Scientists have identified a potential new strategy for treating glioblastoma, the deadliest form of brain cancer, by reprogramming aggressive cancer cells into harmless ones. The findings demonstrate that combining radiation therapy with a plant-derived compound called forskolin can force glioblastoma cells into a dormant state, making them incapable of dividing or spreading. When tested in mice, the addition of forskolin to radiation prolonged survival, offering a potential new avenue for combating glioblastoma, a disease with limited treatment options and a median survival time of just 15 to 18 months after diagnosis. "Radiation therapy, while effective in killing many cancer cells,...