Application of Lectin Array Technology for Biobetter Characterization: Its Correlation with FcγRIII Binding and ADCC.

Lectin microarray technology was applied to compare the glycosylation pattern of the monoclonal antibody MB311 expressed in SP2.0 cells to an antibody-dependent cellular cytotoxic effector function (ADCC)-optimized variant (MB314). MB314 was generated by a plant expression system that uses genetically modified moss protoplasts () to generate a de-fucosylated version of MB311.

Introduction of the hybcell-based compact sequencing technology and comparison to state-of-the-art methodologies for KRAS mutation detection.

The detection of KRAS mutations in codons 12 and 13 is critical for anti-EGFR therapy strategies; however, only those methodologies with high sensitivity, specificity, and accuracy as well as the best cost and turnaround balance are suitable for routine daily testing. Here we compared the performance of compact sequencing using the novel hybcell technology with 454 next-generation sequencing (454-NGS), Sanger sequencing, and pyrosequencing, using an evaluation panel of 35 specimens. A total of 32 mutations and 10 wild-type cases were reported using 454-NGS as the reference method.

Correlation of ADCC activity with cytokine release induced by the stably expressed, glyco-engineered humanized Lewis Y-specific monoclonal antibody MB314.

A major limitation to the application of therapeutic monoclonal antibodies (mAbs) is their reduced in vivo efficacy compared with the high efficacy measured in vitro. Effector functions such as antibody-dependent cell-mediated cytotoxicity (ADCC) are dramatically reduced in vivo by the presence of high amounts of endogenous IgG in the serum. Recent studies have shown that modification of the glycosylation moieties attached to the Fc part of the mAb can enhance binding affinity to FcγRIIIα receptors on natural killer cells and thus may counteract the reduced in vivo efficacy.

Immunogenicity of therapeutics: a matter of efficacy and safety.

Importance Of The Field: The unwanted immunogenicity of therapeutic proteins is a major concern regarding patient safety. Furthermore, pharmacokinetic, pharmacodynamic and clinical efficacy can be seriously affected by the immunogenicity of therapeutic proteins. Authorities have fully recognized this issue and demand appropriate and well-characterized assays to detect anti-drug antibodies (ADAs).

In Response to: 'Impact of Glycosylation on Effector Functions of Therapeutic IgG' (Pharmaceuticals 2010, 3, 146-157).

To complete the review article by Abes and colleagues (Pharmaceuticals 2010, 3, 146-157) which provides a good overview on recently developed approaches for generation of glyco-modified antibodies and the impact of glyco-modification of antibodies on their effector functions, important information should be added, namely that - besides the Glycart and the Biowa approach to generate de-fucosylated antibodies - innovative, moss derived methods have been shown to generate glyco-modified antibodies with improved effector function profile.

Qualification of a microfluidics-based electrophoretic method for impurity testing of monoclonal antibodies.

In this work, we present a comprehensive evaluation of the Agilent Bioanalyzer, a microfluidics-based electrophoretic device that was used for impurity testing of a monoclonal antibody (mAb). We compared the system to SDS-PAGE, both operated under non-reducing conditions and found a significant improvement of accuracy for the Bioanalyzer. In addition, the latter exhibited a larger assay range and lower limit of quantitation (LOQ) based on a predefined total error limit of +/-30%.

HAHA--nothing to laugh about. Measuring the immunogenicity (human anti-human antibody response) induced by humanized monoclonal antibodies applying ELISA and SPR technology.

Immunogenicity induced by passively applied proteins is a serious issue because it is directly related to the patient's safety. The out-come of an immune reaction to a therapeutic protein can range from transient appearance of antibodies without any clinical significance to severe life threatening conditions. Within this article, enzyme-linked immunosorbent assay (ELISA) and surface plasmon resonance (SPR) methodology to measure immunogenicity are compared and the pros and cons are discussed.

Complement dependent cytotoxicity (CDC) activity of a humanized anti Lewis-Y antibody: FACS-based assay versus the 'classical' radioactive method -- qualification, comparison and application of the FACS-based approach.

The fully humanized Lewis-Y carbohydrate specific monoclonal antibody (mAb) IGN311 is currently tested in a passive immunotherapy approach in a clinical phase I trail and therefore regulatory requirements demand qualified assays for product analysis. To demonstrate the functionality of its Fc-region, the capacity of IGN311 to mediate complement dependent cytotoxicity (CDC) against human breast cancer cells was evaluated. The "classical" radioactive method using chromium-51 and a FACS-based assay were established and qualified according to ICH guidelines.

Comparison of the Calibration Standards of Three Commercially Available Multiplex Kits for Human Cytokine Measurement to WHO Standards Reveals Striking Differences.

Serum parameters as indicators for the efficacy of therapeutic drugs are currently in the focus of intensive research. The induction of certain cytokines (or cytokine patterns) is known to be related to the status of the immune response e.g.

Analysis of lysine clipping of a humanized Lewis-Y specific IgG antibody and its relation to Fc-mediated effector function.

During the analytical characterization of the humanized Lewis-Y specific monoclonal antibody IGN311 (IgG1/kappa) used for passive anti-cancer therapy in humans, isoelectric focusing (IEF) experiments revealed that IGN311 batches produced in serum-containing and serum-free medium, respectively, displayed different banding patterns. The additional bands in the IEF pattern correlated with additional peaks observed by subsequent cation exchange (CEX)-HPLC analysis. Since the IEF pattern is one of the specification criteria in the quality control of monoclonal antibodies and a non-matching pattern may be indicative for lot-to-lot inconsistency, this phenomenon was investigated in detail.

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.

Immunization of Rhesus monkeys with a SialylTn-mAb17-1A conjugate vaccine co-formulated with QS-21 induces a temporary systemic cytokine release and NK cytotoxicity against tumor cells.

Tumor-associated antigens resulting from aberrant glycosylation, such as the SialylTn carbohydrate antigen, are frequently over-expressed on cancer cells and provide potential targets for cancer vaccination. Immunization of Rhesus monkeys with SialylTn coupled to a highly immunogenic carrier molecule and formulated on aluminum hydroxide induced a strong immune response against the carrier protein but only a moderate IgM immune response against the SialylTn carbohydrate antigen. Co-formulation with QS-21 adjuvant dramatically enhanced the anti-SialylTn immune response and resulted in a SialylTn-specific IgG switch.

Cancer immunotherapy.

Cancer is the second leading cause of death in the industrialized world. Most cancer patients are treated by a combination of surgery, radiation and/or chemotherapy. Whereas the primary tumor can, in most cases, be efficiently treated by a combination of these standard therapies, preventing the metastatic spread of the disease through disseminated tumor cells is often not effective.

Qualification and application of a surface plasmon resonance-based assay for monitoring potential HAHA responses induced after passive administration of a humanized anti Lewis-Y antibody.

A sensitive, surface plasmon resonance (SPR)-based assay monitoring potential human-anti-human antibody (HAHA) reactions against the monoclonal antibody (mAb) IGN311 is presented. The latter is a fully humanized Lewis-Y carbohydrate specific mAb that is currently tested in a passive immune therapy approach in a clinical phase I trial. For the SPR experiments a BIACORE 3000 analyzer was used.

Immunization of Rhesus monkeys with the conjugate vaccine IGN402 induces an IgG immune response against carbohydrate and protein antigens, and cancer cells.

Tumor-associated antigens resulting from aberrant glycosylation, such as the SialylTn carbohydrate antigen, are over-expressed on cancer cells and provide potential targets for cancer vaccination. However, as T-cell-independent antigens carbohydrates are poorly immunogenic, and fail to induce memory. In order to increase the immunogenicity we have coupled the SialylTn carbohydrate antigen to a highly immunogenic carrier molecule, the murine monoclonal antibody mAb17-1A.

SialylTn-mAb17-1A carbohydrate-protein conjugate vaccine: effect of coupling density and presentation of SialylTn.

Carbohydrate antigens resulting from aberrant glycosylation of tumor cells, such as SialylTn, represent attractive targets for cancer vaccination. However, T-cell-independent carbohydrate antigens are poorly immunogenic and fail to induce memory and IgG class switch. Clustered expression patterns of some carbohydrates on the cell surface add further complexity to the design of carbohydrate-based vaccines.

Inhibition of antigen-induced mediator release from IgE-sensitized cells by a monoclonal anti-Fc epsilon RI alpha-chain receptor antibody: implications for the involvement of the membrane-proximal alpha-chain region in Fc epsilon RI-mediated cell activation.

The interaction between human IgE and its high affinity receptor, FcepsilonRI, is a critical event in mediating the allergic response. Aggregation of the alpha-chain of FcepsilonRI (FcepsilonRIalpha) occurs via cross-linking of receptor-bound IgE by Ag, resulting in cell activation and the release of mediators of hypersensitivity. Recently, we mapped the epitopes of two anti-FcepsilonRIalpha mAbs, 15/1 and 5H5F8.

Molecular basis for nonanaphylactogenicity of a monoclonal anti-IgE antibody.

IgE Abs mediate allergic responses by binding to specific high affinity receptors (FcepsilonRI) on mast cells and basophils. Therefore, the IgE/FcepsilonRI interaction is a target for clinical intervention in allergic disease. An anti-IgE mAb, termed BSW17, is nonanaphylactogenic, although recognizing IgE bound to FcepsilonRI, and interferes with binding of IgE to FcepsilonRI.

Interaction of human IgE with Fc epsilon RI alpha exposes hidden epitopes on IgE.

Background: Binding of human IgE via the heavy-chain constant region domain 3 (Cepsilon3) to the alpha-chain of its high affinity receptor (FcepsilonRIalpha) is a key event in mediating allergic reactions. We wanted to identify epitopes within Cepsilon3 that are stable to denaturation and to evaluate whether such structures are involved in receptor binding. The existence of stable epitopes would facilitate the generation of compounds that inhibit the IgE-FcepsilonRIalpha interaction.

The membrane-proximal part of FcepsilonRIalpha contributes to human IgE and antibody binding--implications for a general structural motif in Fc receptors.

The high affinity receptor for human IgE (FcepsilonRI) on tissue mast cells and blood basophils is responsible for immediate hypersensitivity reactions. Binding of human IgE (hIgE) to FcepsilonRI has been shown to be mediated via three independent regions in the extracellular part of the alpha-subunit of FcepsilonRI (ecFcepsilonRIalpha). By site-directed mutagenesis we investigated the contribution of amino acids within the ecFcepsilonRIalpha FG loop (residues Lys154-Leu165) to binding to hIgE and two monoclonal anti-FcepsilonRIalpha antibodies (15/1, 5H5/F8).

Characterization of monoclonal antibodies directed against the alpha-subunit of the human IgE high-affinity receptor.

A panel of monoclonal antibodies (8H10/D11, 6F9/H8, 6F9/G9, 5F2/F8/H11, 5F2/F8/G10, 8A4/G12/F9, and 8H10/F12) was raised in mice against the recombinant 20-kDa extracellular part of the alpha-chain of the human IgE high affinity receptors (ecFc epsilon RIalpha) produced in insect cells. The antibodies secreted by hybridomas were selected for specific binding to ecFc epsilon RIalpha, by enzyme-linked immunosorbent assay (ELISA). The selected clones were further characterized in surface plasmon resonance (SPR) experiments with ecFc epsilon RIalpha covalently immobilized on the surface of a sensor chip.