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Popular weight loss drugs like Wegovy may also target arthritis inflammation
Researchers have discovered that the GLP-1 hormone targeted by drugs like Wegovy is present in very low amounts inside the joints of arthritis patients. That finding suggests high-dose GLP-1 medications could potentially reach the joints and influence inflammation directly, not just help through weight loss. Scientists say this could open the door to a completely new approach to arthritis treatment.
“Zombie cells” aren’t always bad and that could transform anti-aging medicine
Scientists are uncovering a surprising truth about aging cells: some may damage the body, while others help protect it. The discovery is fueling a new wave of precision anti-aging therapies aimed at removing only the harmful “zombie” cells without disrupting the body’s natural repair systems.
Scientists discover a two-stage aging process that may cause cancer and arthritis
A new theory suggests many age-related diseases may actually start decades before symptoms appear. Researchers say early-life damage — from infections, injuries, or genetic mutations — can remain hidden until aging weakens the body’s ability to keep it under control. This could explain why conditions like cancer, osteoarthritis, and shingles suddenly emerge later in life.
Think you’re bad at languages? Experts say these 5 myths are to blame
Many people avoid learning a new language because they remember stressful grammar lessons or fear making mistakes. But language experts say communication, culture, and connection matter far more than perfection. Modern apps, entertainment, travel, and online communities have made learning easier, more social, and surprisingly fun.
Childhood junk food may rewire the brain for life
Eating too much junk food early in life may rewire the brain in ways that last into adulthood, even after switching to a healthier diet. Scientists found that high-fat, high-sugar diets changed feeding behavior and disrupted appetite-control regions in the brain. Excitingly, certain gut-friendly bacteria and prebiotic fibers appeared to help undo some of the damage.
Popular GLP-1 weight-loss drugs like Ozempic slash heart attack and stroke risk
A huge international review found that GLP-1 weight-loss drugs significantly reduce the risk of heart attacks, strokes, heart failure, and premature death over the long term. Researchers say these medications could become a major weapon against cardiovascular disease — not just obesity and diabetes.
Common pesticide linked to hidden brain damage, scientists warn
Scientists have uncovered alarming new evidence that a common insecticide may leave lasting marks on the developing brain before a child is even born. Researchers studying New York City children found that prenatal exposure to chlorpyrifos — a pesticide once widely used indoors and still used in agriculture — was linked to widespread brain abnormalities and weaker motor skills years later.
Scientists discover hidden weakness shared by hundreds of cancer mutations
Scientists have unveiled a powerful new tool called PerturbFate that could change how researchers tackle diseases driven by huge numbers of genetic mutations, including cancer and Alzheimer’s. Instead of trying to target every faulty gene individually, the system tracks how different mutations reshape cells over time and identifies the hidden “control hubs” where those pathways converge.
Nitric oxide drives proteomic diversity through alternative splicing
Redox signaling by nitric oxide (NO) is estimated to control a large part of the global proteome via S-nitrosylation (SNO-modification). Here, we report that RNA-binding proteins (RBPs) represent the most significantly enriched class of S-nitrosylation targets, with broad coverage of spliceosomal factors. We demonstrate that NO regulates alternative splicing (AS) and that S-nitrosylation of PTBP1, a central regulator of AS, can massively shift and contextually alter gene expression while further...
DTI-ALPS index and its association with neuroinflammatory and neurodegenerative biomarkers and tau-PET in Alzheimer's continuum
Glymphatic dysfunction may contribute to abnormal protein accumulation in Alzheimer's disease (AD). This study investigates associations between an indirect proxy of glymphatic function, plasma neurodegenerative and neuroinflammatory biomarkers, and tau-PET burden across the AD continuum. Data from 407 ADNI participants were utilized. Diffusion Tensor Image Analysis Along the Perivascular Space (DTI-ALPS) is used as a noninvasive proxy of glymphatic activity. Multivariable linear regression...
A hybrid CNN-GCN framework for interpretable Alzheimer's disease diagnosis from MRI scans
Medical image analysis for Alzheimer's Disease (AD) diagnosis faces two key challenges: capturing spatial dependencies between anatomically connected brain regions and providing clinically interpretable explanations. While Convolutional Neural Networks (CNNs) excel at local feature extraction and Vision Transformers handle long-range dependencies, neither explicitly models the relational structure between brain regions-critical for understanding disease progression. We propose a hybrid CNN-GCN...
TDP-43: a critical amplifier of Alzheimer's disease beyond amyloid and tau
TAR DNA-binding protein 43 (TDP-43) proteinopathy has recently emerged as a pivotal, yet underrecognized, contributor to the multifaceted neuropathology of Alzheimer's disease (AD). While amyloid-β and tau have long been established as cardinal pathological hallmarks, growing evidence delineates TDP-43 as a critical participant of neurodegeneration, intricately interwoven with amyloid and tau pathologies. TDP-43 mislocalization, post-translational modifications, and aggregation potentiate...
The age of ageing
No abstract
N-acetyl cysteine and skeletal muscle health across aging and disease models: A systematic review of preclinical and preliminary human evidence
CONCLUSION: NAC shows potential in modulating mechanisms of muscle deterioration, but evidence remains largely preclinical. Well-designed randomized trials in older adults, particularly with sarcopenia or frailty, are needed.
Low handgrip strength prospectively predicts osteoporosis incidence in community-dwelling older adults: A population-based longitudinal analysis
CONCLUSION: This study provides longitudinal evidence from a large prospective cohort indicating that LHS is an independent predictor of self-reported incident OP in the older population. As a simple and practical tool, handgrip strength testing can aid in the early identification of individuals at high risk for OP in community and clinical settings, providing a basis for implementing targeted preventive strategies, while highlighting the need for future research to confirm the observed...
Ribonuclease DIS3 delays aging and senescence by generating tRNA halves
Transfer RNA (tRNA) halves (tRHs) are generated via the cleavage of tRNAs, but their roles in aging and longevity remain poorly understood. Here, we demonstrate a direct role of tRHs in aging in metazoans. Through a genetic screen using Caenorhabditis elegans, we identify DIS-3/DIS3 as a ribonuclease that catalyzes tRH generation, including 5'-tRH-Gln and 5'-tRH-Asp, from tRNAs. Among them, 5'-tRH-Gln is essential for longevity conferred by various interventions, including dietary restriction....
Long-term cross-variant Fc-mediated immune responses against SARS-CoV-2 induced by a heterologous adenoviral/inactivated virus prime-boost vaccination strategy
Limited vaccine availability and logistical barriers during the COVID-19 pandemic have hindered homologous boosting in resource-limited regions. Therefore, heterologous prime-boost regimens have gained attention as versatile and practical alternatives. We evaluated the immunogenicity and longevity of four vaccine regimens in adults from Mozambique and Madagascar: single-dose Ad26.COV2.S (Ad26.S), homologous BBIBP-CorV (BBIBP), and two heterologous combinations (BBIBP-Ad26.S and Ad26.S-BBIBP, in...
Co-occurring clonal hematopoiesis exhibits strong selection and high leukemia risk
Clonal hematopoiesis of indeterminate potential (CHIP) and mosaic chromosomal alterations (mCAs) are two types of clonal hematopoiesis (CH) associated with hematological parameters and malignancy risk. Here we show, in genomic data from 546,090 biobank participants, that co-occurring CH (≥2 CH mutations detected) is present in 1.6% of cancer-free individuals and shows strong evidence for selection (up to 804x enrichment). Co-occurrence is more frequent in those with a prior cancer (3.6%),...
C2orf74 orchestrates germ-Leydig crosstalk to inhibit white adipose tissue browning in male mice
Sex differences in obesity are well recognized; however, the identification of sex-specific obesity genes and the mechanisms through which they affect obesity development remain elusive. Here, we identify a germ-cell-specific gene C2orf74, whose expression is responsive to high-fat diet (HFD) and promotes HFD-induced obesity in male mice by restraining lipolysis and limiting the browning of white adipocytes through suppression of androgen receptor signaling, but not in females. Additionally,...
Skin aging: mechanisms, evaluation, and rejuvenation
Skin aging, the most visible and accessible manifestation of organismal aging, reflects systemic physiological decline, compromising barrier integrity, immune defense, and regenerative capacity-functions essential for overall tissue homeostasis and longevity. Understanding why and how the skin ages offers crucial insights into tissue homeostasis and systemic aging. Here, we dissect the multi-layered mechanisms of skin aging across the epidermis, dermis, and appendages, highlighting how intrinsic...