FT555: Off-the-Shelf CAR-NK Cell Therapy Co-Targeting GPRC5D and CD38 for the Treatment of Multiple Myeloma

Recent improvement in patient outcomes with the use of novel cellular immunotherapies for multiple myeloma (MM) has raised the prospect for the emergence of a curative treatment. While BCMA-targeted chimeric antigen receptor (CAR)-T cell therapies have been successful in treating MM, CAR-T cell manufacturing challenges preventing broad patient access and treatment relapse drive the need for additional targeted therapies with emphasis on multi-antigen targeting and off-the-shelf availability. GPRC5D, a tumor-associated orphan G-protein-coupled receptor found to be highly expressed in MM, is a potentially attractive target that has demonstrated promising clinical benefit when targeted via immunotherapy modalities. Here, we describe the development of FT555, an induced pluripotent stem cell (iPSC)-derived CAR-NK (CAR-iNK) cell product with the unique and effective ability to simultaneously co-target GPRC5D and CD38 (an additional tumor-associated antigen of MM) via combination with daratumumab, and which can be mass produced and is available off-the-shelf to support broad patient access.

FT555 is a CAR-NK cell derived from an iPSC master cell line that has been multiplexed-engineered at the clonal level to contain four unique modalities; a novel GPRC5D-specific CAR fine-tuned for NK cell biology; a high-affinity, non-cleavable CD16 (hnCD16) to maximize antibody-dependent cellular cytotoxicity (ADCC) when combined with a monoclonal antibody (mAb); a unique IL-15/IL-15 receptor fusion protein (IL15RF) to promote cytokine-independent function; and CD38 knockout to promote NK cell fitness and uniquely prevent anti-CD38 mAb-mediated fratricide. Sourced from a renewable engineered iPSC master cell line, FT555 is a pure population of engineered NK cells (>95% CD56+) exhibiting uniform expression of CAR-GPRC5D (>90%), hnCD16 (>90%) and IL15RF (>90%), with complete elimination of CD38 expression (not detected). In cytotoxicity assays, FT555 shows antigen specificity, dose-dependent potency and importantly, when combined with the anti-CD38 mAb daratumumab, exhibits resistance to fratricide. In a serial restimulation killing assay, FT555 demonstrates persistent tumor-specific activity against GPRC5D-positive MM.1S WT target cells when compared to isogenic GPRC5D knock-out (KO) targets (70.9% control of tumor by AUC against WT targets vs. 3.5% control against GPRC5D KO targets in the third round of stimulation). When used in combination with daratumumab, FT555 targets CD38 and eliminates CAR-resistant GPRC5D KO target cells (57.1% target killing when combined with daratumumab vs. 3.5% target killing in the absence of mAb in the third round of stimulation), demonstrating the capacity for FT555 to target GPRC5D+ and CD38+ cells through CAR and hnCD16 engagement, respectively. In a disseminated xenograft in vivo model of MM where the MM.1S cell line shows comprehensive tumor engraftment, FT555 demonstrates robust killing kinetics and tumor clearance as a single dose, resulting in control of MM progression for up to 42 days and increased survival to 80 days vs. 37 days for the untreated control arm (Figure 1A, 1B, FT555; 99.9% tumor growth inhibition (TGI) at D37, 151% increased lifespan (ILS)). Durability of FT555 is further enhanced with the addition of daratumumab, where tumor growth inhibition deepened and survival improved, with 2 of 5 mice showing complete clearance of tumor cells at Day 80, demonstrating the synergy of anti-tumor activity between CAR and hnCD16 (Figure 1A, 1B, FT555+Dara; 100% TGI at D37, >207% ILS). Furthermore, in a distinct xenograft model of MM, treatment with FT555 resulted in significantly improved TGI against OPM2 tumor targets (FT555; 100% TGI at D51, p < 0.05).

Together these studies demonstrate that FT555 is a multiplexed-engineered CAR-NK cell derived from a clonal master iPSC line, which utilizes the intrinsic versatility of NK cells to enable a highly effective combination therapy with daratumumab to simultaneously target both GPRC5D and CD38 in a single, standardized, and scalable off-the-shelf platform.

Reiser:Fate Therapeutics: Current Employment. Chan:The Janssen Pharmaceutical Companies of Johnson & Johnson: Current Employment. Mathavan:Fate Therapeutics: Current Employment. Sillitti:The Janssen Pharmaceutical Companies of Johnson & Johnson: Current Employment. Mottershead:The Janssen Pharmaceutical Companies of Johnson & Johnson: Current Employment. Mattson:The Janssen Pharmaceutical Companies of Johnson & Johnson: Current Employment. Pache:Fate Therapeutics: Current Employment. Gutierrez:Fate Therapeutics: Current Employment. Scoon:Fate Therapeutics: Current Employment. Zhu:Fate Therapeutics: Current Employment. Gilder:Fate Therapeutics: Current Employment. Chen:Fate Therapeutics: Current Employment. Staquet:The Janssen Pharmaceutical Companies of Johnson & Johnson: Current Employment. Ports:The Janssen Pharmaceutical Companies of Johnson & Johnson: Current Employment. Drake:The Janssen Pharmaceutical Companies of Johnson & Johnson: Current Employment. Erhardt:The Janssen Pharmaceutical Companies of Johnson & Johnson: Current Employment. Bjordahl:Fate Therapeutics: Current Employment. Goodridge:Fate Therapeutics: Current Employment. Valamehr:Fate Therapeutics: Current Employment.