Potent and Target Specific Cytotoxicity of PRAME TCR Mimic CAR T Cells in KMT2A-Rearranged AML Patient-Derived Xenograft Model

癌症研究 生物 嵌合抗原受体 髓系白血病 髓样 CD19 造血 T细胞 T细胞受体 白血病 抗原 免疫学 干细胞 细胞生物学 免疫系统
作者
Danielle Kirkey,Leila Robinson,Tiffany Hylkema,Anisha M. Loeb,Rhonda E. Ries,Cyd N. McKay,Christina Root,Laura Pardo,Keith R. Loeb,Quy Le,David A. Scheinberg,Soheil Meshinchi
出处
期刊:Blood [Elsevier BV]
卷期号:142 (Supplement 1): 4821-4821
标识
DOI:10.1182/blood-2023-188391
摘要

Chimeric antigen receptor (CAR) T cell therapy was a resounding success in CD19+ ALL despite the fact that it is essential for B-cell maturation because it is not expressed during normal myeloid hematopoiesis. Normal and leukemic B-cells are targeted by CD19+ CAR T-cells without causing myeloid hematopoietic toxicity. Advancing such therapy to acute myeloid leukemia (AML) has been challenging in part due to a paucity of “dispensable” targets or targets whose expression is limited to the leukemic cells. Using a large AML and normal hematopoiesis transcriptome database, we pursued discovery of “AML-Restricted Targets”; genes that are silent in normal hematopoiesis but expressed in AML. This broad discovery effort yielded a library of AML-restricted targets that included PRAME (Preferentially Expressed Antigen in Melanoma), an intracellular protein expressed via MHC on the cell surface, to be a highly expressed in AML including the aggressive KMT2A-rearranged (KMT2A-r) AML. We used a TCR mimic (mTCR) antibody, which recognizes the PRAME peptide/HLA-A2 complex on the tumor cell surface, to develop a PRAME directed TCR mimic CAR T (PRAME mTCRCAR T) for pre-clinical studies. Studies in cell lines and CDX models have shown significant efficacy of this CAR T (Kirkey, Bld Adv. 2022). To conduct final IND-enabling studies, we generated a KMT2A-r HLA-A2+/PRAME+ patient-derived xenograft (PDX) model to treat with PRAME mTCRCAR T-cells. Here we demonstrate the in vivo activity of PRAME mTCRCAR T cells against this unique PDX AML model. VL and VH sequences from the PRAME specific TCR mimic antibody (Pr20) were used to construct the single-chain fragment variable domain into the 41-BB/CD3ζ CAR vector. The PDX model was derived from a PRAME +/HLA-A2 + pediatric patient with KMTA2-r AML. PDX cells were transduced with lentiviral ffluciferase for noninvasive bioluminescent IVIS imaging to monitor leukemic progression. Mice were transplanted with 1x10 6 PDX leukemia cells then 1 week later, PDX leukemia-bearing mice were treated with unmodified T cells or PRAME mTCRCAR T cells at 5x10 6 cells (1:1 CD4:CD8) per mouse. Leukemia burden was measured by IVIS imaging and regular peripheral blood analysis. Mice who received unmodified T cells had rapid disease progression by day 50 and all died by day 105. In contrast, PRAME mTCRCAR T-treated mice rapidly cleared disease and all remained alive and leukemia-free >180 days post-treatment (p=0.001). Average leukemia burden in the control cohort was 3.5% at week 6 and 41.75% at week 11, while no leukemia was detected following CAR T-cell treatment. In addition, the control arm had a marked expansion of leukemia with a 7.75- and 429.6-fold increase in radiance by IVIS at 6 and 11 weeks post-treatment, respectively. No significant increase in radiance was seen in the PRAME mTCRCAR T cell treated group. We further evaluated hematopoietic toxicity of PRAME mTCRCAR T cells in humanized mice. Sub-lethally irradiated NSG-SGM3 mice were reconstituted with HLA-A2+ CD34 selected human cord blood stem cells with simultaneous and allowed to engraft. Human hematopoietic cell engraftment was evaluated following treatment with unmodified T cells vs. PRAME mTCRCAR T cells. Evaluation of human CD45+ cells in the peripheral blood via flow cytometry showed no difference in the levels of hematopoietic engraftment in mice treated with PRAME mTCRCAR T cell (8%) vs. unmodified T cells (6%) vs. an untreated control cohort (5%), demonstrating lack of toxicity of PRAME mTCRCAR T cells against HLA-A2 hematopoiesis. We demonstrate that PRAME mTCRCAR T cells can irradicate AML in a target specific manner in aggressive KMT2A-r AML without toxicity. We show potent efficacy with eradication of leukemia in PDX-bearing mice following treatment with PRAME mTCRCAR T cells resulting in prolonged survival, without hematopoietic toxicity. These results provide strong rationale for advancing this therapeutic approach to clinical development.

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