1 4331 96 MICRORNAS: EMERGING BIOMARKERS AND THERAPEUTIC TARGETS OF BONE FRAGILITY IN CHRONIC KIDNEY DISEASE. BONE FRAGILITY IS HIGHLY PREVALENT, YET UNDERDIAGNOSED IN PATIENTS WITH CHRONIC KIDNEY DISEASE. INCOMPLETE UNDERSTANDING OF THE PATHOPHYSIOLOGY AND LIMITATIONS OF CURRENT DIAGNOSTICS CONTRIBUTE TO THERAPEUTIC HESITATION, IF NOT NIHILISM. THIS NARRATIVE REVIEW ADDRESSES THE QUESTION OF WHETHER MICRORNAS (MIRNAS) MAY IMPROVE THERAPEUTIC DECISION MAKING IN OSTEOPOROSIS AND RENAL OSTEODYSTROPHY. MIRNAS ARE KEY EPIGENETIC REGULATORS OF BONE HOMEOSTASIS AND SHOW PROMISE AS BOTH THERAPEUTIC TARGETS AND AS BIOMARKERS, PRIMARILY OF BONE TURNOVER. EXPERIMENTAL STUDIES SHOW THAT MIRNAS ARE INVOLVED IN SEVERAL OSTEOGENIC PATHWAYS. CLINICAL STUDIES EXPLORING THE USEFULNESS OF CIRCULATING MIRNAS FOR FRACTURE RISK STRATIFICATION AND FOR GUIDING AND MONITORING THERAPY ARE FEW AND, SO FAR, PROVIDE INCONCLUSIVE RESULTS. LIKELY, (PRE)ANALYTICAL HETEROGENEITY CONTRIBUTES TO THESE EQUIVOCAL RESULTS. IN CONCLUSION, MIRNAS ARE PROMISING IN METABOLIC BONE DISEASE, BOTH AS A DIAGNOSTIC TOOL AND AS THERAPEUTIC TARGETS, BUT NOT YET READY FOR CLINICAL PRIME TIME. 2023 2 3804 18 INTESTINAL MICROBIOTA, CHRONIC INFLAMMATION, AND COLORECTAL CANCER. IN ADDITION TO GENETIC AND EPIGENETIC FACTORS, VARIOUS ENVIRONMENTAL FACTORS, INCLUDING DIET, PLAY IMPORTANT ROLES IN THE DEVELOPMENT OF COLORECTAL CANCER (CRC). RECENTLY, THERE IS INCREASING INTEREST IN THE INTESTINAL MICROBIOTA AS AN ENVIRONMENTAL RISK FACTOR FOR CRC, BECAUSE DIET ALSO INFLUENCES THE COMPOSITION OF THE INTESTINAL MICROBIOTA. THE HUMAN INTESTINAL MICROBIOTA COMPRISES ABOUT 100 TRILLION MICROBES. THIS MICROBIOME THRIVES ON UNDIGESTED DIETARY RESIDUES IN THE INTESTINAL LUMEN AND PRODUCES VARIOUS METABOLITES. IT IS WELL KNOWN THAT THE DIETARY RISK FACTORS FOR CRC ARE MEDIATED BY DYSBIOSIS OF THE INTESTINAL MICROBIOTA AND THEIR METABOLITES. IN THIS REVIEW, WE DESCRIBE THE BACTERIAL TAXA ASSOCIATED WITH CRC, INCLUDING FUSOBACTERIUM NUCLEATUM, ENTEROTOXIGENIC BACTEROIDES FRAGILIS, ESCHERICHIA COLI, AND BUTYRATE-PRODUCING BACTERIA. WE ALSO DISCUSS THE HOST-DIET INTERACTION IN COLORECTAL CARCINOGENESIS. 2018 3 4430 22 MOLECULAR BIOLOGY OF ONCOGENIC INFLAMMATORY PROCESSES. I. NON-ONCOGENIC AND ONCOGENIC PATHOGENS, INTRINSIC INFLAMMATORY REACTIONS WITHOUT PATHOGENS, AND MICRORNA/DNA INTERACTIONS (REVIEW). IN SOME INFLAMMASOMES TUMOR CELLS ARE GENERATED. THE INTERNAL ENVIRONMENT OF THE INFLAMMASOME IS CONDUCIVE TO THE INDUCTION OF MALIGNANT TRANSFORMATION. EPIGENETIC CHANGES INITIATE THIS PROCESS. THE SUBVERTED STROMAL CONNECTIVE TISSUE CELLS ACT TO PROMOTE AND SUSTAIN THE PROCESS OF MALIGNANT TRANS-FORMATION. IN ITS EARLY STAGES, THE PREMALIGNANT CELLS DEPEND ON PARACRINE CIRCUITRIES FOR THE RECEPTION OF GROWTH FACTORS. THE LIGANDS ARE DERIVED FROM THE CONNECTIVE TISSUE, AND THE RECEPTORS ARE EXPRESSED ON THE RECIPIENT PREMALIGNANT CELLS. THE INITIAL EVENTS ARE NOT A DIRECT ATTACK ON THE PROTO-ONCOGENES, AND THUS IT MAY BE ENTIRELY REVERSIBLE. EPIGENETIC PROCESSES OF HYPERMETHYLATION OF THE GENES AT THE PROMOTERS OF TUMOR SUPPRESSOR GENES (TO SILENCE THEM), AND DEACETYLATION OF THE HISTONES AIMED AT THE PROMOTERS OF PROTO-ONCOGENES (TO ACTIVATE THEM) ARE ON-GOING. A LARGE NUMBER OF SHORT RNA SEQUENCES (INTERFERING, MICRO-, SHORT HAIRPIN, NON-CODING RNAS) SILENCE TUMOR SUPPRESSOR GENES, BY NEUTRALIZING THEIR MRNAS. IN A SERIAL SEQUENCE ONCOGENES UNDERGO AMPLIFICATIONS, POINT-MUTATIONS, TRANSLOCATIONS AND FUSIONS. IN ITS EARLIEST STAGE, THE PROCESS IS REVERSIBLE BY DEMETHYLATION OF THE SILENCED SUPPRESSOR GENE PROMOTERS (TO REACTIVATE THEM), OR RE-ACETYLATION OF THE HISTONES OF THE ONCOGENE PROMOTERS, THUS DE-ACTIVATING THEM. THE EXTERNAL ADMINISTRATION OF HISTONE DEACETYLASE INHIBITORS USUALLY LEADS TO THE RESTORATION OF HISTONE ACETYLATION. IN TIME, THE UNCORRECTED PROCESSES SOLIDIFY INTO CONSTITUTIVE AND IRREVERSIBLE GENE MUTATIONS. SOME OF THE PATHOGENS INDUCING INFLAMMATIONS WITH CONSQUENTIAL MALIGNANT TRANSFORMATION CONTAIN ONCOGENIC GENE SEQUENCES (PAPILLOMA VIRUSES, EPSTEIN-BARR VIRUS, KAPOSI'S SARCOMA-ASSOCIATED HERPESVIRUS, HEPATITIS B AND C VIRUSES, MERKEL CELL POLYOMA VIRUS, HELICOBACTER PYLORI, ENTEROTOXIGENIC BACTEROIDES FRAGILIS). THESE INDUCED MALIGNANCIES MAY BE MULTIFOCAL. OTHER PATHOGENS ARE DEVOID OF ANY KNOWN ONCOGENIC GENOMIC SEQUENCES (MYCOPLASMA VAV-CARCINOGENESIS, CHLAMYDIA MALT-LYMPHOMA GENESIS). IN THESE CASES THE HOST'S INFLAMMATORY REACTIONS INDUCE THE MALIGNANT TRANSFORMATION IN SERIAL SEQUENCES OF GENE ALTERATIONS INITIATED BY HYPOXIA AND REACTIVE OXYGEN AND NITROGEN SPECIES GENERATION. CARCINOGENIC INTRINSIC INFLAMMATORY PROCESSES ENDOGENOUSLY INITIATED WITHOUT A PATHOGEN ARE RECOGNIZED. CHRONIC INFLAMMATORY PROCESSES SIGNAL THE RNA/DNA COMPLEX. IN RESPONSE, THE DNA MAY REVERT INTO ITS ANCIENT PRIMORDIAL 'IMMORTAL' FORMAT, WHICH THE CLINICS RECOGNIZE AS 'ONCOGENESIS'. THE DNA REMAINS THE ULTIMATE MASTER OF BIOENGINEERING IN ORDER TO SUSTAIN LIFE. A DISCUSSION ON THE MOST VERSATILE AND RESISTANT PRIMORDIAL RNA/DNA COMPLEX AND THE PRE-, PROTO-, AND UNICELLULAR WORLD IN WHICH THEY CO-EXISTED IS INCLUDED. 2012 4 6412 28 THE SPECTRUM OF FUNDAMENTAL BASIC SCIENCE DISCOVERIES CONTRIBUTING TO ORGANISMAL AGING. AGING RESEARCH HAS UNDERGONE UNPRECEDENTED ADVANCES AT AN ACCELERATING RATE IN RECENT YEARS, LEADING TO EXCITEMENT IN THE FIELD AS WELL AS OPPORTUNITIES FOR IMAGINATION AND INNOVATION. NOVEL INSIGHTS INDICATE THAT, RATHER THAN RESULTING FROM A PREPROGRAMMED SERIES OF EVENTS, THE AGING PROCESS IS PREDOMINANTLY DRIVEN BY FUNDAMENTAL NON-ADAPTIVE MECHANISMS THAT ARE INTERCONNECTED, LINKED, AND OVERLAP. TO VARYING DEGREES, THESE MECHANISMS ALSO MANIFEST WITH AGING IN BONE WHERE THEY CAUSE SKELETAL FRAGILITY. BECAUSE THESE MECHANISMS OF AGING CAN BE MANIPULATED, IT MIGHT BE POSSIBLE TO SLOW, DELAY, OR ALLEVIATE MULTIPLE AGE-RELATED DISEASES AND THEIR COMPLICATIONS BY TARGETING CONSERVED GENETIC SIGNALING PATHWAYS, CONTROLLED FUNCTIONAL NETWORKS, AND BASIC BIOCHEMICAL PROCESSES. INDEED, FINDINGS IN VARIOUS MAMMALIAN SPECIES SUGGEST THAT TARGETING FUNDAMENTAL AGING MECHANISMS (EG, VIA EITHER LOSS-OF-FUNCTION OR GAIN-OF-FUNCTION MUTATIONS OR ADMINISTRATION OF PHARMACOLOGICAL THERAPIES) CAN EXTEND HEALTHSPAN; IE, THE HEALTHY PERIOD OF LIFE FREE OF CHRONIC DISEASES. IN THIS REVIEW, WE SUMMARIZE THE EVIDENCE SUPPORTING THE ROLE OF THE SPECTRUM OF FUNDAMENTAL BASIC SCIENCE DISCOVERIES CONTRIBUTING TO ORGANISMAL AGING, WITH EMPHASIS ON MAMMALIAN STUDIES AND IN PARTICULAR AGING MECHANISMS IN BONE THAT DRIVE SKELETAL FRAGILITY. THESE MECHANISMS OR AGING HALLMARKS INCLUDE: GENOMIC INSTABILITY, TELOMERE ATTRITION, EPIGENETIC ALTERATIONS, LOSS OF PROTEOSTASIS, DEREGULATED NUTRIENT SENSING, MITOCHONDRIAL DYSFUNCTION, CELLULAR SENESCENCE, STEM CELL EXHAUSTION, AND ALTERED INTERCELLULAR COMMUNICATION. BECAUSE THESE MECHANISMS ARE LINKED, INTERVENTIONS THAT AMELIORATE ONE HALLMARK CAN IN THEORY AMELIORATE OTHERS. IN THE FIELD OF BONE AND MINERAL RESEARCH, CURRENT CHALLENGES INCLUDE DEFINING THE RELATIVE CONTRIBUTIONS OF EACH AGING HALLMARK TO THE NATURAL SKELETAL AGING PROCESS, BETTER UNDERSTANDING THE COMPLEX INTERCONNECTIONS AMONG THE HALLMARKS, AND IDENTIFYING THE MOST EFFECTIVE THERAPEUTIC STRATEGIES TO SAFELY TARGET MULTIPLE HALLMARKS. BASED ON THEIR INTERCONNECTIONS, IT MAY BE FEASIBLE TO SIMULTANEOUSLY INTERFERE WITH SEVERAL FUNDAMENTAL AGING MECHANISMS TO ALLEVIATE A WIDE SPECTRUM OF AGE-RELATED CHRONIC DISEASES, INCLUDING OSTEOPOROSIS. (C) 2018 AMERICAN SOCIETY FOR BONE AND MINERAL RESEARCH. 2018 5 6566 29 TRANSLATIONAL PERSPECTIVES TO TREAT EPIDERMOLYSIS BULLOSA-WHERE DO WE STAND? EPIDERMOLYSIS BULLOSA (EB) IS THE PROTOTYPICAL EXAMPLE OF GENETIC SKIN FRAGILITY DISORDERS. GENOTYPIC HETEROGENEITY, MODIFIER GENES, EPIGENETIC, BIOCHEMICAL AND ENVIRONMENTAL FACTORS ALTER AND DETERMINE PATHOGENIC TRAITS AND, ULTIMATELY, THE WIDE AND STRIKING PHENOTYPIC VARIABILITY IN EB. BESIDES THE PRIMARY STRUCTURAL-FUNCTIONAL DEFECT, CHRONIC TISSUE DAMAGE WITH INDUCTION AND DYSREGULATION OF INFLAMMATORY PATHWAYS IS A COMMON PATHOGENIC MECHANISM IN EB. IN LOCALIZED VARIANTS, THE INFLAMMATORY ABERRATIONS MAY MAINLY AFFECT THE MICROMILIEU OF LESIONAL SKIN, WHILE A SYSTEMIC INFLAMMATORY RESPONSE WAS SHOWN TO CONTRIBUTE TO THE SYSTEMIC MORBIDITY IN SEVERE EB SUBTYPES WITH EXTENSIVE CUTANEOUS INVOLVEMENT. OUR CONTINUED UNDERSTANDING OF THE PATHOPHYSIOLOGY OF EB, AS WELL AS ADVANCES IN MOLECULAR TECHNOLOGIES, HAS PAVED THE WAY FOR TRANSLATIONAL THERAPEUTIC APPROACHES. THE SPECTRUM COMPRISES OF CORRECTIVE AND SYMPTOM-RELIEVING THERAPIES THAT INCLUDE INNOVATIVE THERAPEUTIC OPTIONS GARNERED FROM THE BENCH, REPURPOSED DRUGS APPROVED FOR OTHER DISEASES, AS WELL AS STRATEGIES FOR GENE-, PROTEIN- AND CELL-BASED THERAPIES. IMMUNOLOGICAL TRAITS FURTHER DEFINE NEW TARGETS OF THERAPY, AIMED AT IMPROVING SKIN BARRIER RESTORATION, MICROBIAL SURVEILLANCE AND INFECTION CONTROL, WOUND HEALING AND ANTI-NEOPLASTIC EFFECTS. CLINICAL AVAILABILITY AND FEASIBILITY OF THESE APPROACHES FOR ALL EB PATIENTS AND SUBTYPES ARE CURRENTLY LIMITED, REFLECTING ISSUES OF EFFICACY, SPECIFICITY, TOLERABILITY AND SAFETY. A MULTISTEP TARGETING APPROACH AND HIGHLY INDIVIDUALIZED, RISK-STRATIFIED COMBINATORY TREATMENT PLANS WILL THUS BE ESSENTIAL FOR SUSTAINED EFFICACY AND IMPROVED OVERALL QUALITY OF LIFE IN EB. 2020 6 4119 23 MECHANISMS OF CADMIUM CARCINOGENICITY IN THE GASTROINTESTINAL TRACT. CANCER, A SERIOUS PUBLIC HEALTH PROBLEM IN WORLDWIDE, RESULTS FROM AN EXCESSIVE AND UNCONTROLLED PROLIFERATION OF THE BODY CELLS WITHOUT OBVIOUS PHYSIOLOGICAL DEMANDS OF ORGANS. THE GASTROINTESTINAL TRACT, INCLUDING THE ESOPHAGUS, STOMACH AND INTESTINE, IS A UNIQUE ORGAN SYSTEM. IT HAS THE HIGHEST CANCER INCIDENCE AND CANCER- RELATED MORTALITY IN THE BODY AND IS INFLUENCEED BY BOTH GENETIC AND ENVIRONMENTAL FACTORS. AMONG THE VARIOUS CHEMICAL ELEMENTS RECOGNIZED IN THE NATURE, SOME OF THEM INCLUDING ZINC, IRON, COBALT, AND COPPER HAVE ESSENTIAL ROLES IN THE VARIOUS BIOCHEMICAL AND PHYSIOLOGICAL PROCESSES, BUT ONLY AT LOW LEVELS AND OTHERS SUCH AS CADMIUM, LEAD, MERCURY, ARSENIC, AND NICKEL ARE CONSIDERED AS THREATS FOR HUMAN HEALTH ESPECIALLY WITH CHRONIC EXPOSURE AT HIGH LEVELS. CADMIUM, AN ENVIRONMENT CONTAMINANT, CANNOT BE DESTROYED IN NATURE. THROUGH IMPAIRMENT OF VITAMIN D METABOLISM IN THE KIDNEY IT CAUSES NEPHROTOXICITY AND SUBSEQUENTLY BONE METABOLISM IMPAIRMENT AND FRAGILITY. THE MAJOR MECHANISMS INVOLVED IN CADMIUM CARCINOGENESIS COULD BE RELATED TO THE SUPPRESSION OF GENE EXPRESSION, INHIBITION OF DNA DAMAGE REPAIR, INHIBITION OF APOPTOSIS, AND INDUCTION OF OXIDATIVE STRESS. IN ADDITION, CADMIUM MAY ACT THROUGH ABERRANT DNA METHYLATION. CADMIUM AFFECTS MULTIPLE CELLULAR PROCESSES, INCLUDING SIGNAL TRANSDUCTION PATHWAYS, CELL PROLIFERATION, DIFFERENTIATION, AND APOPTOSIS. DOWN-REGULATION OF METHYLTRANSFERASES ENZYMES AND REDUCTION OF DNA METHYLATION HAVE BEEN STATED AS EPIGENETIC EFFECTS OF CADMIUM. FURTHERMORE, INCREASING INTRACELLULAR FREE CALCIUM ION LEVELS INDUCES NEURONAL APOPTOSIS IN ADDITION TO OTHER DELETERIOUS INFLUENCE ON THE STABILITY OF THE GENOME. 2015 7 2361 18 EPIGENETIC REGULATION OF SKELETAL TISSUE INTEGRITY AND OSTEOPOROSIS DEVELOPMENT. BONE TURNOVER IS SOPHISTICATEDLY BALANCED BY A DYNAMIC COUPLING OF BONE FORMATION AND RESORPTION AT VARIOUS RATES. THE ORCHESTRATION OF THIS CONTINUOUS REMODELING OF THE SKELETON FURTHER AFFECTS OTHER SKELETAL TISSUES THROUGH ORGAN CROSSTALK. CHRONIC EXCESSIVE BONE RESORPTION COMPROMISES BONE MASS AND ITS POROUS MICROSTRUCTURE AS WELL AS PROPER BIOMECHANICS. THIS ACCELERATES THE DEVELOPMENT OF OSTEOPOROTIC DISORDERS, A LEADING CAUSE OF SKELETAL DEGENERATION-ASSOCIATED DISABILITY AND PREMATURE DEATH. BONE-FORMING CELLS PLAY IMPORTANT ROLES IN MAINTAINING BONE DEPOSIT AND OSTEOCLASTIC RESORPTION. A POOR ORGANELLE MACHINERY, SUCH AS MITOCHONDRIAL DYSFUNCTION, ENDOPLASMIC RETICULUM STRESS, AND DEFECTIVE AUTOPHAGY, ETC., DYSREGULATES GROWTH FACTOR SECRETION, MINERALIZATION MATRIX PRODUCTION, OR OSTEOCLAST-REGULATORY CAPACITY IN OSTEOBLASTIC CELLS. A PLETHORA OF EPIGENETIC PATHWAYS REGULATE BONE FORMATION, SKELETAL INTEGRITY, AND THE DEVELOPMENT OF OSTEOPOROSIS. MICRORNAS INHIBIT PROTEIN TRANSLATION BY BINDING THE 3'-UNTRANSLATED REGION OF MRNAS OR PROMOTE TRANSLATION THROUGH POST-TRANSCRIPTIONAL PATHWAYS. DNA METHYLATION AND POST-TRANSLATIONAL MODIFICATION OF HISTONES ALTER THE CHROMATIN STRUCTURE, HINDERING HISTONE ENRICHMENT IN PROMOTER REGIONS. MICRORNA-PROCESSING ENZYMES AND DNA AS WELL AS HISTONE MODIFICATION ENZYMES CATALYZE THESE MODIFYING REACTIONS. GAIN AND LOSS OF THESE EPIGENETIC MODIFIERS IN BONE-FORMING CELLS AFFECT THEIR EPIGENETIC LANDSCAPES, INFLUENCING BONE HOMEOSTASIS, MICROARCHITECTURAL INTEGRITY, AND OSTEOPOROTIC CHANGES. THIS ARTICLE CONVEYS PRODUCTIVE INSIGHTS INTO BIOLOGICAL ROLES OF DNA METHYLATION, MICRORNA, AND HISTONE MODIFICATION AND HIGHLIGHTS THEIR INTERACTIONS DURING SKELETAL DEVELOPMENT AND BONE LOSS UNDER PHYSIOLOGICAL AND PATHOLOGICAL CONDITIONS. 2020 8 6768 24 ZOLEDRONIC ACID EPIGENETICALLY ALLEVIATES HIGH-GLUCOSE-SUPPRESSED OSTEOGENIC DIFFERENTIATION OF MC3T3-E1 CELLS. OBJECTIVE: DUE TO THE IMPACT OF EXCESSIVE GLUCOSE ON OSTEOGENIC DIFFERENTIATION, DIABETIC OSTEOPATHY FREQUENTLY RESULTS IN SKELETAL FRAGILITY, OSTEOPOROSIS, AND BONE PAIN. ZOLEDRONIC ACID, A BISPHOSPHONATE (BP) THAT EFFECTIVELY INHIBITS OSTEOCLASTIC BONE RESORPTION IS GIVEN YEARLY TO IMPROVE BONE MINERAL DENSITY (BMD) IN PATIENTS WITH OSTEOPOROSIS. HOWEVER, THE DETAILED MOLECULAR MECHANISMS REMAINED UNCLEAR. THIS STUDY INVESTIGATES THE POSSIBLE PATHWAYS BY WHICH ZOLEDRONIC ACID REGULATES OSTEOGENESIS WHEN BLOOD GLUCOSE LEVELS ARE HIGH. MATERIALS AND METHODS: MC3T3-E1 CELLS WERE TREATED WITH ONE MM ZOLEDRONIC ACID OR NOT IN A STANDARD OR HIGH GLUCOSE CULTURE MEDIUM. A QUANTITATIVE POLYMERASE CHAIN REACTION (QPCR) ASSAY WAS UTILIZED TO ASSESS THE EXPRESSION OF THE TARGET CANDIDATE GENES, INCLUDING RUNX2, MALAT1, MIR-133, MIR-20A, AND MIR-204. RESULTS: IN A HIGH-GLUCOSE CONDITION, ZOLEDRONIC ACID TREATMENT SIGNIFICANTLY LOWERED MALAT1 (P < 0.0001) AND MIR-20A (P < 0.0001) EXPRESSION. CONVERSELY, IN A HIGH-GLUCOSE CONDITION, RUNX2, MIR-133, AND MIR-204 EXPRESSIONS WERE FOUND TO BE SIGNIFICANTLY INCREASED IN THE ZOLEDRONIC ACID TREATMENT GROUP AS COMPARED TO NO TREATMENT (ALL P < 0.0001). CONCLUSIONS: IN CONCLUSION, UNDER A HIGH-GLUCOSE ENVIRONMENT, ZOLEDRONIC ACID CAN MODULATE THE EXPRESSION OF THE RUNX2 TRANSCRIPTION FACTOR THROUGH EPIGENETIC REGULATION. 2023 9 3437 21 HYPERGLYCEMIC MICROENVIRONMENT COMPROMISES THE HOMEOSTASIS OF COMMUNICATION BETWEEN THE BONE-BRAIN AXIS BY THE EPIGENETIC REPRESSION OF THE OSTEOCALCIN RECEPTOR, GPR158 IN THE HIPPOCAMPUS. DIABETES MELLITUS (DM) IS A CHRONIC METABOLIC DISEASE, MAINLY CHARACTERIZED BY INCREASED BLOOD GLUCOSE AND INSULIN DYSFUNCTION. IN RESPONSE TO THE PERSISTENT SYSTEMIC HYPERGLYCEMIC STATE, NUMEROUS METABOLIC AND PHYSIOLOGICAL COMPLICATIONS HAVE ALREADY BEEN WELL CHARACTERIZED. HOWEVER, ITS RELATIONSHIP TO BONE FRAGILITY, COGNITIVE DEFICITS AND INCREASED RISK OF DEMENTIA STILL NEEDS TO BE BETTER UNDERSTOOD. THE IMPACT OF CHRONIC HYPERGLYCEMIA ON BONE PHYSIOLOGY AND ARCHITECTURE WAS ASSESSED IN A MODEL OF CHRONIC HYPERGLYCEMIA INDUCED BY A SINGLE INTRAPERITONEAL ADMINISTRATION OF STREPTOZOTOCIN (STZ; 55 MG/KG) IN WISTAR RATS. IN ADDITION, THE BONE-TO-BRAIN COMMUNICATION WAS INVESTIGATED BY ANALYZING THE GENE EXPRESSION AND METHYLATION STATUS OF GENES THAT ENCODE THE MAIN OSTEOKINES RELEASED BY THE BONE [FGF23 (FIBROBLAST GROWTH FACTOR 23), BGLAP (BONE GAMMA-CARBOXYGLUTAMATE PROTEIN) AND LCN2 (LIPOCALIN 2) AND THEIR RECEPTORS IN BOTH, THE BONE AND THE BRAIN [FGFR1 (FIBROBLAST GROWTH FACTOR RECEPTOR 1), GPR6A (G-PROTEIN COUPLED RECEPTOR FAMILY C GROUP 6 MEMBER A), GPR158 (G PROTEIN-COUPLED RECEPTOR 158) AND SLC22A17 (SOLUTE CARRIER FAMILY 22 MEMBER 17)]. IT WAS OBSERVED THAT CHRONIC HYPERGLYCEMIA NEGATIVELY IMPACTED ON BONE BIOLOGY AND COMPROMISED THE BALANCE OF THE BONE-BRAIN ENDOCRINE AXIS. ULTRASTRUCTURAL DISORGANIZATION WAS ACCOMPANIED BY GLOBAL DNA HYPOMETHYLATION AND CHANGES IN GENE EXPRESSION OF DNA-MODIFYING ENZYMES THAT WERE ACCOMPANIED BY CHANGES IN THE METHYLATION STATUS OF THE OSTEOKINE PROMOTER REGION BGLAP AND LCN2 (LIPOCALIN 2) IN THE FEMUR. ADDITIONALLY, THE CHRONIC HYPERGLYCEMIC STATE WAS ACCOMPANIED BY MODULATION OF GENE EXPRESSION OF THE OSTEOKINES FGF23 (FIBROBLAST GROWTH FACTOR 23), BGLAP (BONE GAMMA-CARBOXYGLUTAMATE PROTEIN) AND LCN2 (LIPOCALIN 2) IN THE DIFFERENT BRAIN REGIONS. HOWEVER, TRANSCRIPTIONAL REGULATION MEDIATED BY DNA METHYLATION WAS OBSERVED ONLY FOR THE OSTEOKINE RECEPTORS, FGFR1(FIBROBLAST GROWTH FACTOR RECEPTOR 1) IN THE STRIATUM AND GPR158 (G PROTEIN-COUPLED RECEPTOR 158) IN THE HIPPOCAMPUS. THIS IS A PIONEER STUDY DEMONSTRATING THAT THE CHRONIC HYPERGLYCEMIC STATE COMPROMISES THE CROSSTALK BETWEEN BONE TISSUE AND THE BRAIN, MAINLY AFFECTING THE HIPPOCAMPUS, THROUGH TRANSCRIPTIONAL SILENCING OF THE BGLAP RECEPTOR BY HYPERMETHYLATION OF GPR158 GENE. 2023 10 1397 13 DIET PHYTOCHEMICALS AND CUTANEOUS CARCINOMA CHEMOPREVENTION: A REVIEW. CUTANEOUS CARCINOMA, WHICH HAS OCCUPIED A PECULIAR PLACE AMONG WORLDWIDE POPULATIONS, IS COMMONLY RESPONSIBLE FOR THE CONSIDERABLY INCREASING MORBIDITY AND MORTALITY RATES. CURRENTLY AVAILABLE MEDICAL PROCEDURES FAIL TO COMPLETELY AVOID CUTANEOUS CARCINOMA DEVELOPMENT OR TO PREVENT MORTALITY. CANCER CHEMOPREVENTION, AS AN ALTERNATIVE STRATEGY, IS BEING CONSIDERED TO REDUCE THE INCIDENCE AND BURDEN OF CANCERS THROUGH CHEMICAL AGENTS. DERIVED FROM DIETARY FOODS, PHYTOCHEMICALS HAVE BECOME SAFE AND RELIABLE COMPOUNDS FOR THE CHEMOPREVENTION OF CUTANEOUS CARCINOMA BY RELIEVING MULTIPLE PATHOLOGICAL PROCESSES, INCLUDING OXIDATIVE DAMAGE, EPIGENETIC ALTERATION, CHRONIC INFLAMMATION, ANGIOGENESIS, ETC. IN THIS REVIEW, WE PRESENTED COMPREHENSIVE KNOWLEDGES, MAIN MOLECULAR MECHANISMS FOR THE INITIATION AND DEVELOPMENT OF CUTANEOUS CARCINOMA AS WELL AS EFFECTS OF VARIOUS DIET PHYTOCHEMICALS ON CHEMOPREVENTION. 2017 11 6441 23 THERAPEUTIC APPROACHES FOR NONALCOHOLIC FATTY LIVER DISEASE: ESTABLISHED TARGETS AND DRUGS. NONALCOHOLIC FATTY LIVER DISEASE (NAFLD), AS A MULTISYSTEMIC DISEASE, IS THE MOST PREVALENT CHRONIC LIVER DISEASE CHARACTERIZED BY EXTREMELY COMPLEX PATHOGENIC MECHANISMS AND MULTIFACTORIAL ETIOLOGY, WHICH OFTEN DEVELOPS AS A CONSEQUENCE OF OBESITY, METABOLIC SYNDROME. PATHOPHYSIOLOGICAL MECHANISMS INVOLVED IN THE DEVELOPMENT OF NAFLD INCLUDE DIET, OBESITY, INSULIN RESISTANCE (IR), GENETIC AND EPIGENETIC DETERMINANTS, INTESTINAL DYSBIOSIS, OXIDATIVE/NITROSATIVE STRESS, AUTOPHAGY DYSREGULATION, HEPATIC INFLAMMATION, GUT-LIVER AXIS, GUT MICROBES, IMPAIRED MITOCHONDRIAL METABOLISM AND REGULATION OF HEPATIC LIPID METABOLISM. SOME OF THE NEW DRUGS FOR THE TREATMENT OF NAFLD ARE INTRODUCED HERE. ALL OF THEM ACHIEVE THERAPEUTIC OBJECTIVES BY INTERFERING WITH CERTAIN PATHOPHYSIOLOGICAL PATHWAYS OF NAFLD, INCLUDING FIBROBLAST GROWTH FACTORS (FGF) ANALOGUES, PEROXISOME PROLIFERATOR-ACTIVATED RECEPTORS (PPARS) AGONISTS, GLUCAGON-LIKE PEPTIDE-1 (GLP-1) AGONISTS, G PROTEIN-COUPLED RECEPTORS (GPCRS), SODIUM-GLUCOSE COTRANSPORTER-2 INHIBITORS (SGLT-2I), FARNESOID X RECEPTOR (FXR), FATTY ACID SYNTHASE INHIBITOR (FASNI), ANTIOXIDANTS, ETC. THIS REVIEW DESCRIBES SOME PATHOPHYSIOLOGICAL MECHANISMS OF NAFLD AND ESTABLISHED TARGETS AND DRUGS. 2023 12 2876 24 FUNCTIONAL ROLES OF LONG NONCODING RNA MALAT1 IN GYNECOLOGIC CANCERS. GYNECOLOGIC CANCERS ARE REPRODUCTIVE DISORDERS CHARACTERIZED BY PELVIC PAIN AND INFERTILITY. THE IDENTIFICATION OF NEW PREDICTIVE MARKERS AND THERAPEUTIC TARGETS FOR THE TREATMENT OF GYNECOLOGIC CANCERS IS URGENTLY NECESSARY. ONE OF THE RECENT SUCCESSES IN GYNECOLOGIC CANCERS RESEARCH IS IDENTIFYING THE ROLE OF SIGNALING PATHWAYS IN THE PATHOGENESIS OF THE DISEASE. RECENT EXPERIMENTS SHOWED LONG NONCODING RNAS (LNCRNA) CAN BE NOVEL THERAPEUTIC APPROACHES FOR THE DIAGNOSIS AND TREATMENT OF GYNECOLOGIC CANCERS. LNCRNA ARE TRANSCRIBED RNA MOLECULES THAT PLAY PIVOTAL ROLES IN MULTIPLE BIOLOGICAL PROCESSES BY REGULATING THE DIFFERENT STEPS OF GENE EXPRESSION. METASTASIS-ASSOCIATED LUNG ADENOCARCINOMA TRANSCRIPT-1 (MALAT1) IS A WELL-KNOWN LNCRNA THAT PLAYS FUNCTIONAL ROLES IN GENE EXPRESSION, RNA PROCESSING, AND EPIGENETIC REGULATION. HIGH EXPRESSION OF MALAT1 IS CLOSELY RELATED TO NUMEROUS HUMAN DISEASES. IT IS GENERALLY BELIEVED THAT MALAT1 EXPRESSION IS ASSOCIATED WITH CANCER CELL GROWTH, AUTOPHAGY, INVASION, AND METASTASIS. MALAT1 BY TARGETING MULTIPLE SIGNALING PATHWAYS AND MICRORNAS (MIRNAS) COULD CONTRIBUTE TO THE PATHOGENESIS OF GYNECOLOGIC CANCERS. IN THIS REVIEW, WE WILL SUMMARIZE FUNCTIONAL ROLES OF MALAT1 IN THE MOST COMMON GYNECOLOGIC CANCERS, INCLUDING ENDOMETRIUM, BREAST, OVARY, AND CERVIX. 2023 13 6169 20 THE GUT MICROBIOTA AND HEALTHY AGING: A MINI-REVIEW. THE GUT MICROBIOTA SHOWS A WIDE INTER-INDIVIDUAL VARIATION, BUT ITS WITHIN-INDIVIDUAL VARIATION IS RELATIVELY STABLE OVER TIME. A FUNCTIONAL CORE MICROBIOME, PROVIDED BY ABUNDANT BACTERIAL TAXA, SEEMS TO BE COMMON TO VARIOUS HUMAN HOSTS REGARDLESS OF THEIR GENDER, GEOGRAPHIC LOCATION, AND AGE. WITH ADVANCING CHRONOLOGICAL AGE, THE GUT MICROBIOTA BECOMES MORE DIVERSE AND VARIABLE. HOWEVER, WHEN MEASURES OF BIOLOGICAL AGE ARE USED WITH ADJUSTMENT FOR CHRONOLOGICAL AGE, OVERALL RICHNESS DECREASES, WHILE A CERTAIN GROUP OF BACTERIA ASSOCIATED WITH FRAILTY INCREASES. THIS HIGHLIGHTS THE IMPORTANCE OF CONSIDERING BIOLOGICAL OR FUNCTIONAL MEASURES OF AGING. STUDIES USING MODEL ORGANISMS INDICATE THAT AGE-RELATED GUT DYSBIOSIS MAY CONTRIBUTE TO UNHEALTHY AGING AND REDUCED LONGEVITY. THE GUT MICROBIOME DEPENDS ON THE HOST NUTRIENT SIGNALING PATHWAYS FOR ITS BENEFICIAL EFFECTS ON HOST HEALTH AND LIFESPAN, AND GUT DYSBIOSIS DISRUPTING THE INTERDEPENDENCE MAY DIMINISH THE BENEFICIAL EFFECTS OR EVEN HAVE REVERSE EFFECTS. GUT DYSBIOSIS CAN TRIGGER THE INNATE IMMUNE RESPONSE AND CHRONIC LOW-GRADE INFLAMMATION, LEADING TO MANY AGE-RELATED DEGENERATIVE PATHOLOGIES AND UNHEALTHY AGING. THE GUT MICROBIOTA COMMUNICATES WITH THE HOST THROUGH VARIOUS BIOMOLECULES, NUTRIENT SIGNALING-INDEPENDENT PATHWAYS, AND EPIGENETIC MECHANISMS. DISTURBANCE OF THESE COMMUNICATIONS BY AGE-RELATED GUT DYSBIOSIS CAN AFFECT THE HOST HEALTH AND LIFESPAN. THIS MAY EXPLAIN THE IMPACT OF THE GUT MICROBIOME ON HEALTH AND AGING. 2018 14 5968 23 TERPENOID TREATMENT IN OSTEOPOROSIS: THIS IS WHERE WE HAVE COME IN RESEARCH. LOWER BONE RESISTANCE TO LOAD IS DUE TO THE IMBALANCE OF BONE HOMEOSTASIS, WHERE EXCESSIVE BONE RESORPTION, COMPARED WITH BONE FORMATION, DETERMINES A PROGRESSIVE OSTEOPENIA, LEADING TO A HIGH RISK OF FRACTURES AND CONSEQUENT PAIN AND FUNCTIONAL LIMITATIONS. TERPENOIDS, WITH THEIR ACTIVITIES AGAINST BONE RESORPTION, HAVE RECENTLY RECEIVED INCREASED ATTENTION FROM RESEARCHERS. THEY ARE POTENTIALLY MORE SUITABLE FOR LONG-TERM USE COMPARED WITH TRADITIONAL THERAPEUTICS. IN THIS REVIEW OF THE LITERATURE OF THE PAST 5 YEARS, WE PROVIDE COMPREHENSIVE INFORMATION ON TERPENOIDS, WITH THEIR ANTI-OSTEOPOROTIC EFFECTS, HIGHLIGHTING MOLECULAR MECHANISMS THAT ARE OFTEN IN EPIGENETIC KEY AND A POSSIBLE PHARMACOLOGICAL USE IN OSTEOPOROSIS PREVENTION AND TREATMENT. 2021 15 4459 23 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 16 4211 28 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 17 2459 15 EPIGENETIC THERAPIES FOR NON-ONCOLOGY INDICATIONS. CHRONIC AND DEGENERATIVE DISORDERS ARE A MAJOR, AND GROWING, HUMAN HEALTH BURDEN, AND CURRENT TREATMENTS ARE IN MANY CASES INADEQUATE OR VERY EXPENSIVE. EPIGENETIC THERAPIES ARE ATTRACTIVE OPTIONS FOR TREATING SUCH DISORDERS BECAUSE THEY MANIPULATE THE PROCESSES THAT MAINTAIN CELLS IN AN ABNORMAL TRANSCRIPTIONAL STATE. THE CHALLENGES LIE IN IDENTIFYING THE MOST APPROPRIATE DISEASES AND THE ENZYMES THAT SHOULD BE TARGETED. THIS REVIEW DESCRIBES THE DIFFERENT APPROACHES THAT CAN BE USED TO ADDRESS THIS PROBLEM, FOCUSING PARTICULARLY ON CNS DISORDERS (ESPECIALLY MENTAL RETARDATION, NEURODEGENERATIVE DISEASE, PSYCHIATRIC DISORDERS AND DRUG ADDICTION), DIABETES AND DIABETIC COMPLICATIONS, AND AUTOIMMUNITY AND INFLAMMATORY DISEASES. 2010 18 3181 13 HALLMARKS OF AGING: AN EXPANDING UNIVERSE. AGING IS DRIVEN BY HALLMARKS FULFILLING THE FOLLOWING THREE PREMISES: (1) THEIR AGE-ASSOCIATED MANIFESTATION, (2) THE ACCELERATION OF AGING BY EXPERIMENTALLY ACCENTUATING THEM, AND (3) THE OPPORTUNITY TO DECELERATE, STOP, OR REVERSE AGING BY THERAPEUTIC INTERVENTIONS ON THEM. WE PROPOSE THE FOLLOWING TWELVE HALLMARKS OF AGING: GENOMIC INSTABILITY, TELOMERE ATTRITION, EPIGENETIC ALTERATIONS, LOSS OF PROTEOSTASIS, DISABLED MACROAUTOPHAGY, DEREGULATED NUTRIENT-SENSING, MITOCHONDRIAL DYSFUNCTION, CELLULAR SENESCENCE, STEM CELL EXHAUSTION, ALTERED INTERCELLULAR COMMUNICATION, CHRONIC INFLAMMATION, AND DYSBIOSIS. THESE HALLMARKS ARE INTERCONNECTED AMONG EACH OTHER, AS WELL AS TO THE RECENTLY PROPOSED HALLMARKS OF HEALTH, WHICH INCLUDE ORGANIZATIONAL FEATURES OF SPATIAL COMPARTMENTALIZATION, MAINTENANCE OF HOMEOSTASIS, AND ADEQUATE RESPONSES TO STRESS. 2023 19 6874 21 [PROGRESS IN THE REGULATION OF ENERGY METABOLIC HOMEOSTASIS BY THE SWI/SNF COMPLEX SUBUNIT BAF60A]. METABOLIC SYNDROME IS A GLOBAL CHRONIC EPIDEMIC. ITS PATHOGENESIS IS DETERMINED BY GENETIC AND ENVIRONMENTAL FACTORS. EPIGENETIC MODIFICATION IS REPORTED TO REGULATE GENE EXPRESSION WITHOUT ALTERING ITS NUCLEOTIDE SEQUENCES. IN RECENT YEARS, EPIGENETIC MODIFICATION IS SENSITIVELY RESPONDED TO ENVIRONMENTAL SIGNALS, FURTHER AFFECTING THE GENE EXPRESSION AND SIGNALING TRANSDUCTION. AMONG THESE REGULATORS, CHROMATIN REMODELING SWI/SNF (SWITCH/SUCROSE NON FERMENTABLE, SWI/SNF) COMPLEX SUBUNIT BAF60A PLAYS AN IMPORTANT ROLE IN MAINTAINING ENERGY HOMEOSTASIS IN MAMMALS. IN THIS PAPER, WE DESCRIBED THE PATHOPHYSIOLOGICAL ROLES OF BAF60A IN MAINTAINING THE BALANCE OF ENERGY METABOLISM, INCLUDING LIPID METABOLISM, CHOLESTEROL METABOLISM, UREA METABOLISM, AS WELL AS THEIR RHYTHMICITY. THEREFORE, IN-DEPTH UNDERSTANDING OF BAF60A-ORCHESTRATED TRANSCRIPTIONAL NETWORK OF ENERGY METABOLISM WILL PROVIDE POTENTIAL THERAPEUTIC TARGETS AND RELIABLE THEORETICAL SUPPORTS FOR THE TREATMENT OF METABOLIC SYNDROME. 2021 20 4663 20 NEW HORIZONS: NOVEL APPROACHES TO ENHANCE HEALTHSPAN THROUGH TARGETING CELLULAR SENESCENCE AND RELATED AGING MECHANISMS. THE ELDERLY POPULATION IS INCREASING FASTER THAN OTHER SEGMENTS OF THE POPULATION THROUGHOUT THE WORLD. AGE IS THE LEADING PREDICTOR FOR MOST CHRONIC DISEASES AND DISORDERS, MULTIMORBIDITY, GERIATRIC SYNDROMES, AND IMPAIRED ABILITY TO RECOVER FROM ACCIDENTS OR ILLNESSES. ENHANCING THE DURATION OF HEALTH AND INDEPENDENCE, TERMED HEALTHSPAN, WOULD BE MORE DESIRABLE THAN EXTENDING LIFESPAN MERELY BY PROLONGING THE PERIOD OF MORBIDITY TOWARD THE END OF LIFE. THE GEROSCIENCE HYPOTHESIS POSITS THAT HEALTHSPAN CAN BE EXTENDED BY TARGETING FUNDAMENTAL AGING MECHANISMS, RATHER THAN ATTEMPTING TO ADDRESS EACH AGE-RELATED DISEASE ONE AT A TIME, ONLY SO THE AFFLICTED INDIVIDUAL SURVIVES DISABLED AND DIES SHORTLY AFTERWARD OF ANOTHER AGE-RELATED DISEASE. THESE FUNDAMENTAL AGING MECHANISMS INCLUDE, AMONG OTHERS, CHRONIC INFLAMMATION, FIBROSIS, STEM CELL/ PROGENITOR DYSFUNCTION, DNA DAMAGE, EPIGENETIC CHANGES, METABOLIC SHIFTS, DESTRUCTIVE METABOLITE GENERATION, MITOCHONDRIAL DYSFUNCTION, MISFOLDED OR AGGREGATED PROTEIN ACCUMULATION, AND CELLULAR SENESCENCE. THESE PROCESSES APPEAR TO BE TIGHTLY INTERLINKED, AS TARGETING ANY ONE APPEARS TO AFFECT MANY OF THE REST, UNDERLYING OUR UNITARY THEORY OF FUNDAMENTAL AGING MECHANISMS. INTERVENTIONS TARGETING MANY FUNDAMENTAL AGING PROCESSES ARE BEING DEVELOPED, INCLUDING DIETARY MANIPULATIONS, METFORMIN, MTOR (MECHANISTIC TARGET OF RAPAMYCIN) INHIBITORS, AND SENOLYTICS, WHICH ARE IN EARLY HUMAN TRIALS. THESE INTERVENTIONS COULD LEAD TO GREATER HEALTHSPAN BENEFITS THAN TREATING AGE-RELATED DISEASES ONE AT A TIME. TO ILLUSTRATE THESE POINTS, WE FOCUS ON CELLULAR SENESCENCE AND THERAPIES IN DEVELOPMENT TO TARGET SENESCENT CELLS. COMBINING INTERVENTIONS TARGETING AGING MECHANISMS WITH DISEASE-SPECIFIC DRUGS COULD RESULT IN MORE THAN ADDITIVE BENEFITS FOR CURRENTLY DIFFICULT-TO-TREAT OR INTRACTABLE DISEASES. MORE RESEARCH ATTENTION NEEDS TO BE DEVOTED TO TARGETING FUNDAMENTAL AGING PROCESSES. 2021