Amazonian scorpion venom peptide shows paclitaxel-like action against breast cancer cells in lab tests

Researchers from Weill Cornell Medicine and Wake Forest University School of Medicine have identified a stress-response pathway in immune cells that is activated by chemotherapy and leads to painful nerve damage. In mice, blocking this pathway with a drug already in early-stage cancer trials reduced signs of nerve injury, and a small patient study suggests a blood test might one day predict who is most at risk.

January 30, 2026 An Ruwaito ta hanyar AI

Researchers in Brazil have uncovered how pancreatic cancer uses a protein called periostin to invade nerves and spread early. This discovery explains the disease's aggressiveness and suggests new treatment targets. The findings, published in Molecular and Cellular Endocrinology, highlight the tumor's ability to remodel surrounding tissue.

MIT chemists have successfully synthesized verticillin A, a complex fungal molecule discovered in 1970, for the first time in the lab. The breakthrough enables the creation of variants showing promise against diffuse midline glioma, a rare pediatric brain cancer. This long-elusive compound's structure had thwarted synthesis efforts despite its potential as an anticancer agent.

January 28, 2026 An Ruwaito ta hanyar AI

Researchers in Japan have uncovered how cancer cells use tiny vesicles to spread the immune-suppressing protein PD-L1, explaining why immunotherapy often fails. A protein called UBL3 directs this process, but common statins can disrupt it, potentially boosting treatment effectiveness. The findings, from patient samples and lab tests, suggest a simple way to improve outcomes for lung cancer patients.

Scientists at KAIST in South Korea have developed a novel therapy that transforms a tumor's own immune cells into potent cancer fighters directly inside the body. By injecting lipid nanoparticles into tumors, the treatment reprograms macrophages to produce cancer-recognizing proteins, overcoming barriers in solid tumor treatment. Early animal studies show promising reductions in tumor growth.

January 11, 2026 An Ruwaito ta hanyar AI

Researchers at KAIST have developed an injection that transforms immune cells within tumors into active cancer-killing agents, bypassing the need for complex lab procedures. The method uses lipid nanoparticles to deliver instructions directly to macrophages, enabling them to recognize and attack cancer cells while boosting broader immune responses. In animal tests, the approach significantly slowed tumor growth in melanoma models.