1 5120 116 POSSIBLE EPIGENETIC REGULATORY EFFECT OF DYSREGULATED CIRCULAR RNAS IN EPILEPSY. CIRCULAR RNAS (CIRCRNAS) INVOLVE IN THE EPIGENETIC REGULATION AND ITS MAJOR MECHANISM IS THE SEQUESTRATION OF THE TARGET MICRO RNAS (MIRNAS). WE HYPOTHESIZED THAT CIRCRNAS MIGHT BE RELATED WITH THE PATHOPHYSIOLOGY OF CHRONIC EPILEPSY AND EVALUATED THE ALTERED CIRCRNA EXPRESSIONS AND THEIR POSSIBLE REGULATORY EFFECTS ON THEIR TARGET MIRNAS AND MRNAS IN A MOUSE EPILEPSY MODEL. THE CIRCRNA EXPRESSION PROFILE IN THE HIPPOCAMPUS OF THE PILOCARPINE MICE WAS ANALYZED AND COMPARED WITH CONTROL. THE CORRELATION BETWEEN THE EXPRESSION OF MIRNA BINDING SITES (MIRNA RESPONSE ELEMENTS, MRE) IN THE DYSREGULATED CIRCRNAS AND THE EXPRESSION OF THEIR TARGET MIRNAS WAS EVALUATED. AS MIRNAS ALSO INHIBIT THEIR TARGET MRNAS, CIRCRNA-MIRNA-MRNA REGULATORY NETWORK, COMPRISED OF DYSREGULATED RNAS THAT TARGETS ONE ANOTHER WERE SEARCHED. FOR THE IDENTIFIED NETWORKS, BIOINFORMATICS ANALYSES WERE PERFORMED. AS THE RESULT, FORTY-THREE CIRCRNAS WERE DYSREGULATED IN THE HIPPOCAMPUS (UP-REGULATED, 26; DOWN-REGULATED, 17). THE CHANGE IN THE EXPRESSION OF MRE IN THOSE CIRCRNAS NEGATIVELY CORRELATED WITH THE CHANGE IN THE RELEVANT TARGET MIRNA EXPRESSION (R = -0.461, P<0.001), SUPPORTING THAT CIRCRNAS INHIBIT THEIR TARGET MIRNA. 333 DYSREGULATED CIRCRNA-MIRNA-MRNA NETWORKS WERE IDENTIFIED. GENE ONTOLOGY AND PATHWAY ANALYSES DEMONSTRATED THAT THE UP-REGULATED MRNAS IN THOSE NETWORKS WERE CLOSELY RELATED TO THE MAJOR PROCESSES IN EPILEPSY. AMONG THEM, STRING ANALYSIS IDENTIFIED 37 KEY MRNAS WITH ABUNDANT (>/=4) INTERACTIONS WITH OTHER DYSREGULATED TARGET MRNAS. THE DYSREGULATION OF THE CIRCRNAS WHICH HAD MULTIPLE INTERACTIONS WITH KEY MRNAS WERE VALIDATED BY PCR. WE CONCLUDED THAT DYSREGULATED CIRCRNAS MIGHT HAVE A PATHOPHYSIOLOGIC ROLE IN CHRONIC EPILEPSY BY REGULATING MULTIPLE DISEASE RELEVANT MRNAS VIA CIRCRNA-MIRNA-MRNA INTERACTIONS. 2018 2 6396 38 THE ROLE OF THE MIR-148/-152 FAMILY IN PHYSIOLOGY AND DISEASE. MICRORNAS (MIRNAS) ARE ENDOGENOUSLY ENCODED APPROXIMATELY 22 NT SMALL NON-CODING RNAS. THEY FUNCTION AS KEY PLAYERS OF MANY CELLULAR PROCESSES BY BASE PAIRING WITH TARGET MRNAS AND THEREBY IMPAIRING GENE EXPRESSION AT THE POST-TRANSCRIPTIONAL LEVEL. RECENT FINDINGS DEMONSTRATE A CRITICAL ROLE OF MANY MIRNAS IN IMMUNE CELL DIFFERENTIATION AND IMMUNE RESPONSES, WHICH IS ALSO ASSOCIATED WITH THE DEVELOPMENT AND PROGRESSION OF MANY TUMOR AND NON-TUMOR DISEASES. HERE WE REVIEW THE MULTIFACETED MIRNA-148/-152 FAMILY MEMBERS CONSISTING OF MIR-148A, MIR-148B AND MIR-152. NEXT TO REGULATION MECHANISMS THAT CONTROL THE EXPRESSION OF THIS MIRNA FAMILY, WE WILL FOCUS ON (I) THE ROLE OF MIR-148A IN REGULATING B AND T LYMPHOCYTE FUNCTION AND ITS ROLE IN ASSOCIATED DISEASES AND (II) THE IMPORTANCE OF MIR-148/-152 FAMILY MEMBERS FOR CANCER INITIATION, TUMOR GROWTH AND METASTASIS FORMATION. IN ADDITION, THIS REVIEW AIMS TO HIGHLIGHT SOME SELECTED TARGETS OF THE MIRNA-148/-152 FAMILY MEMBERS, WHICH ARE INVOLVED IN THE BIOLOGY OF CANCER AND MAINTENANCE OF EPIGENETIC PATTERNS. IN CONCLUSION, MEMBERS OF THE MIR-148/-152 FAMILY MIGHT REPRESENT PROGNOSTIC MARKERS AND/OR POTENTIAL THERAPEUTIC TARGETS FOR TREATMENT OF AUTOIMMUNE DISORDERS, CHRONIC INFLAMMATORY DISEASES AND MULTIPLE TYPES OF CANCER. 2017 3 4368 39 MIRNA-DEPENDENT CD4(+) T CELL DIFFERENTIATION IN THE PATHOGENESIS OF MULTIPLE SCLEROSIS. MULTIPLE SCLEROSIS (MS) IS CHARACTERIZED BY MULTIFOCAL LESIONS, CHRONIC INFLAMMATORY CONDITION, AND DEGENERATIVE PROCESSES WITHIN THE CENTRAL NERVOUS SYSTEM (CNS) LEADING TO DEMYELINATION. THE MOST IMPORTANT CELLS INVOLVED IN ITS PATHOGENESIS ARE THOSE WHICH ARE CD4(+), PARTICULARLY PROINFLAMMATORY TH1/TH17 AND REGULATORY TREG. SIGNAL CASCADES ASSOCIATED WITH CD4(+) DIFFERENTIATION ARE REGULATED BY MICRORNAS (MIRNAS): SHORT, SINGLE-STRANDED RNAS, RESPONSIBLE FOR NEGATIVE REGULATION OF GENE EXPRESSION AT THE POSTTRANSCRIPTIONAL LEVEL. SEVERAL MIRNAS HAVE BEEN CONSISTENTLY REPORTED AS SHOWING DYSREGULATED EXPRESSION IN MS, AND THEIR EXPRESSION PATTERNS MAY BE ELEVATED OR DECREASED, DEPENDING ON THE FUNCTION OF SPECIFIC MIRNA IN THE IMMUNE SYSTEM. STUDIES IN MS PATIENTS INDICATE THAT, AMONG OTHERS, MIR-141, MIR-200A, MIR-155, MIR-223, AND MIR-326 ARE UPREGULATED, WHILE MIR-15B, MIR-20B, MIR-26A, AND MIR-30A ARE DOWNREGULATED. DYSREGULATION OF THESE MIRNAS MAY CONTRIBUTE TO THE IMBALANCE BETWEEN PRO- AND ANTI-INFLAMMATORY PROCESSES, SINCE THEIR TARGETS ARE ASSOCIATED WITH THE REGULATION OF TH1/TH17 AND TREG CELL DIFFERENTIATION. HIGHLY EXPRESSED MIRNAS CAN IN TURN SUPPRESS TRANSLATION OF KEY TH1/TH17 DIFFERENTIATION INHIBITORS. MIRNA DYSREGULATION MAY RESULT FROM THE IMPACT OF VARIOUS FACTORS AT EACH STAGE OF THEIR BIOGENESIS. IMMATURE MIRNA UNDERGOES MULTISTAGE TRANSCRIPTIONAL AND POSTTRANSCRIPTIONAL MODIFICATIONS; THEREFORE, ANY PROTEIN INVOLVED IN THE PROCESSING OF MIRNAS CAN POTENTIALLY LEAD TO DISTURBANCES IN THEIR EXPRESSION. EPIGENETIC MODIFICATIONS THAT HAVE A DIRECT IMPACT ON MIRNA GENE TRANSCRIPTION MAY ALSO PLAY AN IMPORTANT ROLE. 2021 4 6907 26 [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 5 1051 24 CLINICAL IMPLICATIONS OF EXOSOME-DERIVED NONCODING RNAS IN LIVER. EXOSOMES, ONE OF THREE MAIN TYPES OF EXTRACELLULAR VESICLES, ARE ~30-100 NM IN DIAMETER AND HAVE A LIPID BILAYER MEMBRANE. THEY ARE WIDELY DISTRIBUTED IN ALMOST ALL BODY FLUIDS. EXOSOMES HAVE THE POTENTIAL TO REGULATE UNKNOWN CELLULAR AND MOLECULAR MECHANISMS IN INTERCELLULAR COMMUNICATION, ORGAN HOMEOSTASIS, AND DISEASES. THEY ARE CRITICAL SIGNAL CARRIERS THAT TRANSFER NUCLEIC ACIDS, PROTEINS, LIPIDS, AND OTHER SUBSTANCES INTO RECIPIENT CELLS, PARTICIPATING IN CELLULAR SIGNAL TRANSDUCTION AND MATERIAL EXCHANGE. NCRNAS ARE NON-PROTEIN-CODING GENES THAT ACCOUNT FOR OVER 90% OF THE GENOME AND INCLUDE MICRORNAS (MIRNAS), LONG NCRNAS (LNCRNAS), AND CIRCULAR RNAS (CIRCRNAS). NCRNAS ARE CRUCIAL FOR PHYSIOLOGICAL AND PATHOLOGICAL ACTIVITIES IN THE LIVER BY PARTICIPATING IN GENE TRANSCRIPTION, POSTTRANSCRIPTIONAL EPIGENETIC REGULATION, AND CELLULAR PROCESSES THROUGH INTERACTING WITH DNA, RNA, OR PROTEINS. RECENT EVIDENCE FROM BOTH CLINICAL AND PRECLINICAL STUDIES INDICATES THAT EXOSOME-DERIVED NONCODING RNAS (NCRNAS) ARE HIGHLY INVOLVED IN THE PROGRESSION OF ACUTE AND CHRONIC LIVER DISEASES BY REGULATING HEPATIC LIPID METABOLISM, INNATE IMMUNITY, VIRAL INFECTION, FIBROSIS, AND CANCER. THEREFORE, EXOSOME-DERIVED NCRNAS HAVE PROMISING POTENTIAL AND CLINICAL IMPLICATIONS FOR THE EARLY DIAGNOSIS, TARGETED THERAPY, AND PROGNOSIS OF LIVER DISEASES. 2022 6 4315 22 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 7 1873 27 EMERGING ROLE OF MICRORNAS AND LONG NON-CODING RNAS IN SJOGREN'S SYNDROME. SJOGREN'S SYNDROME (SS) IS A CHRONIC AUTOIMMUNE INFLAMMATORY DISEASE. IT IS CONSIDERED A MULTIFACTORIAL PATHOLOGY, IN WHICH UNDERLYING GENETIC PREDISPOSITION, EPIGENETIC MECHANISMS AND ENVIRONMENTAL FACTORS CONTRIBUTE TO DEVELOPMENT. THE EPIGENETIC REGULATIONS REPRESENT A LINK BETWEEN GENETIC PREDISPOSITION AND ENVIRONMENTAL FACTORS. RECENT STUDIES SUGGESTED A REGULATORY ROLE FOR NON-CODING RNAS IN CRITICAL BIOLOGICAL AND DISEASE PROCESSES. AMONG NON-CODING RNAS, MICRORNAS (MIRNAS) AND LONG NON-CODING RNAS (LNCRNAS) PLAY A CRITICAL ROLE IN THE POST-TRANSCRIPTIONAL MRNA EXPRESSION, FORMING A COMPLEX NETWORK OF GENE EXPRESSION REGULATION. THIS REVIEW AIMS TO GIVE AN OVERVIEW OF THE LATEST STUDIES THAT HAVE INVESTIGATED THE ROLE OF MIRNAS AND LNCRNAS IN THE SS. WE INCLUDED PAPERS THAT INVESTIGATED THE EXPRESSION OF NON-CODING RNAS ON DIFFERENT TISSUES, IN PARTICULAR ON PERIPHERAL BLOOD MONONUCLEAR CELLS AND SALIVARY GLANDS. HOWEVER, REGARDING THE INVOLVEMENT OF NON-CODING RNAS GENETIC VARIABILITY IN SS SUSCEPTIBILITY VERY FEW DATA ARE AVAILABLE. FURTHER RESEARCH COULD HELP TO ELUCIDATE UNDERLYING PATHOGENIC PROCESSES OF SS AND PROVIDE NEW OPPORTUNITIES FOR THE DEVELOPMENT OF TARGETED THERAPIES. 2021 8 4282 25 MICRORNA AND EXOSOME: KEY PLAYERS IN RHEUMATOID ARTHRITIS. RHEUMATOID ARTHRITIS (RA) IS KNOWN AS ONE OF IMPORTANT AUTOIMMUNE DISORDERS WHICH CAN LEAD TO JOINT PAIN AND DAMAGE THROUGHOUT BODY. GIVEN THAT INTERNAL (IE, GENETIC AND EPIGENETIC ALTERATIONS) AND EXTERNAL FACTORS (IE, LIFESTYLE CHANGES, AGE, HORMONES, SMOKING, STRESS, AND OBESITY) INVOLVED IN RA PATHOGENESIS. INCREASING EVIDENCE INDICATED THAT CELLULAR AND MOLECULAR ALTERATIONS PLAY CRITICAL ROLES IN THE INITIATION AND PROGRESSION OF RA. AMONG VARIOUS TARGETS AND MOLECULAR SIGNALING PATHWAYS, MICRORNAS (MIRNAS) AND THEIR REGULATORY NETWORKS HAVE KEY ROLES IN THE RA PATHOGENESIS. IT HAS BEEN SHOWED THAT DEREGULATION OF MANY MIRNAS INVOLVED IN DIFFERENT STAGES OF RA. HENCE, IDENTIFICATION OF MIRNAS AND THEIR SIGNALING PATHWAYS IN RA, COULD CONTRIBUTE TO NEW KNOWLEDGE WHICH HELP TO BETTER TREATMENT OF PATIENTS WITH RA. BESIDES MIRNAS, EXOSOMES HAVE BEEN EMERGED AS KEY MESSENGERS IN RA PATHOGENESIS. EXSOSOMES ARE NANOCARRIERS WHICH COULD BE RELEASED FROM VARIOUS CELLS AND LEAD TO CHANGING OF BEHAVIORS RECIPIENT CELLS VIA TARGETING THEIR CARGOS (EG, PROTEINS, MESSENGER RNAS, MIRNAS, LONG NONCODING RNAS, DNAS). HERE, WE SUMMARIZED SEVERAL MIRNAS INVOLVED IN RA PATHOGENESIS. MOREOVER, WE HIGHLIGHTED THE ROLES OF EXOSOMES IN RA PATHOGENESIS. 2019 9 1021 26 CIRCULAR RNA AS AN EPIGENETIC REGULATOR IN CHRONIC LIVER DISEASES. CIRCULAR RNA (CIRCRNA) IS A TYPE OF NON-CODING RNA CHARACTERIZED BY A COVALENTLY CLOSED CONTINUOUS LOOP. CIRCRNA IS GENERATED BY PRE-MRNA THROUGH BACK-SPLICING AND IS PROBABLY CLEARED UP BY EXTRACELLULAR VESICLES. CIRCRNAS PLAY A PIVOTAL ROLE IN THE EPIGENETIC REGULATION OF GENE EXPRESSION AT TRANSCRIPTIONAL AND POST-TRANSCRIPTIONAL LEVELS. RECENTLY, CIRCRNAS HAVE BEEN DEMONSTRATED TO BE INVOLVED IN THE REGULATION OF LIVER HOMEOSTASIS AND DISEASES. HOWEVER, THE EPIGENETIC ROLE AND UNDERLYING MECHANISMS OF CIRCRNAS IN CHRONIC LIVER DISEASES REMAIN UNCLEAR. THIS REVIEW DISCUSSED THE ROLE OF CIRCRNAS IN NON-NEOPLASTIC CHRONIC LIVER DISEASES, INCLUDING ALCOHOLIC LIVER DISEASE (ALD), METABOLIC-ASSOCIATED FATTY LIVER DISEASE (MAFLD), VIRAL HEPATITIS, LIVER INJURY AND REGENERATION, LIVER CIRRHOSIS, AND AUTOIMMUNE LIVER DISEASE. THE REVIEW ALSO HIGHLIGHTED THAT FURTHER EFFORTS ARE URGENTLY NEEDED TO DEVELOP CIRCRNAS AS NOVEL DIAGNOSTICS AND THERAPEUTICS FOR CHRONIC LIVER DISEASES. 2021 10 1227 36 CRITICAL ROLE OF MICRORNAS IN CHRONIC LYMPHOCYTIC LEUKEMIA: OVEREXPRESSION OF THE ONCOGENE PLAG1 BY DEREGULATED MIRNAS. MICRORNAS (MIRNAS) ARE SMALL, GENE ENCODED RNAS WHICH ARE ABLE TO INFLUENCE GENE EXPRESSION IN BINDING TO THE 3'UTR OF MRNAS. COMPARED TO HEALTHY TISSUES, THE GLOBAL EXPRESSION OF MIRNAS IN CANCEROUS TISSUE IS FREQUENTLY DOWN-REGULATED. LIKEWISE IN CHRONIC LYMPHOCYTIC LEUKEMIA (CLL), DOWN-REGULATION OF SEVERAL MIRNAS HAS BEEN REPORTED. ANALYSIS OF MIRNA PROMOTERS FOR EPIGENETIC MODIFICATIONS REVEALED A STRONGER METHYLATION OF DOWN-REGULATED MIRNAS IN CLL. TO DATE, SEVERAL TARGET GENES AFFECTED BY DEREGULATED MIRNAS HAVE BEEN IDENTIFIED THAT HAVE IMPACT ON CLL PATHOGENESIS. THE BEST-DESCRIBED CONSEQUENCE OF MIRNA DEREGULATION IS FOR MIRNA-15/16 CLUSTER DELETION, WHICH IS FREQUENTLY DOWN-REGULATED IN A SUBGROUP OF PATIENTS WITH CLL CARRYING 13Q14 DELETION. SO FAR, MODELS FOR MIRNA DEREGULATION HAVE ADDRESSED JUST SINGLE MIRNAS. FOR ASSESSMENT OF COMPLETE MIRNA DEREGULATION, FURTHER EVALUATION OF THE RESULTS FROM MICROARRAY STUDIES IS NEEDED. PREVIOUSLY WE IDENTIFIED THE ONCOGENE PLAG1, WHOSE EXPRESSION IS AFFECTED BY VARIOUS MIRNAS DEREGULATED IN CLL. THE INVOLVEMENT OF MIRNAS IN PLAG1 EXPRESSION WAS SHOWN TO BE RELEVANT IN PLEOMORPHIC ADENOMAS OF THE SALIVARY GLAND, TOO. AS PLAG1 IS HIGHLY OVEREXPRESSED, AND ITS TARGET GENES APPEAR TO BE DEREGULATED IN CLL, E.G. BCL-2, PLAG1 IS A PUTATIVE NEW RELEVANT ONCOGENE INVOLVED IN THE PATHOGENESIS OF CLL. 2010 11 4372 31 MIRNAS, OXIDATIVE STRESS, AND CANCER: A COMPREHENSIVE AND UPDATED REVIEW. OXIDATIVE STRESS REFERS TO ELEVATED LEVELS OF INTRACELLULAR REACTIVE OXYGEN SPECIES (ROS). ROS HOMEOSTASIS FUNCTIONS AS A SIGNALING PATHWAY FOR NORMAL CELL SURVIVAL AND APPROPRIATE CELL SIGNALING. CHRONIC INFLAMMATION INDUCED BY IMBALANCED LEVELS OF ROS CONTRIBUTES TO MANY DISEASES AND DIFFERENT TYPES OF CANCER. ROS CAN ALTER THE EXPRESSION OF ONCOGENES AND TUMOR SUPPRESSOR GENES THROUGH EPIGENETIC MODIFICATIONS, TRANSCRIPTION FACTORS, AND NON-CODING RNAS. MICRORNAS (MIRNAS) ARE SMALL NON-CODING RNAS THAT PLAY A KEY ROLE IN MOST BIOLOGICAL PATHWAYS. EACH MIRNA REGULATES HUNDREDS OF TARGET GENES BY INHIBITING PROTEIN TRANSLATION AND/OR PROMOTING MESSENGER RNA DEGRADATION. IN NORMAL CONDITIONS, MIRNAS PLAY A PHYSIOLOGICAL ROLE IN CELL PROLIFERATION, DIFFERENTIATION, AND APOPTOSIS. HOWEVER, DIFFERENT FACTORS THAT CAN DYSREGULATE CELL SIGNALING AND CELLULAR HOMEOSTASIS CAN ALSO AFFECT MIRNA EXPRESSION. THE ALTERATION OF MIRNA EXPRESSION CAN WORK AGAINST DISTURBING FACTORS OR MEDIATE THEIR EFFECTS. OXIDATIVE STRESS IS ONE OF THESE FACTORS. CONSIDERING THE COMPLEX INTERPLAY BETWEEN ROS LEVEL AND MIRNA REGULATION AND BOTH OF THESE WITH CANCER DEVELOPMENT, WE REVIEW THE ROLE OF MIRNAS IN CANCER, FOCUSING ON THEIR FUNCTION IN OXIDATIVE STRESS. 2020 12 263 22 ADVANCES WITH LONG NON-CODING RNAS IN DIABETIC PERIPHERAL NEUROPATHY. LONG NON-CODING RNAS (?LNCRNAS) ?ARE A GROUP OF NON-CODING RNAS LONGER THAN 200 NUCLEOTIDES, WHICH ARE DEFINED AS TRANSCRIPTS. THE LNCRNAS ARE INVOLVED IN REGULATING GENE EXPRESSION AT EPIGENETIC, TRANSCRIPTIONAL, AND POST-TRANSCRIPTIONAL LEVELS. RECENT STUDIES HAVE FOUND THAT LNCRNA IS CLOSELY RELATED TO MANY DISEASES LIKE NEUROLOGICAL DISEASES, ENDOCRINE AND METABOLIC DISORDERS. DIABETIC PERIPHERAL NEUROPATHY (DPN) IS ONE OF THE MOST COMMON CHRONIC COMPLICATIONS OF DIABETES MELLITUS. IN THIS REVIEW, WE HIGHLIGHT THE LATEST RESEARCH RELATED TO LNCRNAS IN DPN. 2020 13 4288 26 MICRORNA IN LEUKEMIA: TUMOR SUPPRESSORS AND ONCOGENES WITH PROGNOSTIC POTENTIAL. LEUKEMIA IS KNOWN AS A PROGRESSIVE MALIGNANT DISEASE, WHICH DESTROYS THE BLOOD-FORMING ORGANS AND RESULTS IN ADVERSE EFFECTS ON THE PROLIFERATION AND DEVELOPMENT OF LEUKOCYTES AND THEIR PRECURSORS IN THE BLOOD AND BONE MARROW. THERE ARE FOUR MAIN CLASSES OF LEUKEMIA INCLUDING ACUTE LEUKEMIA, CHRONIC LEUKEMIA, MYELOGENOUS LEUKEMIA, AND LYMPHOCYTIC LEUKEMIA. GIVEN THAT A VARIETY OF INTERNAL AND EXTERNAL FACTORS COULD BE ASSOCIATED WITH THE INITIATION AND PROGRESSION OF DIFFERENT TYPES OF LEUKEMIA. ONE OF THE IMPORTANT FACTORS IS EPIGENETIC REGULATORS SUCH AS MICRORNAS (MIRNAS) AND LONG NONCODING RNAS (NCRNA). MIRNAS ARE SHORT NCRNAS WHICH ACT AS TUMOR SUPPRESSOR (I.E., MIR-15, MIR-16, LET-7, AND MIR-127) OR ONCOGENE (I.E., MIR-155, MIR-17-92, MIR-21, MIR-125B, MIR-93, MIR-143-P3, MIR-196B, AND MIR-223) IN LEUKEMIA. IT HAS BEEN SHOWN THAT DEREGULATION OF THESE MOLECULES ARE ASSOCIATED WITH THE INITIATION AND PROGRESSION OF LEUKEMIA. HENCE, MIRNAS COULD BE USED AS POTENTIAL THERAPEUTIC CANDIDATES IN THE TREATMENT OF PATIENTS WITH LEUKEMIA. MOREOVER, INCREASING EVIDENCE REVEALED THAT MIRNAS COULD BE USED AS DIAGNOSTIC AND PROGNOSTIC BIOMARKERS IN MONITORING PATIENTS IN EARLY STAGES OF DISEASE OR AFTER RECEIVED CHEMOTHERAPY REGIMEN. IT SEEMS THAT IDENTIFICATION AND DEVELOPMENT OF NEW MIRNAS COULD PAVE TO THE WAY TO THE DEVELOPMENT NEW THERAPEUTIC PLATFORMS FOR PATIENTS WITH LEUKEMIA. HERE, WE SUMMARIZED VARIOUS MIRNAS AS TUMOR SUPPRESSOR AND ONCOGENE WHICH COULD BE INTRODUCED AS THERAPEUTIC TARGETS IN TREATMENT OF LEUKEMIA. 2019 14 5495 29 REVIEW ON CIRCULAR RNAS AND NEW INSIGHTS INTO THEIR ROLES IN CANCER. CIRCULAR RNAS (CIRCRNAS) ARE A VERY INTERESTING CLASS OF CONSERVED SINGLE-STRANDED RNA MOLECULES DERIVED FROM EXONIC OR INTRONIC SEQUENCES BY PRECURSOR MRNA BACK-SPLICING. UNLIKE CANONICAL LINEAR RNAS, CIRCRNAS FORM COVALENTLY CLOSED, CONTINUOUS STABLE LOOPS WITHOUT A 5'END CAP AND 3'END POLY(A) TAIL, AND THEREFORE ARE RESISTANT TO EXONUCLEASE DIGESTION. THE MAJORITY OF CIRCRNAS ARE HIGHLY ABUNDANT, AND CONSERVED ACROSS DIFFERENT SPECIES WITH A TISSUE OR DEVELOPMENTAL-STAGE-SPECIFIC EXPRESSION. CIRCRNAS HAVE BEEN SHOWN TO PLAY IMPORTANT ROLES AS MICRORNA SPONGES, REGULATORS OF GENE SPLICING AND TRANSCRIPTION, RNA-BINDING PROTEIN SPONGES AND PROTEIN/PEPTIDE TRANSLATORS. EMERGING EVIDENCE REVEALS THAT CIRCRNAS FUNCTION IN VARIOUS HUMAN DISEASES, PARTICULARLY CANCERS, AND MAY FUNCTION AS BETTER PREDICTIVE BIOMARKERS AND THERAPEUTIC TARGETS FOR CANCER TREATMENT. IN CONSIDERATION OF THEIR POTENTIAL CLINICAL RELEVANCE, CIRCRNAS HAVE BECOME A NEW RESEARCH HOTSPOT IN THE FIELD OF TUMOR PATHOLOGY. IN THE PRESENT STUDY, THE CURRENT UNDERSTANDING OF THE BIOGENESIS, CHARACTERISTICS, DATABASES, RESEARCH METHODS, BIOLOGICAL FUNCTIONS SUBCELLULAR DISTRIBUTION, EPIGENETIC REGULATION, EXTRACELLULAR TRANSPORT AND DEGRADATION OF CIRCRNAS WAS DISCUSSED. IN PARTICULAR, THE MULTIPLE DATABASES AND METHODS INVOLVED IN CIRCRNA RESEARCH WERE FIRST SUMMARIZED, AND THE RECENT ADVANCES IN DETERMINING THE POTENTIAL ROLES OF CIRCRNAS IN TUMOR GROWTH, MIGRATION AND INVASION, WHICH RENDER CIRCRNAS BETTER PREDICTIVE BIOMARKERS, WERE DESCRIBED. FURTHERMORE, FUTURE PERSPECTIVES FOR THE CLINICAL APPLICATION OF CIRCRNAS IN THE MANAGEMENT OF PATIENTS WITH CANCER WERE PROPOSED, WHICH COULD PROVIDE NEW INSIGHTS INTO CIRCRNAS IN THE FUTURE. 2021 15 5264 26 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 16 5573 24 ROLE OF MICRORNA IN SEVERE ASTHMA. THE VARIOUS ROLES OF MICRORNAS (MIRNAS) IN THE EPIGENETIC REGULATION OF HUMAN DISEASE ARE GAINING IMPORTANCE AS AREAS OF RESEARCH, AND A BETTER UNDERSTANDING OF THESE ROLES MAY IDENTIFY TARGETS FOR DEVELOPMENT OF NOVEL THERAPIES FOR SEVERE ASTHMA. MIRNAS, A CLASS OF SMALL NON-CODING RNAS THAT SERVE AS POST-TRANSCRIPTIONAL GENE REPRESSORS, ARE RECOGNIZED AS CRITICAL COMPONENTS IN REGULATING TISSUE HOMEOSTASIS. ALTERATION IN MIRNA EXPRESSION DISRUPTS HOMEOSTASIS AND IS AN UNDERLYING MECHANISM FOR DEVELOPMENT OF CHRONIC RESPIRATORY DISEASES, INCLUDING ASTHMA. DIFFERENTIAL PROFILES OF MIRNA EXPRESSION ARE INVOLVED IN INFLAMMATION AND REMODELING PATHOGENICITY VIA ACTIVATING AIRWAY STRUCTURAL CELLS AND IMMUNE CELLS AND INDUCING CYTOKINE RELEASES. MIRNA ACTION LEADS TO ASTHMA PROGRESSION FROM MILD TO SEVERE STAGES. HERE, CURRENT KNOWLEDGE OF THE HETEROGENEOUS ROLES OF MIRNAS IN SEVERE ASTHMA, INCLUDING BIOLOGICAL MECHANISMS UNDERLYING TH2 AND MACROPHAGE POLARIZATION, TYPE 2 INNATE LYMPHOID CELL (ILC2) BIOLOGY REGULATION, STEROID-RESISTANT ASTHMA PHENOTYPE, AIRWAY SMOOTH MUSCLE (ASM) DYSFUNCTION, AND IMPAIRED ANTI-VIRAL INNATE IMMUNE, ARE REVIEWED. 2019 17 2876 28 FUNCTIONAL ROLES OF LONG NONCODING RNA MALAT1 IN GYNECOLOGIC CANCERS. GYNECOLOGIC CANCERS ARE REPRODUCTIVE DISORDERS CHARACTERIZED BY PELVIC PAIN AND INFERTILITY. THE IDENTIFICATION OF NEW PREDICTIVE MARKERS AND THERAPEUTIC TARGETS FOR THE TREATMENT OF GYNECOLOGIC CANCERS IS URGENTLY NECESSARY. ONE OF THE RECENT SUCCESSES IN GYNECOLOGIC CANCERS RESEARCH IS IDENTIFYING THE ROLE OF SIGNALING PATHWAYS IN THE PATHOGENESIS OF THE DISEASE. RECENT EXPERIMENTS SHOWED LONG NONCODING RNAS (LNCRNA) CAN BE NOVEL THERAPEUTIC APPROACHES FOR THE DIAGNOSIS AND TREATMENT OF GYNECOLOGIC CANCERS. LNCRNA ARE TRANSCRIBED RNA MOLECULES THAT PLAY PIVOTAL ROLES IN MULTIPLE BIOLOGICAL PROCESSES BY REGULATING THE DIFFERENT STEPS OF GENE EXPRESSION. METASTASIS-ASSOCIATED LUNG ADENOCARCINOMA TRANSCRIPT-1 (MALAT1) IS A WELL-KNOWN LNCRNA THAT PLAYS FUNCTIONAL ROLES IN GENE EXPRESSION, RNA PROCESSING, AND EPIGENETIC REGULATION. HIGH EXPRESSION OF MALAT1 IS CLOSELY RELATED TO NUMEROUS HUMAN DISEASES. IT IS GENERALLY BELIEVED THAT MALAT1 EXPRESSION IS ASSOCIATED WITH CANCER CELL GROWTH, AUTOPHAGY, INVASION, AND METASTASIS. MALAT1 BY TARGETING MULTIPLE SIGNALING PATHWAYS AND MICRORNAS (MIRNAS) COULD CONTRIBUTE TO THE PATHOGENESIS OF GYNECOLOGIC CANCERS. IN THIS REVIEW, WE WILL SUMMARIZE FUNCTIONAL ROLES OF MALAT1 IN THE MOST COMMON GYNECOLOGIC CANCERS, INCLUDING ENDOMETRIUM, BREAST, OVARY, AND CERVIX. 2023 18 4324 30 MICRORNAS IN RHEUMATOID ARTHRITIS: FROM PATHOGENESIS TO CLINICAL IMPACT. OVER THE LAST DECADE, MANY EPIGENETIC MECHANISMS THAT CONTRIBUTE IN THE PATHOGENESIS OF AUTOIMMUNE DISORDERS HAVE BEEN REVEALED. MICRORNAS (MIRNAS) ARE SMALL, NON-CODING, RNA MOLECULES THAT BIND TO MESSENGER RNAS AND DISRUPT THE TRANSCRIPTION OF TARGET GENES. RHEUMATOID ARTHRITIS (RA) IS A CHRONIC SYSTEMIC AUTOIMMUNE DISEASE IN WHICH A PLETHORA OF EPIGENETIC CHANGES TAKE PLACE. CURRENT RESEARCH ON RA EPIGENETICS HAS FOCUSED MAINLY ON MIRNAS. GENETIC VARIANCE OF SOME MIRNA GENES, ESPECIALLY MIR-499, MIGHT PREDISPOSE AN INDIVIDUAL TO RA DEVELOPMENT. ADDITIONALLY, ALTERED EXPRESSION OF MANY MIRNAS HAS BEEN DISCOVERED IN SEVERAL CELLS, TISSUES AND BODY FLUIDS IN PATIENTS WITH RA. MIRNAS EXPRESSION ALSO DIFFERS DEPENDING ON DISEASE'S STAGE AND ACTIVITY. SERUM MIR-22 AND MIR-103A MIGHT PREDICT RA DEVELOPMENT IN SUSCEPTIBLE INDIVIDUALS (PRE-RA), WHILE SERUM MIR-16, MIR-24, MIR-125A AND MIR-223 LEVELS ARE ALTERED IN EARLY RA (DISEASE DURATION <12 MONTHS) PATIENTS COMPARED TO ESTABLISHED RA OR HEALTHY INDIVIDUALS. MOREOVER, SERUM MIR-223 LEVELS HAVE BEEN ASSOCIATED WITH RA ACTIVITY AND DISEASE RELAPSE. WHAT IS MORE, SERUM LEVELS OF SEVERAL MIRNAS, INCLUDING MIR-125B AND MIR-223, COULD BE USED TO PREDICT RESPONSE TO RA TREATMENT. FINALLY, MIRNA ANALOGS OR ANTAGONISTS HAVE BEEN USED AS THERAPEUTIC REGIMENS IN EXPERIMENTAL ARTHRITIS MODELS AND HAVE DEMONSTRATED PROMISING RESULTS. IN CONCLUSION, THE RESEARCH ON THE MIRNA ALTERATIONS IN RA SHEDS LIGHT TO SEVERAL ASPECTS OF RA PATHOGENESIS, INTRODUCES NEW BIOMARKERS FOR RA DIAGNOSIS AND TREATMENT RESPONSE PREDICTION AND OFFERS THE OPPORTUNITY TO DISCOVER NEW, TARGETED DRUGS FOR PATIENTS WITH RA. 2019 19 4336 25 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 20 4335 38 MICRORNAS: SMALL MOLECULES WITH SIGNIFICANT FUNCTIONS, PARTICULARLY IN THE CONTEXT OF VIRAL HEPATITIS B AND C INFECTION. A MICRORNA (MIRNA) IS DEFINED AS A SMALL MOLECULE OF NON-CODING RNA (NCRNA). ITS MOLECULAR SIZE IS ABOUT 20 NUCLEOTIDES (NT), AND IT ACTS ON GENE EXPRESSION'S REGULATION AT THE POST-TRANSCRIPTION LEVEL THROUGH BINDING TO THE 3'UNTRANSLATED REGIONS (UTR), CODING SEQUENCES, OR 5'UTR OF THE TARGET MESSENGER RNAS (MRNAS), WHICH LEADS TO THE SUPPRESSION OR DEGRADATION OF THE MRNA. IN RECENT YEARS, A HUGE EVOLUTION HAS IDENTIFIED THE ORIGIN AND FUNCTION OF MIRNAS, FOCUSING ON THEIR IMPORTANT EFFECTS IN RESEARCH AND CLINICAL APPLICATIONS. FOR EXAMPLE, MICRORNAS ARE KEY PLAYERS IN HCV INFECTION AND HAVE IMPORTANT HOST CELLULAR FACTORS REQUIRED FOR HCV REPLICATION AND CELL GROWTH. ALTERED EXPRESSION OF MIRNAS AFFECTS THE PATHOGENICITY ASSOCIATED WITH HCV INFECTION THROUGH REGULATING DIFFERENT SIGNALING PATHWAYS THAT CONTROL HCV/IMMUNITY INTERACTIONS, PROLIFERATION, AND CELL DEATH. ON THE OTHER HAND, CIRCULATING MIRNAS CAN BE USED AS NOVEL BIOMARKERS AND DIAGNOSTIC TOOLS FOR HCV PATHOGENESIS AND EARLY THERAPEUTIC RESPONSE. MOREOVER, MICRORNAS (MIRNA) HAVE BEEN INVOLVED IN HEPATITIS B VIRUS (HBV) GENE EXPRESSION AND ADVANCED ANTIVIRAL DISCOVERY. THEY REGULATE HBV/HCV REPLICATION AND PATHOGENESIS WITH DIFFERENT PATHWAYS INVOLVING FACILITATION, INHIBITION, ACTIVATION OF THE IMMUNE SYSTEM (INNATE AND ADAPTIVE), AND EPIGENETIC MODIFICATIONS. IN THIS SHORT REVIEW, WE WILL DISCUSS HOW MICRORNAS CAN BE USED AS PROGNOSTIC, DIAGNOSTIC, AND THERAPEUTIC TOOLS, ESPECIALLY FOR CHRONIC HEPATITIS VIRUSES (HBV AND HCV), AS WELL AS HOW THEY COULD BE USED AS NEW BIOMARKERS DURING INFECTION AND ADVANCED TREATMENT. 2023