Background: The adoptive transfer of T cells engineered to express chimeric antigen receptors (CAR-T) has shown high efficacy and safety in treating various hematologic malignancies. However, many hematologic disorders, such as BCR::ABL1-negative myeloproliferative neoplasms (MPNs), lack effective treatment options. Some of these neoplasms are marked by a recurrent mutation that results in the expression of mutant calreticulin (mCALR), a neoantigen absent in healthy tissues, making it a highly specific and appealing target for CAR-T cell therapy.
Methods: Five distinct CARs were designed based on available monoclonal antibody sequences that target mCALR and were subsequently used to generate CAR-T cells. The most effective construct was selected through functional in vitro assays against mCALR-positive cell lines. Its efficacy was then evaluated in cell lines, patient-derived cells, and orthotopic xenograft models, assessing tumor burden, CAR-T cell infiltration, and animal survival. Bulk and single-cell RNA sequencing were performed on patient-derived cells and residual tumor cells from CART-treated mice, respectively, to investigate potential resistance mechanisms. The impact of the most relevant pathway alteration on CAR-T efficacy was also analyzed. Pharmacological rescue assays using targeted agents were then conducted.
Results: Among the five constructs, one demonstrated superior and specific cytotoxicity against mCALR-expressing cells, with no activity against mCALR-negative controls. This CAR-T cell also eliminated patient-derived MPN cells and controlled disease progression in xenograft models, which correlated with the persistence of CAR-T cells and tumor infiltration. Transcriptomic profiling of patient samples and residual tumor cells in spleens of treated mice revealed upregulation of anti-apoptotic proteins. Functional assays confirmed reduced CAR-T efficacy in Bcl-2 high cells, which was restored by co-treatment with venetoclax, indicating a viable combination approach to overcome resistance.
Conclusions: This study demonstrates, for the first time, the successful targeting of mCALR with CAR-T cells as a therapeutic strategy for MPNs. The chosen construct shows strong preclinical efficacy against established cell lines and patient-derived cells. Additionally, transcriptomic profiling uncovered apoptosis resistance mechanisms and supports a combination strategy with BH3 mimetics, such as venetoclax. These findings provide a compelling rationale for ongoing preclinical development and future clinical application of anti-mCALR CAR-T cells for the treatment of MPNs.
Keywords: Adoptive cell therapy - ACT; Chimeric antigen receptor - CAR; Coagulopathy; Hematologic Malignancies; Immunotherapy.
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