A Bicistronic Vector Expressing CD16 and a Membrane Bound IL-15 Construct in iPSC Derived NK Cells Increased Cytotoxicity and Persistence

Author:

Allen Alexander G1,Pattali Rithu1,Izzo Kaitlyn M1,Getgano Jared A1,Wasko Kevin M1,Blaha Laura C1,Zuris John A1,Zhang Kate1,Shearman Mark S1,Chang Kai-Hsin1

Affiliation:

1. Editas Medicine, Cambridge, MA

Abstract

Abstract Current cell and gene therapy medicines for oncology have reshaped how cancer is treated. Specifically, chimeric antigen receptor (CAR)-T cells have demonstrated that cell therapy can achieve durable remissions in hematologic malignancies. However, CAR-T cell therapies have limited efficacy in solid tumors and are often associated with severe toxicity, highlighting the need for novel cell therapies that are safer and more efficacious. With their intrinsic killing capacity of tumor cells and few, if any, treatment related toxicities, natural killer (NK) cell therapies represent an attractive alternative therapy option to CAR-T cells. In addition, NK cells can be generated from allogeneic donors and given to patients off-the-shelf without causing graft versus host disease. Of the various sources of donor types to generate NK cells from, induced pluripotent stem cells (iPSCs) have the unique advantage of being a renewable source. A clone with any desired edits to enhance the effector function of NK cells can be derived, fully characterized, and expanded indefinitely, to generate large quantities of a naturally allogeneic medicine, therefore streamlining the manufacturing process and increasing scalability. Here, a bicistronic cargo encoding CD16 and a membrane-bound IL-15 (mbIL-15) was knocked into iPSCs at the GAPDH locus using an engineered and highly active AsCas12a. The promoter at the GAPDH locus drives robust constitutive expression of inserted cargos and avoids the promoter silencing that often occurs during differentiation with other strategies. CD16 and mbIL-15 were selected as Knock-Ins (KI) to specifically enhance NK cell therapy in two areas, namely NK cell deactivation caused by CD16 downregulation, and the reliance of co-administration of cytokines such as IL-15 or IL-2 for persistence. CD16 (FcRyIII) can bind the Fc portion of IgG antibodies triggering the lysis of targeted cells. This mechanism of cytotoxicity is known as antibody dependent cellular cytotoxicity (ADCC), and is an innate immune response largely mediated by NK cells through CD16. ADCC is severely impaired when surface CD16 is cleaved by a metalloprotease known as ADAM17. By having CD16 expressed from the GAPDH locus, there is consistent CD16 protein expression to replace what is shed. This hypothesis was demonstrated by performing flow cytometry before and after a cytotoxicity assay. WT cells showed a marked reduction in the surface level expression of CD16 compared to CD16 KI cells after tumor cell exposure. Using a lactate dehydrogenase (LDH) release assay as a measure of cytotoxicity, only the iNK cells expressing the CD16 construct showed statistically significant increases in cytotoxicity when trastuzumab was added. Furthermore, to better model a solid tumor, a 3D tumor spheroid killing assay was utilized where CD16 KI cells showed an increase in ADCC capacity. The benefit of increased effector function via CD16 KI cannot be fully realized without iNK cells persisting. IL-2 or IL-15 is needed for NK maintenance but the administration of either cytokine is associated with acute clinical toxicities. mbIL-15 allows NK cells to survive for a prolonged period without the support of homeostatic cytokines. An in vitro persistence assay was performed that demonstrated IL-15 KI cells showed an increase in persistence compared to WT cells. Specifically, during the three-week in vitro assay, WT cells became undetectable by Day 14 while IL-15 KI NK cells remained stable over time. In summary, to overcome two shortfalls of NK cell therapies, a bicistronic construct encoding CD16 and a mbIL-15 was knocked into the GAPDH locus of iPSCs. The strong GAPDH promoter drove constitutive expression of CD16 that mitigated CD16 shedding, enhanced ADCC of iNK cells, which can be used in combination with any ADCC enabling IgG1 and IgG3 antibodies, such as trastuzumab and rituximab, for tumor-specific targeting. In addition, mbIL-15 KI allowed iNK cells to persist without exogenous cytokine administration and thus can circumvent exogeneous cytokine-induced clinical toxicities. CD16 and mbIL-15 double KI iNKs, with enhanced ADCC and increased cytokine-independent persistence, can potentially be developed into a safe and efficacious therapy for the treatment of a variety of liquid and solid tumors with high unmet medical needs. Disclosures Allen: Editas Medicine: Current Employment, Current equity holder in publicly-traded company. Pattali: Editas Medicine: Current Employment, Current equity holder in publicly-traded company. Izzo: Editas Medicine: Current Employment, Current equity holder in publicly-traded company. Getgano: Editas Medicine: Current Employment, Current equity holder in publicly-traded company. Wasko: Editas Medicine: Current equity holder in publicly-traded company, Ended employment in the past 24 months. Blaha: Editas Medicine: Current Employment, Current equity holder in publicly-traded company. Zuris: Editas Medicine: Current Employment, Current equity holder in publicly-traded company. Zhang: Editas Medicine: Current Employment, Current equity holder in publicly-traded company. Shearman: Editas Medicine: Current Employment, Current equity holder in publicly-traded company. Chang: Editas Medicine: Current Employment, Current equity holder in publicly-traded company.

Publisher

American Society of Hematology

Subject

Cell Biology,Hematology,Immunology,Biochemistry

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