1 4451 77 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 2 2218 19 EPIGENETIC MODIFICATIONS IN FIBROTIC DISEASES: IMPLICATIONS FOR PATHOGENESIS AND PHARMACOLOGICAL TARGETS. ORGAN FIBROSIS IS A COMPLEX AND CHRONIC DISORDER THAT RESULTS FROM A VARIETY OF ACUTE INJURIES AND CONTRIBUTES TO THIRTY PERCENT OF NATURALLY OCCURRING DEATHS WORLDWIDE. THE MAIN FEATURE OF ORGAN FIBROSIS IS THE EXCESSIVE ACCUMULATION AND DEPOSIT OF EXTRACELLULAR MATRIX, THEREBY LEADING TO ORGAN DYSFUNCTION, LOSS OF ELASTICITY, AND DEVELOPMENT OF A RIGID ORGAN. ACCUMULATING EVIDENCE SHOWS THAT EPIGENETIC REMODELING, INCLUDING ABERRANT DNA METHYLATION AND NONCODING RNA EXPRESSION AS WELL AS HISTONE POST-TRANSLATIONAL MODIFICATIONS, PLAY IMPORTANT ROLES IN THE PATHOGENESIS OF FIBROSIS THROUGH THE REGULATION OF FIBROBLAST ACTIVATION, DIFFERENTIATION, AND APOPTOSIS, AS WELL AS COLLAGEN SYNTHESIS AND PROFIBROTIC GENE TRANSCRIPTION. IN THIS REVIEW, WE DISCUSS THE BASIC REGULATION OF DNA METHYLATION, NONCODING RNA EXPRESSION, AND HISTONE POST-TRANSLATIONAL MODIFICATION, AND THEIR PARTICIPATION IN THE PATHOGENESIS AND DEVELOPMENT OF ORGAN FIBROSIS. THIS REVIEW ALSO PROVIDES THE LATEST INSIGHTS INTO THE NOVEL BIOMARKERS AND THERAPEUTIC TARGETS FOR FIBROSIS THROUGH MODULATION OF EPIGENETIC REMODELING. 2015 3 5533 32 ROLE AND MECHANISM OF DNA METHYLATION AND ITS INHIBITORS IN HEPATIC FIBROSIS. LIVER FIBROSIS IS A REPAIR RESPONSE TO INJURY CAUSED BY VARIOUS CHRONIC STIMULI THAT CONTINUALLY ACT ON THE LIVER. AMONG THEM, THE ACTIVATION OF HEPATIC STELLATE CELLS (HSCS) AND THEIR TRANSFORMATION INTO A MYOFIBROBLAST PHENOTYPE IS A KEY EVENT LEADING TO LIVER FIBROSIS, HOWEVER THE MECHANISM HAS NOT YET BEEN ELUCIDATED. THE MOLECULAR BASIS OF HSC ACTIVATION INVOLVES CHANGES IN THE REGULATION OF GENE EXPRESSION WITHOUT CHANGES IN THE GENOME SEQUENCE, NAMELY, VIA EPIGENETIC REGULATION. DNA METHYLATION IS A KEY FOCUS OF EPIGENETIC RESEARCH, AS IT AFFECTS THE EXPRESSION OF FIBROSIS-RELATED, METABOLISM-RELATED, AND TUMOR SUPPRESSOR GENES. INCREASING STUDIES HAVE SHOWN THAT DNA METHYLATION IS CLOSELY RELATED TO SEVERAL PHYSIOLOGICAL AND PATHOLOGICAL PROCESSES INCLUDING HSC ACTIVATION AND LIVER FIBROSIS. THIS REVIEW AIMED TO DISCUSS THE MECHANISM OF DNA METHYLATION IN THE PATHOGENESIS OF LIVER FIBROSIS, EXPLORE DNA METHYLATION INHIBITORS AS POTENTIAL THERAPIES FOR LIVER FIBROSIS, AND PROVIDE NEW INSIGHTS ON THE PREVENTION AND CLINICAL TREATMENT OF LIVER FIBROSIS. 2023 4 1020 25 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 5 3640 26 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 6 4022 27 LSD1 FOR THE TARGETED REGULATION OF ADIPOSE TISSUE. WHITE AND THERMAL (BROWN AND BEIGE) ADIPOSE TISSUE ENERGY STORAGE AND OXIDATIVE REGULATION PATHWAYS PLAY A CENTRAL ROLE IN MAINTAINING THE ENERGY BALANCE THROUGHOUT THE BODY, AND THE DYSREGULATION OF THESE PATHWAYS IS CLOSELY RELATED TO GLUCOSE AND LIPID METABOLISM DISORDERS AND ADIPOSE TISSUE DYSFUNCTION, INCLUDING OBESITY, CHRONIC INFLAMMATION, INSULIN RESISTANCE, MITOCHONDRIAL DYSFUNCTION, AND FIBROSIS. RECENT EPIGENETIC STUDIES HAVE IDENTIFIED THE NOVEL REGULATORY ELEMENT LSD1, WHICH CONTROLS THE ABOVE PARAMETERS, AND HAVE PROVIDED NEW MECHANISTIC POSSIBILITIES FOR RE-ENCODING THE FATE AND FUNCTION OF ADIPOCYTES. IN THIS REVIEW, WE OUTLINE THE CURRENT ADVANCES IN ADIPOCYTE METABOLISM IN PHYSIOLOGY AND DISEASE AND DISCUSS POSSIBLE STRATEGIES FOR LSD1 TO ALTER THE PHENOTYPE OF ADIPOSE TISSUE AND THUS INFLUENCE ENERGY UTILIZATION TO IMPROVE METABOLIC HEALTH. 2022 7 3349 28 HISTONE DEACETYLASES TAKE CENTER STAGE ON REGULATION OF PODOCYTE FUNCTION. BACKGROUND: PODOCYTES (HIGHLY SPECIALIZED AND TERMINALLY DIFFERENTIATED EPITHELIAL CELLS) ARE INTEGRAL COMPONENTS OF THE GLOMERULAR FILTRATION BARRIER THAT ARE VULNERABLE TO A VARIETY OF INJURIES AND, AS A RESULT, THEY UNDERGO A SERIES OF CHANGES RANGING FROM HYPERTROPHY TO DETACHMENT AND APOPTOSIS. PODOCYTE INJURY IS A MAJOR DETERMINANT IN PROTEINURIC KIDNEY DISEASE AND IDENTIFICATION OF POTENTIAL THERAPEUTIC TARGETS FOR PREVENTING PODOCYTE INJURY HAS CLINICAL IMPORTANCE. ALTHOUGH NUMEROUS STUDIES HAVE ACHIEVED DRAMATIC ADVANCES IN THE UNDERSTANDING OF PODOCYTE BIOLOGY AND ITS RELEVANCE TO RENAL INJURY, FEW EFFECTIVE AND SPECIFIC THERAPIES ARE AVAILABLE. SUMMARY: EPIGENETIC MODIFICATIONS HAVE BEEN PROVEN TO PLAY IMPORTANT ROLES IN THE PATHOGENESIS OF KIDNEY DISEASES. AMONG THEM, HISTONE DEACETYLASE (HDAC)-MEDIATED EPIGENETIC ACETYLATION IN THE KIDNEY HAS ATTRACTED MUCH ATTENTION, WHICH MAY PLAY MULTIPLE ROLES IN BOTH KIDNEY DEVELOPMENT AND THE PATHOGENESIS OF KIDNEY DISEASE. RECENT STUDIES HAVE DEMONSTRATED THAT HDAC PROTECT AGAINST PODOCYTE INJURY BY REGULATION OF INFLAMMATION, APOPTOSIS, AUTOPHAGY, MITOCHONDRIAL FUNCTION, AND INSULIN RESISTANCE. IN THIS REVIEW, WE SUMMARIZE RECENT ADVANCES IN THE UNDERSTANDING OF THE FUNCTIONS AND REGULATORY MECHANISMS OF HDAC IN PODOCYTES AND ASSOCIATED PROTEINURIC KIDNEY DISEASES. IN ADDITION, WE PROVIDE EVIDENCE OF THE POTENTIAL THERAPEUTIC EFFECTS OF HDAC INHIBITORS FOR PROTEINURIC KIDNEY DISEASE. KEY MESSAGES: PHARMACOLOGICAL TARGETING OF HDAC-MEDIATED EPIGENETIC PROCESSES MAY OPEN NEW THERAPEUTIC AVENUES FOR CHRONIC KIDNEY DISEASE. 2020 8 394 22 AN UPDATE IN EPIGENETICS IN METABOLIC-ASSOCIATED FATTY LIVER DISEASE. METABOLIC-ASSOCIATED FATTY LIVER DISEASE (MAFLD) IS CHARACTERIZED BY HEPATIC STEATOSIS ACCOMPANIED BY ONE OF THREE FEATURES: OVERWEIGHT OR OBESITY, T2DM, OR LEAN OR NORMAL WEIGHT WITH EVIDENCE OF METABOLIC DYSREGULATION. IT IS DISTINGUISHED BY EXCESSIVE FAT ACCUMULATION IN HEPATOCYTES, AND A DECREASE IN THE LIVER'S ABILITY TO OXIDIZE FATS, THE ACCUMULATION OF ECTOPIC FAT, AND THE ACTIVATION OF PROINFLAMMATORY PATHWAYS. CHRONIC DAMAGE WILL KEEP THIS PATHOPHYSIOLOGIC CYCLE ACTIVE CAUSING PROGRESSION FROM HEPATIC STEATOSIS TO CIRRHOSIS AND EVENTUALLY, HEPATOCARCINOMA. EPIGENETICS AFFECTING GENE EXPRESSION WITHOUT ALTERING DNA SEQUENCE ALLOWS US TO STUDY MAFLD PATHOPHYSIOLOGY FROM A DIFFERENT PERSPECTIVE, IN WHICH DNA METHYLATION PROCESSES, HISTONE MODIFICATIONS, AND MIRNAS EXPRESSION HAVE BEEN CLOSELY ASSOCIATED WITH MAFLD PROGRESSION. HOWEVER, THESE CONSIDERATIONS ALSO FACED US WITH THE CIRCUMSTANCE THAT MODIFYING THOSE EPIGENETICS PATTERNS MIGHT LEAD TO MAFLD REGRESSION. CURRENTLY, EPIGENETICS IS AN AREA OF GREAT INTEREST BECAUSE IT COULD PROVIDE NEW INSIGHTS IN THERAPEUTIC TARGETS AND NON-INVASIVE BIOMARKERS. THIS REVIEW COMPRISES AN UPDATE ON THE ROLE OF EPIGENETIC PATTERNS, AS WELL AS INNOVATIVE THERAPEUTIC TARGETS AND BIOMARKERS IN MAFLD. 2021 9 2341 24 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 10 4336 27 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 11 4668 26 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 12 2308 31 EPIGENETIC REGULATION OF CHEMOKINE (CC-MOTIF) LIGAND 2 IN INFLAMMATORY DISEASES. APPROPRIATE RESPONSES TO INFLAMMATION ARE CONDUCIVE TO PATHOGEN ELIMINATION AND TISSUE REPAIR, WHILE UNCONTROLLED INFLAMMATORY REACTIONS ARE LIKELY TO RESULT IN THE DAMAGE OF TISSUES. CHEMOKINE (CC-MOTIF) LIGAND 2 (CCL2) IS THE MAIN CHEMOKINE AND ACTIVATOR OF MONOCYTES, MACROPHAGES, AND NEUTROPHILS. CCL2 PLAYED A KEY ROLE IN AMPLIFYING AND ACCELERATING THE INFLAMMATORY CASCADE AND IS CLOSELY RELATED TO CHRONIC NON-CONTROLLABLE INFLAMMATION (CIRRHOSIS, NEUROPATHIC PAIN, INSULIN RESISTANCE, ATHEROSCLEROSIS, DEFORMING ARTHRITIS, ISCHEMIC INJURY, CANCER, ETC.). THE CRUCIAL REGULATORY ROLES OF CCL2 MAY PROVIDE POTENTIAL TARGETS FOR THE TREATMENT OF INFLAMMATORY DISEASES. THEREFORE, WE PRESENTED A REVIEW OF THE REGULATORY MECHANISMS OF CCL2. GENE EXPRESSION IS LARGELY AFFECTED BY THE STATE OF CHROMATIN. DIFFERENT EPIGENETIC MODIFICATIONS, INCLUDING DNA METHYLATION, POST-TRANSLATIONAL MODIFICATION OF HISTONES, HISTONE VARIANTS, ATP-DEPENDENT CHROMATIN REMODELLING, AND NON-CODING RNA, COULD AFFECT THE 'OPEN' OR 'CLOSED' STATE OF DNA, AND THEN SIGNIFICANTLY AFFECT THE EXPRESSION OF TARGET GENES. SINCE MOST EPIGENETIC MODIFICATIONS ARE PROVEN TO BE REVERSIBLE, TARGETING THE EPIGENETIC MECHANISMS OF CCL2 IS EXPECTED TO BE A PROMISING THERAPEUTIC STRATEGY FOR INFLAMMATORY DISEASES. THIS REVIEW FOCUSES ON THE EPIGENETIC REGULATION OF CCL2 IN INFLAMMATORY DISEASES. 2023 13 2545 20 EPIGENETICS IN LIVER FIBROSIS: COULD HDACS BE A THERAPEUTIC TARGET? CHRONIC LIVER DISEASES (CLD) REPRESENT A WORLDWIDE HEALTH PROBLEM. WHILE CLDS MAY HAVE DIVERSE ETIOLOGIES, A COMMON PATHOGENIC DENOMINATOR IS THE PRESENCE OF LIVER FIBROSIS. CIRRHOSIS, THE END-STAGE OF CLD, IS CHARACTERIZED BY EXTENSIVE FIBROSIS AND IS MARKEDLY ASSOCIATED WITH THE DEVELOPMENT OF HEPATOCELLULAR CARCINOMA. THE MOST IMPORTANT EVENT IN HEPATIC FIBROGENESIS IS THE ACTIVATION OF HEPATIC STELLATE CELLS (HSC) FOLLOWING LIVER INJURY. ACTIVATED HSCS ACQUIRE A MYOFIBROBLAST-LIKE PHENOTYPE BECOMING PROLIFERATIVE, FIBROGENIC, AND CONTRACTILE CELLS. WHILE TRANSIENT ACTIVATION OF HSCS IS PART OF THE PHYSIOLOGICAL MECHANISMS OF TISSUE REPAIR, PROTRACTED ACTIVATION OF A WOUND HEALING REACTION LEADS TO ORGAN FIBROSIS. THE PHENOTYPIC CHANGES OF ACTIVATED HSCS INVOLVE EPIGENETIC MECHANISMS MEDIATED BY NON-CODING RNAS (NCRNA) AS WELL AS BY CHANGES IN DNA METHYLATION AND HISTONE MODIFICATIONS. DURING CLD THESE EPIGENETIC MECHANISMS BECOME DEREGULATED, WITH ALTERATIONS IN THE EXPRESSION AND ACTIVITY OF EPIGENETIC MODULATORS. HERE WE PROVIDE AN OVERVIEW OF THE EPIGENETIC ALTERATIONS INVOLVED IN FIBROGENIC HSCS TRANSDIFFERENTIATION WITH PARTICULAR FOCUS ON HISTONES ACETYLATION CHANGES. WE ALSO DISCUSS RECENT STUDIES SUPPORTING THE PROMISING THERAPEUTIC POTENTIAL OF HISTONE DEACETYLASE INHIBITORS IN LIVER FIBROSIS. 2020 14 1872 29 EMERGING ROLE OF LONG NON-CODING RNAS IN ENDOTHELIAL DYSFUNCTION AND THEIR MOLECULAR MECHANISMS. LONG NON-CODING RNAS (LNCRNAS) ARE THE NOVEL CLASS OF TRANSCRIPTS INVOLVED IN TRANSCRIPTIONAL, POST-TRANSCRIPTIONAL, TRANSLATIONAL, AND POST-TRANSLATIONAL REGULATION OF PHYSIOLOGY AND THE PATHOLOGY OF DISEASES. STUDIES HAVE EVIDENCED THAT THE IMPAIRMENT OF ENDOTHELIUM IS A CRITICAL EVENT IN THE PATHOGENESIS OF ATHEROSCLEROSIS AND ITS COMPLICATIONS. ENDOTHELIAL DYSFUNCTION IS CHARACTERIZED BY AN IMBALANCE IN VASODILATION AND VASOCONSTRICTION, OXIDATIVE STRESS, PROINFLAMMATORY FACTORS, AND NITRIC OXIDE BIOAVAILABILITY. DISRUPTION OF THE ENDOTHELIAL BARRIER PERMEABILITY, THE FIRST STEP IN DEVELOPING ATHEROSCLEROTIC LESIONS IS A CONSEQUENCE OF ENDOTHELIAL DYSFUNCTION. THOUGH SEVERAL FACTORS INTERFERE WITH THE NORMAL FUNCTIONING OF THE ENDOTHELIUM, INTRINSIC EPIGENETIC MECHANISMS GOVERNING ENDOTHELIAL FUNCTION ARE REGULATED BY LNCRNAS AND PERTURBATIONS CONTRIBUTE TO THE PATHOGENESIS OF THE DISEASE. THIS REVIEW COMPREHENSIVELY ADDRESSES THE BIOGENESIS OF LNCRNA AND MOLECULAR MECHANISMS UNDERLYING AND REGULATION IN ENDOTHELIAL FUNCTION. AN INSIGHT CORRELATING LNCRNAS AND ENDOTHELIAL DYSFUNCTION-ASSOCIATED DISEASES CAN POSITIVELY IMPACT THE DEVELOPMENT OF NOVEL BIOMARKERS AND THERAPEUTIC TARGETS IN ENDOTHELIAL DYSFUNCTION-ASSOCIATED DISEASES AND TREATMENT STRATEGIES. 2022 15 1021 23 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 16 1726 31 DYSREGULATION OF LNCRNAS IN RHEUMATOID ARTHRITIS: BIOMARKERS, PATHOGENESIS AND POTENTIAL THERAPEUTIC TARGETS. RHEUMATOID ARTHRITIS (RA) IS A CHRONIC AUTOIMMUNE DISEASE OF UNKNOWN ETIOLOGY, MAINLY MANIFESTED BY PERSISTENT ABNORMAL PROLIFERATION OF FIBROBLAST-LIKE SYNOVIOCYTES (FLSS), INFLAMMATION, SYNOVIAL HYPERPLASIA AND CARTILAGE EROSION, ACCOMPANIED BY JOINT SWELLING AND JOINT DESTRUCTION. ABNORMAL EXPRESSION OR FUNCTION OF LONG NONCODING RNAS (LNCRNAS) ARE CLOSELY RELATED TO HUMAN DISEASES, INCLUDING CANCERS, MENTAL DISEASES, AUTOIMMUNE DISEASES AND OTHERS. THE ABNORMAL SEQUENCE AND SPATIAL STRUCTURE OF LNCRNAS, THE DISORDER EXPRESSION AND THE ABNORMAL INTERACTION WITH THE BINDING PROTEIN WILL LEAD TO THE CHANGE OF GENE EXPRESSION IN THE WAY OF EPIGENETIC MODIFICATION. INCREASING EVIDENCE DEMONSTRATED THAT LNCRNAS WERE INVOLVED IN THE ACTIVATION OF FLSS, WHICH PLAYED A KEY ROLE IN THE PATHOGENESIS OF RA. IN THIS REVIEW, THE RESEARCH PROGRESS OF LNCRNAS IN THE PATHOGENESIS OF RA WAS SYSTEMATICALLY SUMMARIZED, INCLUDING THE ROLE OF LNCRNAS IN THE DIAGNOSIS OF RA, THE REGULATORY MECHANISM OF LNCRNAS IN THE PATHOGENESIS OF RA, AND THE INTERVENTION ROLE OF LNCRNAS IN THE TREATMENT OF RA. FURTHERMORE, THE ACTIVATED SIGNAL PATHWAYS, THE ROLE OF DNA METHYLATION AND OTHER MECHANISM HAVE ALSO BEEN OVERVIEW IN THIS REVIEW. 2021 17 2195 29 EPIGENETIC MODIFICATION MECHANISMS INVOLVED IN INFLAMMATION AND FIBROSIS IN RENAL PATHOLOGY. THE GROWING INCIDENCE OF OBESITY, HYPERTENSION, AND DIABETES, COUPLED WITH THE AGING OF THE POPULATION, IS INCREASING THE PREVALENCE OF RENAL DISEASES IN OUR SOCIETY. CHRONIC KIDNEY DISEASE (CKD) IS CHARACTERIZED BY PERSISTENT INFLAMMATION, FIBROSIS, AND LOSS OF RENAL FUNCTION LEADING TO END-STAGE RENAL DISEASE. NOWADAYS, CKD TREATMENT HAS LIMITED EFFECTIVENESS UNDERSCORING THE IMPORTANCE OF THE DEVELOPMENT OF INNOVATIVE THERAPEUTIC OPTIONS. RECENT STUDIES HAVE IDENTIFIED HOW EPIGENETIC MODIFICATIONS PARTICIPATE IN THE SUSCEPTIBILITY TO CKD AND HAVE EXPLAINED HOW THE ENVIRONMENT INTERACTS WITH THE RENAL CELL EPIGENOME TO CONTRIBUTE TO RENAL DAMAGE. EPIGENETIC MECHANISMS REGULATE CRITICAL PROCESSES INVOLVED IN GENE REGULATION AND DOWNSTREAM CELLULAR RESPONSES. THE MOST RELEVANT EPIGENETIC MODIFICATIONS THAT PLAY A CRITICAL ROLE IN RENAL DAMAGE INCLUDE DNA METHYLATION, HISTONE MODIFICATIONS, AND CHANGES IN MIRNA LEVELS. IMPORTANTLY, THESE EPIGENETIC MODIFICATIONS ARE REVERSIBLE AND, THEREFORE, A SOURCE OF POTENTIAL THERAPEUTIC TARGETS. HERE, WE WILL EXPLAIN HOW EPIGENETIC MECHANISMS MAY REGULATE ESSENTIAL PROCESSES INVOLVED IN RENAL PATHOLOGY AND HIGHLIGHT SOME POSSIBLE EPIGENETIC THERAPEUTIC STRATEGIES FOR CKD TREATMENT. 2018 18 2224 19 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 19 4463 27 MOLECULAR MECHANISMS OF HISTONE DEACETYLASES AND INHIBITORS IN RENAL FIBROSIS PROGRESSION. RENAL FIBROSIS IS A COMMON PROGRESSIVE MANIFESTATION OF CHRONIC KIDNEY DISEASE. THIS PHENOMENON OF SELF-REPAIR IN RESPONSE TO KIDNEY DAMAGE SERIOUSLY AFFECTS THE NORMAL FILTRATION FUNCTION OF THE KIDNEY. YET, THERE ARE NO SPECIFIC TREATMENTS FOR THE CONDITION, WHICH MARKS FIBROSIS AS AN IRREVERSIBLE PATHOLOGICAL SEQUELA. AS SUCH, THERE IS A PRESSING NEED TO IMPROVE OUR UNDERSTANDING OF HOW FIBROSIS DEVELOPS AT THE CELLULAR AND MOLECULAR LEVELS AND EXPLORE SPECIFIC TARGETED THERAPIES FOR THESE PATHOGENIC MECHANISMS. IT IS NOW GENERALLY ACCEPTED THAT RENAL FIBROSIS IS A PATHOLOGICAL TRANSITION MEDIATED BY EXTRACELLULAR MATRIX (ECM) DEPOSITION, ABNORMAL ACTIVATION OF MYOFIBROBLASTS, AND EPITHELIAL-MESENCHYMAL TRANSITION (EMT) OF RENAL TUBULAR EPITHELIAL CELLS UNDER THE REGULATION OF TGF-BETA. HISTONE DEACETYLASES (HDACS) APPEAR TO PLAY AN ESSENTIAL ROLE IN PROMOTING RENAL FIBROSIS THROUGH NON-HISTONE EPIGENETIC MODIFICATIONS. IN THIS REVIEW, WE SUMMARIZE THE MECHANISMS OF RENAL FIBROSIS AND THE SIGNALING PATHWAYS THAT MIGHT BE INVOLVED IN HDACS IN RENAL FIBROSIS, AND THE SPECIFIC MECHANISMS OF ACTION OF VARIOUS HDAC INHIBITORS (HDACI) IN THE ANTI-FIBROTIC PROCESS TO ELUCIDATE HDACI AS A NOVEL THERAPEUTIC TOOL TO SLOW DOWN THE PROGRESSION OF RENAL FIBROSIS. 2022 20 5923 29 TARGETING DNA METHYLATION IN PODOCYTES TO OVERCOME CHRONIC KIDNEY DISEASE. THE NUMBER OF PATIENTS WITH CHRONIC KIDNEY DISEASE (CKD) IS ON THE RISE WORLDWIDE, AND THERE IS URGENT NEED FOR THE DEVELOPMENT OF EFFECTIVE PLANS AGAINST THE INCREASING INCIDENCE OF CKD. PODOCYTES, GLOMERULAR EPITHELIAL CELLS, ARE AN INTEGRAL PART OF THE PRIMARY FILTRATION UNIT OF THE KIDNEY AND FORM A SLIT MEMBRANE AS A BARRIER TO PREVENT PROTEINURIA. THE ROLE OF PODOCYTES IN THE PATHOGENESIS AND PROGRESSION OF CKD IS NOW RECOGNIZED. PODOCYTE FUNCTION DEPENDS ON A SPECIALIZED MORPHOLOGY WITH THE ARRANGED FOOT PROCESSES, WHICH IS DIRECTLY RELATED TO THEIR FUNCTION. EPIGENETIC CHANGES RESPONSIBLE FOR THE REGULATION OF GENE EXPRESSION RELATED TO PODOCYTE MORPHOLOGY HAVE BEEN SHOWN TO BE IMPORTANT IN THE PATHOGENESIS OF CKD. ALTHOUGH EPIGENETIC MECHANISMS INCLUDE DNA METHYLATION, HISTONE MODIFICATIONS, AND RNA-BASED REGULATION, WE HAVE FOCUSED ON DNA METHYLATION CHANGES BECAUSE THEY ARE MORE STABLE THAN OTHER EPIGENETIC MODIFICATIONS. THIS REVIEW SUMMARIZES RECENT LITERATURE ABOUT THE ROLE OF ALTERED DNA METHYLATION IN THE KIDNEY, ESPECIALLY IN GLOMERULAR PODOCYTES, FOCUSING ON TRANSCRIPTION FACTORS AND DNA DAMAGE RESPONSES THAT ARE CLOSELY ASSOCIATED WITH THE FORMATION OF DNA METHYLATION CHANGES. 2023