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Experimental drug reverses severe fatty liver disease by repairing the gut
An experimental drug called DT-109 reversed severe fatty liver disease in animal studies by repairing the gut and preventing harmful toxins from damaging the liver. The discovery could open the door to a new class of treatments for MASH and potentially other diseases tied to gut health.
Second pregnancy changes the brain in surprising new ways
Researchers found that every pregnancy rewires the brain in its own way, with a second pregnancy bringing a different pattern of changes than the first. The discoveries could lead to better ways to recognize and treat maternal mental health challenges, including peripartum depression.
Regional brain and cerebrovasculature morphology during normative aging in male and female C57BL/6N mice
CONCLUSION: Our study reports regional brain changes across the lifespan in an age- and sex-dependent manner in C57BL/6N mice.
Why the human body has so many design flaws
Many of the body's biggest flaws are the result of evolution building on old designs instead of starting over. Our spine, eyes, teeth, pelvis, and even certain nerves all reveal compromises that worked well enough for survival but still leave us prone to pain, injury, and disease. Structures like the appendix and ear muscles also remain because they were never harmful enough for evolution to eliminate. Together, these features tell the story of a body shaped by history rather than perfection.
Scientists discover the one nutrient beneficial parasites can't live without
A new study found that dietary fiber can determine whether beneficial intestinal worms help reduce inflammation or become essentially inactive. With plenty of fiber, the worms remained healthy and supported an anti-inflammatory response, while a low-fiber diet pushed them into a hibernation-like state that eliminated those benefits. Researchers also found that fiber-rich diets promoted healthier gut bacteria, whereas Western-style diets reduced microbial diversity and encouraged less desirable microbes.
Heavy marijuana smoking may increase cancer risk, researchers warn
Heavy marijuana smoking may raise the risk of lung cancer and several head and neck cancers, according to growing research, but many important questions remain unanswered. Scientists are still trying to determine how much marijuana use is enough to significantly increase cancer risk. Edibles have not been linked to lung cancer so far, while the long-term effects of vaping marijuana and secondhand marijuana smoke are still being investigated.
Spain's largest research organization confronts its dark past
Spanish National Research Council, established under Francisco Franco’s dictatorship, has published the stories of some 500 researchers and support staff purged after civil war
Mitochondrial-ER stress crosstalk in osteoarthritis: From ageing-associated chondrocyte dysfunction to emerging therapeutics
Osteoarthritis (OA) is a common age-associated joint disorder driven not only by mechanical wear but also by progressive intracellular stress, metabolic imbalance, and chronic inflammation that culminate in cartilage degeneration and functional disability. Increasing evidence identifies mitochondrial dysfunction and endoplasmic reticulum stress (ERS) as central pathological hubs regulating chondrocyte survival, extracellular matrix (ECM) integrity, and inflammatory signaling. Mitochondrial...
Associations among cognitive performance, VCAM-1, and GFAP in black adults: The ARCHES study
Astrocytic injury and endothelial activation are interconnected processes within the neurovascular system that may contribute to variability in cognitive performance among cognitively unimpaired adults. Glial fibrillary acidic protein (GFAP) reflects astrocytic injury, while vascular cell adhesion molecule-1 (VCAM-1) reflects systemic endothelial activation. We examined whether VCAM-1 modifies associations between GFAP and cognition in cognitively unimpaired Black adults. This cross-sectional...
Hydrogen sulfide at the intersection of aging and type 2 diabetes: mechanisms of metabolic rewiring
Hydrogen sulfide (H(2)S) is an important molecule in cellular metabolism given its merits as an antioxidant, a substrate for the mitochondrial electron transport chain and as a signaling molecule via promotion of cysteine persulfidation in peptides and proteins. Studies in cell culture, animal models, and humans have supported a central role of H(2)S in the control of aging and age-related metabolic diseases. Enhanced intracellular H(2)S production has been associated with extended survival in...
Acid ceramidase modulates the lipid profile and exacerbates sensitivity to ferroptosis in WI-38 replicative senescent cells
Cellular senescence, a complex biological process characterized by irreversible cell cycle arrest and the senescence-associated secretory phenotype, has emerged as a critical target for therapeutic development for age-related diseases. Ferroptosis, an iron-dependent regulated cell death pathway driven by the accumulation of lipid peroxidation in cell membranes, has been implicated in age-related disorders. This study investigated the relationship between cellular senescence and ferroptosis....
Molecularly defined auditory neuron subtypes show different vulnerabilities to noise- and age-related synaptopathy in mice
Neuronal subtype-specific synaptopathy is a hallmark of many forms of neurodegeneration. We examined the cellular basis for synaptic vulnerability in the auditory system, where three subtypes of spiral ganglion neurons (SGNs)-Ia, Ib, and Ic-carry acoustic information from the cochlea to the brain. In response to noise and aging, a subset of synapses between inner hair cells and SGNs are lost, but it is unclear how this loss varies across SGN subtypes. Using genetic labeling, we showed that Ia...
Intrinsic capacity and comorbidity burden capture distinct but age-driven dimensions of health in older postmenopausal women
CONCLUSIONS: IC captures dimensions of functional vulnerability not fully accounted for by comorbidity burden alone.
Psychological stress in mice induces ageing-like HSC dysfunction through intestinal dysbiosis
No abstract
Cognitive network plasticity across divergent aging trajectories: an exploratory graph-theoretic study
Interindividual variability in response to cognitive training remains a key barrier to developing precision approaches for maintaining neurocognitive health across the lifespan. Characterizing changes in system-level cognitive reorganization may provide insight into mechanisms of cognitive reserve, resilience, and plasticity that shape divergent aging trajectories and vulnerability to age-related cognitive decline. This exploratory study applies a cognitive network framework to examine how...
Frailty assessment and effect of physical activity interventions in older adults: a scoping review, meta-analysis, and meta-regression
CONCLUSION: Physical activity interventions are associated with reductions in frailty when assessed using the Fried phenotype. However, substantial heterogeneity in frailty assessment and intervention reporting limits comparability and clinical translation. Standardization of frailty measures and improved reporting of intervention characteristics are needed to optimize and implement effective PA strategies in older adults.
Multidimensional determinants of depression and non-depression in older adults: evidence from national data
CONCLUSION: Geriatric depression in Türkiye is a multidimensional phenomenon with complex socioeconomic and environmental determinants, in addition to biological factors. In particular, older women, individuals living alone, and economically disadvantaged groups are at high risk. The findings indicate that, to support healthy aging, clinical interventions alone are insufficient; strengthening social support networks, enhancing urban accessibility, and urgently developing inclusive public health...
Suppression of Ciliogenesis Alleviates Cellular Senescence via AKT Signaling in Gingival Aging
Aging, as an intrinsic risk factor, accelerates gingival inflammation and periodontal diseases. However, the cellular and molecular mechanisms underlying gingival aging remain unclear, hindering the development of targeted therapies. In this study, we performed the first single-cell transcriptomic analysis of aging human gingiva, identifying primary cilia as potential regulators of gingival fibroblast senescence. We demonstrated that aged gingival tissues exhibit increased fibroblast senescence...
Modeling Parkinson's pathology in human iPSC dopaminergic neurons uncovers key mechanisms of Lewy body formation and heterogeneity
The aggregation of alpha-synuclein (aSyn) into intraneuronal inclusions of heterogeneous morphology, known as Lewy bodies (LBs), is a defining hallmark of Parkinson's disease (PD); yet, our understanding of the mechanisms underpinning their formation and heterogeneity remains incomplete. Here, we present a human isogenic induced pluripotent stem cell-derived dopaminergic neuron (iDA) model that faithfully recapitulates the diverse biochemical, morphological, and ultrastructural features of LB...
Transcriptomic Evidence of Mitochondrial Double-Stranded RNA Accumulation in Brain Aging and Alzheimer's Disease
Mitochondria and inflammation are tightly linked in aging and Alzheimer's disease (AD), and recent evidence implicates mitochondrial double-stranded RNA (mt-dsRNA) as a potential trigger of inflammation. We examined mt-dsRNA accumulation and dsRNA signaling in brain aging and AD using complementary human brain tissue and in vitro transcriptomic datasets by quantifying mitochondrial transcripts, dsRNA editing, and related gene expression patterns. We found that mt-dsRNA signatures increased after...