Journal for ImmunoTherapy of Cancer (Apr 2025)
CD22 CAR-T cells secreting CD19 T-cell engagers for improved control of B-cell acute lymphoblastic leukemia progression
Abstract
Background CD19-directed cancer immunotherapies, based on engineered T cells bearing chimeric antigen receptors (CARs, CAR-T cells) or the systemic administration of bispecific T cell-engaging (TCE) antibodies, have shown impressive clinical responses in relapsed/refractory B-cell acute lymphoblastic leukemia (B-ALL). However, more than half of patients relapse after CAR-T or TCE therapy, with antigen escape or lineage switching accounting for one-third of disease recurrences. To minimize tumor escape, dual-targeting CAR-T cell therapies simultaneously targeting CD19 and CD22 have been developed and validated both preclinically and clinically.Methods We have generated the first dual-targeting strategy for B-cell malignancies based on CD22 CAR-T cells secreting an anti-CD19 TCE antibody (CAR-STAb-T) and conducted a comprehensive preclinical characterization comparing its therapeutic potential in B-ALL with that of previously validated dual-targeting CD19/CD22 tandem CAR cells (TanCAR-T cells) and co-administration of two single-targeting CD19 and CD22 CAR-T cells (pooled CAR-T cells).Results We demonstrate that CAR-STAb-T cells efficiently redirect bystander T cells, resulting in higher cytotoxicity of B-ALL cells than dual-targeting CAR-T cells at limiting effector:target ratios. Furthermore, when antigen loss was replicated in a heterogeneous B-ALL cell model, CAR-STAb T cells induced more potent and effective cytotoxic responses than dual-targeting CAR-T cells in both short- and long-term co-culture assays, reducing the risk of CD19-positive leukemia escape. In vivo, CAR-STAb-T cells also controlled leukemia progression more efficiently than dual-targeting CAR-T cells in patient-derived xenograft mouse models under T cell-limiting conditions.Conclusions CD22 CAR-T cells secreting CD19 T-cell engagers show an enhanced control of B-ALL progression compared with CD19/CD22 dual CAR-based therapies, supporting their potential for clinical testing.
