Expert concerns temper promise of CAR T therapy for aging gut

Cold Spring Harbor Laboratory researchers report that engineered anti-uPAR CAR T cells cleared senescence-linked cells in mice, improving intestinal regeneration, reducing inflammation and strengthening gut barrier function. The approach also aided recovery from radiation-related intestinal injury and showed regenerative signals in experiments using human intestinal and colorectal cells, raising the possibility of future clinical trials.

14. december 2025 Rapporteret af AI Faktatjekket

Researchers at Mayo Clinic have developed an aptamer-based technique to tag senescent, or so‑called “zombie,” cells in living mouse tissues, work they say could eventually support targeted therapies for age‑related diseases. The project grew out of a chance conversation between two graduate students, according to Mayo Clinic.

Researchers have demonstrated that restoring levels of a key brain energy molecule can reverse advanced Alzheimer's disease in mouse models, repairing damage and restoring cognitive function. The study, published on December 22, challenges the long-held view that the condition is irreversible. Findings from human brain tissue support the approach's potential relevance to patients.

1. februar 2026 Rapporteret af AI Faktatjekket

Researchers report that small doses of the antibiotic cephaloridine can prompt certain gut bacteria to increase production of colanic acid, a microbial polysaccharide previously tied to longer lifespan in laboratory animals. In experiments, treated roundworms lived longer and mice showed shifts in cholesterol or insulin measures associated with aging, with the team arguing the approach works by acting in the gut rather than throughout the body.

Researchers at Queen Mary University of London have found that rapalink-1, an experimental TOR inhibitor being investigated for cancer therapy, extends the lifespan of fission yeast. The study also uncovered a role for agmatinases in regulating the TOR pathway through a metabolic feedback loop, suggesting potential links between diet, gut microbes, and aging.

24. januar 2026 Rapporteret af AI Faktatjekket

University of Minnesota researchers report that older mice’s macrophages can become locked in an inflammatory state through an autocrine signaling loop involving the protein GDF3 and the transcription factors SMAD2/3. In experiments, genetic deletion of Gdf3 or drugs that interfered with the pathway reduced inflammatory responses and improved survival in older endotoxemia models, while human cohort data linked higher GDF3 levels with markers of inflammation.