Publication Date:
2020-11-05
Description:
Multiple redundancy within the spectrum of an immune response is required to prevent antigen escape or adaptation of the targeted population to host defenses. As adoptive cell therapies continue to evolve, multi-modal engineering of effector cells offers the prospect of tackling increasingly complex disease settings such as multiple myeloma (MM), where targeting of a single tumor associated antigen is frequently confounded by antigen shedding and escape variation resulting in the inability to develop a curative therapy. There are multiple advantages in expanding treatment options beyond autologous primary T and NK cells, including the use of induced pluripotent stem cells (iPSC) to derive effector cells that can be uniformly manufactured at scale from renewable starting cellular material and where precision genetic engineering can be achieved at the clonal level which can be applied sequentially in order to build multiple specificities and functional modalities. To create a platform targeted toward MM, a multiplexed edited base iPSC-derived NK (iNK) cell configuration consisting of a CD38 KO iPSC modified to overexpress a recombinant IL-15 signaling complex (IL15RF) for autonomous persistence and a functionally enhanced high-affinity, non-cleavable CD16 (hnCD16) was developed. Introduction of IL15RF enabled expansion of iNK cells without additional exogenous cytokine support during the manufacturing process and greatly improved functional persistence of iNK cells both in vitro and in various xenograft mouse models (Figure 1). To target MM in a broad and comprehensive manner, we tested our novel BCMA-CAR in combination with different myeloma targeted antibodies. In combination with hnCD16, co-expression of BCMA-CAR and IL15RF culminates in an iNK cell therapeutic, termed FT576, capable of multiantigen-specificity through combinatorial use of CAR and hnCD16 with monoclonal antibodies to tackle antigen escape. Chimerization of an anti-BCMA scFv shown to elicit higher affinity onto the CAR platform produced specific in vitro recognition of BCMA+ myeloma cells in short-term and long-term NK cell cytotoxicity assays. Specificity of the BCMA-CAR was demonstrated using NALM6 overexpressing BCMA using a short range 4H caspase assay (NALM6_BCMA EC50 14.4, NALM6wt EC50 39.1, p*
Print ISSN:
0006-4971
Electronic ISSN:
1528-0020
Topics:
Biology
,
Medicine
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