Aging & Longevity

Older adults are highly vulnerable to infectious diseases, and vaccines are often less effective in this population because of diminished B and T cell memory responses driven by impaired autophagy, immunosenescence, and chronic low-grade inflammation. Spermidine has been shown to counteract immunosenescence and induce autophagy in preclinical models, and its levels decline with age in humans. We conducted a double-blind, randomised, placebo-controlled pilot study in 40 adults over 65 years of...

Aging significantly impairs vaccine efficacy in older adults, driven by immunosenescence, inflammaging, and disruptions in the gut microbiota-mTOR-immune axis. This review synthesizes current evidence on how aging alters vaccine-induced immune responses through the interplay of gut microbiota dysbiosis and dysregulated mTOR signaling. Age-related microbial diversity declines and reduced short-chain fatty acid (SCFA) production exacerbate inflammation, while heightened mTOR activity suppresses...

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CONCLUSION: NAC shows potential in modulating mechanisms of muscle deterioration, but evidence remains largely preclinical. Well-designed randomized trials in older adults, particularly with sarcopenia or frailty, are needed.

CONCLUSION: This study provides longitudinal evidence from a large prospective cohort indicating that LHS is an independent predictor of self-reported incident OP in the older population. As a simple and practical tool, handgrip strength testing can aid in the early identification of individuals at high risk for OP in community and clinical settings, providing a basis for implementing targeted preventive strategies, while highlighting the need for future research to confirm the observed...

Transfer RNA (tRNA) halves (tRHs) are generated via the cleavage of tRNAs, but their roles in aging and longevity remain poorly understood. Here, we demonstrate a direct role of tRHs in aging in metazoans. Through a genetic screen using Caenorhabditis elegans, we identify DIS-3/DIS3 as a ribonuclease that catalyzes tRH generation, including 5'-tRH-Gln and 5'-tRH-Asp, from tRNAs. Among them, 5'-tRH-Gln is essential for longevity conferred by various interventions, including dietary restriction....

Limited vaccine availability and logistical barriers during the COVID-19 pandemic have hindered homologous boosting in resource-limited regions. Therefore, heterologous prime-boost regimens have gained attention as versatile and practical alternatives. We evaluated the immunogenicity and longevity of four vaccine regimens in adults from Mozambique and Madagascar: single-dose Ad26.COV2.S (Ad26.S), homologous BBIBP-CorV (BBIBP), and two heterologous combinations (BBIBP-Ad26.S and Ad26.S-BBIBP, in...

Clonal hematopoiesis of indeterminate potential (CHIP) and mosaic chromosomal alterations (mCAs) are two types of clonal hematopoiesis (CH) associated with hematological parameters and malignancy risk. Here we show, in genomic data from 546,090 biobank participants, that co-occurring CH (≥2 CH mutations detected) is present in 1.6% of cancer-free individuals and shows strong evidence for selection (up to 804x enrichment). Co-occurrence is more frequent in those with a prior cancer (3.6%),...

Sex differences in obesity are well recognized; however, the identification of sex-specific obesity genes and the mechanisms through which they affect obesity development remain elusive. Here, we identify a germ-cell-specific gene C2orf74, whose expression is responsive to high-fat diet (HFD) and promotes HFD-induced obesity in male mice by restraining lipolysis and limiting the browning of white adipocytes through suppression of androgen receptor signaling, but not in females. Additionally,...

Skin aging, the most visible and accessible manifestation of organismal aging, reflects systemic physiological decline, compromising barrier integrity, immune defense, and regenerative capacity-functions essential for overall tissue homeostasis and longevity. Understanding why and how the skin ages offers crucial insights into tissue homeostasis and systemic aging. Here, we dissect the multi-layered mechanisms of skin aging across the epidermis, dermis, and appendages, highlighting how intrinsic...

Programmed degradation of maternal proteins is essential for the oocyte-to-embryo transition (OET). While pharmacological inhibition studies have established the importance of proteasomes in ovarian reserve maintenance, oocyte maturation and fertilization, the physiological impact of intrinsic proteasome insufficiency and underlying molecular mechanisms remain poorly understood. In mice, endolysosomal vesicular assemblies (ELVAs), specialized membraneless compartments composed of proteasomes,...

Identifying physiological sweet spots (optimal ranges for homeostasis) is essential for precision medicine. However, traditional statistical methods often rely on globally linear or locally jagged models that struggle to capture the smooth, non-linear nature of biological regulation in high-dimensional data. We present the Quantile Feature Selection Network (Q‑FSNet), a neural network-based framework that integrates quantile regression, feature selection, and uncertainty estimation to identify...

INTRODUCTION: Physical activity may enhance cognition in older adults, yet evidence from randomized controlled trials (RCTs) on mechanistic pathways remains inconclusive.

During wakefulness, neuromodulators operate largely independently to support behavior and cognition. By contrast, sleep reorganizes their activity into a coordinated brain rhythm. During sleep, the major neuromodulators-norepinephrine, acetylcholine, serotonin, and dopamine-exhibit synchronized fluctuations with a periodicity of ~50 seconds. These oscillations appear as recurrent bursts of fast (10 to 30 hertz) electroencephalography activity and are phase-coupled to cerebrospinal fluid flow....

In this cross-sectional cohort we analyzed data from 4260 "health enthusiasts" who purchased at least one saliva-based DNA epigenetic test between 2020 and 2025 and completed detailed lifestyle and supplement questionnaires. A proprietary 9-CpG clock with a mean absolute error of 5.4 years served as the primary biomarker of biological age. High prevalence (71%) of supplement use in this cohort increased our power to study the effects of supplements compared to earlier studies that focused on the...

T cells are central to adaptive immunity, and continuously sense, generate, and respond to mechanical forces. Advances in mechanoimmunology show that T-cell behavior is tightly shaped by the physical properties of their environment, including stiffness, viscoelasticity, ligand arrangement, and tissue topography. T-cell activation depends not only on biochemical signals but also on forces transmitted through the T-cell receptor, coreceptors, and mechanosensitive ion channels, which converge on...

CONCLUSIONS: Living arrangement, social activity and residence were the most significant factors associated with the types of LTC utilization by older adults in China. Overall, enabling and predisposing factors had a greater influence than the need factors. These findings not only demonstrate the potential value of ML for LTC policy development, but also provide empirical support for the Chinese government to adopt targeted interventions that enhance LTC service accessibility and affordability.

Transcription factor (TF) modules interact to regulate key biological processes and cell-state transitions in normal physiology and disease. Understanding these modules and how they evolve over time can be accomplished by constructing gene regulatory networks (GRNs). To identify context-specific TF subnetworks, we developed ChEA-KG, which generates enriched TF regulatory subnetworks for input gene sets. ChEA-KG is based on a GRN connecting 1559 human TFs via 131 181 signed and directed edges...

Cellular senescence induced by internal and external stimuli features stable cell cycle arrest and SASP, closely linked to aging and various age-related diseases. It is accompanied by lipid metabolism disorders and epigenetic abnormalities, which interact closely to modulate senescence. This review summarizes their crosstalk in senescence and relevant diseases, aiming to offer new insights and therapeutic targets for alleviating cellular senescence and treating age-related diseases.

Intestinal stem cells (ISCs) continuously renew the gut epithelium by producing specialised cell types, yet the mechanisms that couple ISC renewal with lineage commitment remain poorly characterised. Here, we identify a self-limiting transcriptional program, mediated by the zinc-finger transcription factor Chronophage (Cph), that promotes both ISC maintenance and differentiation into enteroendocrine (EE) cells in the Drosophila midgut. Cph expression is transiently induced by the proneural...