Engineering upper hinge improves stability and effector function of a human IgG1.

Upper hinge is vulnerable to radical attacks that result in breakage of the heavy-light chain linkage and cleavage of the hinge of an IgG1. To further explore mechanisms responsible for the radical induced hinge degradation, nine mutants were designed to determine the roles that the upper hinge Asp and His play in the radical reactions. The observation that none of these substitutions could inhibit the breakage of the heavy-light chain linkage suggests that the breakage may result from electron transfer from Cys(231) directly to the heavy-light chain linkage upon radical attacks, and implies a pathway separate from His(229)-mediated hinge cleavage.

Characterization of the basic charge variants of a human IgG1: effect of copper concentration in cell culture media.

We report a case study of an IgG1 with a unique basic charge variant profile caused by C-terminal proline amidation on either one or two heavy chains. The proline amidation was sensitive to copper ion concentration in the production media during cell culture: the higher the Cu ( 2+) ion concentration, the higher the level of proline amidation detected. This conclusion was supported by the analysis of samples that revealed direct correlation between the proline amidation level observed from peptide maps and the level of basic peaks measured by imaged capillary isoelectric focusing and a pH gradient ion-exchange chromatography method.

Characterization of glycation in an IgG1 by capillary electrophoresis sodium dodecyl sulfate and mass spectrometry.

We report a case study of characterization of a non-enzymatically glycated IgG1 using reducing capillary electrophoresis sodium dodecyl sulfate (CE-SDS) and mass spectrometry (MS). Glycation was found to occur nonspecifically at multiple sites in both the light and heavy chains. The glycated light and heavy chains result in wider peaks eluting late in the reducing CE-SDS profile; in particular, the glycated light chain behaved as a shoulder peak detected by either ultraviolet (UV) or laser-induced fluorescence (LIF) signals.

HIC resolution of an IgG1 with an oxidized Trp in a complementarity determining region.

Susceptibility of tryptophan (Trp) in a complementarity-determining region (CDR) to oxidation is a significant issue for recombinant monoclonal antibody (mAb) therapeutics due to the clinical efficacy and stability concerns. Here we present a case study using hydrophobic interaction chromatography (HIC) to separate an oxidized Trp containing population of an IgG1. The best separation was achieved using dual Dionex ProPac HIC-10 columns, and the oxidized Trp population was isolated as a separated pre-peak.