENERATION OF CARTILAGE EXTRACELLULAR MATRIX (ECM), CHONDROCYTE HYPERTROPHY AND APOPTOSIS AND INFLAMMATION. THE CURRENT TREATMENTS MAINLY CONCERN PAIN CONTROL AND REDUCTION OF INFLAMMATION, BUT NO THERAPEUTIC STRATEGY HAS BEEN IDENTIFIED AS A DISEASE-MODIFYING TREATMENT. THEREFORE, IDENTIFYING SPECIFIC BIOMARKERS USEFUL TO PREVENT, TREAT OR DISTINGUISH THE STAGES OF OA DISEASE HAS BECOME AN IMMEDIATE NEED OF CLINICAL PRACTICE. THE ROLE OF MICRORNAS (MIRNAS) IN OA HAS BEEN INVESTIGATED IN THE LAST DECADE, AND INCREASING EVIDENCE HAS EMERGED THAT THE INFLUENCE OF THE ENVIRONMENT ON GENE EXPRESSION THROUGH EPIGENETIC PROCESSES CONTRIBUTES TO THE DEVELOPMENT, PROGRESSION AND AGGRESSIVENESS OF OA, IN PARTICULAR ACTING ON THE MICROENVIRONMENT MODULATIONS. THE EFFECTS OF EPIGENETIC REGULATION, PARTICULARLY DIFFERENT MIRNA METHYLATION DURING OA DISEASE, WERE HIGHLIGHTED IN THE PRESENT SYSTEMATIC REVIEW. THE EVIDENCE ARISING FROM THIS STUDY OF THE LITERATURE CONDUCTED IN THREE DATABASES (PUBMED, SCOPUS, WEB OF SCIENCE) SUGGESTED THAT MIRNA METHYLATION STATE ALREADY STRONGLY IMPACTS OA PROGRESSION, DRIVING CHONDROCYTES AND SYNOVIOCYTE PROLIFERATION, APOPTOSIS, INFLAMMATION AND ECM DEPOSITION. HOWEVER, THE POSSIBILITY OF UNDERSTANDING THE MECHANISM BY WHICH DIFFERENT EPIGENETIC MODIFICATIONS OF MIRNA OR PRE-MIRNA SEQUENCES DRIVE THE AGGRESSIVENESS OF OA COULD BE THE NEW FOCUS OF FUTURE INVESTIGATIONS. 2023