Funded with support from Hockey Fights Cancer in honor of Ben Stelter
Glioblastoma (GBM) is the deadliest adult brain cancer. Even with standard of care treatment, survival rates are low. A major challenge is that the brain’s protective barrier blocks most drugs. The tumor also weakens the immune system, making it harder for treatments to work. CAR-T cell therapy is a promising treatment that trains T cells, a special immune cell, to recognize and attack cancer cells. It works well in other cancers, but not GBM. Normally, T cells follow signals from proteins called chemokines and cytokines to locate and fight disease. However, GBM blocks these signals, stopping T cells from working properly. Our study will develop a new immune gene therapy using a harmless virus called AAV to help the immune system fight GBM. This therapy reprograms nearby brain cells (called astrocytes) to send signals that attract and activate immune cells, including CAR-T cells. Our gene therapy will deliver two key proteins: CXCL9 (which attracts T cells) and IL-2 (which helps them grow and stay active). This targeted approach ensures a steady immune response right at the tumor. We will combine this immune gene therapy with CAR-T cells to improve their ability to find, survive, and attack the tumor. Our research will study how AAV works in the brain, activates CAR-T cells, and which AAVs can be used in human clinical trials.
