1 3181 84 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 2 285 30 AGING AND AGING-RELATED DISEASES: FROM MOLECULAR MECHANISMS TO INTERVENTIONS AND TREATMENTS. AGING IS A GRADUAL AND IRREVERSIBLE PATHOPHYSIOLOGICAL PROCESS. IT PRESENTS WITH DECLINES IN TISSUE AND CELL FUNCTIONS AND SIGNIFICANT INCREASES IN THE RISKS OF VARIOUS AGING-RELATED DISEASES, INCLUDING NEURODEGENERATIVE DISEASES, CARDIOVASCULAR DISEASES, METABOLIC DISEASES, MUSCULOSKELETAL DISEASES, AND IMMUNE SYSTEM DISEASES. ALTHOUGH THE DEVELOPMENT OF MODERN MEDICINE HAS PROMOTED HUMAN HEALTH AND GREATLY EXTENDED LIFE EXPECTANCY, WITH THE AGING OF SOCIETY, A VARIETY OF CHRONIC DISEASES HAVE GRADUALLY BECOME THE MOST IMPORTANT CAUSES OF DISABILITY AND DEATH IN ELDERLY INDIVIDUALS. CURRENT RESEARCH ON AGING FOCUSES ON ELUCIDATING HOW VARIOUS ENDOGENOUS AND EXOGENOUS STRESSES (SUCH AS GENOMIC INSTABILITY, TELOMERE DYSFUNCTION, EPIGENETIC ALTERATIONS, LOSS OF PROTEOSTASIS, COMPROMISE OF AUTOPHAGY, MITOCHONDRIAL DYSFUNCTION, CELLULAR SENESCENCE, STEM CELL EXHAUSTION, ALTERED INTERCELLULAR COMMUNICATION, DEREGULATED NUTRIENT SENSING) PARTICIPATE IN THE REGULATION OF AGING. FURTHERMORE, THOROUGH RESEARCH ON THE PATHOGENESIS OF AGING TO IDENTIFY INTERVENTIONS THAT PROMOTE HEALTH AND LONGEVITY (SUCH AS CALORIC RESTRICTION, MICROBIOTA TRANSPLANTATION, AND NUTRITIONAL INTERVENTION) AND CLINICAL TREATMENT METHODS FOR AGING-RELATED DISEASES (DEPLETION OF SENESCENT CELLS, STEM CELL THERAPY, ANTIOXIDATIVE AND ANTI-INFLAMMATORY TREATMENTS, AND HORMONE REPLACEMENT THERAPY) COULD DECREASE THE INCIDENCE AND DEVELOPMENT OF AGING-RELATED DISEASES AND IN TURN PROMOTE HEALTHY AGING AND LONGEVITY. 2022 3 5945 36 TARGETING THE "HALLMARKS OF AGING" TO SLOW AGING AND TREAT AGE-RELATED DISEASE: FACT OR FICTION? AGING IS A MAJOR RISK FACTOR FOR A NUMBER OF CHRONIC DISEASES, INCLUDING NEURODEGENERATIVE AND CEREBROVASCULAR DISORDERS. AGING PROCESSES HAVE THEREFORE BEEN DISCUSSED AS POTENTIAL TARGETS FOR THE DEVELOPMENT OF NOVEL AND BROADLY EFFECTIVE PREVENTATIVES OR THERAPEUTICS FOR AGE-RELATED DISEASES, INCLUDING THOSE AFFECTING THE BRAIN. MECHANISMS THOUGHT TO CONTRIBUTE TO AGING HAVE BEEN SUMMARIZED UNDER THE TERM THE "HALLMARKS OF AGING" AND INCLUDE A LOSS OF PROTEOSTASIS, MITOCHONDRIAL DYSFUNCTION, ALTERED NUTRIENT SENSING, TELOMERE ATTRITION, GENOMIC INSTABILITY, CELLULAR SENESCENCE, STEM CELL EXHAUSTION, EPIGENETIC ALTERATIONS AND ALTERED INTERCELLULAR COMMUNICATION. WE HERE EXAMINE KEY CLAIMS ABOUT THE "HALLMARKS OF AGING". OUR ANALYSIS REVEALS IMPORTANT WEAKNESSES THAT PRECLUDE STRONG AND DEFINITIVE CONCLUSIONS CONCERNING A POSSIBLE ROLE OF THESE PROCESSES IN SHAPING ORGANISMAL AGING RATE. SIGNIFICANT AMBIGUITY ARISES FROM THE OVERRELIANCE ON LIFESPAN AS A PROXY MARKER FOR AGING, THE USE OF MODELS WITH UNCLEAR RELEVANCE FOR ORGANISMAL AGING, AND THE USE OF STUDY DESIGNS THAT DO NOT ALLOW TO PROPERLY ESTIMATE INTERVENTION EFFECTS ON AGING RATE. WE ALSO DISCUSS FUTURE RESEARCH DIRECTIONS THAT SHOULD BE TAKEN TO CLARIFY IF AND TO WHAT EXTENT PUTATIVE AGING REGULATORS DO IN FACT INTERACT WITH AGING. THESE INCLUDE MULTIDIMENSIONAL ANALYTICAL FRAMEWORKS AS WELL AS DESIGNS THAT FACILITATE THE PROPER ASSESSMENT OF INTERVENTION EFFECTS ON AGING RATE. 2023 4 3102 37 GENOMIC INSTABILITIES, CELLULAR SENESCENCE, AND AGING: IN VITRO, IN VIVO AND AGING-LIKE HUMAN SYNDROMES. AS AVERAGE LIFE SPAN AND ELDERLY PEOPLE PREVALENCE IN THE WESTERN WORLD POPULATION IS GRADUALLY INCREASING, THE INCIDENCE OF AGE-RELATED DISEASES SUCH AS CANCER, HEART DISEASES, DIABETES, AND DEMENTIA IS INCREASING, BEARING SOCIAL AND ECONOMIC CONSEQUENCES WORLDWIDE. UNDERSTANDING THE MOLECULAR BASIS OF AGING-RELATED PROCESSES CAN HELP EXTEND THE ORGANISM'S HEALTH SPAN, I.E., THE LIFE PERIOD IN WHICH THE ORGANISM IS FREE OF CHRONIC DISEASES OR DECREASE IN BASIC BODY FUNCTIONS. DURING THE LAST FEW DECADES, IMMENSE PROGRESS WAS MADE IN THE UNDERSTANDING OF MAJOR COMPONENTS OF AGING AND HEALTHY AGING BIOLOGY, INCLUDING GENOMIC INSTABILITY, TELOMERE ATTRITION, EPIGENETIC CHANGES, PROTEOSTASIS, NUTRIENT SENSING, MITOCHONDRIAL DYSFUNCTION, CELLULAR SENESCENCE, STEM CELL EXHAUSTION, AND INTRACELLULAR COMMUNICATIONS. THIS PROGRESS HAS BEEN MADE BY THREE SPEAR-HEADED STRATEGIES: IN VITRO (CELL AND TISSUE CULTURE FROM VARIOUS SOURCES), IN VIVO (INCLUDES DIVERSE MODEL AND NON-MODEL ORGANISMS), BOTH CAN BE MANIPULATED AND TRANSLATED TO HUMAN BIOLOGY, AND THE STUDY OF AGING-LIKE HUMAN SYNDROMES AND HUMAN POPULATIONS. HEREIN, WE WILL FOCUS ON CURRENT REPOSITORY OF GENOMIC "SENESCENCE" STAGE OF AGING, WHICH INCLUDES HEALTH DECLINE, STRUCTURAL CHANGES OF THE GENOME, FAULTY DNA DAMAGE RESPONSE AND DNA DAMAGE, TELOMERE SHORTENING, AND EPIGENETIC ALTERATIONS. ALTHOUGH AGING IS A COMPLEX PROCESS, MANY OF THE "HALLMARKS" OF AGING ARE DIRECTLY RELATED TO DNA STRUCTURE AND FUNCTION. THIS REVIEW WILL ILLUSTRATE THE VARIETY OF THESE STUDIES, DONE IN IN VITRO, IN VIVO AND HUMAN LEVELS, AND HIGHLIGHT THE UNIQUE POTENTIAL AND CONTRIBUTION OF EACH RESEARCH LEVEL AND EVENTUALLY THE LINK BETWEEN THEM. 2018 5 6412 47 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 6 5630 39 SENESCENCE IN PULMONARY FIBROSIS: BETWEEN AGING AND EXPOSURE. TO DATE, CHRONIC PULMONARY PATHOLOGIES REPRESENT THE THIRD LEADING CAUSE OF DEATH IN THE ELDERLY POPULATION. EVIDENCE-BASED PROJECTIONS SUGGEST THAT >65 (YEARS OLD) INDIVIDUALS WILL ACCOUNT FOR APPROXIMATELY A QUARTER OF THE WORLD POPULATION BEFORE THE TURN OF THE CENTURY. GENOMIC INSTABILITY, TELOMERE ATTRITION, EPIGENETIC ALTERATIONS, LOSS OF PROTEOSTASIS, DEREGULATED NUTRIENT SENSING, MITOCHONDRIAL DYSFUNCTION, CELLULAR SENESCENCE, STEM CELL EXHAUSTION, AND ALTERED INTERCELLULAR COMMUNICATION, ARE DESCRIBED AS THE NINE "HALLMARKS" THAT GOVERN CELLULAR FITNESS. ANY DEVIATION FROM THE NORMAL PATTERN INITIATES A COMPLEX CASCADE OF EVENTS CULMINATING TO A DISEASE STATE. THIS BLUEPRINT, ORIGINALLY EMPLOYED TO DESCRIBE ABERRANT CHANGES IN CANCER CELLS, CAN BE ALSO USED TO DESCRIBE AGING AND FIBROSIS. PULMONARY FIBROSIS (PF) IS THE RESULT OF A PROGRESSIVE DECLINE IN INJURY RESOLUTION PROCESSES STEMMING FROM ENDOGENOUS (PHYSIOLOGICAL DECLINE OR SOMATIC MUTATIONS) OR EXOGENOUS STRESS. ENVIRONMENTAL, DIETARY OR OCCUPATIONAL EXPOSURE ACCELERATES THE PATHOGENESIS OF A SENESCENT PHENOTYPE BASED ON (1) WINDOW OF EXPOSURE; (2) DOSE, DURATION, RECURRENCE; AND (3) CELLS TYPE BEING TARGETED. AS THE LUNG AGES, THE THRESHOLD TO GENERATE AN IRREVERSIBLY SENESCENT PHENOTYPE IS LOWERED. HOWEVER, WE DO NOT HAVE SUFFICIENT KNOWLEDGE TO MAKE ACCURATE PREDICTIONS. IN THIS REVIEW, WE PROVIDE AN ASSESSMENT OF THE LITERATURE THAT INTERROGATES LUNG EPITHELIAL, MESENCHYMAL, AND IMMUNE SENESCENCE AT THE INTERSECTION OF AGING, ENVIRONMENTAL EXPOSURE AND PULMONARY FIBROSIS. 2020 7 3922 30 LIPIDS AND THE HALLMARKS OF AGEING: FROM PATHOLOGY TO INTERVENTIONS. LIPIDS ARE CRITICAL STRUCTURAL AND FUNCTIONAL ARCHITECTS OF CELLULAR HOMEOSTASIS. CHANGE IN SYSTEMIC LIPID PROFILE IS A CLINICAL INDICATOR OF UNDERLYING METABOLIC PATHOLOGIES, AND EMERGING EVIDENCE IS NOW DEFINING NOVEL ROLES OF LIPIDS IN MODULATING ORGANISMAL AGEING. CHARACTERISTIC ALTERATIONS IN LIPID METABOLISM CORRELATE WITH AGE, AND IMPAIRED SYSTEMIC LIPID PROFILE CAN ALSO ACCELERATE THE DEVELOPMENT OF AGEING PHENOTYPE. THE PRESENT WORK PROVIDES A COMPREHENSIVE REVIEW OF THE EXTENT OF LIPIDS AS REGULATORS OF THE MODERN HALLMARKS OF AGEING VIZ., CELLULAR SENESCENCE, CHRONIC INFLAMMATION, GUT DYSBIOSIS, TELOMERE ATTRITION, GENOME INSTABILITY, PROTEOSTASIS AND AUTOPHAGY, EPIGENETIC ALTERATIONS, AND STEM CELLS DYSFUNCTIONS. CURRENT EVIDENCE ON THE MODULATION OF EACH OF THESE HALLMARKS HAS BEEN DISCUSSED WITH EMPHASIS ON INHERENT AGE-DEPENDENT DEFICIENCIES IN LIPID METABOLISM AS WELL AS EXOGENOUS LIPID CHANGES. THERE APPEARS TO BE SUFFICIENT EVIDENCE TO CONSIDER IMPAIRED LIPID METABOLISM AS KEY DRIVER OF THE AGEING PROCESS ALTHOUGH MUCH OF KNOWLEDGE IS YET FRAGMENTED. CONSIDERING DIETARY LIPIDS, THE TYPE AND QUANTITY OF LIPIDS IN THE DIET IS A SIGNIFICANT, BUT OFTEN OVERLOOKED DETERMINANT THAT GOVERNS THE EFFECTS OF LIPIDS ON AGEING. FURTHER RESEARCH USING INTEGRATIVE APPROACHES AMIDST THE KNOWN AGING HALLMARKS IS HIGHLY DESIRABLE FOR UNDERSTANDING THE THERAPEUTICS OF LIPIDS ASSOCIATED WITH AGEING. 2023 8 290 37 AGING AND PULMONARY FIBROSIS. IDIOPATHIC PULMONARY FIBROSIS IS A CHRONIC, PROGRESSIVE, AND USUALLY FATAL LUNG DISORDER OF UNKNOWN ETIOLOGY. THE DISEASE LIKELY RESULTS FROM THE INTERACTION OF GENETIC SUSCEPTIBILITY ARCHITECTURE, ENVIRONMENTAL FACTORS SUCH AS SMOKING, AND AN ABNORMAL EPIGENETIC REPROGRAMMING THAT LEADS TO A COMPLEX PATHOGENESIS. IDIOPATHIC PULMONARY FIBROSIS OCCURS IN MIDDLE-AGED AND MAINLY ELDERLY ADULTS, AND IN THIS CONTEXT AGE HAS EMERGED AS ITS STRONGEST RISK FACTOR. HOWEVER, THE MECHANISMS LINKING IT TO AGING ARE UNCERTAIN. RECENTLY, NINE MOLECULAR AND CELLULAR HALLMARKS OF AGING HAVE BEEN PROPOSED: GENOMIC INSTABILITY, TELOMERE ATTRITION, EPIGENETIC ALTERATIONS, LOSS OF PROTEOSTASIS, DEREGULATED NUTRIENT SENSING, MITOCHONDRIAL DYSFUNCTION, CELLULAR SENESCENCE, STEM CELL EXHAUSTION, AND ALTERED INTERCELLULAR COMMUNICATION. IN THIS REVIEW, WE PROVIDE AN OVERVIEW OF THESE MOLECULAR MECHANISMS AND THEIR INVOLVEMENT IN THE PATHOGENESIS OF IDIOPATHIC PULMONARY FIBROSIS, WHILE EMPHASIZING THAT THE STUDIES ON THIS DISEASE ARE FEW AND THE FINDINGS ARE NOT DEFINITIVE. 2016 9 293 33 AGING HALLMARKS AND THE ROLE OF OXIDATIVE STRESS. AGING IS A COMPLEX BIOLOGICAL PROCESS ACCOMPANIED BY A PROGRESSIVE DECLINE IN THE PHYSICAL FUNCTION OF THE ORGANISM AND AN INCREASED RISK OF AGE-RELATED CHRONIC DISEASES SUCH AS CARDIOVASCULAR DISEASES, CANCER, AND NEURODEGENERATIVE DISEASES. STUDIES HAVE ESTABLISHED THAT THERE EXIST NINE HALLMARKS OF THE AGING PROCESS, INCLUDING (I) TELOMERE SHORTENING, (II) GENOMIC INSTABILITY, (III) EPIGENETIC MODIFICATIONS, (IV) MITOCHONDRIAL DYSFUNCTION, (V) LOSS OF PROTEOSTASIS, (VI) DYSREGULATED NUTRIENT SENSING, (VII) STEM CELL EXHAUSTION, (VIII) CELLULAR SENESCENCE, AND (IX) ALTERED CELLULAR COMMUNICATION. ALL THESE ALTERATIONS HAVE BEEN LINKED TO SUSTAINED SYSTEMIC INFLAMMATION, AND THESE MECHANISMS CONTRIBUTE TO THE AGING PROCESS IN TIMING NOT CLEARLY DETERMINED YET. NEVERTHELESS, MITOCHONDRIAL DYSFUNCTION IS ONE OF THE MOST IMPORTANT MECHANISMS CONTRIBUTING TO THE AGING PROCESS. MITOCHONDRIA IS THE PRIMARY ENDOGENOUS SOURCE OF REACTIVE OXYGEN SPECIES (ROS). DURING THE AGING PROCESS, THERE IS A DECLINE IN ATP PRODUCTION AND ELEVATED ROS PRODUCTION TOGETHER WITH A DECLINE IN THE ANTIOXIDANT DEFENSE. ELEVATED ROS LEVELS CAN CAUSE OXIDATIVE STRESS AND SEVERE DAMAGE TO THE CELL, ORGANELLE MEMBRANES, DNA, LIPIDS, AND PROTEINS. THIS DAMAGE CONTRIBUTES TO THE AGING PHENOTYPE. IN THIS REVIEW, WE SUMMARIZE RECENT ADVANCES IN THE MECHANISMS OF AGING WITH AN EMPHASIS ON MITOCHONDRIAL DYSFUNCTION AND ROS PRODUCTION. 2023 10 4379 39 MITOCHONDRIAL DYSFUNCTION AND AGING: INSIGHTS FROM THE ANALYSIS OF EXTRACELLULAR VESICLES. THE PROGRESSIVE DECLINE OF CELL FUNCTION AND INTEGRITY, MANIFESTING CLINICALLY AS INCREASED VULNERABILITY TO ADVERSE OUTCOMES AND DEATH, IS CORE TO BIOLOGICAL AGING. MITOCHONDRIAL DYSFUNCTION, OXIDATIVE STRESS, ALTERED INTERCELLULAR COMMUNICATION (INCLUDING CHRONIC LOW-GRADE INFLAMMATION), GENOMIC INSTABILITY, TELOMERE ATTRITION, LOSS OF PROTEOSTASIS, ALTERED NUTRIENT SENSING, EPIGENETIC ALTERATIONS, AND STEM CELL EXHAUSTION HAVE BEEN PROPOSED AS HALLMARKS OF AGING. THESE "AGING PILLARS" ARE NOT MUTUALLY EXCLUSIVE, MAKING THE MATTER INTRICATE AND LEAVING NUMEROUS UNANSWERED QUESTIONS. THE CHARACTERIZATION OF CIRCULATING EXTRACELLULAR VESICLES (EVS) HAS RECENTLY ALLOWED SPECIFIC SECRETORY PHENOTYPES ASSOCIATED WITH AGING TO BE IDENTIFIED. AS SUCH, EVS MAY SERVE AS NOVEL BIOMARKERS FOR CAPTURING THE COMPLEXITY OF AGING. BESIDES THE MITOCHONDRIAL(-)LYSOSOMAL AXIS, EV TRAFFICKING HAS BEEN PROPOSED AS AN ADDITIONAL LAYER IN MITOCHONDRIAL QUALITY CONTROL. INDEED, DISRUPTION OF THE MITOCHONDRIAL(-)LYSOSOMAL AXIS COUPLED WITH ABNORMAL EV SECRETION MAY PLAY A ROLE IN THE PATHOGENESIS OF AGING AND SEVERAL DISEASE CONDITIONS. HERE, WE DISCUSS (1) THE MECHANISMS OF EV GENERATION; (2) THE RELATIONSHIP BETWEEN THE MITOCHONDRIAL(-)LYSOSOMAL AXIS AND EV TRAFFICKING IN THE SETTING OF MITOCHONDRIAL QUALITY CONTROL; AND (3) THE PROSPECT OF USING EVS AS AGING BIOMARKERS AND AS DELIVERY SYSTEMS FOR THERAPEUTICS AGAINST AGE-RELATED CONDITIONS. 2019 11 5632 27 SENESCENT CELLS: SASPECTED DRIVERS OF AGE-RELATED PATHOLOGIES. THE PROGRESSION OF PHYSIOLOGICAL AGEING IS DRIVEN BY INTRACELLULAR ABERRATIONS INCLUDING TELOMERE ATTRITION, GENOMIC INSTABILITY, EPIGENETIC ALTERATIONS AND LOSS OF PROTEOSTASIS. THESE IN TURN DAMAGE CELLS AND COMPROMISE THEIR FUNCTIONALITY. CELLULAR SENESCENCE, A STABLE IRREVERSIBLE CELL-CYCLE ARREST, IS ELICITED IN DAMAGED CELLS AND PREVENTS THEIR PROPAGATION IN THE ORGANISM. UNDER NORMAL CONDITIONS, SENESCENT CELLS RECRUIT THE IMMUNE SYSTEM WHICH FACILITATES THEIR REMOVAL FROM TISSUES. NEVERTHELESS, DURING AGEING, TISSUE-RESIDING SENESCENT CELLS TEND TO ACCUMULATE, AND MIGHT NEGATIVELY IMPACT THEIR MICROENVIRONMENT VIA PROFOUND SECRETORY PHENOTYPE WITH PRO-INFLAMMATORY CHARACTERISTICS, TERMED SENESCENCE-ASSOCIATED SECRETORY PHENOTYPE (SASP). INDEED, SENESCENT CELLS ARE MOSTLY ABUNDANT AT SITES OF AGE-RELATED PATHOLOGIES, INCLUDING DEGENERATIVE DISORDERS AND MALIGNANCIES. INTERESTINGLY, STUDIES ON PROGEROID MICE INDICATE THAT SELECTIVE ELIMINATION OF SENESCENT CELLS CAN DELAY AGE-RELATED DETERIORATION. THIS SUGGESTS THAT CHRONIC INFLAMMATION INDUCED BY SENESCENT CELLS MIGHT BE A MAIN DRIVER OF THESE PATHOLOGIES. IMPORTANTLY, SENESCENT CELLS ACCUMULATE AS A RESULT OF DEFICIENT IMMUNE SURVEILLANCE, AND THEIR REMOVAL IS INCREASED UPON THE USE OF IMMUNE STIMULATORY AGENTS. INSIGHTS INTO MECHANISMS OF SENESCENCE SURVEILLANCE COULD BE COMBINED WITH CURRENT APPROACHES FOR CANCER IMMUNOTHERAPY TO PROPOSE NEW PREVENTIVE AND THERAPEUTIC STRATEGIES FOR AGE-RELATED DISEASES. 2014 12 4387 31 MITOTIC DYSFUNCTION ASSOCIATED WITH AGING HALLMARKS. AGING IS A BIOLOGICAL PROCESS CHARACTERIZED BY THE PROGRESSIVE DETERIORATION OF PHYSIOLOGICAL FUNCTIONS KNOWN TO BE THE MAIN RISK FACTOR FOR CHRONIC DISEASES AND DECLINING HEALTH. THERE HAS BEEN AN EMERGING CONNECTION BETWEEN AGING AND ANEUPLOIDY, AN ABERRANT NUMBER OF CHROMOSOMES, EVEN THOUGH THE MOLECULAR MECHANISMS BEHIND AGE-ASSOCIATED ANEUPLOIDY REMAIN LARGELY UNKNOWN. IN RECENT YEARS, SEVERAL GENETIC PATHWAYS AND BIOCHEMICAL PROCESSES CONTROLLING THE RATE OF AGING HAVE BEEN IDENTIFIED AND PROPOSED AS AGING HALLMARKS. PRIMARY HALLMARKS THAT CAUSE THE ACCUMULATION OF CELLULAR DAMAGE INCLUDE GENOMIC INSTABILITY, TELOMERE ATTRITION, EPIGENETIC ALTERATIONS AND LOSS OF PROTEOSTASIS (LOPEZ-OTIN ET AL., CELL 153:1194-1217, 2013). HERE WE REVIEW THE PROVOCATIVE LINK BETWEEN THESE AGING HALLMARKS AND THE LOSS OF CHROMOSOME SEGREGATION FIDELITY DURING CELL DIVISION, WHICH COULD SUPPORT THE CORRELATION BETWEEN AGING AND ANEUPLOIDY SEEN OVER THE PAST DECADES. SECONDLY, WE REVIEW THE SYSTEMIC IMPACTS OF ANEUPLOIDY IN CELL PHYSIOLOGY AND EMPHASIZE HOW THESE INCLUDE SOME OF THE PRIMARY HALLMARKS OF AGING. BASED ON THE EVIDENCE, WE PROPOSE A MUTUAL CAUSALITY BETWEEN AGING AND ANEUPLOIDY, AND SUGGEST MODULATION OF MITOTIC FIDELITY AS A POTENTIAL MEANS TO AMELIORATE HEALTHY LIFESPAN. 2017 13 3183 32 HALLMARKS OF T CELL AGING. THE AGED ADAPTIVE IMMUNE SYSTEM IS CHARACTERIZED BY PROGRESSIVE DYSFUNCTION AS WELL AS INCREASED AUTOIMMUNITY. THIS DECLINE IS RESPONSIBLE FOR ELEVATED SUSCEPTIBILITY TO INFECTION AND CANCER, AS WELL AS DECREASED VACCINATION EFFICACY. RECENT EVIDENCE INDICATES THAT CD4(+) T CELL-INTRINSIC ALTERATINS CONTRIBUTE TO CHRONIC INFLAMMATION AND ARE SUFFICIENT TO ACCELERATE AN ORGANISM-WIDE AGING PHENOTYPE, SUPPORTING THE IDEA THAT T CELL AGING PLAYS A MAJOR ROLE IN BODY-WIDE DETERIORATION. IN THIS REVIEW, WE PROPOSE TEN MOLECULAR HALLMARKS TO REPRESENT COMMON DENOMINATORS OF T CELL AGING. THESE HALLMARKS ARE GROUPED INTO FOUR PRIMARY HALLMARKS (THYMIC INVOLUTION, MITOCHONDRIAL DYSFUNCTION, GENETIC AND EPIGENETIC ALTERATIONS, AND LOSS OF PROTEOSTASIS) AND FOUR SECONDARY HALLMARKS (REDUCTION OF THE TCR REPERTOIRE, NAIVE-MEMORY IMBALANCE, T CELL SENESCENCE, AND LACK OF EFFECTOR PLASTICITY), AND TOGETHER THEY EXPLAIN THE MANIFESTATION OF THE TWO INTEGRATIVE HALLMARKS (IMMUNODEFICIENCY AND INFLAMMAGING). A MAJOR CHALLENGE NOW IS WEIGHING THE RELATIVE IMPACT OF THESE HALLMARKS ON T CELL AGING AND UNDERSTANDING THEIR INTERCONNECTIONS, WITH THE FINAL GOAL OF DEFINING MOLECULAR TARGETS FOR INTERVENTIONS IN THE AGING PROCESS. 2021 14 6258 39 THE MOLECULAR MECHANISM OF POLYPHENOLS IN THE REGULATION OF AGEING HALLMARKS. AGEING IS A COMPLEX PROCESS CHARACTERIZED MAINLY BY A DECLINE IN THE FUNCTION OF CELLS, TISSUES, AND ORGANS, RESULTING IN AN INCREASED RISK OF MORTALITY. THIS PROCESS INVOLVES SEVERAL CHANGES, DESCRIBED AS HALLMARKS OF AGEING, WHICH INCLUDE GENOMIC INSTABILITY, TELOMERE ATTRITION, EPIGENETIC CHANGES, LOSS OF PROTEOSTASIS, DYSREGULATED NUTRIENT SENSING, MITOCHONDRIAL DYSFUNCTION, CELLULAR SENESCENCE, STEM CELL DEPLETION, AND ALTERED INTRACELLULAR COMMUNICATION. THE DETERMINING ROLE THAT ENVIRONMENTAL FACTORS SUCH AS DIET AND LIFESTYLE PLAY ON HEALTH, LIFE EXPECTANCY, AND SUSCEPTIBILITY TO DISEASES, INCLUDING CANCER AND NEURODEGENERATIVE DISEASES, IS WELLESTABLISHED. IN VIEW OF THE GROWING INTEREST IN THE BENEFICIAL EFFECTS OF PHYTOCHEMICALS IN THE PREVENTION OF CHRONIC DISEASES, SEVERAL STUDIES HAVE BEEN CONDUCTED, AND THEY STRONGLY SUGGEST THAT THE INTAKE OF DIETARY POLYPHENOLS MAY BRING NUMEROUS BENEFITS DUE TO THEIR ANTIOXIDANT AND ANTI-INFLAMMATORY PROPERTIES, AND THEIR INTAKE HAS BEEN ASSOCIATED WITH IMPAIRED AGEING IN HUMANS. POLYPHENOL INTAKE HAS BEEN SHOWN TO BE EFFECTIVE IN AMELIORATING SEVERAL AGE-RELATED PHENOTYPES, INCLUDING OXIDATIVE STRESS, INFLAMMATORY PROCESSES, IMPAIRED PROTEOSTASIS, AND CELLULAR SENESCENCE, AMONG OTHER FEATURES, WHICH CONTRIBUTE TO AN INCREASED RISK OF AGEING-ASSOCIATED DISEASES. THIS REVIEW AIMS TO ADDRESS, IN A GENERAL WAY, THE MAIN FINDINGS DESCRIBED IN THE LITERATURE ABOUT THE BENEFITS OF POLYPHENOLS IN EACH OF THE HALLMARKS OF AGEING, AS WELL AS THE MAIN REGULATORY MECHANISMS RESPONSIBLE FOR THE OBSERVED ANTIAGEING EFFECTS. 2023 15 6189 25 THE IMPACT OF LIFE STRESS ON HALLMARKS OF AGING AND ACCELERATED SENESCENCE: CONNECTIONS IN SICKNESS AND IN HEALTH. CHRONIC STRESS IS A RISK FACTOR FOR NUMEROUS AGING-RELATED DISEASES AND HAS BEEN SHOWN TO SHORTEN LIFESPAN IN HUMANS AND OTHER SOCIAL MAMMALS. YET HOW LIFE STRESS CAUSES SUCH A VAST RANGE OF DISEASES IS STILL LARGELY UNCLEAR. IN RECENT YEARS, THE IMPACT OF STRESS ON HEALTH AND AGING HAS BEEN INCREASINGLY ASSOCIATED WITH THE DYSREGULATION OF THE SO-CALLED HALLMARKS OF AGING. THESE ARE BASIC BIOLOGICAL MECHANISMS THAT INFLUENCE INTRINSIC CELLULAR FUNCTIONS AND WHOSE ALTERATION CAN LEAD TO ACCELERATED AGING. HERE, WE REVIEW CORRELATIONAL AND EXPERIMENTAL LITERATURE (PRIMARILY FOCUSING ON EVIDENCE FROM HUMANS AND MURINE MODELS) ON THE CONTRIBUTION OF LIFE STRESS - PARTICULARLY STRESS DERIVED FROM ADVERSE SOCIAL ENVIRONMENTS - TO TRIGGER HALLMARKS OF AGING, INCLUDING CELLULAR SENESCENCE, STERILE INFLAMMATION, TELOMERE SHORTENING, PRODUCTION OF REACTIVE OXYGEN SPECIES, DNA DAMAGE, AND EPIGENETIC CHANGES. WE ALSO EVALUATE THE VALIDITY OF STRESS-INDUCED SENESCENCE AND ACCELERATED AGING AS AN ETIOPATHOLOGICAL PROPOSITION. FINALLY, WE HIGHLIGHT CURRENT GAPS OF KNOWLEDGE AND FUTURE DIRECTIONS FOR THE FIELD, AND DISCUSS PERSPECTIVES FOR TRANSLATIONAL GEROSCIENCE. 2023 16 115 18 A STEM CELL AGING FRAMEWORK, FROM MECHANISMS TO INTERVENTIONS. STEM CELLS PLAY CENTRAL ROLES IN TISSUE DEVELOPMENT, HOMEOSTASIS, AND REGENERATION. DECADES OF SCIENTIFIC RESEARCH HAVE UNCOVERED PROCESSES OF STEM CELL DECLINE IN TISSUE AND ORGANISMAL AGING, AND MORE RECENTLY, PIONEERING TECHNOLOGIES PERMIT THE DISSECTION OF ITS UNDERLYING MECHANISMS AND INFORM THERAPEUTIC DEVELOPMENT FOR AGING AND AGING-ASSOCIATED DISORDERS. IN THIS REVIEW, WE ELUCIDATE AGING-RELATED FEATURES ACROSS DIFFERENT SOMATIC STEM CELL TYPES, WITH A SPECIFIC FOCUS ON EPIGENETIC CHANGES, LOSS OF PROTEIN HOMEOSTASIS, AND SYSTEMIC INFLUENCING FACTORS, INCLUDING CHRONIC INFLAMMATION, CIRCADIAN RHYTHM DYSREGULATION, AND METABOLIC DISORDER. OUR SURVEY OF ORGANISMAL STEM CELL AGING SUMMARIZES ITS UNDERLYING BIOLOGICAL IMPLICATIONS, POINTS TO POTENTIAL BIOMARKERS OF STEM CELL AGING, AND DISCUSSES STEM CELL-BASED THERAPEUTIC STRATEGIES WITH THE POTENTIAL FOR PROMOTING HEALTHY AGING AND COMBATING AGING AND AGE-RELATED DISEASES. 2022 17 5801 22 STIFFNESS AND AGING IN CARDIOVASCULAR DISEASES: THE DANGEROUS RELATIONSHIP BETWEEN FORCE AND SENESCENCE. BIOLOGICAL AGING IS A PROCESS ASSOCIATED WITH A GRADUAL DECLINE IN TISSUES' HOMEOSTASIS BASED ON THE PROGRESSIVE INABILITY OF THE CELLS TO SELF-RENEW. CELLULAR SENESCENCE IS ONE OF THE HALLMARKS OF THE AGING PROCESS, CHARACTERIZED BY AN IRREVERSIBLE CELL CYCLE ARREST DUE TO REACTIVE OXYGEN SPECIES (ROS) PRODUCTION, TELOMERES SHORTENING, CHRONIC INFLAMMATORY ACTIVATION, AND CHROMATIN MODIFICATIONS. IN THIS REVIEW, WE WILL DESCRIBE THE EFFECTS OF SENESCENCE ON TISSUE STRUCTURE, EXTRACELLULAR MATRIX (ECM) ORGANIZATION, AND NUCLEUS ARCHITECTURE, AND SEE HOW THESE CHANGES AFFECT (ARE AFFECTED BY) MECHANO-TRANSDUCTION. IN OUR VIEW, THIS IS ESSENTIAL FOR A DEEPER UNDERSTANDING OF THE PROGRESSIVE PATHOLOGICAL EVOLUTION OF THE CARDIOVASCULAR SYSTEM AND ITS RELATIONSHIP WITH THE DETRIMENTAL EFFECTS OF RISK FACTORS, KNOWN TO ACT AT AN EPIGENETIC LEVEL. 2021 18 182 33 ACCELERATED LUNG AGING AND CHRONIC OBSTRUCTIVE PULMONARY DISEASE. THE PREVALENCE OF CHRONIC OBSTRUCTIVE PULMONARY DISEASE (COPD) INCREASES EXPONENTIALLY WITH AGING. ITS PATHOGENESIS, HOWEVER, IS NOT WELL KNOWN AND ASIDE FROM SMOKING CESSATION, THERE ARE NO DISEASE-MODIFYING TREATMENTS FOR THIS DISEASE. AREAS COVERED: COPD IS ASSOCIATED WITH ACCELERATING AGING AND AGING-RELATED DISEASES. IN THIS REVIEW, WE WILL DISCUSS THE HALLMARKS OF AGING INCLUDING GENOMIC INSTABILITY, TELOMERE ATTRITION, EPIGENETIC ALTERATION, LOSS OF PROTEOSTASIS, MITOCHONDRIAL DYSFUNCTION, DEREGULATED NUTRIENT SENSING, CELLULAR SENESCENCE, STEM CELL EXHAUSTION, AND ALTERED INTERCELLULAR COMMUNICATION, WHICH MAY BE INVOLVED IN COPD PATHOGENESIS. EXPERT COMMENTARY: COPD AND THE AGING PROCESS SHARE SIMILAR MOLECULAR AND CELLULAR CHANGES. AGING-RELATED MOLECULAR PATHWAYS MAY REPRESENT NOVEL THERAPEUTIC TARGETS AND BIOMARKERS FOR COPD. 2019 19 5629 28 SENESCENCE IN COPD AND ITS COMORBIDITIES. CHRONIC OBSTRUCTIVE PULMONARY DISEASE (COPD) IS REGARDED AS A DISEASE OF ACCELERATED LUNG AGING. THIS AFFLICTION SHOWS ALL OF THE HALLMARKS OF AGING, INCLUDING TELOMERE SHORTENING, CELLULAR SENESCENCE, ACTIVATION OF PI3 KINASE-MTOR SIGNALING, IMPAIRED AUTOPHAGY, MITOCHONDRIAL DYSFUNCTION, STEM CELL EXHAUSTION, EPIGENETIC CHANGES, ABNORMAL MICRORNA PROFILES, IMMUNOSENESCENCE, AND A LOW-GRADE CHRONIC INFLAMMATION (INFLAMMAGING). MANY OF THESE PATHWAYS ARE DRIVEN BY CHRONIC EXOGENOUS AND ENDOGENOUS OXIDATIVE STRESS. THERE IS ALSO A REDUCTION IN ANTIAGING MOLECULES, SUCH AS SIRTUINS AND KLOTHO, WHICH FURTHER ACCELERATE THE AGING PROCESS. COPD IS ASSOCIATED WITH SEVERAL COMORBIDITIES (MULTIMORBIDITY), SUCH AS CARDIOVASCULAR AND METABOLIC DISEASES, THAT SHARE THE SAME PATHWAYS OF ACCELERATED AGING. UNDERSTANDING THESE MECHANISMS HAS HELPED IDENTIFY SEVERAL NOVEL THERAPEUTIC TARGETS, AND SEVERAL DRUGS AND DIETARY INTERVENTIONS ARE NOW IN DEVELOPMENT TO TREAT MULTIMORBIDITY. 2017 20 2644 27 EPIGENOMIC DRIVERS OF IMMUNE DYSFUNCTION IN AGING. AGING INEVITABLY LEADS TO REDUCED IMMUNE FUNCTION, LEAVING THE ELDERLY MORE SUSCEPTIBLE TO INFECTIONS, LESS ABLE TO RESPOND TO PATHOGEN CHALLENGES, AND LESS RESPONSIVE TO PREVENTATIVE VACCINATIONS. NO CELL TYPE IS EXEMPT FROM THE RAVAGES OF AGE, AND EXTENSIVE STUDIES HAVE FOUND AGE-RELATED ALTERATIONS IN THE FREQUENCIES AND FUNCTIONS OF BOTH STEM AND PROGENITOR CELLS, AS WELL AS EFFECTOR CELLS OF BOTH THE INNATE AND ADAPTIVE IMMUNE SYSTEMS. THE INTRINSIC FUNCTIONAL REDUCTION IN IMMUNE COMPETENCE IS ALSO ASSOCIATED WITH LOW-GRADE CHRONIC INFLAMMATION, TERMED "INFLAMM-AGING," WHICH FURTHER PERPETUATES IMMUNE DYSFUNCTION. WHILE MANY OF THESE AGE-RELATED CELLULAR CHANGES ARE WELL CHARACTERIZED, UNDERSTANDING THE MOLECULAR CHANGES THAT UNDERPIN THE FUNCTIONAL DECLINE HAS PROVEN MORE DIFFICULT. CHANGES IN CHROMATIN ARE INCREASINGLY APPRECIATED AS A CAUSATIVE MECHANISM OF CELLULAR AND ORGANISMAL AGING ACROSS SPECIES. THESE CHANGES INCLUDE INCREASED GENOMIC INSTABILITY THROUGH LOSS OF HETEROCHROMATIN AND INCREASED DNA DAMAGE, TELOMERE ATTRITION, AND EPIGENETIC ALTERATIONS. IN THIS REVIEW, WE DISCUSS THE CONNECTIONS BETWEEN CHROMATIN, IMMUNOCOMPETENCE, AND THE LOSS OF FUNCTION ASSOCIATED WITH MAMMALIAN IMMUNE AGING. THROUGH UNDERSTANDING THE MOLECULAR EVENTS WHICH UNDERPIN THE PHENOTYPIC CHANGES OBSERVED IN THE AGED IMMUNE SYSTEM, IT IS HOPED THAT THE AGED IMMUNE SYSTEM CAN BE RESTORED TO PROVIDE YOUTHFUL IMMUNITY ONCE MORE. 2019