posted on 2013-02-15, 00:00authored bySang Taek Jung, William Kelton, Tae Hyun Kang, Daphne T.W. Ng, Jan Terje Andersen, Inger Sandlie, Casim A. Sarkar, George Georgiou
Glycans anchored to residue N297 of the antibody IgG
Fc domain are critical in mediating binding toward FcγRs to
direct both adaptive and innate immune responses. However, using a
full length bacterial IgG display system, we have isolated aglycosylated
Fc domains with mutations that confer up to a 160-fold increase in
the affinity toward the low affinity FcγRIIa-R131 allele as
well as high selectivity against binding to the remarkably homologous
human inhibitory receptor, FcγRIIb. The mutant Fc domain (AglycoT-Fc1004)
contained a total of 5 amino acid substitutions that conferred an
activating to inhibitory ratio of 25 (A/I ratio; FcyRIIa-R131:FcγRIIb).
Incorporation of this engineered Fc into trastuzumab, an anti-Her2
antibody, resulted in a 75% increase in tumor cell phagocytosis by
macrophages compared to that of the parental glycosylated trastuzumab
with both medium and low Her2-expressing cancer cells. A mathematical
model has been developed to help explain how receptor affinity and
the A/I ratio relate to improved antibody dependent cell-mediated
phagocytosis. Our model provides guidelines for the future engineering
of Fc domains with enhanced effector function.