Modeling and addressing on-target/off-tumor toxicity of claudin 18.2 targeted immunotherapies

Abstract

Successfully extending immunotherapies to solid tumors involves addressing several key challenges, importantly the “antigen dilemma”, the expression of a solid tumor target antigen on the normal tissue of tumor origin. Claudin 18.2 (CLDN18.2) has emerged as an important target for upper gastrointestinal (GI) cancer therapies (such as Zolbetuximab, a naked antibody, recently approved; or CT041, a second-generation chimeric antigen receptor (CAR) T cell therapy with promising clinical data). However, GI toxicities are reported from clinical use of both Zolbetuximab and CT041. Here, we describe clinical Zolbetuximab treatment associated cases of gastric erosive lesions. We also demonstrate and characterize on-target/off-tumor gastric toxicity targeting CLDN18.2 in a preclinical mouse model of CT041-scFv derived CAR T cell therapy. By developing CLDN18.2 fully-human VH-only single domain CARs, we demonstrate that on-target/off-tumor toxicity inversely correlates with affinity of the binder, and that a lower affinity CAR may widen the therapeutic window for CLDN18.2 by decreasing on-target/off-tumor toxicity while preserving efficacy. Claudin 18.2 (CLDN18.2) has emerged as a target for gastrointestinal cancer, however, on-target/off-tumor toxicities have been also reported. Here, after reporting evidence of erosive gastritis in patients treated with CLDN18.2 targeted immunotherapies, the authors develop and characterize CLDN18.2 fully-human VH-only single domain CARs, showing that a lower affinity CAR mitigates on-target/off-tumor toxicity while preserving anti-tumor efficacy in gastric cancer models.