Cells that protect newly generated neurons can be genetically engineered to activate anticancer drug, reduce tumor growth and improve survival in mouse model.

Glioblastoma and Melanoma metastasized to the brain are incredibly deadly brain cancers. However, pharmaceutical company Moleculin Biotech, Inc. hopes the diseases have met their match in a small molecule compound known as WP1066.

A researcher in San Antonio is trying to figure out if tweaking a medicine already used to treat the symptoms of glioblastoma could prolong lives. Andrew Brenner at the UT Health San Antonio MD Anderson Cancer Center has modified the drug Avastin, and is researching the effect.

Researchers at Duke have recently discovered a missing link that could be a breakthrough in treating glioblastoma—an aggressive form of brain cancer that doesn't respond to usual treatment. Part of the reason glioblastoma is so deadly is that patients with the disease have extremely low counts of T-cells—white blood cells that fight cancer.

Cancer-hunting stem cells developed from skin cells can track down and deliver a drug to destroy medulloblastoma cells that hide after surgery, according to results from early studies.

T-Cell immunotherapy is a multi-billion dollar success. Companies are genetically engineering an individual’s own immune cells to attack cancer in the blood or lymph system. Chimeric antigen receptor T-cell therapy, or CAR-T therapy has seen huge acquisitions and investments.