Abstract
Current CD33-targeted immunotherapies typically recognize the membrane-distal V-set domain of CD33. Here, we show that decreasing the distance between Tcell and leukemia cell membrane increases the efficacy of CD33 chimeric antigen receptor (CAR) Tcells. We therefore generated and optimized second-generation CAR constructs containing single-chain variable fragments from antibodies raised against the membrane-proximal C2-set domain, which bind CD33 regardless of whether the V-set domain is present (CD33PAN antibodies). CD33PAN CAR Tcells resulted in efficient tumor clearance and improved survival of immunodeficient mice bearing human AML cell xenografts and, in an AML model with limited CD33 expression, forced escape of CD33neg leukemia. Compared to CD33V-set CAR Tcells, CD33PAN CAR Tcells showed greater invitro and invivo efficacy against several human AML cell lines withdiffering levels of CD33 without increased expression of exhaustion markers. CD33PAN moieties were detected at a higher frequency on human leukemic stem cells, and CD33PAN CAR Tcells had greater invitro efficacy against primary human AML cells. Together, our studies demonstrate improved efficacy with CAR Tcells binding CD33 close to the cell membrane, providing the rationale to investigate CD33PAN CAR Tcells further toward possible clinical application.
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