Experimental drug NU-9 targets early Alzheimer's damage in mice

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.

13. Januar 2026 Von KI berichtet

Chinese biotech firm SciNeuro Pharmaceuticals has partnered with Swiss pharmaceutical giant Novartis in a deal worth nearly $1.7 billion to develop treatments for Alzheimer's disease, which affects some 55 million people worldwide. The agreement grants Novartis exclusive worldwide rights to develop and commercialise SciNeuro's antibody candidates for the progressive brain disease. SciNeuro's novel amyloid beta-targeted antibody programme leverages proprietary blood-brain barrier shuttle technology to help more of the drug cross into the brain where Alzheimer's damage occurs.

Researchers at Kindai University report that oral arginine, a common amino acid, suppresses amyloid‑β aggregation and its toxic effects in fruit fly and mouse models of Alzheimer’s disease. In treated animals, amyloid buildup fell, inflammation markers dropped, and behavioral performance improved, suggesting arginine could be a low‑cost candidate for drug repurposing.

25. Januar 2026 Von KI berichtet

Researchers at the National University of Singapore have discovered that calcium alpha-ketoglutarate, a naturally occurring molecule, can repair key memory processes disrupted by Alzheimer's disease. The compound improves communication between brain cells and restores early memory abilities that fade first in the condition. Since it already exists in the body and declines with age, boosting it could offer a safer approach to protecting brain health.

Researchers at Washington University School of Medicine in St. Louis, working with scientists at Northwestern University, have developed a noninvasive nasal nanotherapy that activates the immune system to attack aggressive brain tumors in mice. By delivering spherical nucleic acids that trigger the STING immune pathway directly from the nose to the brain, the approach eliminated glioblastoma tumors in mouse models when combined with drugs that boost T-cell activity, according to a study in the Proceedings of the National Academy of Sciences.

23. Dezember 2025 Von KI berichtet

An experimental gene therapy has demonstrated significant promise in slowing the progression of Huntington’s disease, a rare form of dementia, by about 75 percent in a late-stage trial. Researchers hailed the breakthrough as a major step forward, though challenges remain in delivery and regulatory approval. Efforts are underway to develop a more practical version of the treatment.