Aging & Longevity
The Autophagy-Senescence-Inflammasome Axis: A Novel Triad in Neurodegenerative Diseases?
Chronic neuroinflammation is a defining feature of brain ageing and neurodegenerative disorders, yet the molecular mechanisms responsible for its persistence remain incompletely understood. Although autophagy dysfunction, glial senescence, and inflammasome activation are well-established contributors to progressive neurodegeneration, these processes are often analysed independently or through pairwise interactions, leaving their collective contribution to persistent neuroinflammation and disease...
Gut microbiota associates with frailty in older women
Frailty is a multifactorial geriatric condition linked to increased mortality and adverse health outcomes and is associated with gut microbiome features that differ from those observed in healthy ageing. We analyze gut metagenomic profiles in relation to estimated frailty severity and frailty-related clinical outcomes assessed with an internally developed and validated Frailty Mortality Index (FMI) in the SUPERB cohort, comprising 2,081 Swedish women aged 75-80 years. The FMI is a composite...
Reproductive behaviors, genetic susceptibility and accelerated aging risk
We examined the associations of reproductive behaviors and genetic susceptibility with aging indicators among female participants in the UK Biobank. Reproductive behaviors included the number of children ever born (NEB), age at first birth (AFB), age at last birth (ALB), and span of years of births (SYB). Aging indicators included frailty, PhenoAge acceleration, KDM-BA acceleration, and brain age difference (BrainAGE-diff). In multivariable analyses, reproductive behaviors showed nonlinear...
Local autophagy impairment triggers brain-wide presynaptic remodeling and resilience
Neural circuits must remain functionally stable while adapting to changing demands and levels of stress. While this balance is thought to rely on plasticity programs integrating molecular and activity-dependent signals, mechanistic models of how such adaptations are orchestrated remain limited. Here, we show that impairment of autophagy in the Drosophila mushroom body (MB) induces brain-wide, post-transcriptional remodeling of presynaptic active zones, characterized by increased expression...
Hypoxia rescues complex 1-associated disease caused by proteostatic defects
Impaired mitochondrial proteostasis underlies a broad spectrum of diseases, yet effective therapies remain limited. Here we show that deficiency of HTRA2, a mitochondrial intermembrane space protease, can be rescued by hypoxia therapy. Using an Htra2 mutant mouse model that displays severe neurodegeneration and early lethality, we find that continuous hypoxia rescues striatal degeneration and extends lifespan. Mechanistically, we demonstrate that HTRA2 forms a functional complex with the...
Time-resolved proteolipidomics of the human aorta identifies stage-specific lipid-protein modules across development and aging
An established vascular network is a prerequisite to ensuring an optimal supply of oxygen and nutrients for sustaining developmental events and systemic function. Herein, we construct a time-resolved proteolipidomic atlas of the aorta across the human life cycle. trans-omics integration reveals that postnatal ganglioside GM3 accumulation is functionally coregulated with calcium homeostasis mediated by plasma membrane calcium-transporting ATPases (PMCAs). We then verify mechanistically in...
Inhibition of elastin degradation alleviates joint degeneration in aging mice, dogs, and human models
Extracellular matrix degradation is a fundamental pathological feature of osteoarthritis, while the roles of degraded matrix remain largely unknown. We previously showed that serum elastin fragments were a systemic aging driver. Here, we found that elastin fragments were upregulated in synovial fluid in dual-center osteoarthritis patients. Elastin fragments actively impaired joint tissue in mice and human explants. Mechanistically, a specific elastin motif containing...
Dopamine-driven mitochondrial reverse electron transport in immune cells mediates gut-brain ROS signaling during sleep deprivation
Sleep deprivation (SD), together with inevitable stress inherent to conventional SD protocols, can induce oxidative stress and inflammation, thereby increasing the risk of premature death. However, the source and signaling pathways underlying reactive oxygen species (ROS) generation remain unclear. Here, we demonstrate that both mechanical and thermogenetic SD, along with possible stress induced by both protocols, lead to initial ROS accumulation in Drosophila gut subregions, including the...
Mineralized carbonates contribute to the millennial durability of Roman concrete
Roman concrete structures have remained serviceable for nearly two millennia and are widely regarded as outstanding examples of durable ancient engineering. Existing literature attributes Roman concrete longevity to the pozzolanic reaction that occurs between reactive volcanic ashes and lime. While the pozzolanic reaction is of fundamental importance, we argue that carbonation over a long period of time also substantially enhances the durability and potential self-healing properties of concrete....
Targeting cellular senescence in dermatology: senolytic and senomorphic strategies
Cellular senescence has emerged as a central mechanism driving cutaneous aging, impaired regeneration, and numerous dermatologic pathologies. Initially evolved as a protective mechanism to prevent malignant transformation and facilitate wound repair, senescence becomes maladaptive when senescent cells persist. Senescent keratinocytes, fibroblasts, and melanocytes can secrete pro-inflammatory mediators and other factors, collectively termed the senescence-associated secretory phenotype (SASP),...
Long-lived mammals contain more phosphorylation sites in the SIRT6 C-terminus that enhance PARP1 interaction and resistance to oxidative stress
Sirtuin 6 (SIRT6) is a protein deacetylase and ribosyltransferase that is a vital hub for maintaining epigenetic homeostasis, regulating the transcriptome, and repairing DNA double stranded breaks (DSBs). Comprehensive proteomic profiling of the SIRT6 posttranslational landscape, however, remains elusive. The SIRT6 C-terminal domain contains multiple phosphorylation sites. We find that the presence and the use of these sites are strongly correlated with maximum lifespan across mammals....
Depressive symptoms and multiple markers of brain aging in community-dwelling older adults
Late-life depressive symptoms have been associated with structural brain changes and cognitive impairment, but prior studies have typically examined individual markers of brain aging in isolation. This study examined the associations between depressive symptoms and multiple markers of brain aging in a population-based cohort of community-dwelling older adults. Baseline data from 2,746 participants with complete data on depressive symptoms, neuroimaging measures, cognitive assessment, and...
Klotho deficiency and cognitive impairment in dialysis patients: mechanisms, clinical evidence, and therapeutic implications
Cognitive impairment is highly prevalent among patients with end-stage renal disease (ESRD), particularly those undergoing dialysis, and is associated with poor clinical outcomes and reduced quality of life. Emerging evidence suggests that Klotho, an anti-aging protein predominantly expressed in the kidney, plays a critical role in the pathophysiology of uremia-related cognitive dysfunction. This review summarizes current clinical and experimental evidence regarding Klotho deficiency in dialysis...
FGF21 connects ER stress to sulfide signaling to enhance cellular resilience
Fibroblast growth factor 21 (FGF21) is a stress-induced endocrine hormone that regulates metabolism. Grandl et al. show that FGF21, through its receptor β-klotho (KLB), enhances sulfide signaling and hydrogen sulfide production, strengthening the unfolded protein response and integrated stress response to promote stress resilience, metabolic adaptation, and potentially healthy aging.
Core gastric microbiota linked to pathogenesis and preserved across age-stratified cohorts
The stomach harbors a complex microbial niche, yet the persistence and disease relevance of its core microbiota remain unclear. Using full-length 16S and ITS sequencing of 255 pediatric samples, this study identifies 11 core bacterial genera organized into two antagonistic communities, CST1A and CST1B. CST1A is enriched in non-ulcer controls, whereas CST1B is associated with gastroduodenal disease, with limited fungal involvement. Stratified analyses show that Helicobacter pylori infection...
Brain health across the lifespan and the impact of nutrition, exercise, microbiota, and sleep
Dietary strategies that support long-term cognitive health and resilience against neurodegenerative diseases are important with aging and senescence. Brain aging is a consequence of intricate biological changes that occur over the lifespan. The process of aging involves the decline in metabolic and physiologic functions, and changes in anatomical structure. However, our lifestyle practices, including diets and nutrient intakes, physical exercise, sleep quality, and cognitive activity can help to...
AI-Driven Advances in Vascular Aging Research: From Mechanisms to Precision Medicine
Vascular aging is a fundamental contributor to the development of chronic diseases and has emerged as a critical focus in biomedical research. With the rapid advancement of artificial intelligence (AI), new opportunities have arisen to enhance the precision and efficiency of vascular aging studies. AI techniques, particularly those applied to large-scale multi-omics and medical imaging data, enable the identification of novel biomarkers and the development of robust models to quantify the rate...
Lactylation in the ageing nervous system: Epi-metabolic regulation, disease mechanisms, and translational challenges
Lactate was long considered a waste metabolic byproduct. Currently, lactate functions as an energy substrate, signaling molecule, and epigenetic regulator in the central nervous system (CNS). Lysine lactylation (Kla), a novel lactate-dependent PTM, acts as a core epi-metabolic mediator by directly linking cellular metabolism to epigenetic remodeling. This review summarizes lactate production, shuttling, and the regulatory mechanism of lactylation (donors, writers, erasers, readers). We outline...
TNF-α induces type I IFN signalling to suppress neurogenesis and recruit T cells
Adult hippocampal neurogenesis is essential for learning, memory, and mood regulation, and its disruption is implicated in ageing, neurodegeneration, and mood disorders. However, the mechanisms linking inflammation to adult hippocampal neurogenesis impairment remain unclear. Here, we identify chronic tumour necrosis factor-alpha signalling as a key driver of neurogenic dysregulation via a previously unrecognised type I interferon autocrine/paracrine loop in human hippocampal progenitor cells....
Mechanically locking enzymes in covalent organic frameworks via light-responsive nanohands for stable biocatalysis
Enzyme immobilization is pivotal to sustainable biocatalysis, yet the most widespread protocol of physical adsorption on static porous supports suffers from enzyme leakage and short catalytic lifespan. We introduce a dynamic-pore mechano-locking strategy employing tetrafluoroazobenzene-engineered covalent organic frameworks (COFs), where visible-light-mediated isomerization enables precise and reversible pore-size variation for adaptive enzyme confinement. This approach significantly enhances...
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