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Calcium carbonate precipitation in ageing ocean crust sequesters carbon dioxide dissolved in seawater through seafloor weathering reactions, influencing atmospheric CO(2) concentrations on million-year timescales. However, this crustal carbon sink, and the extent it balances CO(2) degassing during crustal formation at mid-ocean ridges, remain poorly quantified due to limited sampling of the vast ridge flanks where CO(2) uptake continues for millions of years. Here we quantify the carbon sink...

CONCLUSIONS: A low level of muscle strength is significantly associated with an increased risk of comorbidities among middle-aged and older adults. Therefore, incorporating strength training into comorbidity prevention and control strategies is of great importance and should be considered a key intervention. Particular emphasis should be placed on lower limb strength exercises, which do not exhibit a plateau effect in reducing comorbidity risk and can thus yield more substantial health benefits.

Given the well-established structural and functional changes in the aging brain, it is widely assumed that cognitive aging is primarily driven by robust group-level differences between young and older adults. However, our individual-level EEG functional connectivity analysis challenges this notion. We investigated the impact of cognitive training on functional brain connectivity using task-switching paradigms in 39 younger (18-25 years) and 40 older (60-75 years) women. Participants were...

This study aimed to evaluate the independent and joint effects of adherence to healthy dietary patterns and slower biological aging on the incidence of diabetic microvascular complications in individuals with type 2 diabetes mellitus (T2DM), and to assess the mediating role of biological aging. In a prospective cohort of 13,294 T2DM participants without baseline DMCs, dietary quality was assessed using a validated 10-point score, while biological aging was calculated from nine biomarkers and...

Alzheimer's disease (AD) is one of the brain's neurodegenerative diseases. It is distinguished by a progressive mental, social, and behavioral deterioration. It affects the person's capacity, thinking, attention, reasoning, social behavior and functionality to achieve independence. The classical diagnosis process of AD consists of variety of neuroimaging scan approaches such as computerized tomography, magnetic resonance imaging and positron emission tomography. Classical cerebrospinal fluid...

Parkinson's disease (PD), Dementia with Lewy bodies (DLB), and multiple system atrophy (MSA), are characterized by the misfolding and aggregation of alpha-synuclein (αSyn). Compelling evidence showed that αSyn aggregates exist as distinct conformational strains in different synucleinopathies. Recently, we reported that the αSyn Seed Amplification Assay (αSyn-SAA) can amplify and distinguish αSyn strains from PD and MSA. In this study, we investigate whether MSA-seeded, SAA-amplified αSyn fibrils...

While the clinical utility of conventional antibody therapies is undeniable, their therapeutic potential is often constrained high antigen loads and the recycling of antibody-antigen complexes via neonatal Fc receptor (FcRn). Here, we present a platform, based on a design similar to bispecific antibodies, FcγRIIb-Targeting Chimeras (FcRTAC). These constructs recognise antigens with one arm and bind FcγRIIb with the other arm to harness the unique endocytic properties of FcγRIIb to direct the...

Biological ageing is a systemic, multifactorial process driven by progressive molecular and cellular alterations whose complexity necessitates systems-level approaches. Advances in high-throughput omics technologies now allow simultaneous quantification of millions of biomolecules from a single specimen, enabling longitudinal, integrative profiling across multiple molecular layers. This review synthesizes recent progress in applying genomics, epigenomics, metabolomics and microbiomics to ageing...

Organ shortage remains a major barrier in treating end-stage organ failure, with many patients dying while waiting or becoming medically unfit by the time an organ is offered. A substantial number of organs, particularly from older donors, remain unused due to concerns over age-related decline in quality. This review highlights emerging strategies to rejuvenate and optimize such organs by mitigating ischemia-reperfusion injury and reducing age-related immunogenicity. Advances in organ...

The human utricle is a vestibular organ essential for balance, a function that declines with age. With the aging population projected to double to 2 billion by 2050 and no pharmaceutical or biological treatments available, balance disorders represent a significant unmet medical need. The utricle is composed of sensory and non-sensory cells, which are closely related. Non-sensory cells have limited capacity to regenerate sensory cells and, therefore, are a relevant therapeutic target. In this...

Aging is accompanied by profound alterations in the immune system; yet, an accurate prediction of immunological age remains challenging. While transcriptomic approaches have yielded insights into immune aging, protein-level profiling and machine learning-based prediction tools remain underdeveloped. Here, we employ mass cytometry to analyse murine splenic CD45⁺ immune cells across various age groups, profiling the expression of 30 protein markers and monitoring age-related immune changes. By...

Iron-sulfur (Fe-S) clusters are essential metallocofactors that perform a multitude of biological functions^(1-7). Their synthesis is tightly regulated and defects in this process lead to severe diseases^(8-10), such as Friedreich's ataxia, which is caused by defective expression of frataxin (FXN)^(11). However, the underlying mechanisms that regulate this process remain unclear. Here we show that efficient Fe-S cluster assembly requires a fine-tuned balance in the ratio of FXN and ferredoxin-2...