Aging & Longevity

Long Interspersed Element-1 (L1) causes DNA damage and inflammation, which are hallmarks of cellular senescence. To understand the role of endogenous L1 in senescence, accurate detection and measurement of L1 messenger RNA (mRNA) expression changes during this process is crucial, as L1 transcription is the prerequisite step of L1-related downstream effects. We developed an automated bioinformatics pipeline to quantify locus-level L1 mRNA expression in ex vivo and in vitro models of normal and...

This study tests the moderating role of essentialist beliefs about aging (i.e., perceptions of aging as a fixed versus malleable process) in the relationship between physical functioning and subjective well-being distinguishing between a) overall quality of life and b) health satisfaction among older adults in clinical care. We propose that essentialist beliefs serve as adaptive, palliative cognitions that help maintain high subjective well-being despite health challenges. In a sample of...

Early-life experiences can exert lasting impacts on brain function. While previous research has largely focused on early-life adversity, the long-term consequences of early-life enrichment on the aging brain remain poorly understood. In this study, we investigated the behavioral and molecular effects of communal nesting (CN, a model of early social enrichment, during postnatal day 2-9) in aged male mice. Behaviorally, CN-exposed mice preserved hippocampus-dependent recognition memory but...

Brain arteriolosclerosis, a primary pathology of cerebral small vessel disease, is common in older adults and is associated with lower cognitive and motor function and higher odds of dementia. The purpose of this study was to test the hypothesis that arteriolosclerosis is associated with lower diffusion anisotropy and higher trace of the diffusion tensor in white matter, independently of other age-related neuropathologies and visible white matter hyperintensities (WMH). In-vivo diffusion MRI and...

CONCLUSION: The findings of this study suggest that resistance training adaptations exhibit high task specificity in older adults, and significant improvements in functional outcomes can be achieved with elastic bands.

Aging is associated with a persistent, sterile inflammatory state called inflammaging, which contributes to endothelial dysfunction, immune dysregulation, and a gradual shift toward a procoagulant phenotype, known as coagul-aging. Inflammation and coagulation are now understood as interconnected processes, linked by innate immune activation and thrombin production. Recent evidence highlights the vital role of endogenous nucleic acids, especially cytosolic and extracellular DNA, RNA, and RNA:DNA...

N6-methyladenosine (m6A) represents the most abundant internal RNA modification, and a key regulator of gene expression, yet its role in determining cell fate decisions such as senescence remains largely unexplored. Here, we identify the nuclear m6A reader YTHDC1 as a critical regulator of telomere homeostasis and senescence evasion in ovarian cancer. YTHDC1 expression was markedly elevated in advanced-stage tumors and correlated with poor patient survival. Functional investigation demonstrated...

Primary mitochondrial diseases (PMDs) affect approximately 1 in 4300 individuals and cause early-onset neuromuscular and multisystem dysfunction with reduced lifespan. They result from pathogenic variants in mitochondrial or nuclear DNA that impair oxidative phosphorylation. Cytochrome c oxidase (COX; complex IV) deficiency is a well-established cause of PMD, leading to a broad spectrum of phenotypes. COXFA4 (cytochrome c oxidase subunit FA4), formerly NDUFA4, is a nuclear-encoded COX subunit,...

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CONCLUSION: Psychosocial factors, particularly autonomy and control, significantly associated with sexual satisfaction in older adults with multimorbidity. These findings highlight the necessity of integrating mental health and subjective well-being into geriatric clinical care to support a holistic and humanized approach to healthy aging.

Ambient temperature is a primordial determinant of longevity across the animal kingdom, yet the molecular transducers that couple thermal cues to aging rates remain elusive. Here, we interrogate the transcriptomic and metabolomic landscapes of Drosophila melanogaster to decode the mechanisms of temperature-dependent lifespan extension. We find that thermal stress drives a profound remodeling of the transcriptome that surprisingly outpaces metabolic adaptation. Through this multi-omics...

H(2)O(2) functions as a signaling molecule regulating plant growth, development, and stress responses; however, its role in jasmonic acid (JA) signaling transduction and JA-regulated biological processes remains elusive. Here, we report that General regulatory factor 8 (GRF8) is a critical factor inhibiting JA signaling, while H(2)O(2) removes this inhibition to facilitate the JA response during root growth and leaf senescence in Arabidopsis. GRF8 interacts with and inhibits MYC2, the key...

Nearly all cellular processes are pH dependent. The acidic pH inside the lysosome (vacuole in yeast) is essential for cellular content degradation, signaling, and autophagy. Defects in lysosome/vacuole acidification are a conserved hallmark of aging and age-related diseases. Traditionally, the lysosome/vacuole is thought to import free protons (H⁺) from the surrounding neutral cytosol. Here, we uncovered a conserved lysosome/vacuole acidification mechanism from yeast to human involving...

Conventional bulk transcriptomic approaches obscure cellular and tissue-level heterogeneity critical to understanding age-related neurodegeneration. While single-cell transcriptomics resolved cellular identity, it sacrificed spatial context - a fundamental limitation for mechanistic disease understanding. Spatial transcriptomics emerges as a transformative technology that preserves native tissue architecture while enabling genome-wide transcriptome profiling at subcellular resolution,...

Human spaceflight exposes crew members to a combination of environmental stressors - including microgravity, galactic cosmic radiation, circadian disruption, and prolonged confinement - that together induce multisystem physiological changes resembling terrestrial aging. In this narrative review, we examine how short- and medium-term spaceflight affects all twelve recognized hallmarks of aging. Integrated multi-omics analyses in astronauts and rodent models identified mitochondrial dysfunction as...

Ageing is closely linked to cellular senescence, but this relationship remains incompletely defined. Although many studies have reported age-associated increases in senescence markers, no review has systematically integrated the available quantitative data across tissues and species to clarify how senescence-associated cell populations change with age. In addition, the field has often used inconsistent definitions for intermediate and senescent states, making cross-study interpretation...

CONCLUSION: Low STS power showed a stronger association with low UGS than low handgrip strength in male. However, their overall impact on functional ability and mortality was similar between muscle function measures in older male and female.

Aging is associated with chronic low-grade inflammation, which is thought to contribute to both cognitive decline and various neurodegenerative diseases. Cannabinoids are reported to reduce levels of inflammatory markers; however, these effects have not been thoroughly assessed in older subjects. To address this gap, we evaluated the effects of sub-chronic cannabis smoke exposure on serum and brain inflammatory markers in younger and older mice. Younger (4 month old) and older (22 month old)...

During aging, the progressive decline in neuronal function contributes to cognitive impairment and predisposes individuals to neurodegenerative disorders. This phenomenon has become increasingly prominent in modern society. Recent studies have found that post-translational modifications (PTMs) of proteins play a crucial role in the aging process, influencing the physiological functions and pathological changes in brain cells. This article reviews the variety and complexity of PTMs across brain...

Dual hole transport layers consisting of NiO(x) and self-assembled molecules are widely adopted in inverted perovskite solar cells, yet plagued by high impurity content, inefficient hole transport, low molecular coverage, weak interfacial binding, unstable buried interface and energy level mismatch. Herein, a low-temperature chemical precipitation strategy is developed to synthesize high-quality NiO(x) nanoparticles as hole transport layers. Compared with the room-temperature route, the...