1 1020 94 CIRCRNAS IN ATHEROSCLEROSIS, WITH SPECIAL EMPHASIS ON THE SPONGY EFFECT OF CIRCRNAS ON MIRNAS. ATHEROSCLEROSIS (AS) IS A CHRONIC INFLAMMATORY DISEASE, WHICH LEADS TO ATHEROSCLEROTIC RUPTURE, LUMEN STENOSIS AND THROMBOSIS, AND OFTEN ENDANGERS LIFE. CIRCULAR RNAS (CIRCRNAS) ARE A SPECIAL CLASS OF NON-CODING RNA MOLECULES, WHOSE ABNORMAL EXPRESSION HAS BEEN PROVED TO BE CLOSELY RELATED TO HUMAN DISEASES, INCLUDING AS. BOTH THE ABNORMAL REGULATION OF CIRCRNAS AND THE SPONGING EFFECT ON MIRNAS WOULD LEAD TO CHANGES IN GENE EXPRESSION IN THE FORM OF EPIGENETIC MODIFICATION, ULTIMATELY LEADING TO THE FORMATION OF AS. CIRCRNAS CAN BE USED AS PERIPHERAL BLOOD MARKERS OF AS, AND PLAY AN IMPORTANT REGULATORY ROLE IN THE PROLIFERATION, MIGRATION, INFLAMMATION AND APOPTOSIS OF VASCULAR SMOOTH MUSCLE CELLS, ENDOTHELIAL CELLS AND MACROPHAGE, WHICH ARE KEY CELLS FOR THE DEVELOPMENT OF AS. THE IN-DEPTH UNDERSTANDING OF CIRCRNAS IN AS NOT ONLY PROVIDES A NEW METHOD FOR THE DIAGNOSIS OF AS, BUT ALSO PROVIDES A NEW IDEA FOR THE TREATMENT OF AS. 2023 2 3772 31 INTERACTION BETWEEN MICRORNA AND DNA METHYLATION IN ATHEROSCLEROSIS. ATHEROSCLEROSIS (AS) IS A CHRONIC INFLAMMATORY DISEASE ACCOMPANIED BY COMPLEX PATHOLOGICAL CHANGES, SUCH AS ENDOTHELIAL DYSFUNCTION, FOAM CELL FORMATION, AND VASCULAR SMOOTH MUSCLE CELL PROLIFERATION. MANY APPROACHES, INCLUDING REGULATING AS-RELATED GENE EXPRESSION IN THE TRANSCRIPTIONAL OR POST-TRANSCRIPTIONAL LEVEL, CONTRIBUTE TO ALLEVIATING AS DEVELOPMENT. THE DNA METHYLATION IS A CRUCIAL EPIGENETIC MODIFICATION IN REGULATING CELL FUNCTION BY SILENCING THE RELATIVE GENE EXPRESSION. THE MICRORNA (MIRNA) IS A TYPE OF NONCODING RNA THAT PLAYS AN IMPORTANT ROLE IN GENE POST-TRANSCRIPTIONAL REGULATION AND DISEASE DEVELOPMENT. THE DNA METHYLATION AND THE MIRNA ARE IMPORTANT EPIGENETIC FACTORS IN AS. HOWEVER, RECENT STUDIES HAVE FOUND A MUTUAL REGULATION BETWEEN THESE TWO FACTORS IN AS DEVELOPMENT. IN THIS STUDY, RECENT INSIGHTS INTO THE ROLES OF MIRNA AND DNA METHYLATION AND THEIR INTERACTION IN THE AS PROGRESSION ARE REVIEWED. 2021 3 2532 29 EPIGENETICS IN ATHEROSCLEROSIS AND INFLAMMATION. ATHEROSCLEROSIS IS A MULTIFACTORIAL DISEASE WITH A SEVERE BURDEN ON WESTERN SOCIETY. RECENT INSIGHTS INTO THE PATHOGENESIS OF ATHEROSCLEROSIS UNDERSCORE THE IMPORTANCE OF CHRONIC INFLAMMATION IN BOTH THE INITIATION AND PROGRESSION OF VASCULAR REMODELLING. EXPRESSION OF IMMUNOREGULATORY MOLECULES BY VASCULAR WALL COMPONENTS WITHIN THE ATHEROSCLEROTIC LESIONS IS ACCORDINGLY THOUGHT TO CONTRIBUTE TO THE ONGOING INFLAMMATORY PROCESS. BESIDES GENE REGULATORY PROTEINS (TRANSCRIPTION FACTORS), EPIGENETIC MECHANISMS ALSO PLAY AN ESSENTIAL AND FUNDAMENTAL ROLE IN THE TRANSCRIPTIONAL CONTROL OF GENE EXPRESSION. THESE EPIGENETIC MECHANISMS CHANGE THE ACCESSIBILITY OF CHROMATIN BY DNA METHYLATION AND HISTONE MODIFICATIONS. EPIGENETIC MODULATORS ARE THUS CRITICALLY INVOLVED IN THE REGULATION OF VASCULAR, IMMUNE AND TISSUE-SPECIFIC GENE EXPRESSION WITHIN THE ATHEROSCLEROTIC LESION. IMPORTANTLY, EPIGENETIC PROCESSES ARE REVERSIBLE AND MAY PROVIDE AN EXCELLENT THERAPEUTIC TARGET. THE CONCEPT OF EPIGENETIC REGULATION IS GRADUALLY BEING RECOGNIZED AS AN IMPORTANT FACTOR IN THE PATHOGENESIS OF ATHEROSCLEROSIS. RECENT RESEARCH PROVIDES AN ESSENTIAL LINK BETWEEN INFLAMMATION AND REPROGRAMMING OF THE EPIGENOME. IN THIS REVIEW WE THEREFORE DISCUSS THE BASIS OF EPIGENETIC REGULATION - AND THE CONTRIBUTION THEREOF IN THE REGULATION OF INFLAMMATORY PROCESSES IN GENERAL AND DURING ATHEROSCLEROSIS IN PARTICULAR. MOREOVER WE HIGHLIGHT POTENTIAL THERAPEUTIC INTERVENTIONS BASED ON EPIGENETIC MECHANISMS. 2010 4 5264 27 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 5 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 6 4289 24 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 7 2341 27 EPIGENETIC REGULATION OF LIVER FIBROSIS. FIBROSIS IS A COMMON AND IMPORTANT PATHOLOGY ASSOCIATED WITH PROGRESSIVE CHRONIC LIVER DISEASES AND UNDERLIES THE DEVELOPMENT OF CIRRHOSIS AND HEPATOCELLULAR CARCINOMA. RESEARCH INTO THE MOLECULAR REGULATION OF FIBROSIS HAS DISCOVERED THAT IT IS UNDER THE CONTROL OF A NUMBER OF EPIGENETIC MECHANISMS INCLUDING DNA METHYLATION, HISTONE MODIFICATIONS AND THE ACTIVITIES OF NON-CODING RNAS. A DEEPER UNDERSTANDING OF HOW EPIGENETIC REGULATORS SUCH AS DNA METHYLTRANSERASES, METHYL-DNA BINDING PROTEINS, HISTONE MODIFYING ENZYMES AND REGULATORY RNA MOLECULES IMPACT ON THE FIBROGENIC PROCESS IS EXPECTED TO RESULT IN NEW BIOMARKERS FOR DISEASE PROGRESSION AS WELL AS NOVEL THERAPEUTIC TARGETS. THE AIM OF THIS MINI-REVIEW IS TO BRIEFLY INTRODUCE THE READER TO THE MAJOR EPIGENETIC REGULATORS SO FAR IDENTIFIED AS BEING IMPLICATED IN FIBROSIS. 2015 8 4668 34 NEW INSIGHTS INTO MOLECULAR MECHANISMS OF EPIGENETIC REGULATION IN KIDNEY DISEASE. THE NUMBER OF PATIENTS WITH KIDNEY FAILURE HAS INCREASED IN RECENT YEARS. DIFFERENT FACTORS CONTRIBUTE TO THE PROGRESSION OF CHRONIC KIDNEY DISEASE, INCLUDING GLOMERULAR SCLEROSIS, ATHEROSCLEROSIS OF THE RENAL ARTERIES AND TUBULOINTERSTITIAL FIBROSIS. TUBULOINTERSTITIAL INJURY IS INDUCED BY HYPOXIA AND OTHER INFLAMMATORY SIGNALS, LEADING TO FIBROBLAST ACTIVATION. TECHNOLOGICAL ADVANCES USING HIGH-THROUGHPUT SEQUENCING HAS ENABLED THE DETERMINATION OF THE EXPRESSION PROFILE OF ALMOST ALL GENES, REVEALING THAT GENE EXPRESSION IS INTRICATELY REGULATED BY DNA METHYLATION, HISTONE MODIFICATION, CHANGES IN CHROMOSOME CONFORMATION, LONG NON-CODING RNAS AND MICRORNAS. THESE EPIGENETIC MODIFICATIONS ARE STORED AS CELLULAR EPIGENETIC MEMORY. EPIGENETIC MEMORY LEADS TO ADULT-ONSET DISEASE OR AGEING IN THE LONG TERM AND MAY POSSIBLY PLAY AN IMPORTANT ROLE IN THE KIDNEY DISEASE PROCESS. HEREIN WE EMPHASIZE THE IMPORTANCE OF CLARIFYING THE MOLECULAR MECHANISMS UNDERLYING EPIGENETIC MODIFICATIONS BECAUSE THIS MAY LEAD TO THE DEVELOPMENT OF NEW THERAPEUTIC TARGETS IN KIDNEY DISEASE. 2016 9 4451 25 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 10 4318 26 MICRORNAS IN ANKYLOSING SPONDYLITIS: FUNCTION, POTENTIAL AND CHALLENGES. EPIGENETIC MECHANISMS SUCH AS DNA METHYLATION, HISTONE MODIFICATIONS AND NON-CODING RNA, ARE CONSIDERED THE ESSENTIAL CONNECTION BETWEEN A DISORDER'S ONSET AND THE ENVIRONMENT, ON A PERMISSIVE GENETIC BACKGROUND. AMONG AUTOIMMUNE AND INFLAMMATORY-MEDIATED DISORDERS, ANKYLOSING SPONDYLITIS (AS), A CHRONIC ARTHRITIS OF THE SPINE, IS A VERY GOOD EXAMPLE FOR THE WEIGHT OF EPIGENETICS' CONTRIBUTION. MICRORNAS (MIRNAS) ARE SINGLE-STRANDED NUCLEOTIDES WHICH REGULATE GENE EXPRESSION AND ARE INVOLVED IN PATHOLOGICAL AND PHYSIOLOGICAL PROCESSES. IN THIS MANUSCRIPT WE PROVIDE A CLARIFICATION ON THE ROLE OF MICRORNAS IN AS, WITH A FOCUS ON THE MECHANISMS OF PATHOGENESIS. IN SPECIFIC, WE HAVE EXAMINED THE CONTRIBUTION OF MIRNAS IN THE PROCESSES OF INFLAMMATION, NEW BONE FORMATION AND T-CELL FUNCTION, AND THE PATHWAYS (I.E. WNT, BMP, TGFBETA SIGNALLING ETC.) THEY REGULATE. THE UTILITY OF MIRNAS IN BETTER UNDERSTANDING AS PATHOGENESIS IS UNDISPUTED AND THEIR UTILITY AS THERAPEUTIC OPPORTUNITY IS STRONGLY INCREASING. 2020 11 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 12 2289 20 EPIGENETIC REGULATION IN MONOCYTE/MACROPHAGE: A KEY PLAYER DURING ATHEROSCLEROSIS. ATHEROSCLEROSIS IS A CHRONIC INFLAMMATORY DISEASE. RECENTLY, A GROWING BODY OF EVIDENCE EMPHASIZES THAT THE MONOCYTE AND MACROPHAGE DIFFERENTIATION AND ACTIVATION ARE KEY PROCESSES IN THE DEVELOPMENT OF ATHEROSCLEROSIS. HOWEVER, THE REGULATORY MECHANISM THAT MANIPULATES THE FUNCTION OF MONOCYTE AND MACROPHAGE IS STILL UNCLEAR. RECENT YEARS, EPIGENETIC MECHANISMS HAVE RECEIVED A WIDE ATTENTION AND BRING US A NEW FIELD OF VISION. MORE AND MORE EVIDENCE SHOWS THAT EPIGENETICS WEIGHS HEAVILY IN ATHEROSCLEROSIS BY REGULATING THE FUNCTION AND DIFFERENTIATION STATES OF MONOCYTE AND MACROPHAGE. IN THIS REVIEW, WE ILLUMINATE THE EPIGENETIC REGULATION MECHANISMS IN MONOCYTE AND MACROPHAGE AND THEIR CONTRIBUTIONS TO INFLAMMATORY PROCESSES OF ATHEROSCLEROSIS TO PROVIDE NEW THOUGHTS AND FIND NOVEL TARGETS OR BIOMARKERS FOR ATHEROSCLEROSIS. 2017 13 5933 42 TARGETING EPIGENETICS AND NON-CODING RNAS IN ATHEROSCLEROSIS: FROM MECHANISMS TO THERAPEUTICS. ATHEROSCLEROSIS, THE PRINCIPAL CAUSE OF CARDIOVASCULAR DEATH WORLDWIDE, IS A PATHOLOGICAL DISEASE CHARACTERIZED BY FIBRO-PROLIFERATION, CHRONIC INFLAMMATION, LIPID ACCUMULATION, AND IMMUNE DISORDER IN THE VESSEL WALL. AS THE ATHEROMATOUS PLAQUES DEVELOP INTO ADVANCED STAGE, THE VULNERABLE PLAQUES ARE PRONE TO RUPTURE, WHICH CAUSES ACUTE CARDIOVASCULAR EVENTS, INCLUDING ISCHEMIC STROKE AND MYOCARDIAL INFARCTION. EMERGING EVIDENCE HAS SUGGESTED THAT ATHEROSCLEROSIS IS ALSO AN EPIGENETIC DISEASE WITH THE INTERPLAY OF MULTIPLE EPIGENETIC MECHANISMS. THE EPIGENETIC BASIS OF ATHEROSCLEROSIS HAS TRANSFORMED OUR KNOWLEDGE OF EPIGENETICS FROM AN IMPORTANT BIOLOGICAL PHENOMENON TO A BURGEONING FIELD IN CARDIOVASCULAR RESEARCH. HERE, WE PROVIDE A SYSTEMATIC AND UP-TO-DATE OVERVIEW OF THE CURRENT KNOWLEDGE OF THREE DISTINCT BUT INTERRELATED EPIGENETIC PROCESSES (INCLUDING DNA METHYLATION, HISTONE METHYLATION/ACETYLATION, AND NON-CODING RNAS), IN ATHEROSCLEROTIC PLAQUE DEVELOPMENT AND INSTABILITY. MECHANISTIC AND CONCEPTUAL ADVANCES IN UNDERSTANDING THE BIOLOGICAL ROLES OF VARIOUS EPIGENETIC MODIFIERS IN REGULATING GENE EXPRESSION AND FUNCTIONS OF ENDOTHELIAL CELLS (VASCULAR HOMEOSTASIS, LEUKOCYTE ADHESION, ENDOTHELIAL-MESENCHYMAL TRANSITION, ANGIOGENESIS, AND MECHANOTRANSDUCTION), SMOOTH MUSCLE CELLS (PROLIFERATION, MIGRATION, INFLAMMATION, HYPERTROPHY, AND PHENOTYPIC SWITCH), AND MACROPHAGES (DIFFERENTIATION, INFLAMMATION, FOAM CELL FORMATION, AND POLARIZATION) ARE DISCUSSED. THE INHERENTLY DYNAMIC NATURE AND REVERSIBILITY OF EPIGENETIC REGULATION, ENABLES THE POSSIBILITY OF EPIGENETIC THERAPY BY TARGETING EPIGENETIC "WRITERS", "READERS", AND "ERASERS". SEVERAL FOOD DRUG ADMINISTRATION-APPROVED SMALL-MOLECULE EPIGENETIC DRUGS SHOW PROMISE IN PRE-CLINICAL STUDIES FOR THE TREATMENT OF ATHEROSCLEROSIS. FINALLY, WE DISCUSS POTENTIAL THERAPEUTIC IMPLICATIONS AND CHALLENGES FOR FUTURE RESEARCH INVOLVING CARDIOVASCULAR EPIGENETICS, WITH AN AIM TO PROVIDE A TRANSLATIONAL PERSPECTIVE FOR IDENTIFYING NOVEL BIOMARKERS OF ATHEROSCLEROSIS, AND TRANSFORMING PRECISION CARDIOVASCULAR RESEARCH AND DISEASE THERAPY IN MODERN ERA OF EPIGENETICS. 2019 14 6131 32 THE EPIGENETIC REGULATION OF WOUND HEALING. SIGNIFICANCE: EPIGENETIC REGULATORY MECHANISMS ARE ESSENTIAL FOR EPIDERMAL HOMEOSTASIS AND CONTRIBUTE TO THE PATHOGENESIS OF MANY SKIN DISEASES, INCLUDING SKIN CANCER AND PSORIASIS. HOWEVER, WHILE THE EPIGENETIC REGULATION OF EPIDERMAL HOMEOSTASIS IS NOW BECOMING ACTIVE AREA OF RESEARCH, THE EPIGENETIC MECHANISMS CONTROLLING THE WOUND HEALING RESPONSE REMAIN RELATIVELY UNTOUCHED. RECENT ADVANCES: SUBSTANTIAL PROGRESS ACHIEVED WITHIN THE LAST TWO DECADES IN UNDERSTANDING EPIGENETIC MECHANISMS CONTROLLING GENE EXPRESSION ALLOWED DEFINING SEVERAL LEVELS, INCLUDING COVALENT DNA AND HISTONE MODIFICATIONS, ATP-DEPENDENT AND HIGHER-ORDER CHROMATIN CHROMATIN REMODELING, AS WELL AS NONCODING RNA- AND MICRORNA-DEPENDENT REGULATION. RESEARCH PERTAINED OVER THE LAST FEW YEARS SUGGESTS THAT EPIGENETIC REGULATORY MECHANISMS PLAY A PIVOTAL ROLE IN THE REGULATION OF SKIN REGENERATION AND CONTROL AN EXECUTION OF REPARATIVE GENE EXPRESSION PROGRAMS IN BOTH SKIN EPITHELIUM AND MESENCHYME. CRITICAL ISSUES: EPIGENETIC REGULATORS APPEAR TO BE INHERENTLY INVOLVED IN THE PROCESSES OF SKIN REPAIR, AND ARE ABLE TO DYNAMICALLY REGULATE KERATINOCYTE PROLIFERATION, DIFFERENTIATION, AND MIGRATION, TOGETHER WITH INFLUENCING DERMAL REGENERATION AND NEOANGIOGENESIS. THIS IS ACHIEVED THROUGH A SERIES OF COMPLEX REGULATORY MECHANISMS THAT ARE ABLE TO BOTH STIMULATE AND REPRESS GENE ACTIVATION TO TRANSIENTLY ALTER CELLULAR PHENOTYPE AND BEHAVIOR, AND INTERACT WITH GROWTH FACTOR ACTIVITY. FUTURE DIRECTIONS: UNDERSTANDING THE MOLECULAR BASIS OF EPIGENETIC REGULATION IS A PRIORITY AS IT REPRESENTS POTENTIAL THERAPEUTIC TARGETS FOR THE TREATMENT OF BOTH ACUTE AND CHRONIC SKIN CONDITIONS. FUTURE RESEARCH IS, THEREFORE, IMPERATIVE TO HELP DISTINGUISH EPIGENETIC MODULATING DRUGS THAT CAN BE USED TO IMPROVE WOUND HEALING. 2014 15 5932 28 TARGETING EPIGENETIC REGULATORS FOR INFLAMMATION: MECHANISMS AND INTERVENTION THERAPY. EMERGING EVIDENCE INDICATES THAT RESOLUTION OF INFLAMMATION IS A CRITICAL AND DYNAMIC ENDOGENOUS PROCESS FOR HOST TISSUES DEFENDING AGAINST EXTERNAL INVASIVE PATHOGENS OR INTERNAL TISSUE INJURY. IT HAS LONG BEEN KNOWN THAT AUTOIMMUNE DISEASES AND CHRONIC INFLAMMATORY DISORDERS ARE CHARACTERIZED BY DYSREGULATED IMMUNE RESPONSES, LEADING TO EXCESSIVE AND UNCONTROL TISSUE INFLAMMATION. THE DYSREGULATION OF EPIGENETIC ALTERATIONS INCLUDING DNA METHYLATION, POSTTRANSLATIONAL MODIFICATIONS TO HISTONE PROTEINS, AND NONCODING RNA EXPRESSION HAS BEEN IMPLICATED IN A HOST OF INFLAMMATORY DISORDERS AND THE IMMUNE SYSTEM. THE INFLAMMATORY RESPONSE IS CONSIDERED AS A CRITICAL TRIGGER OF EPIGENETIC ALTERATIONS THAT IN TURN INTERCEDE INFLAMMATORY ACTIONS. THUS, UNDERSTANDING THE MOLECULAR MECHANISM THAT DICTATES THE OUTCOME OF TARGETING EPIGENETIC REGULATORS FOR INFLAMMATORY DISEASE IS REQUIRED FOR INFLAMMATION RESOLUTION. IN THIS ARTICLE, WE ELUCIDATE THE CRITICAL ROLE OF THE NUCLEAR FACTOR-KAPPAB SIGNALING PATHWAY, JAK/STAT SIGNALING PATHWAY, AND THE NLRP3 INFLAMMASOME IN CHRONIC INFLAMMATORY DISEASES. AND WE FORMULATE THE RELATIONSHIP BETWEEN INFLAMMATION, CORONAVIRUS DISEASE 2019, AND HUMAN CANCERS. ADDITIONALLY, WE REVIEW THE MECHANISM OF EPIGENETIC MODIFICATIONS INVOLVED IN INFLAMMATION AND INNATE IMMUNE CELLS. ALL THAT MATTERS IS THAT WE PROPOSE AND DISCUSS THE REJUVENATION POTENTIAL OF INTERVENTIONS THAT TARGET EPIGENETIC REGULATORS AND REGULATORY MECHANISMS FOR CHRONIC INFLAMMATION-ASSOCIATED DISEASES TO IMPROVE THERAPEUTIC OUTCOMES. 2022 16 2283 29 EPIGENETIC REGULATION IN FIBROSIS PROGRESS. FIBROSIS, A COMMON PROCESS OF CHRONIC INFLAMMATORY DISEASES, IS DEFINED AS A REPAIR RESPONSE DISORDER WHEN ORGANS UNDERGO CONTINUOUS DAMAGE, ULTIMATELY LEADING TO SCAR FORMATION AND FUNCTIONAL FAILURE. AROUND THE WORLD, FIBROTIC DISEASES CAUSE HIGH MORTALITY, UNFORTUNATELY, WITH LIMITED TREATMENT MEANS IN CLINICAL PRACTICE. WITH THE DEVELOPMENT AND APPLICATION OF DEEP SEQUENCING TECHNOLOGY, COMPREHENSIVELY EXPLORING THE EPIGENETIC MECHANISM IN FIBROSIS HAS BEEN ALLOWED. EXTENSIVE REMODELING OF EPIGENETICS CONTROLLING VARIOUS CELLS PHENOTYPE AND MOLECULAR MECHANISMS INVOLVED IN FIBROGENESIS WAS SUBSEQUENTLY VERIFIED. IN THIS REVIEW, WE SUMMARIZE THE REGULATORY MECHANISMS OF DNA METHYLATION, HISTONE MODIFICATION, NONCODING RNAS (NCRNAS) AND N6-METHYLADENOSINE (M6A) MODIFICATION IN ORGAN FIBROSIS, FOCUSING ON HEART, LIVER, LUNG AND KIDNEY. ADDITIONALLY, WE EMPHASIZE THE DIVERSITY OF EPIGENETICS IN THE CELLULAR AND MOLECULAR MECHANISMS RELATED TO FIBROSIS. FINALLY, THE POTENTIAL AND PROSPECT OF TARGETED THERAPY FOR FIBROSIS BASED ON EPIGENETIC IS DISCUSSED. 2021 17 2291 21 EPIGENETIC REGULATION IN PATHOLOGY OF ATHEROSCLEROSIS: A NOVEL PERSPECTIVE. ATHEROSCLEROSIS, CHARACTERIZED BY ATHEROSCLEROTIC PLAQUES, IS A COMPLEX PATHOLOGICAL PROCESS THAT INVOLVES DIFFERENT CELL TYPES AND CAN BE SEEN AS A CHRONIC INFLAMMATORY DISEASE. IN THE ADVANCED STAGE, THE RUPTURED ATHEROSCLEROTIC PLAQUE CAN INDUCE DEADLY ACCIDENTS INCLUDING ISCHEMIC STROKE AND MYOCARDIAL INFARCTION. EPIGENETICS REGULATION, INCLUDING DNA METHYLATION, HISTONE MODIFICATION, AND NON-CODING RNA MODIFICATION. MAINTAINS CELLULAR IDENTITY VIA AFFECTING THE CELLULAR TRANSCRIPTOME. THE EPIGENETIC MODIFICATION PROCESS, MEDIATING BY EPIGENETIC ENZYMES, IS DYNAMIC UNDER VARIOUS STIMULI, WHICH CAN BE REVERSELY ALTERED. RECENTLY, NUMEROUS STUDIES HAVE EVIDENCED THE CLOSE RELATIONSHIP BETWEEN ATHEROSCLEROSIS AND EPIGENETIC REGULATIONS IN ATHEROSCLEROSIS, PROVIDING US WITH A NOVEL PERSPECTIVE IN RESEARCHING MECHANISMS AND FINDING NOVEL THERAPEUTIC TARGETS OF THIS SERIOUS DISEASE. HERE, WE CRITICALLY REVIEW THE RECENT DISCOVERIES BETWEEN EPIGENETIC REGULATION MECHANISMS IN ATHEROSCLEROSIS. 2021 18 3640 25 INCREASED EXTRACELLULAR MATRIX PROTEIN PRODUCTION IN CHRONIC DIABETIC COMPLICATIONS: IMPLICATIONS OF NON-CODING RNAS. MANAGEMENT OF CHRONIC DIABETIC COMPLICATIONS REMAINS A MAJOR MEDICAL CHALLENGE WORLDWIDE. ONE OF THE CHARACTERISTIC FEATURES OF ALL CHRONIC DIABETIC COMPLICATIONS IS AUGMENTED PRODUCTION OF EXTRACELLULAR MATRIX (ECM) PROTEINS. SUCH ECM PROTEINS ARE DEPOSITED IN ALL TISSUES AFFECTED BY CHRONIC COMPLICATIONS, ULTIMATELY CAUSING ORGAN DAMAGE AND DYSFUNCTION. A CONTRIBUTING FACTOR TO THIS PATHOGENETIC PROCESS IS GLUCOSE-INDUCED ENDOTHELIAL DAMAGE, WHICH INVOLVES PHENOTYPIC TRANSFORMATION OF ENDOTHELIAL CELLS (ECS). THIS PHENOTYPIC TRANSITION OF ECS, FROM A QUIESCENT STATE TO AN ACTIVATED DYSFUNCTIONAL STATE, CAN BE MEDIATED THROUGH ALTERATIONS IN THE SYNTHESIS OF CELLULAR PROTEINS. IN THIS REVIEW, WE DISCUSSED THE ROLES OF NON-CODING RNAS, SPECIFICALLY MICRORNAS (MIRNAS) AND LONG NON-CODING RNAS (LNCRNAS), IN SUCH PROCESSES. WE FURTHER OUTLINED OTHER EPIGENETIC MECHANISMS REGULATING THE BIOGENESIS AND/OR FUNCTION OF NON-CODING RNAS. OVERALL, WE BELIEVE THAT BETTER UNDERSTANDING OF SUCH MOLECULAR PROCESSES MAY LEAD TO THE DEVELOPMENT OF NOVEL BIOMARKERS AND THERAPEUTIC STRATEGIES IN THE FUTURE. 2019 19 5406 29 REGULATING THE REGULATORS: MICRORNA AND ASTHMA. ONE OBSTACLE TO DEVELOPING AN EFFECTIVE THERAPEUTIC STRATEGY TO TREAT OR PREVENT ASTHMA IS THAT THE FUNDAMENTAL CAUSES OF ASTHMA ARE NOT TOTALLY UNDERSTOOD. ASTHMA IS THOUGHT TO BE A CHRONIC TH2 IMMUNE-MEDIATED INFLAMMATORY DISEASE. EPIGENETIC CHANGES ARE RECOGNIZED TO PLAY A ROLE IN THE INITIATION AND MAINTENANCE OF A TH2 RESPONSE. MICRORNAS (MIRNAS) ARE KEY EPIGENETIC REGULATORS OF GENE EXPRESSION, AND THEIR EXPRESSION IS HIGHLY REGULATED, THEREFORE, DEREGULATION OF MIRNAS MAY PLAY AN IMPORTANT ROLE IN THE PATHOGENESIS OF ASTHMA. PROFILING CIRCULATING MIRNA MIGHT PROVIDE THE HIGHEST SPECIFICITY AND SENSITIVITY TO DIAGNOSE ASTHMA; SIMILARLY, CORRECTING POTENTIAL DEFECTS IN THE MIRNA REGULATION NETWORK MAY LEAD TO NEW THERAPEUTIC MODALITIES TO TREAT THIS DISEASE. 2011 20 4285 39 MICRORNA EPIGENETIC SIGNATURES IN HUMAN DISEASE. MICRORNAS (MIRNAS) ARE SHORT NON-CODING RNAS THAT ACT AS IMPORTANT REGULATORS OF GENE EXPRESSION AS PART OF THE EPIGENETIC MACHINERY. IN ADDITION TO POSTTRANSCRIPTIONAL GENE SILENCING BY MIRNAS, THE EPIGENETIC MECHANISMS ALSO INCLUDE DNA METHYLATION, HISTONE MODIFICATIONS AND THEIR CROSSTALK. EPIGENETIC MODIFICATIONS WERE REPORTED TO PLAY AN IMPORTANT ROLE IN MANY DISEASE ONSETS AND PROGRESSIONS AND CAN BE USED TO EXPLAIN SEVERAL FEATURES OF COMPLEX DISEASES, SUCH AS LATE ONSET AND FLUCTUATION OF SYMPTOMS. HOWEVER, MIRNAS NOT ONLY FUNCTION AS A PART OF EPIGENETIC MACHINERY, BUT ARE ALSO EPIGENETICALLY MODIFIED BY DNA METHYLATION AND HISTONE MODIFICATION LIKE ANY OTHER PROTEIN-CODING GENE. THERE IS A STRONG CONNECTION BETWEEN EPIGENOME AND MIRNOME, AND ANY DYSREGULATION OF THIS COMPLEX SYSTEM CAN RESULT IN VARIOUS PHYSIOLOGICAL AND PATHOLOGICAL CONDITIONS. IN ADDITION, MIRNAS PLAY AN IMPORTANT ROLE IN TOXICOGENOMICS AND MAY EXPLAIN THE RELATIONSHIP BETWEEN TOXICANT EXPOSURE AND TUMORIGENESIS. THE PRESENT REVIEW PROVIDES INFORMATION ON 63 MIRNA GENES SHOWN TO BE EPIGENETICALLY REGULATED IN ASSOCIATION WITH 21 DISEASES, INCLUDING 11 CANCER TYPES: CARDIAC FIBROSIS, CARDIOVASCULAR DISEASE, PREECLAMPSIA, HIRSCHSPRUNG'S DISEASE, RHEUMATOID ARTHRITIS, SYSTEMIC SCLEROSIS, SYSTEMIC LUPUS ERYTHEMATOSUS, TEMPORAL LOBE EPILEPSY, AUTISM, PULMONARY FIBROSIS, MELANOMA, ACUTE MYELOID LEUKEMIA, CHRONIC LYMPHOCYTIC LEUKEMIA, COLORECTAL, GASTRIC, CERVICAL, OVARIAN, PROSTATE, LUNG, BREAST, AND BLADDER CANCER. THE REVIEW REVEALED THAT HSA-MIR-34A, HSA-MIR-34B, AND HSA-MIR-34C ARE THE MOST FREQUENTLY REPORTED EPIGENETICALLY DYSREGULATED MIRNAS. THERE IS A NEED TO FURTHER STUDY MOLECULAR MECHANISMS OF VARIOUS DISEASES TO BETTER UNDERSTAND THE CROSSTALK BETWEEN EPIGENETICS AND GENE EXPRESSION AND TO DEVELOP NEW THERAPEUTIC OPTIONS AND BIOMARKERS. 2016