Aging & Longevity

Age-related macular degeneration (AMD) represents one of the therapeutic challenges of aging eye diseases. Our investigation reveals the stimulator of interferon genes (STING) pathway as an orchestrator of immune-mediated retinal degeneration, exhibiting biphasic, stage-dependent functionality-providing cytoprotection in healthy tissue but driving pathogenic inflammation during early AMD progression. Through immunohistochemical analysis of human eyes, we demonstrate stage-dependent cytoplasmic...

Testosterone production by testicular Leydig cells (LCs) in male mammals is energetically demanding and prone to mitochondrial damage. Despite these challenges, LCs exhibit remarkable longevity and minimal turnover, suggesting the existence of specialized mechanisms that maintain LC mitochondrial homeostasis under such constrains. Here we identify a mitochondrial transfer network between LCs and different testicular macrophage (tMac) subpopulations. Leydig cells release extracellular vesicles...

CONCLUSIONS: Despite gradual increases in the prevalence of impaired physical function during ageing, regular physical activity may help to preserve physical function in older adults.

No abstract

Walking is fundamental to human mobility, and slowing gait speed is a widely recognized indicator of aging-related mobility decline. Although mobility decline in older adults has been associated with aging-related neural and morphological changes in muscle, the specific neural and morphological correlates of gait speed remain incompletely characterized. Thus, our primary aim was to quantify how peripheral nerve function, muscle cross-sectional area (MCSA) and intramuscular fat (IMAT) are related...

Age-related macular degeneration (ARMD) is the primary manifestation of permanent vision loss internationally. Different factors that contribute to ARMD involve ageing, genetic predisposition, oxidative stress, immunological imbalances, aberrations in the breakdown of lipids, and persistent inflammation. Gut microbiota has emerged as the significant cause of ARMD by disrupting systemic immune and inflammatory responses and metabolic homeostasis. Age-related changes in gut microbiota (dysbiosis)...

Resting metabolic rate (RMR) accounts for the majority of the total energy expenditure. While RMR is known to decline with advancing age and is recognized to be lower in females compared to males, the mechanisms underlying these differences remain unclear. Changes in body composition are posited to account for age- and sex-related differences in RMR, but to what extent lacks consensus. We characterized 80 healthy adults aged 23-82 years from the San Diego Nathan Shock Center (SD-NSC) clinical...

Comparative biology plays a crucial role in uncovering fundamental biological mechanisms and providing evolutionary models for their variation. This approach is particularly valuable for studying aging, given the remarkable diversity in aging trajectories across the tree of life. Many evolutionary theories of aging were proposed well before the discovery of the molecular mechanisms involved, and they remain largely theoretical. Moreover, the growing number of model organisms and the expanding...

Across our lifespan, cells divide and differentiate to create the functional units of all organs, yet with age and cancer a small number of cellular families (clones) will rule the fate of the organism. Advances in synthetic and natural barcoding methods now enable cellular ancestries to be reconstructed with unprecedented single-cell resolution. These single-cell lineage-tracing studies are leading to a re-evaluation of long-standing paradigms in development, ageing and cancer biology and are...

Natural killer (NK) cells, a type of potent cytotoxic lymphocyte, are particularly promising for the treatment of cancers that lose or downregulate major histocompatibility complex class I (MHC class I) expression to evade T cell-mediated immunotherapy. However, the hostile and immunosuppressive tumor microenvironment (TME) greatly hinders the function of tumor-infiltrating NK cells, thus limiting the therapeutic efficacy. Here, we show a fusion protein of interleukin 21 (IL-21-Fc) that safely...

Whole genome sequencing (WGS) studies in large biobanks provide an unprecedented opportunity to study the rare-variant (RV) effects on the natural history of human diseases by analyzing censored time-to-event (TTE) phenotypes, such as age at disease diagnosis, disease progression, and lifespan. Unlike existing methods developed for continuous and categorical phenotypes, rare-variant association tests (RVATs) for TTE phenotypes in large biobanks face several major challenges, including heavy...

Environmental stressors-induced male infertility has become a major public health issue. Sperm motility is the key to conception. However, the immunological mechanism for environmental stress-induced sperm motility reduction remains unknown. Our experiments find that three classical environmental stressors, including lead, cadmium, and mercury, are the key heavy metals reducing sperm motility. We reveal that environmental stress induces epididymal macrophage senescence, whereas the clearance of...

Glasses have complex energy landscapes and exhibit nonequilibrium aging dynamics. Here, we propose a generalized trap model for activated aging based on a key static property of the energy landscape: the distribution of energy barriers. Our theory predicts that, upon cooling, weak ergodicity breaking (WEB) in quenching dynamics occurs before strong ergodicity breaking in equilibrium dynamics. Furthermore, the theory indicates that the characteristic size of activation clusters can be deduced...

ObjectivesThe older population and prevalence of frailty are increasing worldwide. Understanding how midlife exposures influence frailty risk is increasingly important for public health. This review sought to identify modifiable risk factors present in midlife that are associated with the onset of frailty in later life, aiming to inform earlier prevention strategies.MethodsWe conducted a systematic review of studies examining modifiable risk factors in community-dwelling adults aged 39-64 years,...

INTRODUCTION: β-hydroxybutyrate (BHB) has been linked to improved cognitive function via enhanced cerebral metabolism and anti-inflammatory effects. However, evidence on the relationship between endogenous plasma BHB levels and cognitive decline remains limited. This study investigated whether higher plasma BHB levels are associated with reduced cognitive decline in middle-aged and older adults.

Air pollution accelerates biological aging via oxidative stress and inflammation, a process potentially mitigated by plant-based diets. However, the role of dietary or genetic modulators in this relationship remains understudied. Our study aimed to examine whether adherence to Sustainable Diets modifies the associations of PM(2.5) and PM(10) exposure with biological aging, and to assess potential effect modification by genetic susceptibility to longevity. Data from 9527 participants in the...

Skin aging has traditionally been attributed to alterations in the epidermis and dermis, including keratinocyte senescence, extracellular matrix (ECM) degradation, and fibroblast dysfunction. In contrast, the role of skin-associated adipose tissue (SAAT), particularly dermal white adipose tissue (dWAT), has been largely overlooked and considered a passive structural filler. Emerging evidence indicates that adipocyte aging is not merely a consequence of skin aging but may serve as a critical...

Circular RNAs (circRNAs) accumulate with age, but their functional impact on aging remains elusive. In this study, we reveal a mechanism by which ribonuclease κ (RNASEK) prevents age-dependent circRNA accumulation by promoting its degradation. Through a genetic screen targeting ribonucleases, we identified RNASEK as a specific circRNA-cleaving ribonuclease. RNASEK is downregulated during aging, causing the age-dependent increase in circRNA levels. RNASEK is necessary and sufficient for lifespan...

Astaxanthin (AST), a xanthophyll carotenoid derived from microalgae and marine organisms, has emerged as a potent neuroprotective compound with remarkable antioxidant and anti-inflammatory properties. Growing evidence indicates that AST can modulate multiple molecular and cellular pathways involved in neuronal survival, synaptic plasticity, learning, and memory, particularly in the context of neurodegenerative aging. This review provides an up-to-date and integrative overview of current evidence...

CONCLUSION: The results suggest that oxytocin modulates stress responses, oxidative balance, and inflammatory pathways in aged rats subjected to chronic sleep deprivation. Although the precise central mechanisms remain unresolved, these findings support a potential role for oxytocin in mitigating SD-associated pathophysiological changes in aging and warrant further mechanistic studies to clarify its neuroprotective potential.