1 293 122 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 2 5381 49 RECONSIDERING THE ROLE OF MITOCHONDRIA IN AGING. BACKGROUND: MITOCHONDRIAL DYSFUNCTION HAS LONG BEEN CONSIDERED A MAJOR CONTRIBUTOR TO AGING AND AGE-RELATED DISEASES. HARMAN'S MITOCHONDRIAL FREE RADICAL THEORY OF AGING POSTULATED THAT SOMATIC MITOCHONDRIAL DNA MUTATIONS THAT ACCUMULATE OVER THE LIFE SPAN CAUSE EXCESSIVE PRODUCTION OF REACTIVE OXYGEN SPECIES THAT DAMAGE MACROMOLECULES AND IMPAIR CELL AND TISSUE FUNCTION. INDEED, STUDIES HAVE SHOWN THAT MAXIMAL OXIDATIVE CAPACITY DECLINES WITH AGE WHILE REACTIVE OXYGEN SPECIES PRODUCTION INCREASES. HARMAN'S HYPOTHESIS HAS BEEN SERIOUSLY CHALLENGED BY RECENT STUDIES SHOWING THAT REACTIVE OXYGEN SPECIES EVOKE METABOLIC HEALTH AND LONGEVITY, PERHAPS THROUGH HORMETIC MECHANISMS THAT INCLUDE AUTOPHAGY. THE PURPOSE OF THIS REVIEW IS TO SCAN THE EVER-GROWING LITERATURE ON MITOCHONDRIA FROM THE PERSPECTIVE OF AGING RESEARCH AND TRY TO IDENTIFY PRIORITY QUESTIONS THAT SHOULD BE ADDRESSED IN FUTURE RESEARCH. METHODS: A SYSTEMATIC SEARCH OF PEER-REVIEWED STUDIES WAS PERFORMED USING PUBMED. SEARCH TERMS INCLUDED (I) MITOCHONDRIA OR MITOCHONDRIAL; (II) AGING, AGEING, OLDER ADULTS OR ELDERLY; AND (III) REACTIVE OXYGEN SPECIES, MITOCHONDRIA DYNAMICS, MITOCHONDRIAL PROTEOSTASIS, CYTOSOL, MITOCHONDRIAL-ASSOCIATED MEMBRANES, REDOX HOMEOSTASIS, ELECTRON TRANSPORT CHAIN, ELECTRON TRANSPORT CHAIN EFFICIENCY, EPIGENETIC REGULATION, DNA HETEROPLASMY. RESULTS: THE IMPORTANCE OF MITOCHONDRIAL BIOLOGY AS A TRAIT D'UNION BETWEEN THE BASIC BIOLOGY OF AGING AND THE PATHOGENESIS OF AGE-RELATED DISEASES IS STRONGER THAN EVER, ALTHOUGH THE EMPHASIS HAS MOVED FROM REACTIVE OXYGEN SPECIES PRODUCTION TO OTHER ASPECTS OF MITOCHONDRIAL PHYSIOLOGY, INCLUDING MITOCHONDRIAL BIOGENESIS AND TURNOVER, ENERGY SENSING, APOPTOSIS, SENESCENCE, AND CALCIUM DYNAMICS. CONCLUSIONS: MITOCHONDRIA COULD PLAY A KEY ROLE IN THE PATHOPHYSIOLOGY OF AGING OR IN THE EARLIER STAGES OF SOME EVENTS THAT LEAD TO THE AGING PHENOTYPE. THEREFORE, MITOCHONDRIA WILL INCREASINGLY BE TARGETED TO PREVENT AND TREAT CHRONIC DISEASES AND TO PROMOTE HEALTHY AGING. 2015 3 375 20 AN ENERGETIC VIEW OF STRESS: FOCUS ON MITOCHONDRIA. ENERGY IS REQUIRED TO SUSTAIN LIFE AND ENABLE STRESS ADAPTATION. AT THE CELLULAR LEVEL, ENERGY IS LARGELY DERIVED FROM MITOCHONDRIA - UNIQUE MULTIFUNCTIONAL ORGANELLES WITH THEIR OWN GENOME. FOUR MAIN ELEMENTS CONNECT MITOCHONDRIA TO STRESS: (1) ENERGY IS REQUIRED AT THE MOLECULAR, (EPI)GENETIC, CELLULAR, ORGANELLAR, AND SYSTEMIC LEVELS TO SUSTAIN COMPONENTS OF STRESS RESPONSES; (2) GLUCOCORTICOIDS AND OTHER STEROID HORMONES ARE PRODUCED AND METABOLIZED BY MITOCHONDRIA; (3) RECIPROCALLY, MITOCHONDRIA RESPOND TO NEUROENDOCRINE AND METABOLIC STRESS MEDIATORS; AND (4) EXPERIMENTALLY MANIPULATING MITOCHONDRIAL FUNCTIONS ALTERS PHYSIOLOGICAL AND BEHAVIORAL RESPONSES TO PSYCHOLOGICAL STRESS. THUS, MITOCHONDRIA ARE ENDOCRINE ORGANELLES THAT PROVIDE BOTH THE ENERGY AND SIGNALS THAT ENABLE AND DIRECT STRESS ADAPTATION. NEURAL CIRCUITS REGULATING SOCIAL BEHAVIOR - AS WELL AS PSYCHOPATHOLOGICAL PROCESSES - ARE ALSO INFLUENCED BY MITOCHONDRIAL ENERGETICS. AN INTEGRATIVE VIEW OF STRESS AS AN ENERGY-DRIVEN PROCESS OPENS NEW OPPORTUNITIES TO STUDY MECHANISMS OF ADAPTATION AND REGULATION ACROSS THE LIFESPAN. 2018 4 6374 38 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 5 3181 33 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 6 4379 48 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 7 5629 38 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 8 5322 34 PULMONARY DISEASES AND AGEING. CHRONIC OBSTRUCTIVE PULMONARY DISEASE (COPD) AND IDIOPATHIC PULMONARY FIBROSIS ARE REGARDED AS A DISEASES OF ACCELERATED LUNG AGEING AND SHOW ALL OF THE HALLMARKS OF AGEING, 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 DUE TO SENESCENCE-ASSOCIATED SECRETORY PHENOTYPE (SASP). MANY OF THESE AGEING MECHANISMS ARE DRIVEN BY EXOGENOUS AND ENDOGENOUS OXIDATIVE STRESS. THERE IS ALSO A REDUCTION IN ANTI-AGEING MOLECULES, SUCH AS SIRTUINS AND KLOTHO, WHICH FURTHER ACCELERATE THE AGEING PROCESS. UNDERSTANDING THESE MOLECULAR MECHANISMS HAS IDENTIFIED SEVERAL NOVEL THERAPEUTIC TARGETS AND SEVERAL DRUGS AND DIETARY INTERVENTIONS ARE NOW IN DEVELOPMENT TO TREAT CHRONIC LUNG DISEASE. 2019 9 4384 39 MITOCHONDRIAL EPIGENETICS REGULATING INFLAMMATION IN CANCER AND AGING. INFLAMMATION IS A DEFINING FACTOR IN DISEASE PROGRESSION; EPIGENETIC MODIFICATIONS OF THIS FIRST LINE OF DEFENCE PATHWAY CAN AFFECT MANY PHYSIOLOGICAL AND PATHOLOGICAL CONDITIONS, LIKE AGING AND TUMORIGENESIS. INFLAMMAGEING, ONE OF THE HALLMARKS OF AGING, REPRESENTS A CHRONIC, LOW KEY BUT A PERSISTENT INFLAMMATORY STATE. OXIDATIVE STRESS, ALTERATIONS IN MITOCHONDRIAL DNA (MTDNA) COPY NUMBER AND MIS-LOCALIZED EXTRA-MITOCHONDRIAL MTDNA ARE SUGGESTED TO DIRECTLY INDUCE VARIOUS IMMUNE RESPONSE PATHWAYS. THIS COULD ULTIMATELY PERTURB CELLULAR HOMEOSTASIS AND LEAD TO PATHOLOGICAL CONSEQUENCES. EPIGENETIC REMODELLING OF MTDNA BY DNA METHYLATION, POST-TRANSLATIONAL MODIFICATIONS OF MTDNA BINDING PROTEINS AND REGULATION OF MITOCHONDRIAL GENE EXPRESSION BY NUCLEAR DNA OR MTDNA ENCODED NON-CODING RNAS, ARE SUGGESTED TO DIRECTLY CORRELATE WITH THE ONSET AND PROGRESSION OF VARIOUS TYPES OF CANCER. MITOCHONDRIA ARE ALSO CAPABLE OF REGULATING IMMUNE RESPONSE TO VARIOUS INFECTIONS AND TISSUE DAMAGE BY PRODUCING PRO- OR ANTI-INFLAMMATORY SIGNALS. THIS OCCURS BY ALTERING THE LEVELS OF MITOCHONDRIAL METABOLITES AND REACTIVE OXYGEN SPECIES (ROS) LEVELS. SINCE MITOCHONDRIA ARE KNOWN AS THE GUARDIANS OF THE INFLAMMATORY RESPONSE, IT IS PLAUSIBLE THAT MITOCHONDRIAL EPIGENETICS MIGHT PLAY A PIVOTAL ROLE IN INFLAMMATION. HENCE, THIS REVIEW FOCUSES ON THE INTRICATE DYNAMICS OF EPIGENETIC ALTERATIONS OF INFLAMMATION, WITH EMPHASIS ON MITOCHONDRIA IN CANCER AND AGING. 2022 10 5986 36 TFEB IS A CENTRAL REGULATOR OF THE AGING PROCESS AND AGE-RELATED DISEASES. OLD AGE IS ASSOCIATED WITH A GREATER BURDEN OF DISEASE, INCLUDING NEURODEGENERATIVE DISORDERS SUCH AS ALZHEIMER'S DISEASE AND PARKINSON'S DISEASE, AS WELL AS OTHER CHRONIC DISEASES. COINCIDENTALLY, POPULAR LIFESTYLE INTERVENTIONS, SUCH AS CALORIC RESTRICTION, INTERMITTENT FASTING, AND REGULAR EXERCISE, IN ADDITION TO PHARMACOLOGICAL INTERVENTIONS INTENDED TO PROTECT AGAINST AGE-RELATED DISEASES, INDUCE TRANSCRIPTION FACTOR EB (TFEB) AND AUTOPHAGY. IN THIS REVIEW, WE SUMMARIZE EMERGING DISCOVERIES THAT POINT TO TFEB ACTIVITY AFFECTING THE HALLMARKS OF AGING, INCLUDING INHIBITING DNA DAMAGE AND EPIGENETIC MODIFICATIONS, INDUCING AUTOPHAGY AND CELL CLEARANCE TO PROMOTE PROTEOSTASIS, REGULATING MITOCHONDRIAL QUALITY CONTROL, LINKING NUTRIENT-SENSING TO ENERGY METABOLISM, REGULATING PRO- AND ANTI-INFLAMMATORY PATHWAYS, INHIBITING SENESCENCE AND PROMOTING CELL REGENERATIVE CAPACITY. FURTHERMORE, THE THERAPEUTIC IMPACT OF TFEB ACTIVATION ON NORMAL AGING AND TISSUE-SPECIFIC DISEASE DEVELOPMENT IS ASSESSED IN THE CONTEXTS OF NEURODEGENERATION AND NEUROPLASTICITY, STEM CELL DIFFERENTIATION, IMMUNE RESPONSES, MUSCLE ENERGY ADAPTATION, ADIPOSE TISSUE BROWNING, HEPATIC FUNCTIONS, BONE REMODELING, AND CANCER. SAFE AND EFFECTIVE STRATEGIES OF ACTIVATING TFEB HOLD PROMISE AS A THERAPEUTIC STRATEGY FOR MULTIPLE AGE-ASSOCIATED DISEASES AND FOR EXTENDING LIFESPAN. 2023 11 4380 30 MITOCHONDRIAL DYSFUNCTION AND OXIDATIVE STRESS IN RHEUMATOID ARTHRITIS. CONTROL OF EXCESSIVE MITOCHONDRIAL OXIDATIVE STRESS COULD PROVIDE NEW TARGETS FOR BOTH PREVENTIVE AND THERAPEUTIC INTERVENTIONS IN THE TREATMENT OF CHRONIC INFLAMMATION OR ANY PATHOLOGY THAT DEVELOPS UNDER AN INFLAMMATORY SCENARIO, SUCH AS RHEUMATOID ARTHRITIS (RA). INCREASING EVIDENCE HAS DEMONSTRATED THE ROLE OF MITOCHONDRIAL ALTERATIONS IN AUTOIMMUNE DISEASES MAINLY DUE TO THE INTERPLAY BETWEEN METABOLISM AND INNATE IMMUNITY, BUT ALSO IN THE MODULATION OF INFLAMMATORY RESPONSE OF RESIDENT CELLS, SUCH AS SYNOVIOCYTES. THUS, MITOCHONDRIAL DYSFUNCTION DERIVED FROM SEVERAL DANGER SIGNALS COULD ACTIVATE TRICARBOXYLIC ACID (TCA) DISRUPTION, THEREBY FAVORING A VICIOUS CYCLE OF OXIDATIVE/MITOCHONDRIAL STRESS. MITOCHONDRIAL DYSFUNCTION CAN ACT THROUGH MODULATING INNATE IMMUNITY VIA REDOX-SENSITIVE INFLAMMATORY PATHWAYS OR DIRECT ACTIVATION OF THE INFLAMMASOME. BESIDES, MITOCHONDRIA ALSO HAVE A CENTRAL ROLE IN REGULATING CELL DEATH, WHICH IS DEEPLY ALTERED IN RA. ADDITIONALLY, MULTIPLE EVIDENCE SUGGESTS THAT PATHOLOGICAL PROCESSES IN RA CAN BE SHAPED BY EPIGENETIC MECHANISMS AND THAT IN TURN, MITOCHONDRIA ARE INVOLVED IN EPIGENETIC REGULATION. FINALLY, WE WILL DISCUSS ABOUT THE INVOLVEMENT OF SOME DIETARY COMPONENTS IN THE ONSET AND PROGRESSION OF RA. 2022 12 5919 42 TARGETING CELLULAR SENESCENCE FOR AGE-RELATED DISEASES: PATH TO CLINICAL TRANSLATION. BEYOND THE PALLIATIVE REACH OF TODAY'S MEDICINES, MEDICAL THERAPIES OF TOMORROW AIM TO TREAT THE ROOT CAUSE OF AGE-RELATED DISEASES BY TARGETING FUNDAMENTAL AGING MECHANISMS. PILLARS OF AGING INCLUDE, AMONG OTHERS, GENOMIC INSTABILITY, TELOMERE ATTRITION, EPIGENETIC ALTERATIONS, LOSS OF PROTEOSTASIS, DYSREGULATED NUTRIENT SENSING, MITOCHONDRIAL DYSFUNCTION, CELLULAR SENESCENCE, STEM CELL EXHAUSTION, AND ALTERED INTERCELLULAR COMMUNICATION. THE UNITARY THEORY OF FUNDAMENTAL AGING PROCESSES POSITS THAT BY TARGETING ONE FUNDAMENTAL AGING PROCESS, IT MAY BE FEASIBLE TO IMPACT SEVERAL OR ALL OTHERS GIVEN ITS INTERDEPENDENCE. INDEED, PATHOLOGIC ACCUMULATION OF SENESCENT CELLS IS IMPLICATED IN CHRONIC DISEASES AND AGE-ASSOCIATED MORBIDITIES, SUGGESTING THAT SENESCENT CELLS ARE A GOOD TARGET FOR WHOLE-BODY AGING INTERVENTION. PRECLINICAL STUDIES USING SENOLYTICS, AGENTS THAT SELECTIVELY ELIMINATE SENESCENT CELLS, AND SENOMORPHICS, AGENTS THAT INHIBIT PRODUCTION OR RELEASE OF SENESCENCE-ASSOCIATED SECRETORY PHENOTYPE FACTORS, SHOW PROMISE IN SEVERAL AGING AND DISEASE PRECLINICAL MODELS. EARLY CLINICAL TRIALS USING A SENOLYTIC COMBINATION (DASATINIB AND QUERCETIN), AND OTHER SENOLYTICS INCLUDING FLAVONOID, FISETIN, AND BCL-XL INHIBITORS, ILLUSTRATE THE POTENTIAL OF SENOLYTICS TO ALLEVIATE AGE-RELATED DYSFUNCTION AND DISEASES INCLUDING WOUND HEALING. TRANSLATION INTO CLINICAL APPLICATIONS REQUIRES PARALLEL CLINICAL TRIALS ACROSS INSTITUTIONS TO VALIDATE SENOTHERAPEUTICS AS A VANGUARD FOR DELAYING, PREVENTING, OR TREATING AGE-RELATED DISORDERS AND AESTHETIC AGING. 2022 13 4377 41 MITOCHONDRIAL AGING: FOCUS ON MITOCHONDRIAL DNA DAMAGE IN ATHEROSCLEROSIS - A MINI-REVIEW. ATHEROSCLEROSIS IS A COMPLEX DISEASE WHICH CAN BE DESCRIBED AS AN EXCESSIVE FIBROFATTY, PROLIFERATIVE, INFLAMMATORY RESPONSE TO DAMAGE TO THE ARTERY WALL INVOLVING SEVERAL CELL TYPES SUCH AS SMOOTH MUSCLE CELLS, MONOCYTE-DERIVED MACROPHAGES, LYMPHOCYTES, DENDRITIC CELLS AND PLATELETS. ON THE OTHER HAND, ATHEROSCLEROSIS IS A TYPICAL AGE-RELATED DEGENERATIVE PATHOLOGY, WHICH IS CHARACTERIZED BY SIGNS OF CELL SENESCENCE IN THE ARTERIAL WALL INCLUDING REDUCED CELL PROLIFERATION, IRREVERSIBLE GROWTH ARREST AND APOPTOSIS, INCREASED DNA DAMAGE, THE PRESENCE OF EPIGENETIC MODIFICATIONS, SHORTENING OF TELOMERE LENGTH AND MITOCHONDRIAL DYSFUNCTION. THE MOST PROMINENT CHARACTERISTICS OF MITOCHONDRIAL AGING ARE THEIR STRUCTURAL ALTERATIONS AND MITOCHONDRIAL DNA DAMAGE. THE MECHANISMS OF MITOCHONDRIAL GENOME DAMAGE IN THE DEVELOPMENT OF CHRONIC AGE-RELATED DISEASES SUCH AS ATHEROSCLEROSIS ARE NOT YET WELL UNDERSTOOD. THIS REVIEW FOCUSES ON THE LATEST FINDINGS FROM STUDIES OF THOSE MUTATIONS OF THE MITOCHONDRIAL GENOME WHICH MAY PLAY AN IMPORTANT ROLE IN THE DEVELOPMENT OF ATHEROSCLEROSIS AND WHICH ARE, AT THE SAME TIME, ALSO MARKERS OF MITOCHONDRIAL AGING AND CELL SENESCENCE. 2015 14 5837 27 STRESSED MITOCHONDRIA: A TARGET TO INTRUDE ALZHEIMER'S DISEASE. ALZHEIMER'S DISEASE (AD) IS THE INOPERABLE, INCAPACITATING, NEUROPSYCHIATRIC, AND DEGENERATIVE MANIFESTATION THAT DRASTICALLY AFFECTS HUMAN LIFE QUALITY. THE CURRENT MEDICATIONS TARGET EXTRA-NEURONAL SENILE PLAQUES, OXIDATIVE STRESS, NEUROINFLAMMATION, INTRANEURONAL NEUROFIBRILLARY TANGLES, CHOLINERGIC DEFICITS, AND EXCITOTOXICITY. AMONG NOVEL PATHWAYS AND TARGETS, BIOENERGETIC AND RESULTANT MITOCHONDRIAL DYSFUNCTION HAS BEEN RECOGNIZED AS ESSENTIAL FACTORS THAT DECIDE THE NEURONAL FATE AND CONSEQUENT NEURODEGENERATION IN AD. THE CRUCIAL ATTRIBUTES OF MITOCHONDRIA, INCLUDING BIOENERGESIS, SIGNALING, SENSING, INTEGRATING, AND TRANSMITTING BIOLOGICAL SIGNALS CONTRIBUTE TO OPTIMUM NETWORKING OF NEURONAL DYNAMICS AND MAKE THEM INDISPENSABLE FOR CELL SURVIVAL. IN AD, MITOCHONDRIAL DYSFUNCTION AND MITOPHAGY ARE A PRELIMINARY AND CRITICAL EVENT THAT AGGRAVATES THE PATHOLOGICAL CASCADE. STRESS IS KNOWN TO PROMOTE AND EXAGGERATE THE NEUROPATHOLOGICAL ALTERATION DURING NEURODEGENERATION AND METABOLIC IMPAIRMENTS, ESPECIALLY IN THE CORTICO-LIMBIC SYSTEM, BESIDES ADVERSELY AFFECTING THE NORMAL PHYSIOLOGY AND MITOCHONDRIAL DYNAMICS. STRESS INVOLVES THE ALLOCATION OF ENERGY RESOURCES FOR NEURONAL SURVIVAL. CHRONIC AND AGGRAVATED STRESS RESPONSE LEADS TO EXCESSIVE RELEASE OF GLUCOCORTICOIDS BY ACTIVATION OF THE HYPOTHALAMIC-PITUITARYADRENAL (HPA) AXIS. BY ACTING THROUGH THEIR RECEPTORS, GLUCOCORTICOIDS INFLUENCE ADVERSE MITOCHONDRIAL CHANGES AND ALTER MTDNA TRANSCRIPTION, MTRNA EXPRESSION, HIPPOCAMPAL MITOCHONDRIAL NETWORK, AND ULTIMATELY MITOCHONDRIAL PHYSIOLOGY. CHRONIC STRESS ALSO AFFECTS MITOCHONDRIAL DYNAMICS BY CHANGING METABOLIC AND NEURO-ENDOCRINAL SIGNALLING, AGGRAVATING OXIDATIVE STRESS, PROVOKING INFLAMMATORY MEDIATORS, ALTERING TROPIC FACTORS, INFLUENCING GENE EXPRESSION, AND MODIFYING EPIGENETIC PATHWAYS. THUS, EXPLORING CHRONIC STRESS-INDUCED GLUCOCORTICOID DYSREGULATION AND RESULTANT BIO-BEHAVIORAL AND PSYCHOSOMATIC MITOCHONDRIAL ALTERATIONS MAY BE A FEASIBLE NARRATIVE TO INVESTIGATE AND UNRAVEL THE MYSTERIOUS PATHOBIOLOGY OF AD. 2021 15 3596 57 IMPLICATIONS OF SPHINGOLIPIDS ON AGING AND AGE-RELATED DISEASES. AGING IS A PROCESS LEADING TO A PROGRESSIVE LOSS OF PHYSIOLOGICAL INTEGRITY AND HOMEOSTASIS, AND A PRIMARY RISK FACTOR FOR MANY LATE-ONSET CHRONIC DISEASES. THE MECHANISMS UNDERLYING AGING HAVE LONG PIQUED THE CURIOSITY OF SCIENTISTS. HOWEVER, THE IDEA THAT AGING IS A BIOLOGICAL PROCESS SUSCEPTIBLE TO GENETIC MANIPULATION WAS NOT WELL ESTABLISHED UNTIL THE DISCOVERY THAT THE INHIBITION OF INSULIN/IGF-1 SIGNALING EXTENDED THE LIFESPAN OF C. ELEGANS. ALTHOUGH AGING IS A COMPLEX MULTISYSTEM PROCESS, LOPEZ-OTIN ET AL. DESCRIBED AGING IN REFERENCE TO NINE HALLMARKS OF AGING. THESE NINE 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. DUE TO RECENT ADVANCES IN LIPIDOMIC, INVESTIGATION INTO THE ROLE OF LIPIDS IN BIOLOGICAL AGING HAS INTENSIFIED, PARTICULARLY THE ROLE OF SPHINGOLIPIDS (SL). SLS ARE A DIVERSE GROUP OF LIPIDS ORIGINATING FROM THE ENDOPLASMIC RETICULUM (ER) AND CAN BE MODIFIED TO CREATE A VASTLY DIVERSE GROUP OF BIOACTIVE METABOLITES THAT REGULATE ALMOST EVERY MAJOR CELLULAR PROCESS, INCLUDING CELL CYCLE REGULATION, SENESCENCE, PROLIFERATION, AND APOPTOSIS. ALTHOUGH SL BIOLOGY REACHES ALL NINE HALLMARKS OF AGING, ITS CONTRIBUTION TO EACH HALLMARK IS DISPROPORTIONATE. IN THIS REVIEW, WE WILL DISCUSS IN DETAIL THE MAJOR CONTRIBUTIONS OF SLS TO THE HALLMARKS OF AGING AND AGE-RELATED DISEASES WHILE ALSO SUMMARIZING THE IMPORTANCE OF THEIR OTHER MINOR BUT INTEGRAL CONTRIBUTIONS. 2021 16 285 45 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 17 5879 33 SYNTHETIC MITOCHONDRIA AS THERAPEUTICS AGAINST SYSTEMIC AGING: A HYPOTHESIS. WE HYPOTHESIZE HEREIN THAT SYNTHETIC MITOCHONDRIA, ENGINEERED, OR REPROGRAMMED TO BE MORE ENERGETICALLY EFFICIENT AND TO HAVE MILDLY ELEVATED LEVELS OF REACTIVE OXYGEN SPECIES (ROS) PRODUCTION, WOULD BE AN EFFECTIVE FORM OF THERAPEUTICS AGAINST SYSTEMIC AGING. THE FREE RADICAL AND MITOCHONDRIA THEORIES OF AGING HOLD THAT MITOCHONDRIA-GENERATED ROS UNDERLIES CHRONIC ORGANELLE, CELL AND TISSUES DAMAGES THAT CONTRIBUTE TO SYSTEMIC AGING. MORE RECENT FINDINGS, HOWEVER, COLLECTIVELY SUGGEST THAT WHILE ACUTE AND MASSIVE ROS GENERATION DURING EVENTS SUCH AS TISSUE INJURY IS INDEED DETRIMENTAL, SUBACUTE STRESSES, AND CHRONIC ELEVATION IN ROS PRODUCTION MAY INSTEAD INDUCE A STATE OF MITOCHONDRIAL HORMESIS (OR "MITOHORMESIS") THAT COULD EXTEND LIFESPAN. MITOHORMESIS APPEARS TO BE A CONVERGENT MECHANISM FOR SEVERAL KNOWN ANTI-AGING SIGNALING PATHWAYS. IMPORTANTLY, MITOHORMETIC SIGNALING COULD ALSO OCCUR IN A NON-CELL AUTONOMOUS MANNER, WITH ITS INDUCTION IN NEURONS AFFECTING GUT CELLS, FOR EXAMPLE. TECHNOLOGIES ARE OUTLINED THAT COULD LEAD TOWARDS TESTING OF THE HYPOTHESIS, WHICH INCLUDE GENETIC AND EPIGENETIC ENGINEERING OF THE MITOCHONDRIA, AS WELL AS INTERCELLULAR TRANSFER OF MITOCHONDRIA FROM TRANSPLANTED HELPER CELLS TO TARGET TISSUES. 2015 18 4211 41 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 19 182 36 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 20 4376 29 MITOCHONDRIAL (DYS) FUNCTION IN INFLAMMAGING: DO MITOMIRS INFLUENCE THE ENERGETIC, OXIDATIVE, AND INFLAMMATORY STATUS OF SENESCENT CELLS? A RELEVANT FEATURE OF AGING IS CHRONIC LOW-GRADE INFLAMMATION, TERMED INFLAMMAGING, A KEY PROCESS PROMOTING THE DEVELOPMENT OF ALL MAJOR AGE-RELATED DISEASES. SENESCENT CELLS CAN ACQUIRE THE SENESCENCE-ASSOCIATED (SA) SECRETORY PHENOTYPE (SASP), CHARACTERIZED BY THE SECRETION OF PROINFLAMMATORY FACTORS FUELLING INFLAMMAGING. CELLULAR SENESCENCE IS ALSO ACCOMPANIED BY A DEEP RESHAPING OF MICRORNA EXPRESSION AND BY THE MODULATION OF MITOCHONDRIA ACTIVITY, BOTH MASTER REGULATORS OF THE SASP. HERE, WE SYNTHESIZE NOVEL FINDINGS REGARDING THE ROLE OF MITOCHONDRIA IN THE SASP AND IN THE INFLAMMAGING PROCESS AND PROPOSE A NETWORK LINKING NUCLEAR-ENCODED SA-MIRNAS TO MITOCHONDRIAL GENE REGULATION AND FUNCTION IN AGING CELLS. IN THIS CONCEPTUAL STRUCTURE, SA-MIRNAS CAN TRANSLOCATE TO MITOCHONDRIA (SA-MITOMIRS) AND MAY AFFECT THE ENERGETIC, OXIDATIVE, AND INFLAMMATORY STATUS OF SENESCENT CELLS. WE DISCUSS THE POTENTIAL ROLE OF SEVERAL OF SA-MITOMIRS (I.E., LET-7B, MIR-1, MIR-130A-3P, MIR-133A, MIR-146A-5P, MIR-181C-5P, AND MIR-378-5P), USING MIR-146A AS A PROOF-OF-PRINCIPLE MODEL. FINALLY, WE PROPOSE A COMPREHENSIVE, METABOLIC, AND EPIGENETIC VIEW OF THE SENESCENCE PROCESS, IN ORDER TO AMPLIFY THE RANGE OF POSSIBLE APPROACHES TO TARGET INFLAMMAGING, WITH THE ULTIMATE GOAL OF DECELERATING THE AGING RATE, POSTPONING OR BLUNTING THE DEVELOPMENT OF AGE-RELATED DISEASES. 2017