Current pancreatic cancer chemotherapies are not effective, and targeted therapies are only applicable in about 5% of cases. Furthermore, pancreatic cancers cause immune cell stress, limiting the success of immunotherapies in this disease. Using animal models and tumor samples from pancreatic cancer patients, Dr. Escobar-Hoyos has discovered that changes in RNA splicing, a process that controls protein diversity in cells, are crucial for pancreatic cancer development, therapy resistance, and disruption of anti-tumor immunity. She plans to dissect the molecular role of RNA splicing in pancreatic cancer, which likely drives the disease's lethality. She seeks to develop a novel anti-RNA splicing therapy with dual action-a targeted therapy against tumor cells coupled with an immunotherapy to restore immune cell anti-tumor activity-to more effectively treat pancreatic cancer patients.