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Neurofibrillary tangles (NFTs) formed from the protein tau disrupt neuronal function in Alzheimer's disease and are strongly associated with cognitive decline. Early events in tau aggregation are increasingly linked to the formation of biomolecular condensates, which lower the energetic barriers to pathological aggregation by acting as intermediates that transition into insoluble assemblies, a mechanism also implicated in other neurodegenerative diseases, such as amyotrophic lateral sclerosis...

The Cambridge Centre for Ageing and Neuroscience (Cam-CAN, www.cam-can.org ) was established 15 years ago to investigate the cognitive and brain bases of healthy adult ageing. Demographic, health and lifestyle data, cognitive data and a wide range of brain imaging data, were shared with other researchers around the world, resulting in many scientific findings. Here we review these findings under the broad headings of 'neuroscience of ageing', 'methodological developments' and...

The mechanisms regulating transcriptional changes during brain aging remain poorly understood. Here, we use single-cell epigenomics to profile chromatin accessibility and gene expression across eight mouse brain regions at 2, 9, and 18 months of age. In addition to a marked decline in progenitor populations involved in neurogenesis and myelination, we observe widespread and concordant age-associated changes in transcription and chromatin accessibility across both neuronal and glial cell types....

Neurofibrillary tangles (NFTs) formed from the protein tau disrupt neuronal function in Alzheimer's disease and are strongly associated with cognitive decline. Early events in tau aggregation are increasingly linked to the formation of biomolecular condensates, which lower the energetic barriers to pathological aggregation by acting as intermediates that transition into insoluble assemblies, a mechanism also implicated in other neurodegenerative diseases, such as amyotrophic lateral sclerosis...

Astrocyte endfeet form a near-continuous sheath around the brain's vasculature, defining the perivascular spaces (PVS) that are crucial for brain fluid flow and solute transport. Yet, their precise physiological role remains poorly understood. Using 3D electron microscopy data, we created a high-fidelity poroelastic computational model of an arteriole segment with surrounding endfeet and parenchyma to investigate tissue displacement and fluid flow within the PVS, endfeet, and extracellular space...

Controlling the structure and function of colloidal gels requires a detailed understanding of how the various components govern network formation and aging. In particular, molecular additives like salts are widely used to tune interparticle interactions, yet their influence on gelation pathways in complex systems such as colloidal nanocrystal gels remains inadequately understood. Here, we investigate how noncoordinating salts modulate the evolution of gels formed using chemically linked...

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Biomarkers of ageing are defined as age-related changes in body function or composition that could serve as a measure of 'biological' age and predict the onset of age-related diseases and/or residual life expectancy. We conducted the MARK-AGE Study, a European population study (3300 subjects aged 35-74) to identify a powerful set of biomarkers of ageing. A total of 362 clinical-chemistry, genetic, cellular or molecular biomarkers were analysed for each subject. Using statistical models as well...

Aging is a major risk factor for heart failure, yet the molecular mechanisms linking cardiac aging to the inflammatory pathophysiology of heart failure remain elusive. Mitochondrial dysfunction and defective organelle quality control are emerging hallmarks of the aging heart, but their biochemical underpinnings are poorly defined. Using comprehensive glycomics, we found that cardiac mitochondria from physiologically aged mice (≥ 20 months) are the major intracellular reservoirs of advanced...

How the nucleolus recovers from acute proteostatic stress, particularly in multinucleate syncytia, remains poorly understood. In the highly polarized hyphae of the model filamentous fungus Magnaporthe oryzae, we uncover a novel stress-induced spatial quality control pathway that promotes the inheritance of rejuvenated nucleolar material during nuclear division. This pathway discriminates between newly formed and damaged nucleolar compartments, selectively partitioning and sequestering the...

Transcriptome-wide association studies (TWAS) have successfully identified genes associated with complex traits and diseases, but most have been performed using bulk gene expression data, which aggregate signals across heterogeneous cell types. Population-scale single-cell RNA sequencing data now make it possible to perform TWAS at the cell-type resolution, but present unique challenges due to strong noises, technical variations, and high sparsity. Here, we propose scTWAS, a statistical method...

The redox theory of aging proposes that an oxidative imbalance, possibly amplified by infection, drives senescence. We experimentally evolved mosquitoes under early or late reproduction with or without parasite exposure, and quantified longevity, fecundity, and redox markers. Although selection generated the expected life-history divergence, there was only a poor, non-linear association between a redox gradient and longevity. Thus, oxidative stress contributed to, but did not determine, the...

Vascular dysfunction, including endothelial cell (EC) senescence and hypertension, is a hallmark of metabolic syndrome, yet its underlying mechanisms remain unclear. Here, we show that metabolic stress upregulates regulated in development and DNA damage response 1 (REDD1), driving vascular dysfunction. Overexpression of REDD1, but not the REDD1^(KK219/220AA) mutant, which cannot activate atypical NF-κB, promotes EC senescence and hypertension through NF-κB-dependent induction of miR-155-5p and...

Senescent cells (SnCs) are increasingly recognized as key contributors to osteoarthritis, with conventional strategies centered on their elimination. However, senolytic approaches face mounting limitations, driving the need for refined interventions. Here, we exploit SnCs' lipid metabolic signature to develop a senotherapeutic strategy. Given the universal lipid accumulation in SnCs and the dual role of lipids as both metabolic liabilities and essential lubricants, we engineer an injectable...

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Normal aging leads to regional vascular and neural alterations. Age-related impairments in neurovascular coupling (NVC) affect the blood-oxygen-level-dependent (BOLD) hemodynamic response function (HRF) measured with functional magnetic resonance imaging, causing changes in both amplitude and temporal dynamics. Previously, global, systematic age-related changes in HRF characteristics were demonstrated, consistent with known microvascular aging effects. In this follow-up study, a standard space...