1 6700 138 VASCULAR CALCIFICATION MECHANISMS: UPDATES AND RENEWED INSIGHT INTO SIGNALING PATHWAYS INVOLVED IN HIGH PHOSPHATE-MEDIATED VASCULAR SMOOTH MUSCLE CELL CALCIFICATION. VASCULAR CALCIFICATION (VC) IS ASSOCIATED WITH AGING, CARDIOVASCULAR AND RENAL DISEASES AND RESULTS IN POOR MORBIDITY AND INCREASED MORTALITY. VC OCCURS IN PATIENTS WITH CHRONIC KIDNEY DISEASE (CKD), A CONDITION THAT IS ASSOCIATED WITH HIGH SERUM PHOSPHATE (PI) AND SEVERE CARDIOVASCULAR CONSEQUENCES. HIGH SERUM PI LEVEL IS RELATED TO SOME PATHOLOGIES WHICH AFFECT THE BEHAVIOUR OF VASCULAR CELLS, INCLUDING PLATELETS, ENDOTHELIAL CELLS (ECS) AND SMOOTH MUSCLE CELLS (SMCS), AND PLAYS A CENTRAL ROLE IN PROMOTING VC. VC IS A COMPLEX, ACTIVE AND CELL-MEDIATED PROCESS INVOLVING THE TRANSDIFFERENTIATION OF VASCULAR SMCS TO A BONE-LIKE PHENOTYPE, SYSTEMIC INFLAMMATION, DECREASED ANTI-CALCIFIC EVENTS (LOSS OF CALCIFICATION INHIBITORS), LOSS IN SMC LINEAGE MARKERS AND ENHANCED PRO-CALCIFIC MICRORNAS (MIRS), AN INCREASED INTRACELLULAR CALCIUM LEVEL, APOPTOSIS, ABERRANT DNA DAMAGE RESPONSE (DDR) AND SENESCENCE OF VASCULAR SMCS. THIS REVIEW GIVES A BRIEF OVERVIEW OF THE CURRENT KNOWLEDGE OF VC MECHANISMS WITH A PARTICULAR FOCUS ON PI-INDUCED CHANGES IN THE VASCULAR WALL IMPORTANT IN PROMOTING CALCIFICATION. IN ADDITION TO REVIEWING THE MAIN FINDINGS, THIS REVIEW ALSO SHEDS LIGHT ON DIRECTIONS FOR FUTURE RESEARCH IN THIS AREA AND DISCUSSES EMERGING PATHWAYS SUCH AS PI-REGULATED INTRACELLULAR CALCIUM SIGNALING, EPIGENETICS, OXIDATIVE DNA DAMAGE AND SENESCENCE-MEDIATED MECHANISMS THAT MAY PLAY CRITICAL, YET TO BE EXPLORED, REGULATORY AND DRUGGABLE ROLES IN LIMITING VC. 2021 2 5596 44 ROLES OF HISTONE ACETYLATION MODIFIERS AND OTHER EPIGENETIC REGULATORS IN VASCULAR CALCIFICATION. VASCULAR CALCIFICATION (VC) IS CHARACTERIZED BY CALCIUM DEPOSITION INSIDE ARTERIES AND IS CLOSELY ASSOCIATED WITH THE MORBIDITY AND MORTALITY OF ATHEROSCLEROSIS, CHRONIC KIDNEY DISEASE, DIABETES, AND OTHER CARDIOVASCULAR DISEASES (CVDS). VC IS NOW WIDELY KNOWN TO BE AN ACTIVE PROCESS OCCURRING IN VASCULAR SMOOTH MUSCLE CELLS (VSMCS) INVOLVING MULTIPLE MECHANISMS AND FACTORS. THESE MECHANISMS SHARE FEATURES WITH THE PROCESS OF BONE FORMATION, SINCE THE PHENOTYPE SWITCHING FROM THE CONTRACTILE TO THE OSTEOCHONDROGENIC PHENOTYPE ALSO OCCURS IN VSMCS DURING VC. IN ADDITION, VC CAN BE REGULATED BY EPIGENETIC FACTORS, INCLUDING DNA METHYLATION, HISTONE MODIFICATION, AND NONCODING RNAS. ALTHOUGH VC IS COMMONLY OBSERVED IN PATIENTS WITH CHRONIC KIDNEY DISEASE AND CVD, SPECIFIC DRUGS FOR VC HAVE NOT BEEN DEVELOPED. THUS, DISCOVERING NOVEL THERAPEUTIC TARGETS MAY BE NECESSARY. IN THIS REVIEW, WE SUMMARIZE THE CURRENT EXPERIMENTAL EVIDENCE REGARDING THE ROLE OF EPIGENETIC REGULATORS INCLUDING HISTONE DEACETYLASES AND PROPOSE THE THERAPEUTIC IMPLICATION OF THESE REGULATORS IN THE TREATMENT OF VC. 2020 3 6699 50 VASCULAR CALCIFICATION IN CKD: NEW INSIGHTS INTO ITS MECHANISMS. VASCULAR CALCIFICATION (VC) IS A COMMON COMPLICATION OF CHRONIC KIDNEY DISEASE (CKD) AND CONTRIBUTES TO AN INCREASED RISK OF CARDIOVASCULAR MORBIDITY AND MORTALITY. HOWEVER, EFFECTIVE THERAPIES ARE STILL UNAVAILABLE AT PRESENT. IT HAS BEEN WELL ESTABLISHED THAT VC ASSOCIATED WITH CKD IS NOT A PASSIVE PROCESS OF CALCIUM PHOSPHATE DEPOSITION, BUT AN ACTIVELY REGULATED AND CELL-MEDIATED PROCESS THAT SHARES MANY SIMILARITIES WITH BONE FORMATION. ADDITIONALLY, NUMEROUS STUDIES HAVE SUGGESTED THAT CKD PATIENTS HAVE SPECIFIC RISK FACTORS AND CONTRIBUTORS TO THE DEVELOPMENT OF VC, SUCH AS HYPERPHOSPHATEMIA, UREMIC TOXINS, OXIDATIVE STRESS AND INFLAMMATION. ALTHOUGH RESEARCH EFFORTS IN THE PAST DECADE HAVE GREATLY IMPROVED OUR KNOWLEDGE OF THE MULTIPLE FACTORS AND MECHANISMS INVOLVED IN CKD-RELATED VC, MANY QUESTIONS REMAIN UNANSWERED. MOREOVER, STUDIES FROM THE PAST DECADE HAVE DEMONSTRATED THAT EPIGENETIC MODIFICATIONS ABNORMALITIES, SUCH AS DNA METHYLATION, HISTONE MODIFICATIONS AND NONCODING RNAS, PLAY AN IMPORTANT ROLE IN THE REGULATION OF VC. THIS REVIEW SEEKS TO PROVIDE AN OVERVIEW OF THE PATHOPHYSIOLOGICAL AND MOLECULAR MECHANISMS OF VC ASSOCIATED WITH CKD, MAINLY FOCUSING ON THE INVOLVEMENT OF EPIGENETIC MODIFICATIONS IN THE INITIATION AND PROGRESSION OF UREMIC VC, WITH THE AIM TO DEVELOP PROMISING THERAPIES FOR CKD-RELATED CARDIOVASCULAR EVENTS IN THE FUTURE. 2023 4 4377 47 MITOCHONDRIAL AGING: FOCUS ON MITOCHONDRIAL DNA DAMAGE IN ATHEROSCLEROSIS - A MINI-REVIEW. ATHEROSCLEROSIS IS A COMPLEX DISEASE WHICH CAN BE DESCRIBED AS AN EXCESSIVE FIBROFATTY, PROLIFERATIVE, INFLAMMATORY RESPONSE TO DAMAGE TO THE ARTERY WALL INVOLVING SEVERAL CELL TYPES SUCH AS SMOOTH MUSCLE CELLS, MONOCYTE-DERIVED MACROPHAGES, LYMPHOCYTES, DENDRITIC CELLS AND PLATELETS. ON THE OTHER HAND, ATHEROSCLEROSIS IS A TYPICAL AGE-RELATED DEGENERATIVE PATHOLOGY, WHICH IS CHARACTERIZED BY SIGNS OF CELL SENESCENCE IN THE ARTERIAL WALL INCLUDING REDUCED CELL PROLIFERATION, IRREVERSIBLE GROWTH ARREST AND APOPTOSIS, INCREASED DNA DAMAGE, THE PRESENCE OF EPIGENETIC MODIFICATIONS, SHORTENING OF TELOMERE LENGTH AND MITOCHONDRIAL DYSFUNCTION. THE MOST PROMINENT CHARACTERISTICS OF MITOCHONDRIAL AGING ARE THEIR STRUCTURAL ALTERATIONS AND MITOCHONDRIAL DNA DAMAGE. THE MECHANISMS OF MITOCHONDRIAL GENOME DAMAGE IN THE DEVELOPMENT OF CHRONIC AGE-RELATED DISEASES SUCH AS ATHEROSCLEROSIS ARE NOT YET WELL UNDERSTOOD. THIS REVIEW FOCUSES ON THE LATEST FINDINGS FROM STUDIES OF THOSE MUTATIONS OF THE MITOCHONDRIAL GENOME WHICH MAY PLAY AN IMPORTANT ROLE IN THE DEVELOPMENT OF ATHEROSCLEROSIS AND WHICH ARE, AT THE SAME TIME, ALSO MARKERS OF MITOCHONDRIAL AGING AND CELL SENESCENCE. 2015 5 1487 30 DNA DAMAGE AND EPIGENETIC CHANGES IN KIDNEY DISEASES - FOCUSED ON TRANSCRIPTION FACTORS IN PODOCYTES. RECENTLY IT HAS BEEN SHOWN THAT EPIGENETIC MECHANISMS ARE INVOLVED IN INITIATION AND PROGRESSION OF CARIDIOVASCULAR AND METABOLIC DISEASES, INCLUDING DIABETES, OBESITY, ATHEROSCLEROSIS, HEART FAILURE, HYPERTENSION AND KIDNEY DISEASES. IN THESE CHRONIC DISEASES, VARIOUS EXOGENOUS AND ENDOGENOUS STRESSES CAUSE DNA DAMAGE, FOLLOWED BY DNA REPAIR PROCESS. ACCUMULATION OF DNA DAMAGES AND IMPAIRED REPAIR PROCESS CAN LEAD TO EPIGENETIC CHANGES, WHICH MAY CONTRIBUTE TO ONSET AND PROGRESSION OF DISEASES. RECENTLY WE HAVE SHOWN THAT THERAPEUTIC EFFECT OF TRANSCRIPTION FACTOR KLF4 (KRUPPEL-LIKE FACTOR 4) IN KIDNEY GLOMERULAR EPITHELIAL CELLS (PODOCYTES) ON PROTEINURIC KIDNEY DISEASES THROUGH EPIGENETIC MECHANISMS. OUR RESULT SUGGESTS THE POSSIBILITY OF TRANSCRIPTION FACTORS AS A TARGET OF SELECTIVE EPIGENETIC THERAPY. MOREOVER, WE HAVE REPORTED THAT RENIN-ANGIOTENSIN SYSTEM (RAS) BLOCKERS, WHICH ARE WIDELY PRESCRIBED FOR THE TREATMENT OF CARDIOVASCULAR DISEASES, CAN RESTORE EPIGENETIC CHANGES THROUGH KLF4 IN PART. THESE RESULTS SUGGEST THAT ACTIVATION OF RAS CAUSES EPIGENETIC CHANGES IN DISEASE STATES, AND ELUCIDATION OF THE PRECISE MECHANISM MAY LEAD TO ESTABLISHMENT OF NOVEL THERAPEUTIC TARGET OF KIDNEY DISEASES. IN THIS REVIEW WE FOCUS ON DNA DAMAGE REPAIR SYSTEM AND EPIGENETIC MODULATORS IN DISEASE STATES, AND SPECULATE A CANDIDATE FOR EPIGENETIC THERAPY OF KIDNEY DISEASES. 2016 6 6510 32 TRANSCRIPTION FACTORS AND EPIGENETIC MODULATION: ITS THERAPEUTIC IMPLICATION IN CHRONIC KIDNEY DISEASE. RECENTLY EMERGING EVIDENCE HAS SHOWN THAT EPIGENETIC MECHANISMS ARE INVOLVED IN INITIATION AND PROGRESSION OF VARIOUS DISEASES, INCLUDING KIDNEY DISEASES. IN THE PRESENT ARTICLE, WE REVIEW THE CURRENT DATA REGARDING THE ROLE OF EPIGENETIC MODULATION IN CHRONIC KIDNEY DISEASE (CKD) AND KIDNEY FIBROSIS, INCLUDING DNA METHYLATION AND HISTONE MODIFICATION. ESPECIALLY WE FOCUSED ON THE ROLE OF TRANSCRIPTION FACTORS IN EPIGENETIC MODULATION AND THE POSSIBILITY OF THERAPEUTIC TARGET OF CKD. WE HAVE RECENTLY REPORTED THAT TRANSCRIPTION FACTOR KRUPPEL-LIKE FACTOR 4 (ALSO KNOWN AS GUT-ENRICHED KRUPPEL-LIKE FACTOR) IS EXPRESSED IN KIDNEY PODOCYTES (VISCERAL EPITHELIAL CELLS) AND MODULATES PODOCYTE PHENOTYPE BY GENE-SELECTIVE EPIGENETIC CONTROL. TARGETING TRANSCRIPTION FACTORS FOR EPIGENETIC MODIFICATION MAY BE A GOOD CANDIDATE FOR REMISSION AND REGRESSION OF CKD. IT IS NECESSARY FOR THE THERAPY OF CKD WITH AN EPIGENETIC-BASED APPROACH TO INVESTIGATE ORGAN-, TISSUE-, OR GENE-SPECIFIC TREATMENT METHODS FOR REDUCTION OF SIDE EFFECTS. 2015 7 4467 36 MOLECULAR MECHANISMS OF VASCULAR HEALTH: INSIGHTS FROM VASCULAR AGING AND CALCIFICATION. CARDIOVASCULAR DISEASE IS THE MOST COMMON CAUSE OF DEATH WORLDWIDE, ESPECIALLY BEYOND THE AGE OF 65 YEARS, WITH THE VAST MAJORITY OF MORBIDITY AND MORTALITY DUE TO MYOCARDIAL INFARCTION AND STROKE. VASCULAR PATHOLOGY STEMS FROM A COMBINATION OF GENETIC RISK, ENVIRONMENTAL FACTORS, AND THE BIOLOGIC CHANGES ASSOCIATED WITH AGING. THE PATHOGENESIS UNDERLYING THE DEVELOPMENT OF VASCULAR AGING, AND VASCULAR CALCIFICATION WITH AGING, IN PARTICULAR, IS STILL NOT FULLY UNDERSTOOD. ACCUMULATING DATA SUGGESTS THAT GENETIC RISK, LIKELY COMPOUNDED BY EPIGENETIC MODIFICATIONS, ENVIRONMENTAL FACTORS, INCLUDING DIABETES AND CHRONIC KIDNEY DISEASE, AND THE PLASTICITY OF VASCULAR SMOOTH MUSCLE CELLS TO ACQUIRE AN OSTEOGENIC PHENOTYPE ARE MAJOR DETERMINANTS OF AGE-ASSOCIATED VASCULAR CALCIFICATION. UNDERSTANDING THE MOLECULAR MECHANISMS UNDERLYING GENETIC AND MODIFIABLE RISK FACTORS IN REGULATING AGE-ASSOCIATED VASCULAR PATHOLOGY MAY INSPIRE STRATEGIES TO PROMOTE HEALTHY VASCULAR AGING. THIS ARTICLE SUMMARIZES CURRENT KNOWLEDGE OF CONCEPTS AND MECHANISMS OF AGE-ASSOCIATED VASCULAR DISEASE, WITH AN EMPHASIS ON VASCULAR CALCIFICATION. 2023 8 2589 29 EPIGENETICS OF PROGRESSION OF CHRONIC KIDNEY DISEASE: FACT OR FANTASY? EPIGENETIC MODIFICATIONS ARE IMPORTANT IN THE NORMAL FUNCTIONING OF THE CELL, FROM REGULATING DYNAMIC EXPRESSION OF ESSENTIAL GENES AND ASSOCIATED PROTEINS TO REPRESSING THOSE THAT ARE UNNEEDED. EPIGENETIC CHANGES ARE ESSENTIAL FOR DEVELOPMENT AND FUNCTIONING OF THE KIDNEY, AND ABERRANT METHYLATION, HISTONE MODIFICATIONS, AND EXPRESSION OF MICRORNA COULD LEAD TO CHRONIC KIDNEY DISEASE (CKD). HERE, EPIGENETIC MODIFICATIONS MODULATE TRANSFORMING GROWTH FACTOR BETA SIGNALING, INFLAMMATION, PROFIBROTIC GENES, AND THE EPITHELIAL-TO-MESENCHYMAL TRANSITION, PROMOTING RENAL FIBROSIS AND PROGRESSION OF CKD. IDENTIFICATION OF THESE EPIGENETIC CHANGES IS IMPORTANT BECAUSE THEY ARE POTENTIALLY REVERSIBLE AND MAY SERVE AS THERAPEUTIC TARGETS IN THE FUTURE TO PREVENT SUBSEQUENT RENAL FIBROSIS AND CKD. IN THIS REVIEW WE DISCUSS THE DIFFERENT TYPES OF EPIGENETIC CONTROL, METHODS TO STUDY EPIGENETIC MODIFICATIONS, AND HOW EPIGENETICS PROMOTES PROGRESSION OF CKD. 2013 9 6511 32 TRANSCRIPTION FACTORS AS THERAPEUTIC TARGETS IN CHRONIC KIDNEY DISEASE. THE GROWING NUMBER OF PATIENTS WITH CHRONIC KIDNEY DISEASE (CKD) IS RECOGNIZED AS AN EMERGING PROBLEM WORLDWIDE. RECENT STUDIES HAVE INDICATED THAT DEREGULATION OF TRANSCRIPTION FACTORS IS ASSOCIATED WITH THE ONSET OR PROGRESSION OF KIDNEY DISEASE. SEVERAL CLINICAL TRIALS INDICATED THAT REGRESSION OF CKD MAY BE FEASIBLE VIA ACTIVATION OF THE TRANSCRIPTION FACTOR NUCLEAR FACTOR ERYTHROID-2 RELATED FACTOR 2 (NRF2), WHICH SUGGESTS THAT TRANSCRIPTION FACTORS MAY BE POTENTIAL DRUG TARGETS FOR CKD. AGENTS STABILIZING HYPOXIA-INDUCIBLE FACTOR (HIF), WHICH MAY BE BENEFICIAL FOR RENAL ANEMIA AND RENAL PROTECTION, ARE ALSO NOW UNDER CLINICAL TRIAL. RECENTLY, WE HAVE REPORTED THAT THE TRANSCRIPTION FACTOR KRUPPEL-LIKE FACTOR 4 (KLF4) REGULATES THE GLOMERULAR PODOCYTE EPIGENOME, AND THAT THE ANTIPROTEINURIC EFFECT OF THE RENIN(-)ANGIOTENSIN SYSTEM BLOCKADE MAY BE PARTIALLY MEDIATED BY KLF4. KLF4 IS ONE OF THE YAMANAKA FACTORS THAT INDUCES IPS CELLS AND IS REPORTED TO BE INVOLVED IN EPIGENETIC REMODELING. IN THIS ARTICLE, WE SUMMARIZE THE TRANSCRIPTION FACTORS ASSOCIATED WITH CKD AND PARTICULARLY FOCUS ON THE POSSIBILITY OF TRANSCRIPTION FACTORS BEING NOVEL DRUG TARGETS FOR CKD THROUGH EPIGENETIC MODULATION. 2018 10 2912 36 GENE REGULATION IN THE VASCULAR ENDOTHELIUM: WHY EPIGENETICS IS IMPORTANT FOR THE KIDNEY. WE NOW APPRECIATE THAT THE VASCULAR ENDOTHELIUM PLAYS A CRUCIAL ROLE IN REGULATING NORMAL BLOOD VESSEL PHYSIOLOGY IN THE KIDNEY. THE GENE PRODUCTS RESPONSIBLE ARE COMMONLY EXPRESSED EXCLUSIVELY, OR PREFERENTIALLY, IN THIS CELL TYPE. HOWEVER, DESPITE THE IMPORTANCE OF REGULATED GENE EXPRESSION IN THE VASCULAR ENDOTHELIUM, RELATIVELY LITTLE IS KNOWN ABOUT THE MECHANISMS THAT RESTRICT ENDOTHELIAL-SPECIFIC GENE EXPRESSION TO THIS CELL TYPE. EVEN LESS IS KNOWN ABOUT HOW GENE EXPRESSION MIGHT BE RESTRICTED TO ENDOTHELIAL CELLS OF DISCRETE REGIONS OF THE KIDNEY, SUCH AS THE GLOMERULUS OR VASA RECTA. ALTHOUGH SIGNIFICANT PROGRESS HAS BEEN MADE TOWARD UNDERSTANDING THE REGULATION OF ENDOTHELIAL GENES THROUGH CIS/TRANS PARADIGMS, IT HAS BECOME APPARENT THAT ADDITIONAL MECHANISMS ALSO MUST BE OPERATIVE. CLASSIC MODELS OF TRANSCRIPTION IN VASCULAR ENDOTHELIAL CELLS, SPECIFICALLY THE CIS/TRANS PARADIGM, HAVE LIMITATIONS. FOR INSTANCE, HOW DOES THE ENVIRONMENT HAVE CHRONIC EFFECTS ON GENE EXPRESSION IN ENDOTHELIAL CELLS AFTER WEEKS OR YEARS? WHEN AN ENDOTHELIAL CELL DIVIDES, HOW IS THIS INFORMATION TRANSMITTED TO DAUGHTER CELLS? CHROMATIN-BASED MECHANISMS, INCLUDING CELL-SPECIFIC DNA METHYLATION PATTERNS AND POST-TRANSLATIONAL HISTONE MODIFICATIONS, RECENTLY WERE SHOWN TO PLAY IMPORTANT ROLES IN GENE EXPRESSION. THIS REVIEW INVESTIGATES THE INVOLVEMENT OF EPIGENETIC REGULATORY MECHANISMS IN VASCULAR ENDOTHELIAL CELL-SPECIFIC GENE EXPRESSION USING ENDOTHELIAL NITRIC OXIDE SYNTHASE AS A PROTOTYPICAL MODEL. 2012 11 4719 33 NONCODING RNA AND EPIGENETIC GENE REGULATION IN RENAL DISEASES. KIDNEYS HAVE A MAJOR ROLE IN NORMAL PHYSIOLOGY AND METABOLIC HOMEOSTASIS. LOSS OR IMPAIRMENT OF KIDNEY FUNCTION IS A COMMON OCCURRENCE IN SEVERAL METABOLIC DISORDERS, INCLUDING HYPERTENSION AND DIABETES. CHRONIC KIDNEY DISEASE (CKD) AFFECT NEARLY 10% OF THE POPULATION WORLDWIDE; RANKS 18TH IN THE LIST OF CAUSES OF DEATH; AND CONTRIBUTES TO A SIGNIFICANT PROPORTION OF HEALTHCARE COSTS. THE TISSUE REPAIR AND REGENERATIVE POTENTIAL OF KIDNEYS ARE LIMITED AND THEY DECLINE DURING AGING. RECENT STUDIES HAVE DEMONSTRATED A KEY ROLE FOR EPIGENETIC PROCESSES AND PLAYERS, SUCH AS DNA METHYLATION, HISTONE MODIFICATIONS, NONCODING (NC)RNA, AND SO ON, IN BOTH KIDNEY DEVELOPMENT AND DISEASE. IN THIS REVIEW, WE HIGHLIGHT THESE RECENT FINDINGS WITH AN EMPHASIS ON ABERRANT EPIGENETIC CHANGES THAT ACCOMPANY RENAL DISEASES, KEY TARGETS, AND THEIR THERAPEUTIC VALUE. 2017 12 4902 37 OXIDATIVE-STRESS-INDUCED EPIGENETIC CHANGES IN CHRONIC DIABETIC COMPLICATIONS. OXIDATIVE STRESS PLAYS AN IMPORTANT ROLE IN THE DEVELOPMENT AND PROGRESSION OF CHRONIC DIABETIC COMPLICATIONS. DIABETES CAUSES MITOCHONDRIAL SUPEROXIDE OVERPRODUCTION IN THE ENDOTHELIAL CELLS OF BOTH LARGE AND SMALL VESSELS. THIS INCREASED SUPEROXIDE PRODUCTION CAUSES THE ACTIVATION OF SEVERAL SIGNAL PATHWAYS INVOLVED IN THE PATHOGENESIS OF CHRONIC COMPLICATIONS. IN PARTICULAR, ENDOTHELIAL CELLS ARE MAJOR TARGETS OF GLUCOSE-INDUCED OXIDATIVE DAMAGE IN THE TARGET ORGANS. OXIDATIVE STRESS ACTIVATES CELLULAR SIGNALING PATHWAYS AND TRANSCRIPTION FACTORS IN ENDOTHELIAL CELLS INCLUDING PROTEIN KINASE C (PKC), C-JUN-N-TERMINAL KINASE (JNK), P38 MITOGEN-ACTIVATED PROTEIN KINASE (MAPK), FORKHEAD BOX O (FOXO), AND NUCLEAR FACTOR KAPPA-B (NF-KAPPAB). OXIDATIVE STRESS ALSO CAUSES DNA DAMAGE AND ACTIVATES DNA NUCLEOTIDE EXCISION REPAIR ENZYMES INCLUDING THE EXCISION REPAIR CROSS COMPLIMENTING 1(ERCC1), ERCC4, AND POLY(ADP-RIBOSE) POLYMERASE (PARP). AUGMENTED PRODUCTION OF HISTONE ACETYLTRANSFERASE P300, AND ALTERATIONS OF HISTONE DEACETYLASES, INCLUDING CLASS III DEACETYLASES SIRTUINS, ARE ALSO INVOLVED IN THIS PROCESS. RECENT RESEARCH HAS FOUND THAT SMALL NONCODING RNAS, LIKE MICRORNA, ARE A NEW KIND OF REGULATOR ASSOCIATED WITH CHRONIC DIABETIC COMPLICATIONS. THERE ARE EXTENSIVE AND COMPLICATED INTERACTIONS AND AMONG THESE MOLECULES. THE PURPOSE OF THIS REVIEW IS TO DEMONSTRATE THE ROLE OF OXIDATIVE STRESS IN THE DEVELOPMENT OF DIABETIC COMPLICATIONS IN RELATION TO EPIGENETIC CHANGES SUCH AS ACETYLATION AND MICRORNA ALTERATIONS. 2013 13 4145 38 MECHANISMS OF VASCULAR AGING. AGING OF THE VASCULATURE PLAYS A CENTRAL ROLE IN MORBIDITY AND MORTALITY OF OLDER PEOPLE. TO DEVELOP NOVEL TREATMENTS FOR AMELIORATION OF UNSUCCESSFUL VASCULAR AGING AND PREVENTION OF AGE-RELATED VASCULAR PATHOLOGIES, IT IS ESSENTIAL TO UNDERSTAND THE CELLULAR AND FUNCTIONAL CHANGES THAT OCCUR IN THE VASCULATURE DURING AGING. IN THIS REVIEW, THE PATHOPHYSIOLOGICAL ROLES OF FUNDAMENTAL CELLULAR AND MOLECULAR MECHANISMS OF AGING, INCLUDING OXIDATIVE STRESS, MITOCHONDRIAL DYSFUNCTION, IMPAIRED RESISTANCE TO MOLECULAR STRESSORS, CHRONIC LOW-GRADE INFLAMMATION, GENOMIC INSTABILITY, CELLULAR SENESCENCE, EPIGENETIC ALTERATIONS, LOSS OF PROTEIN HOMEOSTASIS, DEREGULATED NUTRIENT SENSING, AND STEM CELL DYSFUNCTION IN THE VASCULAR SYSTEM ARE CONSIDERED IN TERMS OF THEIR CONTRIBUTION TO THE PATHOGENESIS OF BOTH MICROVASCULAR AND MACROVASCULAR DISEASES ASSOCIATED WITH OLD AGE. THE IMPORTANCE OF PROGERONIC AND ANTIGERONIC CIRCULATING FACTORS IN RELATION TO DEVELOPMENT OF VASCULAR AGING PHENOTYPES ARE DISCUSSED. FINALLY, FUTURE DIRECTIONS AND OPPORTUNITIES TO DEVELOP NOVEL INTERVENTIONS TO PREVENT/DELAY AGE-RELATED VASCULAR PATHOLOGIES BY TARGETING FUNDAMENTAL CELLULAR AND MOLECULAR AGING PROCESSES ARE PRESENTED. 2018 14 6906 27 [THE ROLE OF GLYCANS IN CANCER DEVELOPMENT AND PROGRESSION. CLINICAL APPLICATIONS]. CHANGES IN GLYCOSYLATION PATTERN OF CELL SURFACE, BODY FLUIDS AND EXTRACELLULAR MATRIX GLYCOCONJUGATES IS A CHARACTERISTIC FEATURE OF TUMOR CELL MALIGNANCY. THESE CHANGES ARE THE RESULT OF MUTATIONS OF TUMOR-ASSOCIATED GENES AS WELL AS EPIGENETIC CHANGES IN THE TUMOR ENVIRONMENT, INCLUDING NUTRIENT INFLUX, HYPOXIA, CYTOKINE EXPRESSION AND STIMULATION OF CHRONIC INFLAMMATION. THE UNIQUE SET OF CELL SURFACE GLYCOANTIGENS ON NEOPLASTIC CELLS IS RECOGNIZED BY ENDOGENOUS LECTINS LOCATED IN THE EXTRACELLULAR MATRIX, VASCULAR ENDOTHELIUM, ON LEUKOCYTES OR PLATELETS, AND HAS AN IMPACT ON DISRUPTING BASIC CELLULAR PROCESSES, SUCH AS INTERCELLULAR RECOGNITION, CELL-CELL ADHESION OR CELL-ECM INTERACTION. THESE CHANGES HAVE A CRITICAL IMPACT ON THE MIGRATION, INVASIVE AND METASTATIC POTENTIAL OF NEOPLASTIC CELLS AND MODULATE THE IMMUNE RESPONSE. THIS UNIQUE PATTERN OF SUGAR ANTIGENS ON THE CANCER CELLS CAN BE A VAULABLE MARKER TO IDENTIFY THEM, DETERMINE THE STAGE OF THE DISEASE AS WELL AS BE A TARGET OF ANTI-CANCER THERAPY. 2021 15 2230 26 EPIGENETIC MODIFICATIONS OF KLOTHO EXPRESSION IN KIDNEY DISEASES. DEVELOPMENTS OF MANY RENAL DISEASES ARE SUBSTANTIALLY INFLUENCED BY EPIGENETIC MODIFICATIONS OF NUMEROUS GENES, MAINLY MEDIATED BY DNA METHYLATIONS, HISTONE MODIFICATIONS, AND MICRORNA INTERFERENCE; HOWEVER, NOT ALL GENE MODIFICATIONS CAUSALLY AFFECT THE DISEASE ONSET OR PROGRESSION. KLOTHO IS A CRITICAL GENE WHOSE REPRESSIONS IN VARIOUS PATHOLOGICAL CONDITIONS REPORTEDLY INVOLVE EPIGENETIC REGULATORY MECHANISMS. KLOTHO IS ALMOST UNEXCEPTIONALLY REPRESSED EARLY AFTER ACUTE OR CHRONIC RENAL INJURIES AND ITS LEVELS INVERSELY CORRELATED WITH THE DISEASE PROGRESSION AND SEVERITY. MOREOVER, THE STRATEGIES OF KLOTHO DEREPRESSION VIA EPIGENETIC MODULATIONS BENEFICIALLY CHANGE THE PATHOLOGICAL COURSES BOTH IN VITRO AND IN VIVO. HENCE, KLOTHO IS NOT ONLY CONSIDERED A BIOMARKER OF THE RENAL DISEASE BUT ALSO A POTENTIAL OR EVEN AN IDEAL TARGET OF THERAPEUTIC EPIGENETIC INTERVENTION. HERE, WE SUMMARIZE AND DISCUSS STUDIES THAT INVESTIGATE THE KLOTHO REPRESSION AND INTERVENTION IN RENAL DISEASES FROM AN EPIGENETIC POINT OF VIEW. THESE INFORMATION MIGHT SHED NEW SIGHTS INTO THE EFFECTIVE THERAPEUTIC STRATEGIES TO PREVENT AND TREAT VARIOUS RENAL DISORDERS. 2021 16 3826 40 INVESTIGATION OF EPIGENETICS IN KIDNEY CELL BIOLOGY. EPIGENETICS IS THE STUDY OF HERITABLE CHANGES IN DNA OR ITS ASSOCIATED PROTEINS EXCEPT MUTATIONS IN GENE SEQUENCE. EPIGENETIC REGULATION PLAYS FUNDAMENTAL ROLES IN THE PROCESSES OF KIDNEY CELL BIOLOGY THROUGH THE ACTION OF DNA METHYLATION, CHROMATIN MODIFICATIONS VIA EPIGENETIC REGULATORS AND INTERACTION VIA TRANSCRIPTION FACTORS, AND NONCODING RNA SPECIES. KIDNEY DISEASES, INCLUDING ACUTE KIDNEY INJURY, CHRONIC KIDNEY DISEASE, NEPHRITIC AND NEPHROTIC SYNDROMES, PYELONEPHRITIS AND POLYCYSTIC KIDNEY DISEASES ARE DRIVEN BY ABERRANT ACTIVITY IN NUMEROUS SIGNALING PATHWAYS IN EVEN INDIVIDUAL KIDNEY CELL. EPIGENETIC ALTERATIONS, INCLUDING DNA METHYLATION, HISTONE ACETYLATION AND METHYLATION, NONCODING RNAS, AND PROTEIN POSTTRANSLATIONAL MODIFICATIONS, COULD DISRUPT ESSENTIAL PATHWAYS THAT PROTECT THE RENAL CELLS FROM UNCONTROLLED GROWTH, APOPTOSIS AND ESTABLISHMENT OF OTHER RENAL ASSOCIATED SYNDROMES, WHICH HAVE BEEN RECOGNIZED AS ONE OF THE CRITICAL MECHANISMS FOR REGULATING FUNCTIONAL CHANGES THAT DRIVE AND MAINTAIN THE KIDNEY DISEASE PHENOTYPE. IN THIS CHAPTER, WE BRIEFLY SUMMARIZE THE EPIGENETIC MECHANISMS IN KIDNEY CELL BIOLOGY AND EPIGENETIC BASIS OF KIDNEY DEVELOPMENT, AND INTRODUCE EPIGENETIC TECHNIQUES THAT CAN BE USED IN INVESTIGATING THE MOLECULAR MECHANISM OF KIDNEY CELL BIOLOGY AND KIDNEYS DISEASES, PRIMARILY FOCUSING ON THE INTEGRATION OF DNA METHYLATION AND CHROMATIN IMMUNOPRECIPITATION TECHNOLOGIES INTO KIDNEY DISEASE ASSOCIATED STUDIES. FUTURE STUDIES USING THESE EMERGING TECHNOLOGIES WILL ELUCIDATE HOW ALTERATIONS IN THE RENAL CELL EPIGENOME COOPERATE WITH GENETIC ABERRATIONS FOR KIDNEY DISEASE INITIATION AND PROGRESSION. INCORPORATING EPIGENOMIC TESTING INTO THE CLINICAL RESEARCH IS ESSENTIAL TO FUTURE STUDIES WITH EPIGENETICS BIOMARKERS AND PRECISION MEDICINE USING EMERGING EPIGENETIC THERAPIES. 2019 17 4456 30 MOLECULAR MECHANISMS IN RENAL DEGENERATIVE DISEASE. CHRONIC KIDNEY DISEASE (CKD) HAS BECOME A MAJOR PUBLIC HEALTH PROBLEM WORLDWIDE. THEREFORE, A CONSIDERABLE EFFORT IS CURRENTLY DIRECTED TO UNDERSTAND THE MOLECULAR MECHANISMS OF RENAL DEGENERATIVE PROCESSES. REGARDLESS OF THEIR INITIATING CAUSE, ALL CHRONIC KIDNEY DISEASES (CKD) DEVELOP AT SOME LEVEL ORGAN FIBROSIS THAT INTERFERES WITH KIDNEY FUNCTION. THIS IS ALSO TRUE FOR THE TWO MOST COMMON INHERITED CKD SYNDROMES, NEPHRONOPHTHITIS AND POLYCYSTIC KIDNEY DISEASE, WHOSE PRIMARY DEFECTS RESIDE WITHIN THE CILIUM OF KIDNEY EPITHELIAL CELLS. A COHORT OF ELEGANT RECENT STUDIES HAS ELICITED THE ROLE OF THE PRIMARY CILIUM AS A VERSATILE MECHANOSENSORY ORGANELLE THAT ALSO MIGHT COORDINATE CROSS-TALK BETWEEN MULTIPLE SIGNALING PATHWAYS. IN ADDITION, EPIGENETIC MECHANISMS ARE NOW REALIZED TO BE ESSENTIAL IN THE MAINTENANCE OF ADULT RENAL ARCHITECTURE. IN THIS REVIEW, WE WILL DISCUSS RECENT ADVANCES IN OUR UNDERSTANDING OF THE SIGNALING SYSTEMS IMPLICATED IN KIDNEY HOMEOSTASIS AND REPAIR. 2010 18 4013 37 LOW-DENSITY LIPOPROTEIN-CHOLESTEROL-INDUCED ENDOTHELIAL DYSFUNCTION AND OXIDATIVE STRESS: THE ROLE OF STATINS. SIGNIFICANCE: CARDIOVASCULAR DISEASES (CVD) REPRESENT A MAJOR PUBLIC HEALTH BURDEN. HIGH LOW-DENSITY LIPOPROTEIN (LDL)-CHOLESTEROL IS A RECOGNIZED PATHOGENIC FACTOR FOR ATHEROSCLEROSIS, AND ITS COMPLICATIONS AND STATINS REPRESENT THE MOST POTENT AND WIDELY USED THERAPEUTIC APPROACH TO PREVENT AND CONTROL THESE DISORDERS. RECENT ADVANCES: A NUMBER OF CLINICAL AND EXPERIMENTAL STUDIES CONCUR TO IDENTIFY ENDOTHELIAL DYSFUNCTION AS A PRIMARY STEP IN THE DEVELOPMENT OF ATHEROSCLEROSIS, AS WELL AS A RISK FACTOR FOR SUBSEQUENT CLINICAL EVENTS. OXIDANT STRESS RESULTING FROM CHRONIC ELEVATION OF PLASMA LDL-CHOLESTEROL (LDL-CHOL) IS A MAJOR CONTRIBUTOR TO BOTH ENDOTHELIAL DYSFUNCTION AND ITS COMPLICATIONS, FOR EXAMPLE, THROUGH ALTERATIONS OF ENDOTHELIAL NITRIC OXIDE SIGNALING. CRITICAL ISSUES: STATIN TREATMENT REDUCES MORBIDITY AND MORTALITY OF CVD, BUT INCREASING EVIDENCE QUESTIONS THAT THIS IS EXCLUSIVELY THROUGH REDUCTION OF PLASMA LDL-CHOL. THE IDENTIFICATION OF ANCILLARY EFFECTS ON (CARDIO)VASCULAR BIOLOGY, FOR EXAMPLE, THROUGH THEIR MODULATION OF OXIDATIVE STRESS, WILL NOT ONLY INCREASE OUR UNDERSTANDING OF THEIR MECHANISMS OF ACTION, WITH A POTENTIAL BROADENING OF THEIR INDICATION(S), BUT ALSO LEAD TO THE IDENTIFICATION OF NEW MOLECULAR TARGETS FOR FUTURE THERAPEUTIC DEVELOPMENTS IN CVD. FUTURE DIRECTIONS: FURTHER CHARACTERIZATION OF MOLECULAR PATHWAYS TARGETED BY STATINS, FOR EXAMPLE, NOT DIRECTLY MEDIATED BY CHANGES IN PLASMA LIPID CONCENTRATIONS, SHOULD ENABLE A MORE COMPREHENSIVE APPROACH TO THE PATHOGENESIS OF (CARDIO)VASCULAR DISEASE, INCLUDING, FOR EXAMPLE, EPIGENETIC REGULATION AND FINE TUNING OF CELL METABOLISM. 2014 19 4974 39 PATHOPHYSIOLOGICAL MECHANISMS LEADING TO MUSCLE LOSS IN CHRONIC KIDNEY DISEASE. LOSS OF MUSCLE PROTEINS IS A DELETERIOUS CONSEQUENCE OF CHRONIC KIDNEY DISEASE (CKD) THAT CAUSES A DECREASE IN MUSCLE STRENGTH AND FUNCTION, AND CAN LEAD TO A REDUCTION IN QUALITY OF LIFE AND INCREASED RISK OF MORBIDITY AND MORTALITY. THE EFFECTIVENESS OF CURRENT TREATMENT STRATEGIES IN PREVENTING OR REVERSING MUSCLE PROTEIN LOSSES IS LIMITED. THE LIMITATIONS LARGELY STEM FROM THE SYSTEMIC NATURE OF DISEASES SUCH AS CKD, WHICH STIMULATE SKELETAL MUSCLE PROTEIN DEGRADATION PATHWAYS WHILE SIMULTANEOUSLY ACTIVATING MECHANISMS THAT IMPAIR MUSCLE PROTEIN SYNTHESIS AND REPAIR. STIMULI THAT INITIATE MUSCLE PROTEIN LOSS INCLUDE METABOLIC ACIDOSIS, INSULIN AND IGF1 RESISTANCE, CHANGES IN HORMONES, CYTOKINES, INFLAMMATORY PROCESSES AND DECREASED APPETITE. A GROWING BODY OF EVIDENCE SUGGESTS THAT SIGNALLING MOLECULES SECRETED FROM MUSCLE CAN ENTER THE CIRCULATION AND SUBSEQUENTLY INTERACT WITH RECIPIENT ORGANS, INCLUDING THE KIDNEYS, WHILE CONVERSELY, PATHOLOGICAL EVENTS IN THE KIDNEY CAN ADVERSELY INFLUENCE PROTEIN METABOLISM IN SKELETAL MUSCLE, DEMONSTRATING THE EXISTENCE OF CROSSTALK BETWEEN KIDNEY AND MUSCLE. TOGETHER, THESE SIGNALS, WHETHER DIRECT OR INDIRECT, INDUCE CHANGES IN THE LEVELS OF REGULATORY AND EFFECTOR PROTEINS VIA ALTERATIONS IN MRNAS, MICRORNAS AND CHROMATIN EPIGENETIC RESPONSES. ADVANCES IN OUR UNDERSTANDING OF THE SIGNALS AND PROCESSES THAT MEDIATE MUSCLE LOSS IN CKD AND OTHER MUSCLE WASTING CONDITIONS WILL SUPPORT THE FUTURE DEVELOPMENT OF THERAPEUTIC STRATEGIES TO REDUCE MUSCLE LOSS. 2022 20 3344 30 HISTONE DEACETYLASES (HDACS) AND ATHEROSCLEROSIS: A MECHANISTIC AND PHARMACOLOGICAL REVIEW. ATHEROSCLEROSIS (AS), THE MOST COMMON UNDERLYING PATHOLOGY FOR CORONARY ARTERY DISEASE, IS A CHRONIC INFLAMMATORY, PROLIFERATIVE DISEASE IN LARGE- AND MEDIUM-SIZED ARTERIES. THE VASCULAR ENDOTHELIUM IS IMPORTANT FOR MAINTAINING VASCULAR HEALTH. ENDOTHELIAL DYSFUNCTION IS A CRITICAL EARLY EVENT LEADING TO AS, WHICH IS A MAJOR RISK FACTOR FOR STROKE AND MYOCARDIAL INFARCTION. ACCUMULATING EVIDENCE HAS SUGGESTED THE CRITICAL ROLES OF HISTONE DEACETYLASES (HDACS) IN REGULATING VASCULAR CELL HOMEOSTASIS AND AS. THE PURPOSE OF THIS REVIEW IS TO PRESENT AN UPDATED VIEW ON THE ROLES OF HDACS (CLASS I, CLASS II, CLASS IV) AND HDAC INHIBITORS IN VASCULAR DYSFUNCTION AND AS. WE ALSO ELABORATE ON THE NOVEL THERAPEUTIC TARGETS AND AGENTS IN ATHEROSCLEROTIC CARDIOVASCULAR DISEASES. 2020