Regulatory T Cell Depletion Using a CRISPR Fc-Optimized CD25 Antibody.

Regulatory T cells (T _regs ) are major drivers behind immunosuppressive mechanisms and present a major hurdle for cancer therapy. T _regs are characterized by a high expression of CD25, which is a potentially valuable target for T _reg depletion to alleviate immune suppression. The preclinical anti-CD25 (αCD25) antibody, clone PC-61, has met with modest anti-tumor activity due to its capacity to clear T _regs from the circulation and lymph nodes, but not those that reside in the tumor. The optimization of the Fc domain of this antibody clone has been shown to enhance the intratumoral T _reg depletion capacity. Here, we generated a stable cell line that produced optimized recombinant T _reg -depleting antibodies. A genome engineering strategy in which CRISPR-Cas9 was combined with homology-directed repair (CRISPR-HDR) was utilized to optimize the Fc domain of the hybridoma PC-61 for effector functions by switching it from its original rat IgG1 to a mouse IgG2a isotype. In a syngeneic tumor mouse model, the resulting αCD25-m2a (mouse IgG2a isotype) antibody mediated the effective depletion of tumor-resident T _regs , leading to a high effector T cell (T _eff ) to T _reg ratio. Moreover, a combination of αCD25-m2a and an αPD-L1 treatment augmented tumor eradication in mice, demonstrating the potential for αCD25 as a cancer immunotherapy.