Abstract
Immunotherapy of cancer with CD3-targeting bispecific antibodies (CD3 bsAb) is a fast developing field, and multiple tumor-associated antigens (TAA) are evaluated for hematologic and solid malignancies. The efficacy of these CD3 bsAb is usually examined in xenograft mouse tumor models with human T cells or in genetically engineered mouse models, where human TAA are introduced. These models often fail to fully recapitulate the natural tumor environment, especially for solid cancers, because of interspecies differences. Here, we investigated the systemic and intratumoral effects of a mouse CD3 bsAb in a fully immune-competent mouse melanoma model. Systemic administration of 0.5 mg/kg antibody induced a brief overall T-cell activation that was selectively sustained in the tumor microenvironment for several days. A fast subsequent influx of inflammatory macrophages into the tumor microenvironment was observed, followed by an increase in the number of CD4+ and CD8+ T cells. Although the capacity to directly kill melanoma cells in vitro was very modest, optimal tumor elimination was observed in vivo, even in the absence of CD8+ T cells, implying a redundancy in T-cell subsets for therapeutic efficacy. Finally, we took advantage of the full immune competence of our mouse model and tested immune memory induction. Despite a strong initial immunity against melanoma, treatment with the CD3 bsAb did not install protective memory responses. The observed mechanisms of action revealed in this immune-competent mouse model might form a rational basis for combinatorial approaches.
Highlights
The idea of using the cytotoxic capacity of T cells through CD3targeting bispecific antibodies (CD3 bsAb) to kill tumor cells dates back to 1985 [1], and it took 30 years before both the FDA and European Medicines Agency approved blinatumomab, a CD19-directed T-cell engager (BiTE), for the treatment of refractory B-cell precursor acute lymphoblastic leukemia (ALL) patients [2]
The health status of the animals was monitored over time, and all animals were tested negative for agents listed in the Federation of European Laboratory Animal Science Associations (FELASA) guidelines for specific pathogen-free mouse colonies [29]
Another 50 mL supernatant from these tests was subjected to interferon gamma (IFNg) sandwich ELISA according to the manufacturer's instructions (BD Biosciences)
Summary
The idea of using the cytotoxic capacity of T cells through CD3targeting bispecific antibodies (CD3 bsAb) to kill tumor cells dates back to 1985 [1], and it took 30 years before both the FDA and European Medicines Agency approved blinatumomab, a CD19-directed T-cell engager (BiTE), for the treatment of refractory B-cell precursor acute lymphoblastic leukemia (ALL) patients [2]. We performed immunotherapy of B16F10 melanomas in fully immune-competent wild-type C57BL/6 mice with an effector function silenced (inert) mouse IgG2a bsAb, targeting mouse CD3e and mouse tyrosinase-related protein 1 (TRP1 or gp75), that is expressed on the surface of transformed melanoma cells and healthy melanocytes of the skin, just like in humans [25]. We generated these mouse bsAbs with regular IgG architecture using controlled Fab-arm exchange (cFAE) which, apart from applications for human antibody therapeutics, can be applied to efficiently generate rodent bispecifics [26,27,28]. Our data demonstrate that antitumor activity of CD3 bsAb in vivo is associated with direct tumor kill and a complex interplay between immune cell subsets
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