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Scientists at UBC Okanagan have uncovered how plants produce mitraphylline, a rare natural compound with promising anti cancer potential. The team identified two enzymes that work together to build the molecule’s unusual twisted structure, solving a mystery that had puzzled researchers for years. Because mitraphylline appears only in tiny amounts in tropical plants like kratom and cat’s claw, the discovery could make it far easier to produce sustainably in the future.

Scientists at the University of Maryland, Baltimore County, have uncovered a crucial trick used by enteroviruses—the group behind diseases like polio, myocarditis, encephalitis, and even the common cold—to reproduce inside human cells. The team captured, in unprecedented detail, how viral RNA recruits both viral and human proteins to assemble the machinery needed for replication, acting almost like a molecular “on-off switch” that controls whether the virus copies itself or makes proteins.

Researchers found a new way to kill harmful “zombie” cells that linger after chemotherapy and help cancers become more aggressive. These senescent cells survive by relying on a protective protein called GPX4, even while sitting on the edge of a deadly iron-triggered collapse. New drugs remove that protection, causing the cells to self-destruct. In mice, the approach reduced tumor size and boosted survival, hinting at a promising new cancer therapy.

As blood stem cells age, their lysosomes become overactive and damaged, triggering inflammation and weakening the body’s ability to regenerate healthy blood and immune cells. By calming this cellular “overdrive,” researchers restored the stem cells’ youthful function, dramatically boosting their ability to regenerate and produce balanced blood cells.

A four-week diet change was enough to make some older adults appear biologically younger in a new University of Sydney study. Participants who reduced fat intake or shifted toward more plant-based protein showed improvements in key health biomarkers tied to aging. The strongest results came from a lower-fat, higher-carb diet, while people eating closer to their usual diets saw almost no change.

Letters from Senate and House of Representatives question purge of the National Science Board

Scientists at McGill University have uncovered a hidden molecular “switch” that turns on a powerful calorie-burning system in brown fat — the body’s heat-generating fat linked to metabolism and weight control. The breakthrough centers on glycerol, a molecule released when fat is broken down in the cold, which activates an enzyme called TNAP and triggers an alternative heat-producing pathway that scientists had struggled to explain for years.

CONCLUSIONS: In cognitively unimpaired Asian populations, plasma p-tau217 and Aβ42/40 showed good discriminative performance for Aβ PET positivity. Further standardization, external validation, and prospective evaluation are needed.

Accurate measurement of brain vascular pathology is essential for understanding its role in cognitive aging. Here we classified participants using the amyloid-tau-neurodegeneration framework in a multicenter cohort and identified cerebrospinal fluid brain endothelial-derived small extracellular vesicles (c-BEEVs) as a sensitive biomarker, which correlated with vascular risk factors and the severity of small-vessel disease. c-BEEVs showed high diagnostic performance for vascular cognitive...

No abstract

CONCLUSION: Adverse trajectories of depressive symptoms, particularly persistent and increasing patterns, are consistently associated with elevated osteoarthritis risk across diverse populations. These findings underscore the importance of longitudinal mental health monitoring and suggest that early intervention for depressive symptoms may represent a modifiable pathway for osteoarthritis prevention. The observed effect modification patterns highlight the need for population-specific and...

CONCLUSION: The interpretable machine learning framework based on dietary antioxidant profiles can robustly predict accelerated biological aging. XGBoost demonstrated the best performance in predicting accelerated aging risk. Daidzein, apigenin, magnesium, zinc, and vitamin E are core dietary antioxidants closely associated with a reduced risk of accelerated biological aging. This study provides analytical reference at the large population level for the development of nutritional intervention...

CONCLUSION: Although 1-RM estimates derived from the corrected V(1RM) showed minimal average bias, interindividual variability persisted across both estimation methods, limiting the accuracy of 1-RM predictions at the individual level.

CONCLUSION: In addition to the vitality, cognition and psychology IC domains, environmental factors including sufficiency of care, housing prices and PM(10) showed important direct associations with FA. Interactions between IC and the environment primarily involved social environmental factors. Further longitudinal research is needed to clarify the mechanisms underlying these direct and interactive associations.

CONCLUSION: Hearing loss is consistently associated with increased depression risk in varied cultural contexts, underscoring the need for early screening and intervention in aging populations.

CONCLUSION: Greater degrees of ACEs exposure are associated with a heightened risk of IC impairment in middle-aged and older adults aged 45 and above in China. These findings highlight the importance of targeted screening and life-course trauma-informed care for individuals with high ACEs exposure in effectively identifying those at high risk of IC impairment and promoting healthy aging.

Cellular senescence, a complex multifactorial process, is involved in the pathophysiology of various age-related diseases, such as cardiovascular disease and neurodegenerative disorders. Traditional interventions targeting single mechanisms yield limited efficacy. As a core hallmark and driver of aging, immunosenescence provides a critical target for precision interventions. This systematic review examines the hallmarks of aging, including cellular damage, epigenetic abnormalities, and...

The duration and dynamic evolution of surface water on Mars are key to understanding its past habitability. Utopia Planitia, Mars' largest northern basin, preserves mineralogical signatures of ancient aqueous activity that remains chronologically unconstrained. Here, we present the quantitative reconstruction of the Hesperian Ocean's lifecycle using spectral analysis of manganese (Mn) (hydr)oxides as paleohydrological markers. Our innovative Spectral Contrastive-Aware Network, a deep learning...

Major advances over the past few decades have highlighted the complex regulation of RNA from transcription to nuclear export and from translation to decay. Despite the emerging cellular landscape of malleable and multifunctional RNA molecules, the role of RNA dysregulation in ageing, one of the most fundamental processes of human biology, is underappreciated. Here we focus on ageing-linked dysregulation of the mRNA life cycle. We summarize how RNA metabolism steadily deviates throughout ageing...

Spatial transcriptomics has emerged as a transformative approach for in situ mapping of cellular heterogeneity and interactions, yet existing methods often compromise throughput, cost and tissue coverage. Here we introduce Imaging Reconstruction using Indexed Sequencing (IRISeq): an optics-free, cost-effective platform that leverages spatial interaction mapping by indexed sequencing to profile tissues at adjustable sizes and resolutions (5-50 µm). We applied IRISeq to map gene expression across...