1 3730 123 INHIBITION OF THE COREST REPRESSOR COMPLEX PROMOTES WOUND RE-EPITHELIALIZATION VIA REGULATION OF KERATINOCYTE MIGRATION. WOUND HEALING IS A COMPLEX PROCESS INVOLVING PHASES OF HEMOSTASIS, INFLAMMATION, PROLIFERATION, AND REMODELING. THE REGENERATIVE PROCESS IN THE SKIN REQUIRES COORDINATION BETWEEN MANY REGULATORS INCLUDING SIGNALING MOLECULES, TRANSCRIPTION FACTORS AND THE EPIGENETIC MACHINERY. HERE WE SHOW THAT CHROMATIN REGULATORS HISTONE DEACETYLASE 1 (HDAC1) AND LYSINE-SPECIFIC HISTONE DEMETHYLASE 1 (LSD1), KEY COMPONENTS OF THE COREST REPRESSOR COMPLEX, ARE UPREGULATED IN THE REGENERATING EPIDERMIS DURING WOUND REPAIR. WE ALSO SHOW THAT CORIN, A SYNTHETIC DUAL INHIBITOR OF THE COREST COMPLEX AND HDAC1/LSD1 ACTIVITIES, SIGNIFICANTLY ACCELERATES WOUND CLOSURE THROUGH ENHANCED RE-EPITHELIALIZATION IN A MOUSE TAIL WOUND MODEL. ACETYLATED H3K9 EXPRESSION, A HISTONE MODIFICATION TARGETED BY HDAC1, IS INCREASED IN KERATINOCYTES AFTER TOPICAL TREATMENT WITH 100 NM AND 1 MUM OF CORIN. IN VITRO EXPERIMENTS DEMONSTRATE THAT CORIN PROMOTES MIGRATION AND INHIBITS PROLIFERATION OF HUMAN KERATINOCYTES. FURTHERMORE, EXPRESSION LEVELS OF GENES PROMOTING KERATINOCYTE MIGRATION, SUCH AS AREG, CD24, EPHB2, ITGAX, PTGS, SCT1, SERPINB2, SERPINE1, SLPI, SNAI2 AND TWIST INCREASED IN KERATINOCYTES TREATED WITH CORIN. THESE DATA DEMONSTRATE THAT DUAL INHIBITION OF CLASS I HDACS AND LSD1 BY CORIN, MAY SERVE AS A NEW APPROACH FOR PROMOTING WOUND RE-EPITHELIALIZATION AND PROVIDE A PLATFORM FOR FURTHER APPLICATIONS OF CORIN FOR THE TREATMENT OF CHRONIC WOUNDS. 2023 2 2983 38 GENETIC DETERMINANTS OF CANCER COAGULOPATHY, ANGIOGENESIS AND DISEASE PROGRESSION. PROGRESSION OF HUMAN MALIGNANCIES IS ACCOMPANIED BY VASCULAR EVENTS, SUCH AS FORMATION AND REMODELING OF BLOOD VESSELS AND SYSTEMIC COAGULOPATHY. THOUGH LONG APPRECIATED AS COMORBIDITY OF CANCER (TROUSSEAU SYNDROME), VASCULAR INVOLVEMENT IS INCREASINGLY RECOGNIZED AS A CENTRAL PATHOGENETIC MECHANISM OF TUMOR GROWTH, INVASION AND METASTASIS. THE MAJOR OUTSTANDING QUESTION IN RELATION TO THIS ROLE HAS BEEN, WHETHER VASCULAR PERTURBATIONS ARE SIMPLY A REACTION TO THE CONDITIONS OF THE TUMOR MICROENVIRONMENT, OR ARE LINKED TO THE KNOWN GENETIC LESIONS CAUSAL FOR THE ONSET AND PROGRESSION OF MALIGNANCY. IN THIS REGARD, WE HAVE PREVIOUSLY HYPOTHESIZED, AND RECENTLY DEMONSTRATED EXPERIMENTALLY THAT DEREGULATION OF CERTAIN HEMOSTATIC MECHANISMS, NAMELY UPREGULATION OF TISSUE FACTOR (TF) AND POSSIBLY OTHER CHANGES (E.G. EXPRESSION OF THROMBIN RECEPTOR - PAR-1) ARE CONTROLLED BY CANCER-ASSOCIATED ONCOGENIC EVENTS, SUCH AS ACTIVATION OF K-RAS, EPIDERMAL GROWTH FACTOR RECEPTOR (EGFR), OR INACTIVATION OF THE P53 TUMOR SUPPRESSOR GENE IN VARIOUS HUMAN CANCER CELLS. IT APPEARS THAT THESE RESPECTIVE TRANSFORMING ALTERATIONS EXERT THEIR IMPACT ON BOTH, CELL-ASSOCIATED AND SOLUBLE/CIRCULATING (MICROVESICLE- ASSOCIATED) TF, I.E. MAY CAUSE A SYSTEMIC HYPERCOAGULABLE STATE. OTHER GENES, WHICH MORE RECENTLY EMERGED AS REGULATORS OF CANCER COAGULOPATHY INCLUDE: PML-RARALPHA, PTEN, AND MET. WHILE THE SPECTRUM OF PROCOAGULANT TARGETS OF THESE GENES MAY VARY SOMEWHAT IT INCLUDES: TF, PAI-1, COX-2 AND POSSIBLY OTHER HEMOSTATIC PROTEINS. IT IS NOTEWORTHY THAT THESE PROTHROMBOTIC CHANGES MAY IMPACT THE MALIGNANT PROCESS DIRECTLY (E.G. STIMULATE ANGIOGENESIS, TUMOR GROWTH OR METASTASIS) AS A CONSEQUENCE OF BOTH COAGULATION-DEPENDENT AND -INDEPENDENT EFFECTS. THE LATTER ARE MOSTLY RELATED TO CELLULAR SIGNALING EVENTS AND CHANGES IN GENE EXPRESSION WHICH ARE NOW KNOWN TO BE INDUCED BY THE TF/FVIIA/XA COMPLEX, THROMBIN AND PARS, EXPRESSED ON THE SURFACE OF CANCER CELLS, AS WELL AS TUMOR-ASSOCIATED ENDOTHELIUM. INTERESTINGLY, CERTAIN ANTICOAGULANTS POSSESS ANTIMETASTATIC AND ANTICANCER PROPERTIES (E.G. LMWH), AN OBSERVATION THAT FURTHER SUGGESTS THAT HYPERCOAGULABILITY MAY ACT AS AN EFFECTOR MECHANISM OF GENETICALLY DRIVEN TUMOR PROGRESSION. CONVERSELY, WE SUGGEST THAT ONCOGENE-DIRECTED (TARGETED) ANTICANCER AGENTS COULD, AT LEAST IN SOME CASES, AMELIORATE NOT ONLY CELLULAR TRANSFORMATION ITSELF, BUT ALSO SOME OF THE CHRONIC COMPONENTS OF THE CANCER-RELATED COAGULOPATHY, SOMETHING THAT MAY BE RELEVANT TO THERAPEUTIC EFFICACY OF THESE DRUGS. WE ALSO POSTULATE THAT SINCE TF IS THE ONCOGENE TARGET, CIRCULATING TF (MICROPARTICLES) COULD SERVE AS SURROGATE MARKER OF THE BIOLOGICAL ACTIVITY ONCOGENE-DIRECTED AGENTS EXERT IN VIVO. THUS, BOTH GENETIC AND EPIGENETIC FACTORS APPEAR TO CONSPIRE TO ACTIVATE VARIOUS COMPONENTS OF THE HEMOSTATIC SYSTEM IN CANCER PATIENTS, BOTH LOCALLY AND SYSTEMICALLY. THESE ACTIVITIES ACT AS MEDIATORS OF CANCER COAGULOPATHY, ANGIOGENESIS, METASTASIS AND OTHER EVENTS INVOLVED IN DISEASE PROGRESSION AND SHOULD BE RECOGNIZED IN DESIGNING BETTER ANTICANCER THERAPIES. 2006 3 5646 23 SEX DIFFERENCES AND EMERGING NEW RISK FACTORS FOR ATHEROSCLEROSIS AND ITS THROMBOTIC COMPLICATIONS. CARDIOVASCULAR DISEASES (CVD) REMAIN THE WORLD'S LEADING CAUSE OF DEATH AND DISABILITY IN BOTH MEN AND WOMEN, BUT WITH DIFFERENT PROGNOSTICS AND OUTCOMES BETWEEN SEXES. ALTHOUGH THE BURDEN OF CVD IS GENERALLY RELATED TO THE CONVENTIONAL RISK FACTORS, THE RELEVANCE OF NON-TRADITIONAL RISK FACTORS IS INCREASINGLY BEING RECOGNIZED TO EXPLAIN THE SO-CALLED "RESIDUAL RISK". MEN AND WOMEN SHARE MANY SIMILARITIES REGARDING CLASSICAL CARDIOVASCULAR RISK FACTORS BUT HAVE DIFFERENT DISEASE PATHOPHYSIOLOGY, CLINICAL PRESENTATIONS, PREVALENCE, AND OUTCOMES OF CVDS. HOW SEX-SPECIFICITIES REGARDING THE EFFECTS OF NON-TRADITIONAL RISK FACTORS MAY CONTRIBUTE TO THE EVOLUTION OF ATHEROSCLEROSIS AND ITS CLINICAL MANIFESTATIONS IN MALES AND FEMALES REMAIN LARGELY UNDERANALYZED. THE PRESENT REVIEW SUMMARIZES THE CURRENT KNOWLEDGE FOR SEX DIFFERENCES IN ATHEROSCLEROTIC PLAQUE COMPOSITION AND CLINICAL EVOLUTION IN ASSOCIATION WITH RISK FACTORS, SUCH AS INFLAMMATION, LIPOPROTEIN(A), HEMOSTASIS, INTRAPLAQUE CALCIFICATION, AND DEPRESSION. WE FURTHER DISCUSS THE POTENTIAL SEX-DIFFERENTIAL IMPACT OF CHRONIC INFECTIOUS DISEASES, GUT MICROBIOME AND, EPIGENETIC GENE EXPRESSION REGULATION FOR ATHEROSCLEROSIS AND THE EFFECT OF FEMALE-SPECIFIC DISORDERS IN CVD. 2021 4 6698 25 VARICOCOELE AND OXIDATIVE STRESS: NEW PERSPECTIVES FROM ANIMAL AND HUMAN STUDIES. BACKGROUND: VARICOCOELE (VCL), ONE OF THE MAIN CAUSES OF MALE SUBFERTILITY, NEGATIVELY AFFECTS TESTICULAR FUNCTION. DUE TO LIMITED ACCESS TO HUMAN TESTICULAR TISSUE, ANIMAL MODEL STUDIES HAVE BEEN USED TO EVALUATE MOLECULAR AND, RECENTLY, EPIGENETIC CHANGES ATTRIBUTED TO PATHOPHYSIOLOGY INDUCED BY VCL. OBJECTIVES: THIS REVIEW AIMS TO PROVIDE AN UPDATE ON THE LATEST FINDINGS REGARDING THE LINK BETWEEN VCL-INDUCED BIOCHEMICAL STRESS AND MOLECULAR CHANGES IN GERM CELLS AND SPERMATOZOA. ENDOCRINE AND ANTIOXIDANT STATUS, TESTICULAR CHAPERONE-SPECIFIC HEMOSTASIS FAILURE, ALTERED TESTICULAR ION BALANCE, METABOLIC DISORDERS, AND ALTERED CARBON CYCLING DURING SPERMATOGENESIS ARE AMONG THE MANY FEATURES THAT WILL BE PRESENTED. DISCUSSION: LITERATURE REVIEW COUPLED WITH OUR OWN FINDINGS SUGGESTS THAT IONIC IMBALANCE, HYPOXIA, HYPERTHERMIA, AND ALTERED BLOOD FLOW COULD LEAD TO SEVERE CHRONIC OXIDATIVE AND NITROSATIVE STRESS IN PATIENTS WITH VCL LEADING TO DEFECTIVE SPERMATOGENESIS AND IMPAIRMENT OF THE INTEGRITY OF ALL SPERM CELL COMPONENTS AND COMPARTMENTS DOWN TO THE EPIGENETIC INFORMATION THEY CARRY. CONCLUSION: SINCE OXIDATIVE STRESS IS AN IMPORTANT FEATURE OF THE REPRODUCTIVE PATHOLOGY OF VCL, THERAPEUTIC STRATEGIES SUCH AS THE ADMINISTRATION OF APPROPRIATE ANTIOXIDANTS COULD BE UNDERTAKEN AS A COMPLEMENTARY NON-INVASIVE TREATMENT LINE. 2021 5 4577 26 MYOSTATIN: BASIC BIOLOGY TO CLINICAL APPLICATION. MYOSTATIN IS A MEMBER OF THE TRANSFORMING GROWTH FACTOR (TGF)-BETA SUPERFAMILY. IT IS EXPRESSED BY ANIMAL AND HUMAN SKELETAL MUSCLE CELLS WHERE IT LIMITS MUSCLE GROWTH AND PROMOTES PROTEIN BREAKDOWN. ITS EFFECTS ARE INFLUENCED BY COMPLEX MECHANISMS INCLUDING TRANSCRIPTIONAL AND EPIGENETIC REGULATION AND MODULATION BY EXTRACELLULAR BINDING PROTEINS. DUE TO ITS ACTIONS IN PROMOTING MUSCLE ATROPHY AND CACHEXIA, MYOSTATIN HAS BEEN INVESTIGATED AS A PROMISING THERAPEUTIC TARGET TO COUNTERACT MUSCLE MASS LOSS IN EXPERIMENTAL MODELS AND PATIENTS AFFECTED BY DIFFERENT MUSCLE-WASTING CONDITIONS. MOREOVER, GROWING EVIDENCE INDICATES THAT MYOSTATIN, BEYOND TO REGULATE SKELETAL MUSCLE GROWTH, MAY HAVE A ROLE IN MANY PHYSIOLOGIC AND PATHOLOGIC PROCESSES, SUCH AS OBESITY, INSULIN RESISTANCE, CARDIOVASCULAR AND CHRONIC KIDNEY DISEASE. IN THIS CHAPTER, WE REVIEW MYOSTATIN BIOLOGY, INCLUDING INTRACELLULAR AND EXTRACELLULAR REGULATORY PATHWAYS, AND THE ROLE OF MYOSTATIN IN MODULATING PHYSIOLOGIC PROCESSES, SUCH AS MUSCLE GROWTH AND AGING. MOREOVER, WE DISCUSS THE MOST RELEVANT EXPERIMENTAL AND CLINICAL EVIDENCE SUPPORTING THE EXTRA-MUSCLE EFFECTS OF MYOSTATIN. FINALLY, WE CONSIDER THE MAIN STRATEGIES DEVELOPED AND TESTED TO INHIBIT MYOSTATIN IN CLINICAL TRIALS AND DISCUSS THE LIMITS AND FUTURE PERSPECTIVES OF THE RESEARCH ON MYOSTATIN. 2022 6 767 31 CD24 MEDIATES GASTRIC CARCINOGENESIS AND PROMOTES GASTRIC CANCER PROGRESSION VIA STAT3 ACTIVATION. THE DEVELOPMENT OF GASTRIC CANCER (GC) IS A COMPLEX MULTISTEP PROCESS, INCLUDING NUMEROUS GENETIC AND EPIGENETIC CHANGES. CD24 IS ASSOCIATED WITH ENHANCED INVASIVENESS OF GC AND A POOR PROGNOSIS. HOWEVER, THE MECHANISM BY WHICH CD24 INDUCES GC PROGRESSION REMAINS POORLY CHARACTERIZED. HERE, WE FOUND THAT THE EXPRESSION OF CD24 GRADUALLY INCREASED IN SAMPLES OF NORMAL GASTRIC MUCOSA, NON-ATROPHIC CHRONIC GASTRITIS, CHRONIC ATROPHIC GASTRITIS (CAG), CAG WITH INTESTINAL METAPLASIA, DYSPLASIA AND GC. MOREOVER, THE KNOCKDOWN OF CD24 INDUCED SIGNIFICANT LEVELS OF APOPTOSIS IN GC CELLS VIA THE MITOCHONDRIAL APOPTOTIC PATHWAY. CD24 MAY ALSO PROMOTE CELLULAR INVASION AND REGULATE THE EXPRESSION OF E-CADHERIN, FIBRONECTIN AND VITAMIN D RECEPTOR IN GC CELLS. THE ACTIVATION OF SIGNAL TRANSDUCER AND ACTIVATOR OF TRANSCRIPTION 3 (STAT3) MAY MEDIATE CD24-INDUCED GC SURVIVAL AND INVASION IN VITRO. FURTHERMORE, CD24-INDUCED GC PROGRESSION AND STAT3 ACTIVATION COULD ALSO BE DETECTED IN VIVO AND IN CLINICAL GC TISSUES SAMPLES. TAKEN TOGETHER, OUR RESULTS INDICATE THAT CD24 MEDIATES GASTRIC CARCINOGENESIS AND MAY PROMOTE GC PROGRESSION BY SUPPRESSING APOPTOSIS AND PROMOTING INVASION, WITH THE ACTIVATION OF STAT3 PLAYING A CRITICAL ROLE. 2014 7 4979 15 PATHOPHYSIOLOGY AND TREATMENT OF SICKLE CELL DISEASE. CURRENT TREATMENT AND UNDERSTANDING OF SICKLE CELL DISEASE REQUIRE AN APPRECIATION FOR THE COMPLEXITY OF ITS BASIC PATHOPHYSIOLOGY. THE CLINICAL MANIFESTATIONS OF VASO-OCCLUSION RESULT FROM A DYNAMIC COMBINATION OF ABNORMALITIES IN HEMOGLOBIN STRUCTURE AND FUNCTION, RED BLOOD CELL MEMBRANE INTEGRITY, ERYTHROCYTE DENSITY, ENDOTHELIAL ACTIVATION, MICROVASCULAR TONE, INFLAMMATORY MEDIATORS, AND COAGULATION FACTORS. EXISTING AND EMERGING THERAPIES ADDRESS EACH OF THESE BIOLOGIC ALTERATIONS, INDIVIDUALLY AND COLLECTIVELY. EXAMPLES INCLUDE INDUCTION OF FETAL HEMOGLOBIN, MODULATION OF ERYTHROCYTE HYDRATION, AUGMENTATION OF NITRIC OXIDE, CHRONIC TRANSFUSION, STEM CELL TRANSPLANTATION, AND GENE THERAPY. UNDERSTANDING THE PLEIOTROPIC AND EPIGENETIC FACTORS INFLUENCING DISEASE PHENOTYPE MAY LEAD TO MORE TARGETED APPLICATION OF THESE THERAPIES. 2005 8 4211 21 METFORMIN FOR CARDIOVASCULAR PROTECTION, INFLAMMATORY BOWEL DISEASE, OSTEOPOROSIS, PERIODONTITIS, POLYCYSTIC OVARIAN SYNDROME, NEURODEGENERATION, CANCER, INFLAMMATION AND SENESCENCE: WHAT IS NEXT? DIABETES IS ACCOMPANIED BY SEVERAL COMPLICATIONS. HIGHER PREVALENCE OF CANCERS, CARDIOVASCULAR DISEASES, CHRONIC KIDNEY DISEASE (CKD), OBESITY, OSTEOPOROSIS, AND NEURODEGENERATIVE DISEASES HAS BEEN REPORTED AMONG PATIENTS WITH DIABETES. METFORMIN IS THE OLDEST ORAL ANTIDIABETIC DRUG AND CAN IMPROVE COEXISTING COMPLICATIONS OF DIABETES. CLINICAL TRIALS AND OBSERVATIONAL STUDIES UNCOVERED THAT METFORMIN CAN REMARKABLY PREVENT OR ALLEVIATE CARDIOVASCULAR DISEASES, OBESITY, POLYCYSTIC OVARIAN SYNDROME (PCOS), OSTEOPOROSIS, CANCER, PERIODONTITIS, NEURONAL DAMAGE AND NEURODEGENERATIVE DISEASES, INFLAMMATION, INFLAMMATORY BOWEL DISEASE (IBD), TUBERCULOSIS, AND COVID-19. IN ADDITION, METFORMIN HAS BEEN PROPOSED AS AN ANTIAGING AGENT. NUMEROUS MECHANISMS WERE SHOWN TO BE INVOLVED IN THE PROTECTIVE EFFECTS OF METFORMIN. METFORMIN ACTIVATES THE LKB1/AMPK PATHWAY TO INTERACT WITH SEVERAL INTRACELLULAR SIGNALING PATHWAYS AND MOLECULAR MECHANISMS. THE DRUG MODIFIES THE BIOLOGIC FUNCTION OF NF-KAPPAB, PI3K/AKT/MTOR, SIRT1/PGC-1ALPHA, NLRP3, ERK, P38 MAPK, WNT/BETA-CATENIN, NRF2, JNK, AND OTHER MAJOR MOLECULES IN THE INTRACELLULAR SIGNALING NETWORK. IT ALSO REGULATES THE EXPRESSION OF NONCODING RNAS. THEREBY, METFORMIN CAN REGULATE METABOLISM, GROWTH, PROLIFERATION, INFLAMMATION, TUMORIGENESIS, AND SENESCENCE. ADDITIONALLY, METFORMIN MODULATES IMMUNE RESPONSE, AUTOPHAGY, MITOPHAGY, ENDOPLASMIC RETICULUM (ER) STRESS, AND APOPTOSIS AND EXERTS EPIGENETIC EFFECTS. FURTHERMORE, METFORMIN PROTECTS AGAINST OXIDATIVE STRESS AND GENOMIC INSTABILITY, PRESERVES TELOMERE LENGTH, AND PREVENTS STEM CELL EXHAUSTION. IN THIS REVIEW, THE PROTECTIVE EFFECTS OF METFORMIN ON EACH DISEASE WILL BE DISCUSSED USING THE RESULTS OF RECENT META-ANALYSES, CLINICAL TRIALS, AND OBSERVATIONAL STUDIES. THEREAFTER, IT WILL BE METICULOUSLY EXPLAINED HOW METFORMIN REPROGRAMS INTRACELLULAR SIGNALING PATHWAYS AND ALTERS MOLECULAR AND CELLULAR INTERACTIONS TO MODIFY THE CLINICAL PRESENTATIONS OF SEVERAL DISEASES. 2021 9 6154 25 THE GENE EXPRESSION PROGRAM OF PROSTATE FIBROBLAST SENESCENCE MODULATES NEOPLASTIC EPITHELIAL CELL PROLIFERATION THROUGH PARACRINE MECHANISMS. THE GREATEST RISK FACTOR FOR DEVELOPING CARCINOMA OF THE PROSTATE IS ADVANCED AGE. POTENTIAL MOLECULAR AND PHYSIOLOGIC CONTRIBUTORS TO THE FREQUENCY OF CANCER OCCURRENCE IN OLDER INDIVIDUALS INCLUDE THE ACCUMULATION OF SOMATIC MUTATIONS THROUGH DEFECTS IN GENOME MAINTENANCE, EPIGENETIC GENE SILENCING, OXIDATIVE STRESS, LOSS OF IMMUNE SURVEILLANCE, TELOMERE DYSFUNCTION, CHRONIC INFLAMMATION, AND ALTERATIONS IN TISSUE MICROENVIRONMENT. IN THIS CONTEXT, THE PROCESS OF PROSTATE CARCINOGENESIS CAN BE INFLUENCED THROUGH INTERACTIONS BETWEEN INTRINSIC CELLULAR ALTERATIONS AND THE EXTRINSIC MICROENVIRONMENT AND MACROENVIRONMENT, BOTH OF WHICH CHANGE SUBSTANTIALLY AS A CONSEQUENCE OF AGING. IN THIS STUDY, WE SOUGHT TO CHARACTERIZE THE MOLECULAR ALTERATIONS THAT OCCUR DURING THE PROCESS OF PROSTATE FIBROBLAST SENESCENCE TO IDENTIFY FACTORS IN THE AGED TISSUE MICROENVIRONMENT CAPABLE OF PROMOTING THE PROLIFERATION AND POTENTIALLY THE NEOPLASTIC PROGRESSION OF PROSTATE EPITHELIUM. WE EVALUATED THREE MECHANISMS LEADING TO CELL SENESCENCE: OXIDATIVE STRESS, DNA DAMAGE, AND REPLICATIVE EXHAUSTION. WE IDENTIFIED A CONSISTENT PROGRAM OF GENE EXPRESSION THAT INCLUDES A SUBSET OF PARACRINE FACTORS CAPABLE OF INFLUENCING ADJACENT PROSTATE EPITHELIAL GROWTH. BOTH DIRECT COCULTURE AND CONDITIONED MEDIUM FROM SENESCENT PROSTATE FIBROBLASTS STIMULATED EPITHELIAL CELL PROLIFERATION, 3-FOLD AND 2-FOLD, RESPECTIVELY. THE PARACRINE-ACTING PROTEINS FIBROBLAST GROWTH FACTOR 7, HEPATOCYTE GROWTH FACTOR, AND AMPHIREGULIN (AREG) WERE ELEVATED IN THE EXTRACELLULAR ENVIRONMENT OF SENESCENT PROSTATE FIBROBLASTS. EXOGENOUS AREG ALONE STIMULATED PROSTATE EPITHELIAL CELL GROWTH, AND NEUTRALIZING ANTIBODIES AND SMALL INTERFERING RNA TARGETING AREG ATTENUATED, BUT DID NOT COMPLETELY ABROGATE THE GROWTH-PROMOTING EFFECTS OF SENESCENT FIBROBLAST CONDITIONED MEDIUM. THESE RESULTS SUPPORT THE CONCEPT THAT AGING-RELATED CHANGES IN THE PROSTATE MICROENVIRONMENT MAY CONTRIBUTE TO THE PROGRESSION OF PROSTATE NEOPLASIA. 2006 10 2694 26 EVOLVING SPECTRUM OF DIABETIC WOUND: MECHANISTIC INSIGHTS AND THERAPEUTIC TARGETS. DIABETES MELLITUS IS A CHRONIC METABOLIC DISORDER RESULTING IN AN INCREASED BLOOD GLUCOSE LEVEL AND PROLONGED HYPERGLYCEMIA, CAUSES LONG TERM HEALTH CONSE-QUENCES. CHRONIC WOUND IS FREQUENTLY OCCURRING IN DIABETES PATIENTS DUE TO COMPROMISED WOUND HEALING CAPABILITY. MANAGEMENT OF WOUNDS IN DIABETIC PATIENTS REMAINS A CLINICAL CHALLENGE DESPITE MANY ADVANCEMENTS IN THE FIELD OF SCIENCE AND TECHNOLOGY. INCREASING EVIDENCE INDICATES THAT ALTERATION OF THE BIOCHEMICAL MILIEU RESULTING FROM ALTERATION IN INFLAMMATORY CYTOKINES AND MATRIX METALLOPROTEINASE, DECREASE IN FIBROBLAST AND KERATINOCYTE FUNCTIONING, NEUROPATHY, ALTERED LEUKOCYTE FUNCTIONING, INFECTION, ETC., PLAYS A SIGNIFICANT ROLE IN IMPAIRED WOUND HEALING IN DIABETIC PEOPLE. APART FROM THE CURRENT PHARMACOTHERAPY, DIFFERENT OTHER APPROACHES LIKE THE USE OF CONVENTIONAL DRUGS, ANTIDIABETIC MEDICATION, ANTIBIOTICS, DEBRIDEMENT, OFFLOADING, PLATELET-RICH PLASMA, GROWTH FACTOR, OXYGEN THERAPY, NEGATIVE PRESSURE WOUND THERAPY, LOW-LEVEL LASER, EXTRACORPOREAL SHOCK WAVE BIOENGINEERED SUBSTITUTE CAN BE CONSIDERED IN THE MANAGEMENT OF DIABETIC WOUNDS. DRUGS/THERAPEUTIC STRATEGY THAT INDUCE ANGIOGENESIS AND COLLAGEN SYNTHESIS, INHIBITION OF MMPS, REDUCTION OF OXIDATIVE STRESS, CONTROLLING HYPERGLYCEMIA, INCREASE GROWTH FACTORS, REGULATE INFLAMMATORY CYTOKINES, CAUSE NO INDUCTION, INDUCE FIBROBLAST AND KERATINOCYTE PROLIFERATION, CONTROL MICROBIAL INFECTIONS ARE CONSIDERED IMPORTANT IN CONTROLLING DIABETIC WOUND. FURTHER, MEDICINAL PLANTS AND/OR PHYTOCONSTITUENTS ALSO OFFER A VIABLE ALTERNATIVE IN THE TREATMENT OF DIABETIC WOUND. THE FOCUS OF THE PRESENT REVIEW IS TO HIGHLIGHT THE MOLECULAR AND CELLULAR MECHANISMS, AND DISCUSS THE DRUG TARGETS AND TREATMENT STRATEGIES INVOLVED IN THE DIABETIC WOUND. 2022 11 6374 26 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 5025 29 PERSONALIZED MANAGEMENT OF CARDIOVASCULAR DISORDERS. PERSONALIZED MANAGEMENT OF CARDIOVASCULAR DISORDERS (CVD), ALSO REFERRED TO AS PERSONALIZED OR PRECISION CARDIOLOGY IN ACCORDANCE WITH GENERAL PRINCIPLES OF PERSONALIZED MEDICINE, IS SELECTION OF THE BEST TREATMENT FOR AN INDIVIDUAL PATIENT. IT INVOLVES THE INTEGRATION OF VARIOUS "OMICS" TECHNOLOGIES SUCH AS GENOMICS AND PROTEOMICS AS WELL AS OTHER NEW TECHNOLOGIES SUCH AS NANOBIOTECHNOLOGY. MOLECULAR DIAGNOSTICS AND BIOMARKERS ARE IMPORTANT FOR LINKING DIAGNOSIS WITH THERAPY AND MONITORING THERAPY. BECAUSE CVD INVOLVE PERTURBATIONS OF LARGE COMPLEX BIOLOGICAL NETWORKS, A SYSTEMS BIOLOGY APPROACH TO CVD RISK STRATIFICATION MAY BE USED FOR IMPROVING RISK-ESTIMATING ALGORITHMS, AND MODELING OF PERSONALIZED BENEFIT OF TREATMENT MAY BE HELPFUL FOR GUIDING THE CHOICE OF INTERVENTION. BIOINFORMATICS TOOLS ARE HELPFUL IN ANALYZING AND INTEGRATING LARGE AMOUNTS OF DATA FROM VARIOUS SOURCES. PERSONALIZED THERAPY IS CONSIDERED DURING DRUG DEVELOPMENT, INCLUDING METHODS OF TARGETED DRUG DELIVERY AND CLINICAL TRIALS. INDIVIDUALIZED RECOMMENDATIONS CONSIDER MULTIPLE FACTORS - GENETIC AS WELL AS EPIGENETIC - FOR PATIENTS' RISK OF HEART DISEASE. EXAMPLES OF PERSONALIZED TREATMENT ARE THOSE OF CHRONIC MYOCARDIAL ISCHEMIA, HEART FAILURE, AND HYPERTENSION. SIMILAR APPROACHES CAN BE USED FOR THE MANAGEMENT OF ATRIAL FIBRILLATION AND HYPERCHOLESTEROLEMIA, AS WELL AS THE USE OF ANTICOAGULANTS. PERSONALIZED MANAGEMENT INCLUDES PHARMACOTHERAPY, SURGERY, LIFESTYLE MODIFICATIONS, AND COMBINATIONS THEREOF. FURTHER PROGRESS IN UNDERSTANDING THE PATHOMECHANISM OF COMPLEX CARDIOVASCULAR DISEASES AND IDENTIFICATION OF CAUSATIVE FACTORS AT THE INDIVIDUAL PATIENT LEVEL WILL PROVIDE OPPORTUNITIES FOR THE DEVELOPMENT OF PERSONALIZED CARDIOLOGY. APPLICATION OF PRINCIPLES OF PERSONALIZED MEDICINE WILL IMPROVE THE CARE OF THE PATIENTS WITH CVD. 2017 13 1276 28 DAMPS, AGEING, AND CANCER: THE 'DAMP HYPOTHESIS'. AGEING IS A COMPLEX AND MULTIFACTORIAL PROCESS CHARACTERIZED BY THE ACCUMULATION OF MANY FORMS OF DAMAGE AT THE MOLECULAR, CELLULAR, AND TISSUE LEVEL WITH ADVANCING AGE. AGEING INCREASES THE RISK OF THE ONSET OF CHRONIC INFLAMMATION-ASSOCIATED DISEASES SUCH AS CANCER, DIABETES, STROKE, AND NEURODEGENERATIVE DISEASE. IN PARTICULAR, AGEING AND CANCER SHARE SOME COMMON ORIGINS AND HALLMARKS SUCH AS GENOMIC INSTABILITY, EPIGENETIC ALTERATION, ABERRANT TELOMERES, INFLAMMATION AND IMMUNE INJURY, REPROGRAMMED METABOLISM, AND DEGRADATION SYSTEM IMPAIRMENT (INCLUDING WITHIN THE UBIQUITIN-PROTEASOME SYSTEM AND THE AUTOPHAGIC MACHINERY). RECENT ADVANCES INDICATE THAT DAMAGE-ASSOCIATED MOLECULAR PATTERN MOLECULES (DAMPS) SUCH AS HIGH MOBILITY GROUP BOX 1, HISTONES, S100, AND HEAT SHOCK PROTEINS PLAY LOCATION-DEPENDENT ROLES INSIDE AND OUTSIDE THE CELL. THESE PROVIDE INTERACTION PLATFORMS AT MOLECULAR LEVELS LINKED TO COMMON HALLMARKS OF AGEING AND CANCER. THEY CAN ACT AS INDUCERS, SENSORS, AND MEDIATORS OF STRESS THROUGH INDIVIDUAL PLASMA MEMBRANE RECEPTORS, INTRACELLULAR RECOGNITION RECEPTORS (E.G., ADVANCED GLYCOSYLATION END PRODUCT-SPECIFIC RECEPTORS, AIM2-LIKE RECEPTORS, RIG-I-LIKE RECEPTORS, AND NOD1-LIKE RECEPTORS, AND TOLL-LIKE RECEPTORS), OR FOLLOWING ENDOCYTIC UPTAKE. THUS, THE DAMP HYPOTHESIS IS NOVEL AND COMPLEMENTS OTHER THEORIES THAT EXPLAIN THE FEATURES OF AGEING. DAMPS REPRESENT IDEAL BIOMARKERS OF AGEING AND PROVIDE AN ATTRACTIVE TARGET FOR INTERVENTIONS IN AGEING AND AGE-ASSOCIATED DISEASES. 2015 14 6786 20 [CONSENSUS AND CONTROVERSY ON RESEARCH PROGRESS AND CLINICAL PRACTICE OF VASCULAR CALCIFICATION]. VASCULAR CALCIFICATION IS AN ACTIVE AND COMPLEX PATHOLOGICAL PROCESS REGULATED BY SEVERAL FACTORS. VASCULAR CALCIFICATION IS CLOSELY RELATED TO THE INCIDENCE AND MORTALITY OF THE CARDIOVASCULAR DISEASE, CHRONIC KIDNEY DISEASE AND OTHER DISEASES, WHICH AFFECTS MULTIPLE ORGANS AND SYSTEMS, THUS AFFECTING PEOPLE'S HEALTH. THEREFORE, MORE AND MORE ATTENTION IS PAID TO VASCULAR CALCIFICATION. AT PRESENT, THE PATHOGENESIS AND CLINICAL PRACTICE OF VASCULAR CALCIFICATION HAVE BEEN CONTINUOUSLY IMPROVED, WHICH MAINLY INCLUDES CALCIUM AND PHOSPHORUS IMBALANCE THEORY, VASCULAR SMOOTH MUSCLE CELL TRANSDIFFERENTIATION THEORY, BONE HOMEOSTASIS IMBALANCE THEORY, EPIGENETIC REGULATION THEORY, INFLAMMATION THEORY, EXTRACELLULAR MATRIX THEORY, NEW CELL FATE THEORY AND SO ON. HOWEVER, THERE ARE STILL MANY UNSOLVED PROBLEMS. SINCE THE OCCURRENCE AND DEVELOPMENT OF VASCULAR CALCIFICATION AFFECT MULTIPLE ORGANS AND SYSTEMS, THIS EXPERT CONSENSUS GATHERED CLINICIANS AND BASIC RESEARCH EXPERTS ENGAGED IN THE STUDY OF VASCULAR CALCIFICATION IN ORDER TO SUMMARIZE THE PROGRESS OF VARIOUS DISCIPLINES RELATED TO VASCULAR CALCIFICATION IN RECENT YEARS. THE PURPOSE OF THIS CONSENSUS IS TO SYSTEMATICALLY SUMMARIZE THE LATEST RESEARCH PROGRESS, TREATMENT CONSENSUS AND CONTROVERSY OF VASCULAR CALCIFICATION FROM THE ASPECTS OF EPIDEMIOLOGY, PATHOGENESIS, PREVENTION AND TREATMENT, SO AS TO PROVIDE THEORETICAL BASIS AND CLINICAL ENLIGHTENMENT FOR IN-DEPTH RESEARCH IN THIS FIELD. 2022 15 4605 26 NEGATIVE REGULATORS OF TGF-BETA1 SIGNALING IN RENAL FIBROSIS; PATHOLOGICAL MECHANISMS AND NOVEL THERAPEUTIC OPPORTUNITIES. ELEVATED EXPRESSION OF THE MULTIFUNCTIONAL CYTOKINE TRANSFORMING GROWTH FACTOR BETA1 (TGF-BETA1) IS CAUSATIVELY LINKED TO KIDNEY FIBROSIS PROGRESSION INITIATED BY DIABETIC, HYPERTENSIVE, OBSTRUCTIVE, ISCHEMIC AND TOXIN-INDUCED INJURY. THERAPEUTICALLY RELEVANT APPROACHES TO DIRECTLY TARGET THE TGF-BETA1 PATHWAY (E.G., NEUTRALIZING ANTIBODIES AGAINST TGF-BETA1), HOWEVER, REMAIN ELUSIVE IN HUMANS. TGF-BETA1 SIGNALING IS SUBJECTED TO EXTENSIVE NEGATIVE CONTROL AT THE LEVEL OF TGF-BETA1 RECEPTOR, SMAD2/3 ACTIVATION, COMPLEX ASSEMBLY AND PROMOTER ENGAGEMENT DUE TO ITS CRITICAL ROLE IN TISSUE HOMEOSTASIS AND NUMEROUS PATHOLOGIES. PROGRESSIVE KIDNEY INJURY IS ACCOMPANIED BY THE DEREGULATION (LOSS OR GAIN OF EXPRESSION) OF SEVERAL NEGATIVE REGULATORS OF THE TGF-BETA1 SIGNALING CASCADE BY MECHANISMS INVOLVING PROTEIN AND MRNA STABILITY OR EPIGENETIC SILENCING, FURTHER AMPLIFYING TGF-BETA1/SMAD3 SIGNALING AND FIBROSIS. EXPRESSION OF BONE MORPHOGENETIC PROTEINS 6 AND 7 (BMP6/7), SMAD7, SLOAN-KETTERING INSTITUTE PROTO-ONCOGENE (SKI) AND SKI-RELATED NOVEL GENE (SNON), PHOSPHATE TENSIN HOMOLOG ON CHROMOSOME 10 (PTEN), PROTEIN PHOSPHATASE MAGNESIUM/MANGANESE DEPENDENT 1A (PPM1A) AND KLOTHO ARE DRAMATICALLY DECREASED IN VARIOUS NEPHROPATHIES IN ANIMALS AND HUMANS ALBEIT WITH DIFFERENT KINETICS WHILE THE EXPRESSION OF SMURF1/2 E3 LIGASES ARE INCREASED. SUCH DEREGULATIONS FREQUENTLY INITIATE MALADAPTIVE RENAL REPAIR INCLUDING RENAL EPITHELIAL CELL DEDIFFERENTIATION AND GROWTH ARREST, FIBROTIC FACTOR (CONNECTIVE TISSUE GROWTH FACTOR (CTGF/CCN2), PLASMINOGEN ACTIVATOR INHIBITOR TYPE-1 (PAI-1), TGF-BETA1) SYNTHESIS/SECRETION, FIBROPROLIFERATIVE RESPONSES AND INFLAMMATION. THIS REVIEW ADDRESSES HOW LOSS OF THESE NEGATIVE REGULATORS OF TGF-BETA1 PATHWAY EXACERBATES RENAL LESION FORMATION AND DISCUSSES THE THERAPEUTIC VALUE IN RESTORING THE EXPRESSION OF THESE MOLECULES IN AMELIORATING FIBROSIS, THUS, PRESENTING NOVEL APPROACHES TO SUPPRESS TGF-BETA1 HYPERACTIVATION DURING CHRONIC KIDNEY DISEASE (CKD) PROGRESSION. 2021 16 4893 25 OXIDATIVE STRESS BIOMARKERS IN THE RELATIONSHIP BETWEEN TYPE 2 DIABETES AND AIR POLLUTION. THE INCIDENCE AND PREVALENCE OF TYPE 2 DIABETES HAVE INCREASED IN THE LAST DECADES AND ARE EXPECTED TO FURTHER GROW IN THE COMING YEARS. CHRONIC HYPERGLYCEMIA TRIGGERS FREE RADICAL GENERATION AND CAUSES INCREASED OXIDATIVE STRESS, AFFECTING A NUMBER OF MOLECULAR MECHANISMS AND CELLULAR PATHWAYS, INCLUDING THE GENERATION OF ADVANCED GLYCATION END PRODUCTS, PROINFLAMMATORY AND PROCOAGULANT EFFECTS, INDUCTION OF APOPTOSIS, VASCULAR SMOOTH-MUSCLE CELL PROLIFERATION, ENDOTHELIAL AND MITOCHONDRIAL DYSFUNCTION, REDUCTION OF NITRIC OXIDE RELEASE, AND ACTIVATION OF PROTEIN KINASE C. AMONG TYPE 2 DIABETES DETERMINANTS, MANY DATA HAVE DOCUMENTED THE ADVERSE EFFECTS OF ENVIRONMENTAL FACTORS (E.G., AIR POLLUTANTS) THROUGH MULTIPLE EXPOSURE-INDUCED MECHANISMS (E.G., SYSTEMIC INFLAMMATION AND OXIDATIVE STRESS, HYPERCOAGULABILITY, AND ENDOTHELIAL AND IMMUNE RESPONSES). THEREFORE, HERE WE DISCUSS THE ROLE OF AIR POLLUTION IN OXIDATIVE STRESS-RELATED DAMAGE TO GLYCEMIC METABOLISM HOMEOSTASIS, WITH A PARTICULAR FOCUS ON ITS IMPACT ON HEALTH. IN THIS CONTEXT, THE IMPROVEMENT OF NEW ADVANCED TOOLS (E.G., OMIC TECHNIQUES AND THE STUDY OF EPIGENETIC CHANGES) MAY PROVIDE A SUBSTANTIAL CONTRIBUTION, HELPING IN THE EVALUATION OF THE INDIVIDUAL IN HIS BIOLOGICAL TOTALITY, AND OFFER A COMPREHENSIVE ASSESSMENT OF THE MOLECULAR, CLINICAL, ENVIRONMENTAL, AND EPIDEMIOLOGICAL ASPECTS. 2021 17 2554 23 EPIGENETICS IN REACTIVE AND REPARATIVE CARDIAC FIBROGENESIS: THE PROMISE OF EPIGENETIC THERAPY. EPIGENETIC CHANGES PLAY A PIVOTAL ROLE IN THE DEVELOPMENT OF A WIDE SPECTRUM OF HUMAN DISEASES INCLUDING CARDIOVASCULAR DISEASES, CANCER, DIABETES, AND INTELLECTUAL DISABILITIES. CARDIAC FIBROGENESIS IS A COMMON PATHOPHYSIOLOGICAL PROCESS SEEN DURING CHRONIC AND STRESS-INDUCED ACCELERATED CARDIAC AGING. WHILE ADEQUATE PRODUCTION OF EXTRACELLULAR MATRIX (ECM) PROTEINS IS NECESSARY FOR POST-INJURY WOUND HEALING, EXCESSIVE SYNTHESIS AND ACCUMULATION OF EXTRACELLULAR MATRIX PROTEIN IN THE STRESSED OR INJURED HEARTS CAUSES DECREASED OR LOSS OF LUSITROPY THAT LEADS TO CARDIAC FAILURE. THIS SELF-PERPETUATING DEPOSITION OF COLLAGEN AND OTHER MATRIX PROTEINS EVENTUALLY ALTER CELLULAR HOMEOSTASIS; IMPAIR TISSUE ELASTICITY AND LEADS TO MULTI-ORGAN FAILURE, AS SEEN DURING PATHOGENESIS OF CARDIOVASCULAR DISEASES, CHRONIC KIDNEY DISEASES, CIRRHOSIS, IDIOPATHIC PULMONARY FIBROSIS, AND SCLERODERMA. IN THE LAST 25 YEARS, MULTIPLE STUDIES HAVE INVESTIGATED THE MOLECULAR BASIS OF ORGAN FIBROSIS AND HIGHLIGHTED ITS MULTI-FACTORIAL GENETIC, EPIGENETIC, AND ENVIRONMENTAL REGULATION. IN THIS MINIREVIEW, WE FOCUS ON FIVE MAJOR EPIGENETIC REGULATORS AND DISCUSS THEIR CENTRAL ROLE IN CARDIAC FIBROGENESIS. ADDITIONALLY, WE COMPARE AND CONTRAST THE EPIGENETIC REGULATION OF HYPERTENSION-INDUCED REACTIVE FIBROGENESIS AND MYOCARDIAL INFARCTION-INDUCED REPARATIVE OR REPLACEMENT CARDIAC FIBROGENESIS. AS MICRORNAS-ONE OF THE MAJOR EPIGENETIC REGULATORS-CIRCULATE IN PLASMA, WE ALSO ADVOCATE THEIR POTENTIAL DIAGNOSTIC ROLE IN CARDIAC FIBROSIS. LASTLY, WE DISCUSS THE EVOLUTION OF NOVEL EPIGENETIC-REGULATING DRUGS AND PREDICT THEIR CLINICAL ROLE IN THE SUPPRESSION OF PATHOLOGICAL CARDIAC REMODELING, CARDIAC AGING, AND HEART FAILURE. J. CELL. PHYSIOL. 232: 1941-1956, 2017. (C) 2016 WILEY PERIODICALS, INC. 2017 18 6413 18 THE STATE OF ART OF REGENERATIVE THERAPY IN CARDIOVASCULAR ISCHEMIC DISEASE: BIOLOGY, SIGNALING PATHWAYS, AND EPIGENETICS OF ENDOTHELIAL PROGENITOR CELLS. ISCHEMIC HEART DISEASE IS CURRENTLY A MAJOR CAUSE OF MORTALITY AND MORBIDITY WORLDWIDE. NEVERTHELESS, THE ACTUAL THERAPEUTIC SCENARIO DOES NOT TARGET MYOCARDIAL CELL REGENERATION AND CONSEQUENTLY, THE PROGRESSION TOWARD THE LATE STAGE OF CHRONIC HEART FAILURE IS COMMON. ENDOTHELIAL PROGENITOR CELLS (EPCS) ARE BONE MARROW-DERIVED STEM CELLS THAT CONTRIBUTE TO THE HOMEOSTASIS OF THE ENDOTHELIAL WALL IN ACUTE AND CHRONIC ISCHEMIC DISEASE. CALCIUM MODULATION AND OTHER MOLECULAR PATHWAYS (NOTCH, VEGFR, AND CXCR4) CONTRIBUTE TO EPC PROLIFERATION AND DIFFERENTIATION. THE PRESENT REVIEW PROVIDES A SUMMARY OF EPC BIOLOGY WITH A PARTICULAR FOCUS ON THE REGULATORY PATHWAYS OF EPCS AND DESCRIBES PROMISING APPLICATIONS FOR CARDIOVASCULAR CELL THERAPY. 2020 19 4459 21 MOLECULAR MECHANISMS OF DIABETIC VASCULAR COMPLICATIONS. DIABETIC COMPLICATIONS ARE THE MAJOR CAUSES OF MORBIDITY AND MORTALITY IN PATIENTS WITH DIABETES. MICROVASCULAR COMPLICATIONS INCLUDE RETINOPATHY, NEPHROPATHY AND NEUROPATHY, WHICH ARE LEADING CAUSES OF BLINDNESS, END-STAGE RENAL DISEASE AND VARIOUS PAINFUL NEUROPATHIES; WHEREAS MACROVASCULAR COMPLICATIONS INVOLVE ATHEROSCLEROSIS RELATED DISEASES, SUCH AS CORONARY ARTERY DISEASE, PERIPHERAL VASCULAR DISEASE AND STROKE. DIABETIC COMPLICATIONS ARE THE RESULT OF INTERACTIONS AMONG SYSTEMIC METABOLIC CHANGES, SUCH AS HYPERGLYCEMIA, LOCAL TISSUE RESPONSES TO TOXIC METABOLITES FROM GLUCOSE METABOLISM, AND GENETIC AND EPIGENETIC MODULATORS. CHRONIC HYPERGLYCEMIA IS RECOGNIZED AS A MAJOR INITIATOR OF DIABETIC COMPLICATIONS. MULTIPLE MOLECULAR MECHANISMS HAVE BEEN PROPOSED TO MEDIATE HYPERGLYCEMIA'S ADVERSE EFFECTS ON VASCULAR TISSUES. THESE INCLUDE INCREASED POLYOL PATHWAY, ACTIVATION OF THE DIACYLGLYCEROL/PROTEIN KINASE C PATHWAY, INCREASED OXIDATIVE STRESS, OVERPRODUCTION AND ACTION OF ADVANCED GLYCATION END PRODUCTS, AND INCREASED HEXOSAMINE PATHWAY. IN ADDITION, THE ALTERATIONS OF SIGNAL TRANSDUCTION PATHWAYS INDUCED BY HYPERGLYCEMIA OR TOXIC METABOLITES CAN ALSO LEAD TO CELLULAR DYSFUNCTIONS AND DAMAGE VASCULAR TISSUES BY ALTERING GENE EXPRESSION AND PROTEIN FUNCTION. LESS STUDIED THAN THE TOXIC MECHANISMS, HYPERGLYCEMIA MIGHT ALSO INHIBIT THE ENDOGENOUS VASCULAR PROTECTIVE FACTORS SUCH AS INSULIN, VASCULAR ENDOTHELIAL GROWTH FACTOR, PLATELET-DERIVED GROWTH FACTOR AND ACTIVATED PROTEIN C, WHICH PLAY IMPORTANT ROLES IN MAINTAINING VASCULAR HOMEOSTASIS. THUS, EFFECTIVE THERAPIES FOR DIABETIC COMPLICATIONS NEED TO INHIBIT MECHANISMS INDUCED BY HYPERGLYCEMIA'S TOXIC EFFECTS AND ALSO ENHANCE THE ENDOGENOUS PROTECTIVE FACTORS. THE PRESENT REVIEW SUMMARIZES THESE MULTIPLE BIOCHEMICAL PATHWAYS ACTIVATED BY HYPERGLYCEMIA AND THE POTENTIAL THERAPEUTIC INTERVENTIONS THAT MIGHT PREVENT DIABETIC COMPLICATIONS. (J DIABETES INVEST, DOI: 10.1111/J.2040-1124.2010.00018.X, 2010). 2010 20 4411 19 MOLECULAR AND CELLULAR BASES OF IMMUNOSENESCENCE, INFLAMMATION, AND CARDIOVASCULAR COMPLICATIONS MIMICKING "INFLAMMAGING" IN PATIENTS WITH SYSTEMIC LUPUS ERYTHEMATOSUS. SYSTEMIC LUPUS ERYTHEMATOSUS (SLE) IS AN ARCHETYPE OF SYSTEMIC AUTOIMMUNE DISEASE, CHARACTERIZED BY THE PRESENCE OF DIVERSE AUTOANTIBODIES AND CHRONIC INFLAMMATION. THERE ARE MULTIPLE FACTORS INVOLVED IN LUPUS PATHOGENESIS, INCLUDING GENETIC/EPIGENETIC PREDISPOSITION, SEXUAL HORMONE IMBALANCE, ENVIRONMENTAL STIMULANTS, MENTAL/PSYCHOLOGICAL STRESSES, AND UNDEFINED EVENTS. RECENTLY, MANY AUTHORS NOTED THAT "INFLAMMAGING", CONSISTING OF IMMUNOSENESCENCE AND INFLAMMATION, IS A COMMON FEATURE IN AGING PEOPLE AND PATIENTS WITH SLE. IT IS CONCEIVABLE THAT CHRONIC OXIDATIVE STRESSES ORIGINATING FROM MITOCHONDRIAL DYSFUNCTION, DEFECTIVE BIOENERGETICS, ABNORMAL IMMUNOMETABOLISM, AND PREMATURE TELOMERE EROSION MAY ACCELERATE IMMUNE CELL SENESCENCE IN PATIENTS WITH SLE. THE MITOCHONDRIAL DYSFUNCTIONS IN SLE HAVE BEEN EXTENSIVELY INVESTIGATED IN RECENT YEARS. THE MOLECULAR BASIS OF NORMOGLYCEMIC METABOLIC SYNDROME HAS BEEN FOUND TO BE RELEVANT TO THE PRODUCTION OF ADVANCED GLYCOSYLATED AND NITROSATIVE END PRODUCTS. BESIDES, IMMUNOSENESCENCE, AUTOIMMUNITY, ENDOTHELIAL CELL DAMAGE, AND DECREASED TISSUE REGENERATION COULD BE THE RESULTS OF PREMATURE TELOMERE EROSION IN PATIENTS WITH SLE. HEREIN, THE MOLECULAR AND CELLULAR BASES OF INFLAMMAGING AND CARDIOVASCULAR COMPLICATIONS IN SLE PATIENTS WILL BE EXTENSIVELY REVIEWED FROM THE ASPECTS OF MITOCHONDRIAL DYSFUNCTIONS, ABNORMAL BIOENERGETICS/IMMUNOMETABOLISM, AND TELOMERE/TELOMERASE DISEQUILIBRIUM. 2019