posted on 2021-05-17, 18:37authored byHenk van Faassen, Dong-Hyeon Jo, Shannon Ryan, Michael J. Lowden, Shalini Raphael, C. Roger MacKenzie, Seung-Hwan Lee, Greg Hussack, Kevin A. Henry
Multispecific antibodies that bridge immune effector and tumor
cells have shown promising preclinical and clinical efficacies. Here,
we isolated and characterized novel llama single-domain antibodies
(sdAbs) against CD16. One sdAb, NRC-sdAb048, bound recombinant human
and cynomolgus monkey CD16 ectodomains with equivalent affinity (KD: 1 nM) but did not recognize murine CD16.
Binding was similar for human CD16a expressed on NK cells and CD16b
(NA2) expressed on neutrophils but dramatically weaker (KD: ∼6 μM) for the CD16b (NA1) allotype. The
sdAb stained primary human peripheral blood NK cells. Irrespective
of fusion orientation and linker length, bispecific sdAb–sdAb
and sdAb–scFv dimers (anti-CD16/EGFR, anti-CD16/HER2, and anti-CD16/CD19)
retained full binding affinity for each target, coengaged both antigens
simultaneously, elicited ADCC against target antigen-expressing tumor
cells in a reporter bioassay, and triggered target-specific activation
and degranulation of primary NK cells as measured via interferon-γ
and CD107a expression. These molecules may have applications in cancer
immunotherapy.