1 5572 84 ROLE OF MICRORNA IN DIABETIC CARDIOMYOPATHY: FROM MECHANISM TO INTERVENTION. DIABETIC CARDIOMYOPATHY IS A CHRONIC AND IRREVERSIBLE HEART COMPLICATION IN DIABETIC PATIENTS, AND IS CHARACTERIZED BY COMPLEX PATHOPHYSIOLOGIC EVENTS INCLUDING EARLY DIASTOLIC DYSFUNCTION, CARDIAC HYPERTROPHY, VENTRICULAR DILATION AND SYSTOLIC DYSFUNCTION, EVENTUALLY RESULTING IN HEART FAILURE. DESPITE THESE CHARACTERISTICS, THE UNDERLYING MECHANISMS LEADING TO DIABETIC CARDIOMYOPATHY ARE STILL ELUSIVE. RECENT STUDIES HAVE IMPLICATED MICRORNA, A SMALL AND HIGHLY CONSERVED NON-CODING RNA MOLECULE, IN THE ETIOLOGY OF DIABETES AND ITS COMPLICATIONS, SUGGESTING A POTENTIALLY NOVEL APPROACH FOR THE DIAGNOSIS AND TREATMENT OF DIABETIC CARDIOMYOPATHY. THIS BRIEF REVIEW AIMS AT CAPTURING RECENT STUDIES RELATED TO THE ROLE OF MICRORNA IN DIABETIC CARDIOMYOPATHY. THIS ARTICLE IS PART OF A SPECIAL ISSUE ENTITLED: GENETIC AND EPIGENETIC CONTROL OF HEART FAILURE - EDITED BY JUN REN & MEGAN YINGMEI ZHANG. 2017 2 4191 30 METABOLIC LANDSCAPE IN CARDIAC AGING: INSIGHTS INTO MOLECULAR BIOLOGY AND THERAPEUTIC IMPLICATIONS. CARDIAC AGING IS EVIDENT BY A REDUCTION IN FUNCTION WHICH SUBSEQUENTLY CONTRIBUTES TO HEART FAILURE. THE METABOLIC MICROENVIRONMENT HAS BEEN IDENTIFIED AS A HALLMARK OF MALIGNANCY, BUT RECENT STUDIES HAVE SHED LIGHT ON ITS ROLE IN CARDIOVASCULAR DISEASES (CVDS). VARIOUS METABOLIC PATHWAYS IN CARDIOMYOCYTES AND NONCARDIOMYOCYTES DETERMINE CELLULAR SENESCENCE IN THE AGING HEART. METABOLIC ALTERATION IS A COMMON PROCESS THROUGHOUT CARDIAC DEGENERATION. IMPORTANTLY, THE INVOLVEMENT OF CELLULAR SENESCENCE IN CARDIAC INJURIES, INCLUDING HEART FAILURE AND MYOCARDIAL ISCHEMIA AND INFARCTION, HAS BEEN REPORTED. HOWEVER, METABOLIC COMPLEXITY AMONG HUMAN AGING HEARTS HINDERS THE DEVELOPMENT OF STRATEGIES THAT TARGETS METABOLIC SUSCEPTIBILITY. ADVANCES OVER THE PAST DECADE HAVE LINKED CELLULAR SENESCENCE AND FUNCTION WITH THEIR METABOLIC REPROGRAMMING PATHWAY IN CARDIAC AGING, INCLUDING AUTOPHAGY, OXIDATIVE STRESS, EPIGENETIC MODIFICATIONS, CHRONIC INFLAMMATION, AND MYOCYTE SYSTOLIC PHENOTYPE REGULATION. IN ADDITION, METABOLIC STATUS IS INVOLVED IN CRUCIAL ASPECTS OF MYOCARDIAL BIOLOGY, FROM FIBROSIS TO HYPERTROPHY AND CHRONIC INFLAMMATION. HOWEVER, FURTHER ELUCIDATION OF THE METABOLISM INVOLVEMENT IN CARDIAC DEGENERATION IS STILL NEEDED. THUS, DECIPHERING THE MECHANISMS UNDERLYING HOW METABOLIC REPROGRAMMING IMPACTS CARDIAC AGING IS THOUGHT TO CONTRIBUTE TO THE NOVEL INTERVENTIONS TO PROTECT OR EVEN RESTORE CARDIAC FUNCTION IN AGING HEARTS. HERE, WE SUMMARIZE EMERGING CONCEPTS ABOUT METABOLIC LANDSCAPES OF CARDIAC AGING, WITH SPECIFIC FOCUSES ON WHY METABOLIC PROFILE ALTERS DURING CARDIAC DEGENERATION AND HOW WE COULD UTILIZE THE CURRENT KNOWLEDGE TO IMPROVE THE MANAGEMENT OF CARDIAC AGING. 2023 3 6357 31 THE ROLE OF HYPERGLYCAEMIA IN THE DEVELOPMENT OF DIABETIC CARDIOMYOPATHY. DIABETES MELLITUS IS A METABOLIC DISORDER WITH A CHRONIC HYPERGLYCAEMIC STATE. CARDIOVASCULAR DISEASES ARE THE PRIMARY CAUSE OF MORTALITY IN PATIENTS WITH DIABETES. INCREASING EVIDENCE SUPPORTS THE EXISTENCE OF DIABETIC CARDIOMYOPATHY, A CARDIAC DYSFUNCTION WITH IMPAIRED CARDIAC CONTRACTION AND RELAXATION, INDEPENDENT OF CORONARY AND/OR VALVULAR COMPLICATIONS. DIABETIC CARDIOMYOPATHY CAN LEAD TO HEART FAILURE. SEVERAL PRECLINICAL AND CLINICAL STUDIES HAVE AIMED TO DECIPHER THE UNDERLYING MECHANISMS OF DIABETIC CARDIOMYOPATHY. AMONG ALL THE CO-FACTORS, HYPERGLYCAEMIA SEEMS TO PLAY AN IMPORTANT ROLE IN THIS PATHOLOGY. HYPERGLYCAEMIA HAS BEEN SHOWN TO ALTER CARDIAC METABOLISM AND FUNCTION THROUGH SEVERAL DELETERIOUS MECHANISMS, SUCH AS OXIDATIVE STRESS, INFLAMMATION, ACCUMULATION OF ADVANCED GLYCATED END-PRODUCTS AND UPREGULATION OF THE HEXOSAMINE BIOSYNTHESIS PATHWAY. THESE MECHANISMS ARE RESPONSIBLE FOR THE ACTIVATION OF HYPERTROPHIC PATHWAYS, EPIGENETIC MODIFICATIONS, MITOCHONDRIAL DYSFUNCTION, CELL APOPTOSIS, FIBROSIS AND CALCIUM MISHANDLING, LEADING TO CARDIAC STIFFNESS, AS WELL AS CONTRACTILE AND RELAXATION DYSFUNCTION. THIS REVIEW AIMS TO DESCRIBE THE HYPERGLYCAEMIC-INDUCED ALTERATIONS THAT PARTICIPATE IN DIABETIC CARDIOMYOPATHY, AND THEIR CORRELATION WITH THE SEVERITY OF THE DISEASE AND PATIENT MORTALITY, AND TO PROVIDE AN OVERVIEW OF CARDIAC OUTCOMES OF GLUCOSE-LOWERING THERAPY. 2021 4 2491 25 EPIGENETICS AND CARDIOVASCULAR DISEASE IN DIABETES. TYPE 2 DIABETES HAS BECOME A MAJOR HEALTH ISSUE WORLDWIDE. CHRONIC HYPERGLYCEMIA INDUCES A LOW-GRADE INFLAMMATION THAT, ON TOP OF OTHER MECHANISMS, LEADS TO ENDOTHELIAL DYSFUNCTION. MOUNTING EVIDENCE SUGGESTS THAT DNA METHYLATION, POST-TRANSLATIONAL MODIFICATIONS OF HISTONES, AND LONG NON-CODING RNAS PLAY AN IMPORTANT ROLE IN THE INITIATION, MAINTENANCE, AND PROGRESSION OF BOTH MACRO- AND MICRO-VASCULAR COMPLICATIONS OF DIABETES. LONG-TERM EXPOSURE TO HYPERGLYCEMIA INDUCES EPIGENETIC CHANGES THAT COULD BECOME IRREVERSIBLE, A PHENOMENON KNOWN AS THE 'METABOLIC MEMORY.' WHETHER EPIGENETIC-BASED THERAPIES COULD BE USED TO SLOW OR LIMIT THE PROGRESSION OF CARDIOVASCULAR DISEASE REMAINS UNCLEAR. WHILE NON-CODING RNAS ARE CURRENTLY INVESTIGATED AS POTENTIAL BIOMARKERS THAT PREDICT DIABETIC CARDIOVASCULAR DISEASE INCIDENCE AND PROGRESSION, THEIR THERAPEUTIC ROLE IS ONLY HYPOTHETICAL. IN THIS REVIEW, WE HIGHLIGHT THE LATEST FINDINGS IN EXPERIMENTAL AND CLINICAL STUDIES RELEVANT TO EPIGENETICS AND CARDIOVASCULAR DISEASE IN DIABETES. 2015 5 5576 35 ROLE OF MICRORNAS IN THE PATHOGENESIS OF DIABETIC CARDIOMYOPATHY. THE MORBIDITY OF DIABETES MELLITUS HAS BEEN INCREASING ANNUALLY. AS A PROGRESSIVE METABOLIC DISORDER, CHRONIC COMPLICATIONS OCCUR IN THE LATE STAGE OF DIABETES. IN ADDITION, CARDIOVASCULAR DISEASES ACCOUNT FOR THE MAJOR CAUSE OF MORBIDITY AND MORTALITY AMONG THE DIABETIC POPULATION WORLDWIDE. DIABETIC CARDIOMYOPATHY (DCM) IS A TYPE OF DIABETIC HEART DISEASE. PATIENTS WITH DCM SHOW SYMPTOMS AND SIGNS OF HEART FAILURE WHILE NO SPECIFIC CAUSE, SUCH AS CORONARY DISEASE, HYPERTENSION, ALCOHOL CONSUMPTION, OR OTHER STRUCTURAL HEART DISEASES HAS BEEN IDENTIFIED. THE PATHOGENESIS OF DCM IS COMPLEX AND HAS NOT BEEN WELL UNDERSTOOD UNTIL RECENTLY. MICRORNAS (MIRS) BELONG TO A NOVEL FAMILY OF HIGHLY CONSERVED, SHORT, NON-CODING, SINGLE-STRANDED RNA MOLECULES THAT REGULATE TRANSCRIPTIONAL AND POST-TRANSCRIPTIONAL GENE EXPRESSION. FURTHERMORE, RECENT STUDIES HAVE DEMONSTRATED AN ASSOCIATION BETWEEN MIRS AND DCM. IN THE CURRENT REVIEW, THE ROLE OF MIRS IN THE PATHOGENESIS OF DCM IS SUMMARIZED. IT WAS CONCLUDED THAT MIRS CONTRIBUTE TO THE REGULATION OF CARDIOMYOCYTE HYPERTROPHY, MYOCARDIAL FIBROSIS, CARDIOMYOCYTE APOPTOSIS, MITOCHONDRIAL DYSFUNCTION, MYOCARDIAL ELECTRICAL REMODELING, EPIGENETIC MODIFICATION AND VARIOUS OTHER PATHOPHYSIOLOGICAL PROCESSES OF DCM. THESE STUDIES MAY PROVIDE NOVEL INSIGHTS INTO TARGETS FOR PREVENTION AND TREATMENT OF THE DISEASE. 2017 6 2208 37 EPIGENETIC MODIFICATIONS AND NON-CODING RNA IN DIABETES-MELLITUS-INDUCED CORONARY ARTERY DISEASE: PATHOPHYSIOLOGICAL LINK AND NEW THERAPEUTIC FRONTIERS. DIABETES MELLITUS (DM) IS A GLUCOSE METABOLISM DISORDER CHARACTERIZED BY CHRONIC HYPERGLYCEMIA RESULTING FROM A DEFICIT OF INSULIN PRODUCTION AND/OR ACTION. DM AFFECTS MORE THAN 1 IN 10 ADULTS, AND IT IS ASSOCIATED WITH AN INCREASED RISK OF CARDIOVASCULAR MORBIDITY AND MORTALITY. CARDIOVASCULAR DISEASE (CVD) ACCOUNTS FOR TWO THIRDS OF THE OVERALL DEATHS IN DIABETIC PATIENTS, WITH CORONARY ARTERY DISEASE (CAD) AND ISCHEMIC CARDIOMYOPATHY AS THE MAIN CONTRIBUTORS. HYPERGLYCEMIC DAMAGE ON VASCULAR ENDOTHELIAL CELLS LEADING TO ENDOTHELIAL DYSFUNCTION REPRESENTS THE MAIN INITIATING FACTOR IN THE PATHOGENESIS OF DIABETIC VASCULAR COMPLICATIONS; HOWEVER, THE UNDERLYING PATHOPHYSIOLOGICAL MECHANISMS ARE STILL NOT ENTIRELY UNDERSTOOD. THIS REVIEW ADDRESSES THE CURRENT KNOWLEDGE ON THE PATHOPHYSIOLOGICAL LINKS BETWEEN DM AND CAD WITH A FOCUS ON THE ROLE OF EPIGENETIC MODIFICATIONS, INCLUDING DNA METHYLATION, HISTONE MODIFICATIONS AND NONCODING RNA CONTROL. INCREASED KNOWLEDGE OF EPIGENETIC MECHANISMS HAS CONTRIBUTED TO THE DEVELOPMENT OF NEW PHARMACOLOGICAL TREATMENTS ("EPIDRUGS") WITH EPIGENETIC TARGETS, ALTHOUGH THESE APPROACHES PRESENT SEVERAL CHALLENGES. SPECIFIC EPIGENETIC BIOMARKERS MAY ALSO BE USED TO PREDICT OR DETECT THE DEVELOPMENT AND PROGRESSION OF DIABETES COMPLICATIONS. FURTHER STUDIES ON DIABETES AND CAD EPIGENETICS ARE NEEDED IN ORDER TO IDENTIFY POSSIBLE NEW THERAPEUTIC TARGETS AND ADVANCE PERSONALIZED MEDICINE WITH THE PREDICTION OF INDIVIDUAL DRUG RESPONSES AND MINIMIZATION OF ADVERSE EFFECTS. 2022 7 4336 31 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 8 2163 29 EPIGENETIC MECHANISMS IN DIABETIC VASCULAR COMPLICATIONS. THERE HAS BEEN A RAPID INCREASE IN THE INCIDENCE OF DIABETES AS WELL THE ASSOCIATED VASCULAR COMPLICATIONS. BOTH GENETIC AND ENVIRONMENTAL FACTORS HAVE BEEN IMPLICATED IN THESE PATHOLOGIES. INCREASING EVIDENCE SUGGESTS THAT EPIGENETIC FACTORS PLAY A KEY ROLE IN THE COMPLEX INTERPLAY BETWEEN GENES AND THE ENVIRONMENT. ACTIONS OF MAJOR PATHOLOGICAL MEDIATORS OF DIABETES AND ITS COMPLICATIONS SUCH AS HYPERGLYCAEMIA, OXIDANT STRESS, AND INFLAMMATORY FACTORS CAN LEAD TO DYSREGULATED EPIGENETIC MECHANISMS THAT AFFECT CHROMATIN STRUCTURE AND GENE EXPRESSION. FURTHERMORE, PERSISTENCE OF THIS ALTERED STATE OF THE EPIGENOME MAY BE THE UNDERLYING MECHANISM CONTRIBUTING TO A 'METABOLIC MEMORY' THAT RESULTS IN CHRONIC INFLAMMATION AND VASCULAR DYSFUNCTION IN DIABETES EVEN AFTER ACHIEVING GLYCAEMIC CONTROL. FURTHER EXAMINATION OF EPIGENETIC MECHANISMS BY ALSO TAKING ADVANTAGE OF RECENTLY DEVELOPED NEXT-GENERATION SEQUENCING TECHNOLOGIES CAN PROVIDE NOVEL INSIGHTS INTO THE PATHOLOGY OF DIABETES AND ITS COMPLICATIONS AND LEAD TO THE DISCOVERY OF MUCH NEEDED NEW DRUG TARGETS FOR THESE DISEASES. IN THIS REVIEW, WE HIGHLIGHT THE ROLE OF EPIGENETICS IN DIABETES AND ITS VASCULAR COMPLICATIONS, AND RECENT TECHNOLOGICAL ADVANCES THAT HAVE SIGNIFICANTLY ACCELERATED THE FIELD. 2011 9 6377 30 THE ROLE OF NON-CODING RNAS IN DIABETIC NEPHROPATHY: POTENTIAL APPLICATIONS AS BIOMARKERS FOR DISEASE DEVELOPMENT AND PROGRESSION. DIABETIC NEPHROPATHY, A PROGRESSIVE KIDNEY DISEASE THAT DEVELOPS SECONDARY TO DIABETES, IS THE MAJOR CAUSE OF CHRONIC KIDNEY DISEASE IN DEVELOPED COUNTRIES, AND CONTRIBUTES SIGNIFICANTLY TO INCREASED MORBIDITY AND MORTALITY AMONG INDIVIDUALS WITH DIABETES. ALTHOUGH THE CAUSES OF DIABETIC NEPHROPATHY ARE NOT FULLY UNDERSTOOD, RECENT STUDIES DEMONSTRATE A ROLE FOR EPIGENETIC FACTORS IN THE DEVELOPMENT OF THE DISEASE. FOR EXAMPLE, NON-CODING RNA (NCRNA) MOLECULES, INCLUDING MICRORNAS (MIRNAS), HAVE BEEN SHOWN TO BE FUNCTIONALLY IMPORTANT IN MODULATING RENAL RESPONSE TO HYPERGLYCEMIA AND PROGRESSION OF DIABETIC NEPHROPATHY. CHARACTERIZATION OF MIRNA EXPRESSION IN DIABETIC NEPHROPATHY FROM STUDIES OF ANIMAL MODELS OF DIABETES, AND IN VITRO INVESTIGATIONS USING DIFFERENT TYPES OF KIDNEY CELLS ALSO SUPPORT THIS ROLE. THE GOAL OF THIS REVIEW, THEREFORE, IS TO SUMMARIZE THE CURRENT STATE OF KNOWLEDGE OF SPECIFIC NCRNAS INVOLVED IN THE DEVELOPMENT OF DIABETIC NEPHROPATHY, WITH A FOCUS ON THE POTENTIAL ROLE OF MIRNAS TO SERVE AS SENSITIVE, NON-INVASIVE BIOMARKERS OF KIDNEY DISEASE AND PROGRESSION. NON-CODING RNAS ARE CURRENTLY RECOGNIZED AS POTENTIALLY IMPORTANT REGULATORS OF GENES INVOLVED IN PROCESSES RELATED TO THE DEVELOPMENT OF DIABETIC NEPHROPATHY, AND AS SUCH, REPRESENT VIABLE TARGETS FOR BOTH CLINICAL DIAGNOSTIC STRATEGIES AND THERAPEUTIC INTERVENTION. 2013 10 2609 29 EPIGENETICS: A POTENTIAL KEY MECHANISM INVOLVED IN THE PATHOGENESIS OF CARDIORENAL SYNDROMES. EPIGENETICS IS DEFINED AS THE HERITABLE CHANGES IN GENE EXPRESSION PATTERNS WHICH ARE NOT DIRECTLY ENCODED BY MODIFICATIONS IN THE NUCLEOTIDE DNA SEQUENCE OF THE GENOME, INCLUDING HIGHER ORDER CHROMATIN ORGANIZATION, DNA METHYLATION, CYTOSINE MODIFICATIONS, COVALENT HISTONE TAIL MODIFICATIONS, AND SHORT NON-CODING RNA MOLECULES. RECENTLY, MUCH ATTENTION HAS BEEN PAID TO THE ROLE AND THE FUNCTION OF EPIGENETICS AND EPIMUTATIONS IN THE CELLULAR AND SUBCELLULAR PATHWAYS AND IN THE REGULATION OF GENES IN THE SETTING OF BOTH KIDNEY AND CARDIOVASCULAR DISEASE. INDEED, DEREGULATION OF HISTONE ALTERATIONS HAS BEEN HIGHLIGHTED IN A LARGE SPECTRUM OF RENAL AND CARDIAC DISEASE, INCLUDING CHRONIC AND ACUTE RENAL INJURY, RENAL AND CARDIAC FIBROSIS, CARDIAC HYPERTROPHY AND FAILURE, KIDNEY CONGENITAL ANOMALIES, RENAL HYPOXIA, AND DIABETIC RENAL COMPLICATIONS. NEVERTHELESS, THE ROLE OF EPIGENETICS IN THE PATHOGENESIS AND PATHOPHYSIOLOGY OF CARDIORENAL SYNDROMES IS CURRENTLY UNDEREXPLORED. GIVEN THE SIGNIFICANT CLINICAL RELEVANCE OF HEART-KIDNEY CROSSTALK, EFFORTS IN THE RESEARCH FOR NEW ACTION MECHANISMS CONCURRENTLY OPERATING IN BOTH PATHOLOGIES ARE THUS OF MAXIMUM INTEREST. THIS REVIEW FOCUSES ON EPIGENETIC MECHANISMS INVOLVED IN HEART AND KIDNEY DISEASE, AND THEIR POSSIBLE ROLE IN THE SETTING OF CARDIORENAL SYNDROMES. 2018 11 6374 31 THE ROLE OF MITOCHONDRIA IN MYOCARDIAL DAMAGE CAUSED BY ENERGY METABOLISM DISORDERS: FROM MECHANISMS TO THERAPEUTICS. MYOCARDIAL DAMAGE IS THE MOST SERIOUS PATHOLOGICAL CONSEQUENCE OF CARDIOVASCULAR DISEASES AND AN IMPORTANT REASON FOR THEIR HIGH MORTALITY. IN RECENT YEARS, BECAUSE OF THE HIGH PREVALENCE OF SYSTEMIC ENERGY METABOLISM DISORDERS (E.G., OBESITY, DIABETES MELLITUS, AND METABOLIC SYNDROME), COMPLICATIONS OF MYOCARDIAL DAMAGE CAUSED BY THESE DISORDERS HAVE ATTRACTED WIDESPREAD ATTENTION. ENERGY METABOLISM DISORDERS ARE INDEPENDENT OF TRADITIONAL INJURY-RELATED RISK FACTORS, SUCH AS ISCHEMIA, HYPOXIA, TRAUMA, AND INFECTION. AN IMBALANCE OF MYOCARDIAL METABOLIC FLEXIBILITY AND MYOCARDIAL ENERGY DEPLETION ARE USUALLY THE INITIAL CHANGES OF MYOCARDIAL INJURY CAUSED BY ENERGY METABOLISM DISORDERS, AND ABNORMAL MORPHOLOGY AND FUNCTIONAL DESTRUCTION OF THE MITOCHONDRIA ARE THEIR IMPORTANT FEATURES. SPECIFICALLY, MITOCHONDRIA ARE THE CENTERS OF ENERGY METABOLISM, AND RECENT EVIDENCE HAS SHOWN THAT DECREASED MITOCHONDRIAL FUNCTION, CAUSED BY AN IMBALANCE IN MITOCHONDRIAL QUALITY CONTROL, MAY PLAY A KEY ROLE IN MYOCARDIAL INJURY CAUSED BY ENERGY METABOLISM DISORDERS. UNDER CHRONIC ENERGY STRESS, MITOCHONDRIA UNDERGO PATHOLOGICAL FISSION, WHILE MITOPHAGY, MITOCHONDRIAL FUSION, AND BIOGENESIS ARE INHIBITED, AND MITOCHONDRIAL PROTEIN BALANCE AND TRANSFER ARE DISTURBED, RESULTING IN THE ACCUMULATION OF NONFUNCTIONAL AND DAMAGED MITOCHONDRIA. CONSEQUENTLY, DAMAGED MITOCHONDRIA LEAD TO MYOCARDIAL ENERGY DEPLETION AND THE ACCUMULATION OF LARGE AMOUNTS OF REACTIVE OXYGEN SPECIES, FURTHER AGGRAVATING THE IMBALANCE IN MITOCHONDRIAL QUALITY CONTROL AND FORMING A VICIOUS CYCLE. IN ADDITION, IMPAIRED MITOCHONDRIA COORDINATE CALCIUM HOMEOSTASIS IMBALANCE, AND EPIGENETIC ALTERATIONS PARTICIPATE IN THE PATHOGENESIS OF MYOCARDIAL DAMAGE. THESE PATHOLOGICAL CHANGES INDUCE RAPID PROGRESSION OF MYOCARDIAL DAMAGE, EVENTUALLY LEADING TO HEART FAILURE OR SUDDEN CARDIAC DEATH. TO INTERVENE MORE SPECIFICALLY IN THE MYOCARDIAL DAMAGE CAUSED BY METABOLIC DISORDERS, WE NEED TO UNDERSTAND THE SPECIFIC ROLE OF MITOCHONDRIA IN THIS CONTEXT IN DETAIL. ACCORDINGLY, PROMISING THERAPEUTIC STRATEGIES HAVE BEEN PROPOSED. WE ALSO SUMMARIZE THE EXISTING THERAPEUTIC STRATEGIES TO PROVIDE A REFERENCE FOR CLINICAL TREATMENT AND DEVELOPING NEW THERAPIES. 2023 12 6607 32 TYPE 2 DIABETES MELLITUS AND CARDIOVASCULAR DISEASE: GENETIC AND EPIGENETIC LINKS. TYPE 2 DIABETES MELLITUS (DM) IS A COMMON METABOLIC DISORDER PREDISPOSING TO DIABETIC CARDIOMYOPATHY AND ATHEROSCLEROTIC CARDIOVASCULAR DISEASE (CVD), WHICH COULD LEAD TO HEART FAILURE THROUGH A VARIETY OF MECHANISMS, INCLUDING MYOCARDIAL INFARCTION AND CHRONIC PRESSURE OVERLOAD. PATHOGENETIC MECHANISMS, MAINLY LINKED TO HYPERGLYCEMIA AND CHRONIC SUSTAINED HYPERINSULINEMIA, INCLUDE CHANGES IN METABOLIC PROFILES, INTRACELLULAR SIGNALING PATHWAYS, ENERGY PRODUCTION, REDOX STATUS, INCREASED SUSCEPTIBILITY TO ISCHEMIA, AND EXTRACELLULAR MATRIX REMODELING. THE CLOSE RELATIONSHIP BETWEEN TYPE 2 DM AND CVD HAS LED TO THE COMMON SOIL HYPOTHESIS, POSTULATING THAT BOTH CONDITIONS SHARE COMMON GENETIC AND ENVIRONMENTAL FACTORS INFLUENCING THIS ASSOCIATION. HOWEVER, ALTHOUGH THE COMMON RISK FACTORS OF BOTH CVD AND TYPE 2 DM, SUCH AS OBESITY, INSULIN RESISTANCE, DYSLIPIDEMIA, INFLAMMATION, AND THROMBOPHILIA, CAN BE IDENTIFIED IN THE MAJORITY OF AFFECTED PATIENTS, LESS IS KNOWN ABOUT HOW THESE FACTORS INFLUENCE BOTH CONDITIONS, SO THAT EFFORTS ARE STILL NEEDED FOR A MORE COMPREHENSIVE UNDERSTANDING OF THIS RELATIONSHIP. THE GENETIC, EPIGENETIC, AND ENVIRONMENTAL BACKGROUNDS OF BOTH TYPE 2 DM AND CVD HAVE BEEN MORE RECENTLY STUDIED AND UPDATED. HOWEVER, THE UNDERLYING PATHOGENETIC MECHANISMS HAVE SELDOM BEEN INVESTIGATED WITHIN THE BROADER SHARED BACKGROUND, BUT RATHER STUDIED IN THE SPECIFIC CONTEXT OF TYPE 2 DM OR CVD, SEPARATELY. AS THE PRECISE PATHOPHYSIOLOGICAL LINKS BETWEEN TYPE 2 DM AND CVD ARE NOT ENTIRELY UNDERSTOOD AND MANY ASPECTS STILL REQUIRE ELUCIDATION, AN INTEGRATED DESCRIPTION OF THE GENETIC, EPIGENETIC, AND ENVIRONMENTAL INFLUENCES INVOLVED IN THE CONCOMITANT DEVELOPMENT OF BOTH DISEASES IS OF PARAMOUNT IMPORTANCE TO SHED NEW LIGHT ON THE INTERLINKS BETWEEN TYPE 2 DM AND CVD. THIS REVIEW ADDRESSES THE CURRENT KNOWLEDGE OF OVERLAPPING GENETIC AND EPIGENETIC ASPECTS IN TYPE 2 DM AND CVD, INCLUDING MICRORNAS AND LONG NON-CODING RNAS, WHOSE ABNORMAL REGULATION HAS BEEN IMPLICATED IN BOTH DISEASE CONDITIONS, EITHER ETIOLOGICALLY OR AS CAUSE FOR THEIR PROGRESSION. UNDERSTANDING THE LINKS BETWEEN THESE DISORDERS MAY HELP TO DRIVE FUTURE RESEARCH TOWARD AN INTEGRATED PATHOPHYSIOLOGICAL APPROACH AND TO PROVIDE FUTURE DIRECTIONS IN THE FIELD. 2018 13 6067 24 THE DIABETES MELLITUS-ATHEROSCLEROSIS CONNECTION: THE ROLE OF LIPID AND GLUCOSE METABOLISM AND CHRONIC INFLAMMATION. DIABETES MELLITUS COMPRISES A GROUP OF CARBOHYDRATE METABOLISM DISORDERS THAT SHARE A COMMON MAIN FEATURE OF CHRONIC HYPERGLYCEMIA THAT RESULTS FROM DEFECTS OF INSULIN SECRETION, INSULIN ACTION, OR BOTH. INSULIN IS AN IMPORTANT ANABOLIC HORMONE, AND ITS DEFICIENCY LEADS TO VARIOUS METABOLIC ABNORMALITIES IN PROTEINS, LIPIDS, AND CARBOHYDRATES. ATHEROSCLEROSIS DEVELOPS AS A RESULT OF A MULTISTEP PROCESS ULTIMATELY LEADING TO CARDIOVASCULAR DISEASE ASSOCIATED WITH HIGH MORBIDITY AND MORTALITY. ALTERATION OF LIPID METABOLISM IS A RISK FACTOR AND CHARACTERISTIC FEATURE OF ATHEROSCLEROSIS. POSSIBLE LINKS BETWEEN THE TWO CHRONIC DISORDERS DEPENDING ON ALTERED METABOLIC PATHWAYS HAVE BEEN INVESTIGATED IN NUMEROUS STUDIES. IT WAS SHOWN THAT BOTH TYPES OF DIABETES MELLITUS CAN ACTUALLY INDUCE ATHEROSCLEROSIS DEVELOPMENT OR FURTHER ACCELERATE ITS PROGRESSION. ELEVATED GLUCOSE LEVEL, DYSLIPIDEMIA, AND OTHER METABOLIC ALTERATIONS THAT ACCOMPANY THE DISEASE DEVELOPMENT ARE TIGHTLY INVOLVED IN THE PATHOGENESIS OF ATHEROSCLEROSIS AT ALMOST EVERY STEP OF THE ATHEROGENIC PROCESS. CHRONIC INFLAMMATION IS CURRENTLY CONSIDERED AS ONE OF THE KEY FACTORS IN ATHEROSCLEROSIS DEVELOPMENT AND IS PRESENT STARTING FROM THE EARLIEST STAGES OF THE PATHOLOGY INITIATION. IT MAY ALSO BE REGARDED AS ONE OF THE POSSIBLE LINKS BETWEEN ATHEROSCLEROSIS AND DIABETES MELLITUS. HOWEVER, THE DATA AVAILABLE SO FAR DO NOT ALLOW FOR DEVELOPING EFFECTIVE ANTI-INFLAMMATORY THERAPEUTIC STRATEGIES THAT WOULD STOP ATHEROSCLEROTIC LESION PROGRESSION OR INDUCE LESION REDUCTION. IN THIS REVIEW, WE SUMMARIZE THE MAIN ASPECTS OF DIABETES MELLITUS THAT POSSIBLY AFFECT THE ATHEROGENIC PROCESS AND ITS RELATIONSHIP WITH CHRONIC INFLAMMATION. WE ALSO DISCUSS THE ESTABLISHED PATHOPHYSIOLOGICAL FEATURES THAT LINK ATHEROSCLEROSIS AND DIABETES MELLITUS, SUCH AS OXIDATIVE STRESS, ALTERED PROTEIN KINASE SIGNALING, AND THE ROLE OF CERTAIN MIRNA AND EPIGENETIC MODIFICATIONS. 2020 14 538 26 ATHEROSCLEROSIS AND EPIGENETIC MODIFICATIONS IN CHRONIC KIDNEY DISEASE. CHRONIC KIDNEY DISEASE (CKD) IS ONE OF THE MOST COMMON CHRONIC DISEASES WORLDWIDE, WITH PREVALENCE CURRENTLY PROJECTED AT 10% AND RISING. CARDIOVASCULAR DISEASE IS THE LEADING CAUSE OF MORBIDITY AND MORTALITY IN CKD PATIENTS AND IS INTEGRALLY LINKED WITH ATHEROGENESIS AND VASCULAR STIFFNESS. ESTIMATED GLOMERULAR FILTRATION RATE AND THE LEVEL OF PROTEINURIA ARE NOT ONLY MARKERS OF KIDNEY FUNCTION BUT OF CARDIOVASCULAR RISK, AS WELL. DESPITE THE EFFORTS, CKD PATIENTS STILL EXPERIENCE EXCESSIVE CARDIOVASCULAR BURDEN. MICRORNAS (MIRNAS) ARE SMALL (18-24 NUCLEOTIDES), SINGLE-STRANDED NON-CODING RNAS THAT REGULATE GENE EXPRESSION BY BLOCKING MESSENGER RNA (MRNA) TRANSLATION AND INITIATING DEGRADATION OF MRNA. STUDIES HAVE CONFIRMED THE IMPERATIVE ROLE OF MIRNA DYSREGULATION IN THE PATHOPHYSIOLOGY OF SEVERAL DISEASES, INCLUDING ATHEROSCLEROSIS AND CKD. THIS ARTICLE SUMMARIZES WHAT IS CURRENTLY KNOWN ABOUT THE ROLE OF MIRNAS IN CKD PATIENTS. 2023 15 1505 26 DNA METHYLATION AND HISTONE MODIFICATION IN HYPERTENSION. SYSTEMIC HYPERTENSION, WHICH EVENTUALLY RESULTS IN HEART FAILURE, RENAL FAILURE OR STROKE, IS A COMMON CHRONIC HUMAN DISORDER THAT PARTICULARLY AFFECTS ELDERS. ALTHOUGH MANY SIGNALING PATHWAYS INVOLVED IN THE DEVELOPMENT OF HYPERTENSION HAVE BEEN REPORTED OVER THE PAST DECADES, WHICH HAS LED TO THE IMPLEMENTATION OF A WIDE VARIETY OF ANTI-HYPERTENSIVE THERAPIES, ONE HALF OF ALL HYPERTENSIVE PATIENTS STILL DO NOT HAVE THEIR BLOOD PRESSURE CONTROLLED. THE FRONTIER IN UNDERSTANDING THE MOLECULAR MECHANISMS UNDERLYING HYPERTENSION HAS NOW ADVANCED TO THE LEVEL OF EPIGENOMICS. PARTICULARLY, INCREASING EVIDENCE IS EMERGING THAT DNA METHYLATION AND HISTONE MODIFICATIONS PLAY AN IMPORTANT ROLE IN GENE REGULATION AND ARE INVOLVED IN ALTERATION OF THE PHENOTYPE AND FUNCTION OF VASCULAR CELLS IN RESPONSE TO ENVIRONMENTAL STRESSES. THIS REVIEW SEEKS TO HIGHLIGHT THE RECENT ADVANCES IN OUR KNOWLEDGE OF THE EPIGENETIC REGULATIONS AND MECHANISMS OF HYPERTENSION, FOCUSING ON THE ROLE OF DNA METHYLATION AND HISTONE MODIFICATION IN THE VASCULAR WALL. A BETTER UNDERSTANDING OF THE EPIGENOMIC REGULATION IN THE HYPERTENSIVE VESSEL MAY LEAD TO THE IDENTIFICATION OF NOVEL TARGET MOLECULES THAT, IN TURN, MAY LEAD TO NOVEL DRUG DISCOVERIES FOR THE TREATMENT OF HYPERTENSION. 2018 16 6409 24 THE SIGNALING OF CELLULAR SENESCENCE IN DIABETIC NEPHROPATHY. DIABETIC NEPHROPATHY IS THE LEADING CAUSE OF CHRONIC KIDNEY DISEASE (CKD) IN WESTERN COUNTRIES. NOTABLY, IT HAS A RAPIDLY RISING PREVALENCE IN CHINA. THE PATIENTS, COMMONLY COMPLICATED WITH CARDIOVASCULAR DISEASES AND NEUROLOGIC DISORDERS, ARE AT HIGH RISK TO PROGRESS INTO END-STAGE RENAL DISEASE (ESRD) AND DEATH. HOWEVER, THE PATHOGENIC MECHANISMS OF DIABETIC NEPHROPATHY HAVE NOT BEEN DETERMINED. CELLULAR SENESCENCE, WHICH RECENTLY HAS GAINED BROAD ATTENTION, IS THOUGHT TO BE AN IMPORTANT PLAYER IN THE ONSET AND DEVELOPMENT OF DIABETIC NEPHROPATHY. IN THIS ISSUE, WE GENERALLY REVIEW THE MECHANISMS OF CELLULAR SENESCENCE IN DIABETIC NEPHROPATHY, WHICH INVOLVE TELOMERE ATTRITION, DNA DAMAGE, EPIGENETIC ALTERATIONS, MITOCHONDRIAL DYSFUNCTION, LOSS OF KLOTHO, WNT/BETA-CATENIN SIGNALING ACTIVATION, PERSISTENT INFLAMMATION, AND ACCUMULATION OF UREMIC TOXINS. MOREOVER, WE HIGHLIGHT THE POTENTIAL THERAPEUTIC TARGETS OF CELLULAR SENESCENCE IN DIABETIC NEPHROPATHY AND PROVIDE IMPORTANT CLUES FOR CLINICAL STRATEGIES. 2019 17 4120 27 MECHANISMS OF CARDIOVASCULAR DISORDERS IN PATIENTS WITH CHRONIC KIDNEY DISEASE: A PROCESS RELATED TO ACCELERATED SENESCENCE. CARDIOVASCULAR DISEASES (CVDS), ESPECIALLY THOSE INVOLVING A SYSTEMIC INFLAMMATORY PROCESS SUCH AS ATHEROSCLEROSIS, REMAIN THE LEADING CAUSE OF MORBIDITY AND MORTALITY IN PATIENTS WITH CHRONIC KIDNEY DISEASE (CKD). CKD IS A SYSTEMIC CONDITION AFFECTING APPROXIMATELY 10% OF THE GENERAL POPULATION. THE PREVALENCE OF CKD HAS INCREASED OVER THE PAST DECADES BECAUSE OF THE AGING OF THE POPULATION WORLDWIDE. INDEED, CVDS IN PATIENTS WITH CKD CONSTITUTE A PREMATURE FORM OF CVD OBSERVED IN THE GENERAL POPULATION. MULTIPLE STUDIES INDICATE THAT PATIENTS WITH RENAL DISEASE UNDERGO ACCELERATED AGING, WHICH PRECIPITATES THE APPEARANCE OF PATHOLOGIES, INCLUDING CVDS, USUALLY ASSOCIATED WITH ADVANCED AGE. IN THIS REVIEW, WE DISCUSS SEVERAL ASPECTS THAT CHARACTERIZE CKD-ASSOCIATED CVDS, SUCH AS ETIOPATHOGENIC ELEMENTS THAT CKD PATIENTS SHARE WITH THE GENERAL POPULATION, CHANGES IN THE CELLULAR BALANCE OF REACTIVE OXYGEN SPECIES (ROS), AND THE ASSOCIATED PROCESS OF CELLULAR SENESCENCE. UREMIA-ASSOCIATED AGING IS LINKED WITH NUMEROUS CHANGES AT THE CELLULAR AND MOLECULAR LEVEL. THESE CHANGES ARE SIMILAR TO THOSE OBSERVED IN THE NORMAL PROCESS OF PHYSIOLOGIC AGING. WE ALSO DISCUSS NEW PERSPECTIVES IN THE STUDY OF CKD-ASSOCIATED CVDS AND EPIGENETIC ALTERATIONS IN INTERCELLULAR SIGNALING, MEDIATED BY MICRORNAS AND/OR EXTRACELLULAR VESICLES (EVS), WHICH PROMOTE VASCULAR DAMAGE AND SUBSEQUENT DEVELOPMENT OF CVD. UNDERSTANDING THE PROCESSES AND FACTORS INVOLVED IN ACCELERATED SENESCENCE AND OTHER ABNORMAL INTERCELLULAR SIGNALING WILL IDENTIFY NEW THERAPEUTIC TARGETS AND LEAD TO IMPROVED METHODS OF DIAGNOSIS AND MONITORING FOR PATIENTS WITH CKD-ASSOCIATED CVDS. 2020 18 2343 23 EPIGENETIC REGULATION OF MACROPHAGE POLARIZATION IN CARDIOVASCULAR DISEASES. CARDIOVASCULAR DISEASES (CVDS) ARE THE LEADING CAUSE OF HOSPITALIZATION AND DEATH WORLDWIDE, ESPECIALLY IN DEVELOPING COUNTRIES. THE INCREASED PREVALENCE RATE AND MORTALITY DUE TO CVDS, DESPITE THE DEVELOPMENT OF SEVERAL APPROACHES FOR PREVENTION AND TREATMENT, ARE ALARMING TRENDS IN GLOBAL HEALTH. CHRONIC INFLAMMATION AND MACROPHAGE INFILTRATION ARE KEY REGULATORS OF THE INITIATION AND PROGRESSION OF CVDS. RECENT DATA SUGGEST THAT EPIGENETIC MODIFICATIONS, SUCH AS DNA METHYLATION, POSTTRANSLATIONAL HISTONE MODIFICATIONS, AND RNA MODIFICATIONS, REGULATE CELL DEVELOPMENT, DNA DAMAGE REPAIR, APOPTOSIS, IMMUNITY, CALCIUM SIGNALING, AND AGING IN CARDIOMYOCYTES; AND ARE INVOLVED IN MACROPHAGE POLARIZATION AND CONTRIBUTE SIGNIFICANTLY TO CARDIAC DISEASE DEVELOPMENT. CARDIAC MACROPHAGES NOT ONLY TRIGGER DAMAGING INFLAMMATORY RESPONSES DURING ATHEROSCLEROTIC PLAQUE FORMATION, MYOCARDIAL INJURY, AND HEART FAILURE BUT ARE ALSO INVOLVED IN TISSUE REPAIR, REMODELING, AND REGENERATION. IN THIS REVIEW, WE SUMMARIZE THE KEY EPIGENETIC MODIFICATIONS THAT INFLUENCE MACROPHAGE POLARIZATION AND CONTRIBUTE TO THE PATHOPHYSIOLOGY OF CVDS, AND HIGHLIGHT THEIR POTENTIAL FOR THE DEVELOPMENT OF ADVANCED EPIGENETIC THERAPIES. 2023 19 2486 25 EPIGENETIC-SENSITIVE CHALLENGES OF CARDIOHEPATIC INTERACTIONS: CLINICAL AND THERAPEUTIC IMPLICATIONS IN HEART FAILURE PATIENTS. HEART FAILURE AND LIVER DYSFUNCTION CAN COEXIST OWING TO COMPLEX CARDIOHEPATIC INTERACTIONS INCLUDING THE DEVELOPMENT OF HYPOXIC HEPATITIS AND CONGESTIVE HEPATOPATHY IN PATIENTS WITH HEART FAILURE AS WELL AS 'CIRRHOTIC CARDIOMYOPATHY' IN ADVANCED LIVER DISEASE AND FOLLOWING LIVER TRANSPLANTATION. THE INVOLVEMENT OF LIVER DYSFUNCTION IN PATIENTS WITH HEART FAILURE REFLECTS CRUCIAL SYSTEMIC HEMODYNAMIC MODIFICATIONS OCCURRING DURING THE EVOLUTION OF THIS SYNDROME. THE ARTERIAL HYPOPERFUSION AND DOWNSTREAM HYPOXIA CAN LEAD TO HYPOXIC HEPATITIS IN ACUTE HEART FAILURE PATIENTS WHEREAS PASSIVE CONGESTION IS CORRELATED WITH CONGESTIVE HEPATOPATHY OCCURRING IN PATIENTS WITH CHRONIC HEART FAILURE. NOWADAYS, LIQUID BIOPSY STRATEGIES MEASURING LIVER FUNCTION ARE WELL ESTABLISHED IN EVALUATING THE PROGNOSIS OF PATIENTS WITH HEART FAILURE. LARGE RANDOMIZED CLINICAL TRIALS CONFIRMED THAT GAMMA-GLUTAMYLTRANSFERASE, BILIRUBIN, LACTATE DEIHYDROGENASE, AND TRANSAMINASES ARE USEFUL PROGNOSTIC BIOMARKERS IN PATIENTS WITH HEART FAILURE AFTER TRANSPLANTATION. DEEPER KNOWLEDGE ABOUT THE PATHOGENIC MECHANISMS UNDERLYING CARDIOHEPATIC INTERACTIONS WOULD BE USEFUL TO IMPROVE DIAGNOSIS, PROGNOSIS, AND TREATMENTS OF THESE COMORBID PATIENTS. EPIGENETIC-SENSITIVE MODIFICATIONS ARE HERITABLE CHANGES TO GENE EXPRESSION WITHOUT INVOLVING DNA SEQUENCE, COMPRISING DNA METHYLATION, HISTONE MODIFICATIONS, AND NONCODING RNAS WHICH SEEM TO BE RELEVANT IN THE PATHOGENESIS OF HEART FAILURE AND LIVER DISEASES WHEN CONSIDERED IN A SEPARATE WAY. THE GOAL OF OUR REVIEW IS TO HIGHLIGHT THE PERTINENCE OF DETECTING EPIGENETIC MODIFICATIONS DURING THE COMPLEX CARDIOHEPATIC INTERACTIONS IN CLINICAL SETTING. MOREOVER, WE PROPOSE A CLINICAL RESEARCH PROGRAM WHICH MAY BE USEFUL TO IDENTIFY EPIGENETIC-SENSITIVE BIOMARKERS OF CARDIOHEPATIC INTERACTIONS AND ADVANCE PERSONALIZED THERAPY IN THESE COMORBID PATIENTS. 2021 20 4715 24 NON-CODING RNA REGULATION OF T CELL BIOLOGY: IMPLICATIONS FOR AGE-ASSOCIATED CARDIOVASCULAR DISEASES. PREVALENCE OF AGE-ASSOCIATED CARDIOVASCULAR DISEASES (CVD) HAS DRAMATICALLY INCREASED AS A RESULT OF IMPROVEMENTS IN LIFE EXPECTANCY. CHRONIC INFLAMMATION IS A SHARED PATHOPHYSIOLOGICAL FEATURE OF AGE-ASSOCIATED CVDS, INDICATING A ROLE FOR THE IMMUNE SYSTEM IN THE ONSET AND DEVELOPMENT OF CVDS. INDEED, AGEING ELICITS PROFOUND CHANGES IN BOTH THE CARDIOVASCULAR AND IMMUNE SYSTEM, ESPECIALLY IN THE T CELL COMPARTMENT. ALTHOUGH SUCH CHANGES HAVE BEEN WELL DESCRIBED AT THE CELLULAR LEVEL, THE MOLECULAR MECHANISMS UNDERLYING IMMUNE-MEDIATED CARDIOVASCULAR AGEING REMAIN LARGELY UNEXPLORED. NON-CODING RNAS (NCRNAS) COMPRISE A HETEROGENEOUS FAMILY OF RNA TRANSCRIPTS THAT REGULATE GENE EXPRESSION AT THE EPIGENETIC, TRANSCRIPTIONAL, POST-TRANSCRIPTIONAL, AND POST-TRANSLATIONAL LEVELS. NON-CODING RNAS HAVE RECENTLY EMERGED AS MASTER MODULATORS OF T CELL IMMUNITY. IN THIS REVIEW, THE STATE-OF-THE-ART KNOWLEDGE ON NCRNA REGULATORY EFFECTS OVER T CELL DIFFERENTIATION, FUNCTION, AND AGEING IN THE CONTEXT OF AGE-ASSOCIATED CVDS, SUCH AS ATHEROSCLEROSIS, ACUTE CORONARY SYNDROMES, AND HEART FAILURE, IS DISCUSSED. 2018