Aging & Longevity

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Polysaccharides are natural macromolecules with diverse bioactivities and potential health benefits. It exhibits a broad spectrum of biological effects, with extensive research supporting their antioxidative, anti-inflammatory, immunomodulatory, and anti-aging properties. The study evaluated the aging-modulatory effects of Labisia pumila polysaccharides (LPP) using Caenorhabditis elegans (C. elegans) and Drosophila melanogaster (D. melanogaster) as model organisms. LPP treatment increased the...

Klotho (Kl) is an anti-aging protein primarily produced in the kidney and the choroid plexus (CP, where it regulates cerebrospinal fluid composition and exerts neuroprotective effects. Here, we investigated the age-dependent consequences of a CP-specific Kl deletion on CP structure and function using mice lacking Kl exclusively in CP epithelial cells (Kl^(ΔCP)). In control mice, aging markedly disrupted CP architecture and cilia organization both in the lateral (LV-CP) and fourth ventricle...

Hollow stems have independently evolved multiple times across the plant kingdom and play crucial roles in plant development and various environmental adaptations. However, the mechanisms underlying stem hollowness remain poorly understood. Water spinach (Ipomoea aquatica) is one of the few hollow-stemmed plants in the Convolvulaceae family (eudicot: asterid), and its hollow stems are essential for thriving in aquatic environments. Using histochemical staining and transcriptome analysis, we found...

Oncogenic Ras is known to induce DNA replication stress, leading to cellular senescence or death. In contrast, we found that it can also trigger polyploid Drosophila ovarian nurse cells to die by inducing aberrant division stress. To explore intrinsic protective mechanisms against this specific form of cellular stress, here, we conducted a genome-wide genetic screen and identified the E2 enzyme Uev1A as a key protector. Reducing its expression levels exacerbates the nurse cell death induced by...

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The tumor suppressor p53 orchestrates critical cellular responses to stress, including cell cycle arrest, DNA repair, senescence, and apoptosis. While extensive research has elucidated many aspects of p53 function, the isoform-specific mechanisms governing cell fate decisions remain incompletely understood. Here, we leverage the simplified p53 gene architecture in Drosophila to systematically dissect the apoptotic and tumorigenic potential of individual p53 isoforms, uncovering fundamental...

Operating nanometal catalysts under harsh reaction conditions often leads to their disintegration into less active single atoms or clusters, which is considered as a primary cause of catalyst deactivation and loss of active components. In the current work, our theoretical calculations on CeO₂-supported Rh catalysts first reveal that pre-filling surface vacancies with suitable single metal atoms renders the subsequent anchoring of Rh atoms on supports energetically unfavorable. Guided by this...

Controlled signaling activity is vital for normal tissue homeostasis and oncogenic signaling activation facilitates tumorigenesis. Here, we combine single-cell transcriptomics with in-depth genetic and imaging analysis to investigate the role of the EGFR-Ras and Hedgehog signaling pathways in homeostasis of the Drosophila follicle stem cell lineage. We find that Hedgehog signaling simultaneously promotes an undifferentiated state and induces differentiation via activation of the...

Advances in transcriptomic technologies have progressively transformed the questions we can ask and answer about muscle stem cells (MuSCs) during aging. Early microarray and bulk RNA sequencing studies established foundational population-level signatures of aged MuSCs, including attenuation of myogenic and metabolic programs as well as induction of inflammatory and stress-associated transcription. However, these averaged readouts obscured cell-to-cell variability and rare functional states. The...

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CONCLUSIONS: Most older Americans are concerned about access to long-term care and costs, yet remain divided on who primarily should pay for caregiving costs. Caregivers are both more concerned about long-term care access and more likely to support the government's primary responsibility for caregiving costs than noncaregivers. Policymakers should consider more options for access to affordable, high-quality long-term care, and financial supports for caregivers.

CONCLUSION: Immunosenescence plays a crucial role in IS pathogenesis and recovery, with chronic inflammation and immune dysfunction exacerbating stroke outcomes in older adults. Targeting immune markers, particularly IL-6 and the Th17/Treg imbalance, may offer new therapeutic approaches to improve stroke prognosis in aging populations. Further research is needed to develop interventions that address immunosenescence in IS.

INTRODUCTION: Sleep quality is often thought to be a key determinant of cognitive performance, particularly in older adults who experience age-related changes in sleep architecture. However, the extent to which nightly variations in sleep quality impact next-day cognitive performance remains unclear-in part because it has only recently become practical to measure sleep over multiple nights.

Accurate age estimation is key to understanding life history, population ecology, and effective management of valuable commercial and ecologically relevant species. While DNA methylation-based epigenetic clocks are well developed in mammals, their application in fish is limited. In contrast to mammals, fish lack identified universal fish epigenetic markers. Here we explore the potential of ultra-conserved elements (UCEs) as age predictor markers in albacore tuna (Thunnus alalunga), a worldwide...

In a little over 100 years, global life expectancy has increased by ∼60%. Paradoxically, it has been estimated that we now exercise five times less than we did 100 years ago. Despite a marked increase in life expectancy, the prevalence of non-contagious diseases (NCDs), otherwise known as "chronic lifestyle diseases," such as cardiovascular disease, type 2 diabetes, cognitive diseases, and cancer, has increased. Here, we discuss the concept of "exercise as medicine" for the treatment of NCD and...

DNA damage and mutations in hematopoietic stem cells (HSCs) enable clonal hematopoiesis (CH). Such damage occurs across a lifetime, but its origins remain unknown. Here, we demonstrate that endogenous formaldehyde causes HSC attrition and subsequently CH. We generated conditional mouse models lacking formaldehyde detoxification and Fanconi anemia (FA) DNA repair in blood. Formaldehyde protection was crucial for embryonic HSC emergence and throughout life. Despite severe deficiencies in HSCs,...

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Cataract is a leading cause of visual impairment worldwide, and its prevalence is increasing with population aging. The majority are age-related cataracts (ARC), clinically classified into nuclear, cortical, and posterior subcapsular cataracts (PSC) by opacity location. Mechanisms of cataractogenesis remain incompletely understood. While cortical and nuclear cataracts are largely attributed to crystallin aggregation, such protein-centric mechanisms fail to explain the early onset and axial...

CONCLUSION: Neighbourhoods play a crucial role in supporting older adults' flourishing, but evidence on causal pathways and life-course dynamics remains limited. The proposed integrative framework enhances conceptual clarity and provides a foundation for longitudinal research to guide place-based interventions for positive ageing.