Aging & Longevity

Heart disease is the leading cause of death in the elderly population. Age-related heart failure is frequently associated with energy deficits in cardiomyocytes. These cells rely on their abundant, cristae-rich mitochondria for ATP production. ATP synthase, localized along the cristae rims, is central to this process. It is presumed that its function is tightly bound to its spatial organization, but details remain unclear. Here, we explored the spatiotemporal organization of ATP synthase in...

Aging is a dominant risk factor for chronic diseases characterized by the functional decline of tissues and organs. During aging, the hematopoietic system declines in regenerative capacity-seemingly attributable to increases in DNA damage, replicative stress, and autophagic flux-resulting in skewing towards a myeloid lineage and away from a lymphoid lineage. Here, we characterized the transcriptomic and cellular landscape of the aged C57Bl/6J mouse hematopoietic system using a combination of...

Humans routinely anticipate upcoming language, but whether such predictions come at a cognitive cost remains debated. In this study, we demonstrate the resource-dependent nature of predictive mechanisms in language comprehension across the lifespan: Experimentally limiting executive resources through a concurrent task reduces the effect of language predictability on reading time. Participants (N = 175, replication N = 96) read short articles presented word-by-word while completing a secondary...

Ribosomes are central to protein synthesis in all organisms. In mammals, the ribosome functional core is highly conserved. Remarkably, two rodent species, the naked mole-rat (NMR) and tuco-tuco, display fragmented 28S ribosomal RNA (rRNA), coupled with high translational fidelity and long lifespan. The unusual ribosomal architecture in the NMR and tuco-tuco has been speculated to be linked to high translational fidelity. Here, we show, by single-particle cryo-electron microscopy, that despite...

Phenotypic age, an aging indicator derived from clinical biomarkers, is associated with morbidities and mortality. However, a liver-specific phenotypic aging indicator is still lacking, and its longitudinal associations with liver-related outcomes, as well as the underlying biological mechanisms, remain elusive. We developed a liver-specific phenotypic age using 11 selected clinical blood markers within the England-White cohort of the UK Biobank and validated this metric in both the...

Mitochondrial function is important to healthy aging, as it influences energy metabolism, oxidative stress, and physical performance. With age, mitochondrial function and biosynthesis of coenzyme Q10 (CoQ10) may change. CoQ10 serves as a key antioxidant and component of the electron transport system. Supplementation with CoQ10 may help preserve mitochondrial function and support healthy aging. Forty older community-dwelling adults (74 ± 4 years) received either daily oral CoQ10 supplementation...

Age-related hearing loss (ARHL) is one of the most common causes of disability in older adults. It is also frequently associated with neurological and neurodegenerative disorders, including dementia, as well as with stress, anxiety, depression, and social isolation. These observations suggest that ARHL should be considered not merely as a sensory dysfunction, but rather as a complex disease involving extra-auditory domains. Namely, identifying shared pathogenic determinants between hearing loss...

INTRODUCTION: Age-related changes in brain signal complexity are associated with cognitive decline and reduced neural adaptivity in older adults. Exergaming offers a promising prophylactic intervention combining physical and cognitive training. The aim of the present study was to assess how exergaming alters the temporal trajectory of brain signal complexity at rest and during gameplay in older adults.

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Aging is associated with changes in sensorimotor control that contribute to functional decline, mobility limitations, and increased fall risk. Traditional motor assessments often rely on subjective measures, highlighting the need for objective, quantitative tools. We developed three robot-based tasks using the vBOT planar manipulandum to evaluate sensorimotor performance in healthy young (<35 years) and older (>60 years) adults. These tasks uniquely combined bimanual control and altered dynamic...

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CONCLUSION: To our knowledge, this study is the first to characterize and correlate the diversity of both the OM and GM with systemic FFA and cytokine profiles in a cohort of healthy adults, highlighting the critical role of age in shaping microbiome composition and associated metabolites. Integrating microbiota profiling with serum FFA and cytokine measurements enhances our understanding of how the microbiome may influence health and disease risk across the adult lifespan.

CONCLUSIONS AND IMPLICATIONS: Referral decisions for post-acute care are influenced by individual-, hospital-, and community-level factors. As the use of HHC continues to grow, greater attention is needed to how these decisions are made to ensure equitable access to preferred and appropriate care for older adults.

The Drosophila proventriculus is a bulb-shaped structure at the juncture of the foregut and the midgut, which plays important roles in ingestion, peritrophic membrane synthesis, and the immune response to oral pathogens. A previous study identified a population of cells in the proventriculus which incorporate bromodeoxyuridine (BrdU), a marker of DNA synthesis, and proposed that these cycling cells are multipotent stem cells that replace dying cells elsewhere in the tissue. Here, we...

Exposure to non-relational trauma, such as serious accidents, war or life-threatening illness, is linked to poor mental and physical health. Its relationship with biological ageing markers, however, remains underexplored. This study's aim was to examine associations between non-relational trauma and multiple biological ageing markers, and to assess whether associations vary by trauma burden, trauma type and sex. We analysed UK Biobank data from 152,863 participants (mean age = 56.4 years; 56.5%...

Epigenetic remodeling is a hallmark of aging, yet which epigenetic layers are most affected during aging-and the extent to which they are interrelated-is not well understood. Here, we perform a comprehensive analysis of epigenetic aging encompassing 6 histone marks and DNA methylation measured across 12 tissues from > 1000 humans and mice. We identify a synchronized pattern of age-related changes across these epigenetic layers, with all changes converging upon a common set of genes. Notably, an...

Granular materials densify under repeated mechanical perturbations, nonequilibrium dynamics that underlies many natural and industrial processes. Because granular relaxation is governed by frictional contacts and energy dissipation, this aging behavior fundamentally differs from that of thermal glasses despite their apparent similarities. Here, we uncover how friction controls the compaction dynamics of granular packings subjected to quasistatic cyclic shear. Using discrete element simulations,...

Partial reprogramming has emerged as a promising strategy to reset the epigenetic landscape of aged cells towards more youthful profiles. Recent advancements have included the development of chemical reprogramming cocktails that can lower the epigenetic and transcriptomic age of cells and upregulate mitochondrial biogenesis and oxidative phosphorylation. However, the ability of these cocktails to affect biological age in a mammalian aging model has yet to be tested. Here, we have characterized...

The geroscience hypothesis suggests that understanding mechanisms underlying aging will enable us to delay and lessen age-related disability and diseases. The role of mechanical factors has been increasingly appreciated in many aspects of the aging process. Here, we use mouse models to investigate changes in the biomechanics of the proximal pulmonary artery, lung function, and right ventricle function in aging. We found an age-related decreased capacity to store energy and increased...

CONCLUSIONS AND IMPLICATIONS: This study demonstrates that multiple falls are a significant predictor of future dementia and highlights the importance of fall frequency. Recurrent falls may serve as a potential clinical marker for identifying individuals at higher risk. Clinicians should maintain heightened vigilance for cognitive decline in middle-aged and older adults with a history of recurrent falls to facilitate early detection of dementia. Given the limited evidence base and high...