Aging & Longevity

Adult stem cells are essential for maintaining tissue homeostasis and facilitating tissue repair. The ability of aged stem cells to generate functional progeny declines, which is closely associated with the onset and progression of age-related diseases. The aging of adult stem cells in various tissues is regulated jointly by local microenvironments (stem cell niches) and systemic factors. Caloric restriction (CR), a widely studied anti-aging strategy, has been demonstrated to rejuvenate aged...

Cellular senescence plays a critical role in diabetic nephropathy (DN). Understanding the mechanisms underlying the senescence response is therefore essential for developing effective therapies for DN. In this study, we provide evidence that NAT10 expression was markedly elevated in the kidney tissues of patient with DN and was associated with adverse clinical outcomes. NAT10 directly bound to PAPP-A, induced ac4C acetylation modification of the PAPP-A transcript, and enhanced its stability,...

Advances in proteomics are transforming our understanding of mammalian oocyte maturation and preimplantation embryo development. These resources and their findings provide unprecedented insights into the molecular underpinnings of developmental competence. Here we summarize the ongoing development of proteomic methodologies and highlight the stage-specific reprogramming events of the proteome in both humans and mice, underscoring the unique utility of proteomics in deciphering oocyte maturation...

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Cellular senescence comprises diverse cell states emerging across human tissues during aging and disease. Integrating single-cell and spatial multi-omics with AI-driven analyses enables systematic mapping of senescent cell heterogeneity ("senotypes"), revealing tissue-specific programs and microenvironmental interactions. These advances provide frameworks for biomarker discovery and development of targeted senotherapeutic strategies.

Microglia are brain-resident immune cells with complex physiological functions. Exploring their proteomic heterogeneity at the single-cell level has remained technically challenging. Here, we optimized a label-free single-cell proteomics (SCP) workflow using Orbitrap Astral mass spectrometry (MS) and applied it to fluorescence-activated cell sorting (FACS)-sorted microglia from the hippocampus and prefrontal cortex of young, middle-aged, and aged mice. This yielded one of the largest SCP...

Cellular senescence is implicated in age-related pathologies, and identifying circulating biomarkers of senescence holds great diagnostic potential. Circulating senescence signatures are predictive of age-related traits and diseases, though cell type senescence signatures have not been comprehensively explored. In this study, senescence signatures from the Senescence Catalog (SenCat), including 14 human cell types are examined in circulation for clinical relevance in two longitudinal...

There is an urgent need to comprehensively catalog senescence markers across cell types in an organism in order to characterize senescent-cell heterogeneity. Here, we profiled the transcriptomes and proteomes in 14 different primary human cell types undergoing over 30 senescence paradigms to create a senescence catalog we termed "SenCat." We found that while senescent cells from all primary cell types did not share a single unique marker, they did activate shared specific metabolic and...

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White matter hyperintensities (WMHs) are increasingly recognized as neuroimaging biomarkers of cerebrovascular pathology in Alzheimer's disease (AD), yet their temporal relationship with amyloid and tau accumulation remains unclear. While previous studies suggest bidirectional associations between WMHs and AD pathology, regional associations between WMHs and AD pathology have yet to be examined. This study investigated the temporal and regional associations between PET measures of amyloid (Aβ)...

Similarities and differences in the self-assembly of actin filaments from different species inform our understanding of its evolution. However, this basic knowledge is largely incomplete. Here, we systematically characterize assembly kinetics for actin from two yeast species that are five hundred million years apart in evolution, Saccharomyces cerevisiae and Schizosaccharomyces pombe, and compare them to the well-studied rabbit muscle actin from which they diverged a billion years ago. We find...

CONCLUSION: Awareness of age-related losses may be adaptive when it reflects realistic recognition of age-related challenges, like hearing difficulties. Promoting positive, gain-focused views of aging could support earlier informal help-seeking among older adults by encouraging open conversations about hearing concerns within their close social networks.

Cancer and cell-aging studies may have relied on antibodies to incorrect molecule.

Labor is mediated proximately by prostaglandin signaling within gestational tissues and must be tightly regulated for birth to occur after appropriate fetal development. Metabolic changes accompanying gestational aging have been postulated as a determinant of birth timing, but specific nutrients, sensors, and messengers remain obscure. We report that placental nicotinamide adenine dinucleotide (NAD^(+)) dynamically tunes gestational length. Depletion of placental NAD^(+) in mice provoked labor...

CONCLUSIONS: The findings suggest that limited uptake of digital elder care is closely tied to moral legitimacy and ethical recognition. Digital care services are more likely to be accepted when perceived as a supportive extension of, rather than a replacement for, family care responsibilities. Addressing ethical lag through culturally resonant service design and trusted community mediation may help reduce inequalities in engagement and improve the effectiveness of ageing-related service...

A decline in nuclear factor erythroid 2-related factor 2 (NFE2L2)-orchestrated adaptive homeostasis and oxidative distress are thought to be key features of aging. In contracting skeletal muscle, the reactive oxygen species-producing enzyme NADPH oxidase 4 (NOX4) is a potent inducer of NFE2L2 adaptive homeostasis. Here, we report that skeletal muscle NOX4 levels decline in aged mice and humans, resulting in abrogated NFE2L2 adaptive homeostasis, increased protein oxidative damage, and decreased...

Growing energy demands and renewable integration are stressing the aging power grid infrastructure. Lignocellulosic oil-impregnated paper is widely used in power transformers but suffers from critical limitations, such as low dielectric strength, mechanical strength, and thermal conductivity, causing premature transformer failures. Here, we demonstrate a superior electrically insulating oil-impregnated paper design using the naturally anisotropic structure of densified wood veneer to achieve...

CONCLUSION: While rural Veterans were less likely to use HCBS overall, there was substantial variability across facilities. These findings demonstrate that some VAMCs counteract the overall trend by ensuring rural Veterans receive HCBS at rates comparable to urban Veterans.

Establishment of the blood-brain barrier (BBB) and blood-cerebrospinal fluid (CSF) barrier requires precise coordination between diverse cell types to protect and nourish the brain. Here, we identify developmentally programmed p21^(+) senescent cells that exhibit divergent senescence-associated features across these two brain interfaces in mice. In the choroid plexus (ChP), epithelial cells adopt a lifelong, non-inflammatory senescent state associated with CSF production and blood-CSF barrier...

Aging emerges from nonlinear interactions among primary, antagonistic, and integrative hallmarks that progressively erode tissue resilience. As global demographics shift and chronic disease burden intensifies, extending healthspan with mechanistic precision has become imperative, accelerating the incorporation of artificial intelligence into geroscience. AI leverages multi-omics, spatial biology, imaging, and clinical data to reveal nonlinear structures linking hallmark interactions to tissue...