Control of recombinant monoclonal antibody effector functions by Fc N-glycan remodeling in vitro.

N-Glycans at Asn(297) in the Fc domain of IgG molecules are required for Fc receptor-mediated effector functions such as antibody-dependent cell-mediated cytotoxicity (ADCC) and complement-dependent cytotoxicity (CDC). In this study we have specifically remodeled the Fc N-glycans of intact recombinant IgG(1) therapeutic monoclonal antibody (Mab) products, Rituxan and Herceptin, with a soluble recombinant rat beta-1,4-N-acetylglucosaminyltransferase III (rGnTIII) produced by baculovirus-infected insect cells. N-Glycan remodeling in vitro permitted a controlled and selective transfer of a bisecting beta1,4-linked GlcNAc to the core beta-linked mannose of degalactosylated Mab N-glycans to yield Mabs varying in bisecting GlcNAc content from 31% to 85%. This was confirmed by analysis of N-glycans by both normal phase HPLC and MALDI-MS, the latter yielding the expected mass increase of 203.2 Da with no other oligosaccharide modifications evident. ADCC of remodeled Rituxan and Herceptin Mabs was determined using peripheral blood mononuclear cells as effectors and either CD20(+) (SKW6.4 and SU-DHL-4) or Her2(+) (SKBR-3) target cells, respectively. A conserved 10-fold increase in ADCC was observed for both remodeled therapeutic Mabs with high (>80%) bisecting GlcNAc content. In contrast, although the presence of a bisecting GlcNAc had minimal effect on CDC, degalactosylation of Rituxan reduced CDC by approximately half, relative to unmodified (variably galactosylated) control Mab. In summary, our data suggests that in vitro remodeling of therapeutic Mab Fc N-glycans may be utilized to control the therapeutic efficacy of Mabs in vivo and to offer a more "humanized" glycoform profile for recombinant Mab products.

Epitope map for a growth hormone receptor agonist monoclonal antibody, MAb 263.

Monoclonal antibody (MAb) 263 is a widely used monoclonal antibody that recognizes the extracellular domain (ECD) of the GH receptor. It has been shown to act as a GH agonist both in vitro and in vivo, and we report here that it must be divalent to exert its effect on the full-length receptor. To understand the mechanism of its agonist action, we have determined the precise epitope for this antibody using a novel random PCR mutagenesis approach together with expression screening in yeast. A library of 5200 clones of rabbit GH receptor ECD mutants were screened both with MAb 263 and with an anticarboxy-tag antibody to verify complete ECD expression. Sequencing for clones that expressed complete ECD but were not MAb 263 positive identified 20 epitope residues distributed in a discontinuous manner throughout the ECD. The major part of the epitope, as revealed after mapping onto the crystal structure model of the ECD molecule, was located on the side and upper portion of domain 1, particularly within the D-E strand disulfide loop 79-96. Molecular dynamics docking of an antibody of the same isotype as MAb 263 was used to dock the bivalent antibody to the 1528-A2 epitope and to visualize the likely consequences of MAb binding. The minimized model enables the antibody to grasp two receptors in a pincer-like movement from opposite sides, facilitating alignment of the receptor dimerization domains in a manner similar to, but not identical with, GH.