Rationale: T cell therapeutic strategy using CD19-targeting chimeric antigen receptor (CAR) is a revolutionary, novel, and successful treatment for B-cell malignancies. However, the dependency on T-cell mediated cytotoxicity restricts CAR-T therapy as a patient-specific individualized therapy with severe side effects, such as cytokine release syndrome (CRS). Whether a non-T-cell based universal cellular therapy can substitute CAR-T therapy is largely unknown. Methods: Various artificial antigen-recognizing cells were prepared to determine whether non-T-cell-derived CD19-scFv bearing effector cells could cause target cell death. A universal strategy for CRS-free cellular therapeutics was proposed, utilizing artificial antigen-recognizing cells (AARC), which can be manufactured universally and routinely as "off-the-shelf" mesenchymal stromal cells (MSCs) or other types of non-autologous cells expressing anergic CARs. Results: We demonstrated that T-lymphocytic and non-lymphocytic cells could cause CD19 internalization and subsequent depletion when armed with a CD19-recognizing moiety. This CD19 antigen depletion could efficiently induce T-cell independent apoptosis in target cancer cells whose survival depends on CD19 expression, suggesting that CD19 antigen depletion constitutes a crucial tumor destroying mechanism for CD19-CAR-T, especially for its long-term efficacy. Conclusion: Our results uncovered an unrecognized CAR-T cytotoxicity and antigen loss mechanism and provided new insights into a shift from unique patient-specific autologous therapeutics to universal and standardized allogeneic treatment.
Keywords: CAR-T; CD19; artificial antigen-recognizing cell; cellular therapy; cytokine release syndrome.
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