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CAREER: Engineering next-generation chimeric antigen receptors for cancer immunotherapy using phospho-proteomics

$582,257FY2022ENGNSF

University Of Southern California, Los Angeles CA

Investigators

Abstract

The immune system fights cancer as well as infections. Cancer immunotherapy attempts to harness and bolster this capability. One FDA-approved immunotherapy involves modifying white blood cells from the patient to recognize and attack tumor cells. The resulting cells are referred to as CAR-T cells. Understanding CAR-T activity could enable design of improved cancer immunotherapy. Identifying the signaling pathways that enhance tumor killing in CAR-T cells is a primary objective of the project. This research project will integrate a broader educational plan to educate students, teachers, and the public. Multi-year outreach to a local high school will provide hands-on experience for students. Chimeric antigen receptors (CARs) are comprised of modular protein domains including intracellular signaling/co-stimulation domains. CAR activation stimulates intracellular phosphorylation cascades that promote the cytotoxic functions of T cells. Phospho-proteomics offers quantitative characterization of protein phosphorylation. The governing hypothesis is that a rigorous and comprehensive investigation of CAR signaling using phospho-proteomics will uncover principles of CAR function. This could enable rational engineering of next-generation CARs. Using CD19 as a model antigen, this project will attempt to expand knowledge of CAR signaling and CAR design criteria. The project will pursue the following scientific objectives: 1) Identify signaling pathways that promote CAR-T cell cytotoxic function; 2) Define CAR signaling pathways that enable resistance to exhaustion; and 3) Develop third-generation CARs with improved cytotoxicity and increased persistence. This research will establish a platform that can be used for engineering analysis of CAR signaling and will provide a general framework for CAR design. This award reflects NSF's statutory mission and has been deemed worthy of support through evaluation using the Foundation's intellectual merit and broader impacts review criteria.

View original record on NSF Award Search →