Charge heterogeneity: Basic antibody charge variants with increased binding to Fc receptors.

We identified active isoforms of the chimeric anti-GD2 antibody, ch14.18, a recombinant antibody produced in Chinese hamster ovary cells, which is already used in clinical trials. We separated the antibody by high resolution ion-exchange chromatography with linear pH gradient elution into acidic, main and basic charge variants on a preparative scale yielding enough material for an in-depth study of the sources and the effects of microheterogeneity.

In vivo and in vitro activity of an immunoglobulin Fc fragment (Fcab) with engineered Her-2/neu binding sites.

Antigen-binding Fc fragments (Fcabs) are a new unique class of immunotherapeutics. They are small (50 kD) fully functional antibody alternatives that bind antigen and elicit effector functions such as antibody-dependent cytotoxicity (ADCC) and complement-dependent cytotoxicity. Since Fcabs carry the natural FcRn binding site of antibodies, they have very favorable pharmacokinetics.

Directed evolution of Her2/neu-binding IgG1-Fc for improved stability and resistance to aggregation by using yeast surface display.

An Fcab (Fc antigen binding) is a crystallizable fragment of IgG having C-terminal structural loops of CH3 domains engineered for antigen binding. Since introduction of novel binding sites might impair the immunoglobulin fold, repairing strategies are needed for improving the biophysical properties of promising binders without decreasing affinity to the antigen. Here, a directed evolution protocol was developed and applied for stabilization of a Her2/neu-binding Fcab.

Correlation between CD16a binding and immuno effector functionality of an antigen specific immunoglobulin Fc fragment (Fcab).

Antigen binding immunoglobulin Fc fragments (Fcab) are generated by engineering loop regions in the CH3 domain of human IgG1 Fc. Variants of an Fcab specific for Her-2 were designed to display either enhanced (S239D:A330L:I332E) or diminished (L234A:L235A) binding affinities to the Fc receptor CD16a based on mutations described previously. The two mutant Fcab proteins demonstrated the expected modulation of CD16a binding.

Significant impact of single N-glycan residues on the biological activity of Fc-based antibody-like fragments.

Recent studies have demonstrated that IgG-Fc fragments (Fcabs) can be engineered to form antigen-binding sites with antibody properties. Thus they may serve as an attractive alternative to conventional antibodies in therapeutic applications. The critical influence of Fc glycosylation on effector functions of IgGs is well documented; however, whether this applies to Fcabs is not known.

In vivo glyco-engineered antibody with improved lytic potential produced by an innovative non-mammalian expression system.

Recent studies have demonstrated that the reduction of the core fucosylation on N-glycans of human IgGs is responsible for a clearly enhanced antibody-dependent cellular cytotoxicity (ADCC). This finding might give access to improved active therapeutic antibodies. Here, the expression of the tumor antigen-specific antibody IGN311 was performed in a glyco-optimized strain of the moss Physcomitrella patens.

Compensation of endogenous IgG mediated inhibition of antibody-dependent cellular cytotoxicity by glyco-engineering of therapeutic antibodies.

A major limitation to the application of therapeutic IgG antibodies (Abs) is their reduced in vivo efficacy compared to their high efficacy as measured in vitro. Recently, Preithner et al. showed that the high amount of endogenous serum IgG impairs the antibody-dependent cellular cytotoxicity effector function (ADCC) of therapeutic Abs in vivo by competing for binding to Fcgamma-RIII on the effector cells.

Improved effector functions of a therapeutic monoclonal Lewis Y-specific antibody by glycoform engineering.

The aim of the present study was to produce glycosylation variants of the therapeutic Lewis Y-specific humanized IgG1 antibody IGN311 to enhance cell-killing effector function. This was achieved via genetic engineering of the glycosylation machinery of the antibody-producing host. Antibody genes were transiently cotransfected with acetyl-glycosaminyltransferase-III genes into human embryonic kidney-EBV nuclear antigen cells.

Influence of carboxymethyl dextran and ferric citrate on the adhesion of CHO cells on microcarriers.

Due to the inherent risks of animal-derived raw materials, the biopharmaceutical industry has an increasing demand for serum-free and protein-free media for industrial cell culture bioprocesses. The absence of serum often changes the characteristics of mammalian cells, especially growth, productivity, and adherence properties. This study is mainly focused on the influence of media additives on cell adherence characteristics.