PT - JOURNAL ARTICLE AU - Rajakaruna, Harshana AU - Desai, Milie AU - Das, Jayajit TI - PASCAR: a multiscale framework to explore the design space of constitutive and inducible CAR T cells AID - 10.26508/lsa.202302171 DP - 2023 Oct 01 TA - Life Science Alliance PG - e202302171 VI - 6 IP - 10 4099 - https://www.life-science-alliance.org/content/6/10/e202302171.short 4100 - https://www.life-science-alliance.org/content/6/10/e202302171.full SO - Life Sci. Alliance2023 Oct 01; 6 AB - CAR T cells are engineered to bind and destroy tumor cells by targeting overexpressed surface antigens. However, healthy cells expressing lower abundances of these antigens can also be lysed by CAR T cells. Various CAR T cell designs increase tumor cell elimination, whereas reducing damage to healthy cells. However, these efforts are costly and labor-intensive, constraining systematic exploration of potential hypotheses. We develop a protein abundance structured population dynamic model for CAR T cells (PASCAR), a framework that combines multiscale population dynamic models and multi-objective optimization approaches with data from cytometry and cytotoxicity assays to systematically explore the design space of constitutive and tunable CAR T cells. PASCAR can quantitatively describe in vitro and in vivo results for constitutive and inducible CAR T cells and can successfully predict experiments outside the training data. Our exploration of the CAR design space reveals that optimal CAR affinities in the intermediate range of dissociation constants effectively reduce healthy cell lysis, whereas maintaining high tumor cell-killing rates. Furthermore, our modeling offers guidance for optimizing CAR expressions in synthetic notch CAR T cells. PASCAR can be extended to other CAR immune cells.