Chimeric antigen receptor (CAR) T cell therapy mediates unprecedented benefit in certain leukemias and lymphomas, but has yet to achieve similar success in combating solid tumors. A substantial body of work indicates that the accumulation of adenosine in the solid tumor microenvironment (TME) plays a crucial role in abrogating immunotherapies. Adenosine deaminase 1 (ADA) catabolizes adenosine into inosine and is indispensable for a functional immune system. We have, for the first time, engineered CAR T cells to overexpress ADA. To potentially improve the pharmacokinetic profile of ADA, we have modified the overexpressed ADA in two ways, through the incorporation of a (1) albumin-binding domain or (2) collagen-binding domain. ADA and modified ADA were successfully expressed by CAR T cells and augmented CAR T cell exhaustion resistance. In a preclinical engineered ovarian carcinoma xenograft model, ADA and collagen-binding ADA overexpression significantly enhanced CAR T cell expansion, tumor tissue infiltration, tumor growth control, and overall survival, whereas albumin-binding ADA overexpression did not. Furthermore, in a syngeneic colon cancer solid tumor model, the overexpression of mouse ADA by cancer cells significantly reduced tumor burden and remodeled the TME to favor antitumor immunity. The overexpression of ADA for enhanced cell therapy is a safe, straightforward, reproducible genetic modification that can be utilized in current CAR T cell constructs to result in an armored CAR T product with superior therapeutic potential.
Keywords: CAR T cell; adenosine deaminase; adenosinergic signaling; albumin-binding domain; collagen-binding domain.