In Vitro Glycoengineering of IgG1 and Its Effect on Fc Receptor Binding and ADCC Activity
The importance and effect of Fc glycosylation of monoclonal antibodies with regard to biological activity is widely discussed and has been investigated in numerous studies. Fc glycosylation of monoclonal antibodies from current production systems is subject to batch-to-batch variability. If there ar...
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| Published in | PloS one Vol. 10; no. 8; p. e0134949 |
|---|---|
| Main Authors | , , , , , , , |
| Format | Journal Article |
| Language | English |
| Published |
United States
Public Library of Science
12.08.2015
Public Library of Science (PLoS) |
| Subjects | |
| Online Access | Get full text |
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| Abstract | The importance and effect of Fc glycosylation of monoclonal antibodies with regard to biological activity is widely discussed and has been investigated in numerous studies. Fc glycosylation of monoclonal antibodies from current production systems is subject to batch-to-batch variability. If there are glycosylation changes between different batches, these changes are observed not only for one but multiple glycan species. Therefore, studying the effect of distinct Fc glycan species such as galactosylated and sialylated structures is challenging due to the lack of well-defined differences in glycan patterns of samples used. In this study, the influence of IgG1 Fc galactosylation and sialylation on its effector functions has been investigated using five different samples which were produced from one single drug substance batch by in vitro glycoengineering. This sample set comprises preparations with minimal and maximal galactosylation and different levels of sialylation of fully galactosylated Fc glycans. Among others, Roche developed the glycosyltransferase enzyme sialyltransferase which was used for the in vitro glycoengineering activities at medium scale. A variety of analytical assays, including Surface Plasmon Resonance and recently developed FcγR affinity chromatography, as well as an optimized cell-based ADCC assay were applied to investigate the effect of Fc galactosylation and sialylation on the in vitro FcγRI, IIa, and IIIa receptor binding and ADCC activity of IgG1. The results of our studies do not show an impact, neither positive nor negative, of sialic acid- containing Fc glycans of IgG1 on ADCC activity, FcγRI, and RIIIa receptors, but a slightly improved binding to FcγRIIa. Furthermore, we demonstrate a galactosylation-induced positive impact on the binding activity of the IgG1 to FcγRIIa and FcγRIIIa receptors and ADCC activity. |
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| AbstractList | The importance and effect of Fc glycosylation of monoclonal antibodies with regard to biological activity is widely discussed and has been investigated in numerous studies. Fc glycosylation of monoclonal antibodies from current production systems is subject to batch-to-batch variability. If there are glycosylation changes between different batches, these changes are observed not only for one but multiple glycan species. Therefore, studying the effect of distinct Fc glycan species such as galactosylated and sialylated structures is challenging due to the lack of well-defined differences in glycan patterns of samples used. In this study, the influence of IgG1 Fc galactosylation and sialylation on its effector functions has been investigated using five different samples which were produced from one single drug substance batch by
in vitro
glycoengineering. This sample set comprises preparations with minimal and maximal galactosylation and different levels of sialylation of fully galactosylated Fc glycans. Among others, Roche developed the glycosyltransferase enzyme sialyltransferase which was used for the
in vitro
glycoengineering activities at medium scale. A variety of analytical assays, including Surface Plasmon Resonance and recently developed FcγR affinity chromatography, as well as an optimized cell-based ADCC assay were applied to investigate the effect of Fc galactosylation and sialylation on the
in vitro
FcγRI, IIa, and IIIa receptor binding and ADCC activity of IgG1. The results of our studies do not show an impact, neither positive nor negative, of sialic acid- containing Fc glycans of IgG1 on ADCC activity, FcγRI, and RIIIa receptors, but a slightly improved binding to FcγRIIa. Furthermore, we demonstrate a galactosylation-induced positive impact on the binding activity of the IgG1 to FcγRIIa and FcγRIIIa receptors and ADCC activity. The importance and effect of Fc glycosylation of monoclonal antibodies with regard to biological activity is widely discussed and has been investigated in numerous studies. Fc glycosylation of monoclonal antibodies from current production systems is subject to batch-to-batch variability. If there are glycosylation changes between different batches, these changes are observed not only for one but multiple glycan species. Therefore, studying the effect of distinct Fc glycan species such as galactosylated and sialylated structures is challenging due to the lack of well-defined differences in glycan patterns of samples used. In this study, the influence of IgG1 Fc galactosylation and sialylation on its effector functions has been investigated using five different samples which were produced from one single drug substance batch by in vitro glycoengineering. This sample set comprises preparations with minimal and maximal galactosylation and different levels of sialylation of fully galactosylated Fc glycans. Among others, Roche developed the glycosyltransferase enzyme sialyltransferase which was used for the in vitro glycoengineering activities at medium scale. A variety of analytical assays, including Surface Plasmon Resonance and recently developed FcγR affinity chromatography, as well as an optimized cell-based ADCC assay were applied to investigate the effect of Fc galactosylation and sialylation on the in vitro FcγRI, IIa, and IIIa receptor binding and ADCC activity of IgG1. The results of our studies do not show an impact, neither positive nor negative, of sialic acid- containing Fc glycans of IgG1 on ADCC activity, FcγRI, and RIIIa receptors, but a slightly improved binding to FcγRIIa. Furthermore, we demonstrate a galactosylation-induced positive impact on the binding activity of the IgG1 to FcγRIIa and FcγRIIIa receptors and ADCC activity. The importance and effect of Fc glycosylation of monoclonal antibodies with regard to biological activity is widely discussed and has been investigated in numerous studies. Fc glycosylation of monoclonal antibodies from current production systems is subject to batch-to-batch variability. If there are glycosylation changes between different batches, these changes are observed not only for one but multiple glycan species. Therefore, studying the effect of distinct Fc glycan species such as galactosylated and sialylated structures is challenging due to the lack of well-defined differences in glycan patterns of samples used. In this study, the influence of IgG1 Fc galactosylation and sialylation on its effector functions has been investigated using five different samples which were produced from one single drug substance batch by in vitro glycoengineering. This sample set comprises preparations with minimal and maximal galactosylation and different levels of sialylation of fully galactosylated Fc glycans. Among others, Roche developed the glycosyltransferase enzyme sialyltransferase which was used for the in vitro glycoengineering activities at medium scale. A variety of analytical assays, including Surface Plasmon Resonance and recently developed FcγR affinity chromatography, as well as an optimized cell-based ADCC assay were applied to investigate the effect of Fc galactosylation and sialylation on the in vitro FcγRI, IIa, and IIIa receptor binding and ADCC activity of IgG1. The results of our studies do not show an impact, neither positive nor negative, of sialic acid- containing Fc glycans of IgG1 on ADCC activity, FcγRI, and RIIIa receptors, but a slightly improved binding to FcγRIIa. Furthermore, we demonstrate a galactosylation-induced positive impact on the binding activity of the IgG1 to FcγRIIa and FcγRIIIa receptors and ADCC activity.The importance and effect of Fc glycosylation of monoclonal antibodies with regard to biological activity is widely discussed and has been investigated in numerous studies. Fc glycosylation of monoclonal antibodies from current production systems is subject to batch-to-batch variability. If there are glycosylation changes between different batches, these changes are observed not only for one but multiple glycan species. Therefore, studying the effect of distinct Fc glycan species such as galactosylated and sialylated structures is challenging due to the lack of well-defined differences in glycan patterns of samples used. In this study, the influence of IgG1 Fc galactosylation and sialylation on its effector functions has been investigated using five different samples which were produced from one single drug substance batch by in vitro glycoengineering. This sample set comprises preparations with minimal and maximal galactosylation and different levels of sialylation of fully galactosylated Fc glycans. Among others, Roche developed the glycosyltransferase enzyme sialyltransferase which was used for the in vitro glycoengineering activities at medium scale. A variety of analytical assays, including Surface Plasmon Resonance and recently developed FcγR affinity chromatography, as well as an optimized cell-based ADCC assay were applied to investigate the effect of Fc galactosylation and sialylation on the in vitro FcγRI, IIa, and IIIa receptor binding and ADCC activity of IgG1. The results of our studies do not show an impact, neither positive nor negative, of sialic acid- containing Fc glycans of IgG1 on ADCC activity, FcγRI, and RIIIa receptors, but a slightly improved binding to FcγRIIa. Furthermore, we demonstrate a galactosylation-induced positive impact on the binding activity of the IgG1 to FcγRIIa and FcγRIIIa receptors and ADCC activity. |
| Author | Reusch, Dietmar Schlothauer, Tilman Bulau, Patrick Dashivets, Tetyana Thomann, Marco Rüger, Petra Avenal, Cecile Malik, Sebastian |
| AuthorAffiliation | 3 Pharma Technical Development Basel, F. Hoffmann-La Roche Ltd, Basel, Switzerland 1 Pharma Technical Development Penzberg, Roche Diagnostics GmbH, Penzberg, Germany 4 Center for Integrated Protein Science Munich, Department Chemie, Technische Universität München, Garching, Germany Universidade de São Paulo, BRAZIL 2 Biochemical and Analytical Research, Large Molecule Research, Pharma Research and Early Development (pRED), Roche Innovation Center, Penzberg, Germany |
| AuthorAffiliation_xml | – name: 1 Pharma Technical Development Penzberg, Roche Diagnostics GmbH, Penzberg, Germany – name: Universidade de São Paulo, BRAZIL – name: 3 Pharma Technical Development Basel, F. Hoffmann-La Roche Ltd, Basel, Switzerland – name: 4 Center for Integrated Protein Science Munich, Department Chemie, Technische Universität München, Garching, Germany – name: 2 Biochemical and Analytical Research, Large Molecule Research, Pharma Research and Early Development (pRED), Roche Innovation Center, Penzberg, Germany |
| Author_xml | – sequence: 1 givenname: Marco surname: Thomann fullname: Thomann, Marco – sequence: 2 givenname: Tilman surname: Schlothauer fullname: Schlothauer, Tilman – sequence: 3 givenname: Tetyana surname: Dashivets fullname: Dashivets, Tetyana – sequence: 4 givenname: Sebastian surname: Malik fullname: Malik, Sebastian – sequence: 5 givenname: Cecile surname: Avenal fullname: Avenal, Cecile – sequence: 6 givenname: Patrick surname: Bulau fullname: Bulau, Patrick – sequence: 7 givenname: Petra surname: Rüger fullname: Rüger, Petra – sequence: 8 givenname: Dietmar surname: Reusch fullname: Reusch, Dietmar |
| BackLink | https://www.ncbi.nlm.nih.gov/pubmed/26266936$$D View this record in MEDLINE/PubMed |
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| ContentType | Journal Article |
| Copyright | 2015 Thomann et al. This is an open access article distributed under the terms of the Creative Commons Attribution License: http://creativecommons.org/licenses/by/4.0/ (the “License”), which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited Notwithstanding the ProQuest Terms and Conditions, you may use this content in accordance with the terms of the License. 2015 Thomann et al 2015 Thomann et al |
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| DOI | 10.1371/journal.pone.0134949 |
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| Notes | ObjectType-Article-1 SourceType-Scholarly Journals-1 ObjectType-Feature-2 content type line 14 content type line 23 Conceived and designed the experiments: MT TS TD SM DR. Performed the experiments: TD SM CA. Analyzed the data: MT TS TD SM CA PB PR. Contributed reagents/materials/analysis tools: MT TS DR. Wrote the paper: MT TS TD SM CA PB PR DR. Competing Interests: The authors MT, TS, TD, SM, PB, PR, and DR are employees of Roche Diagnostics GmbH. CA is a employee of F. Hoffmann-La Roche Ltd. This does not alter the authors' adherence to all the PLOS ONE policies on sharing data and materials. |
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| SubjectTerms | Acids Affinity chromatography Antibody-Dependent Cell Cytotoxicity Binding Binding Sites Biochemistry Bioengineering Biological activity Biological effects Chromatography Enzymes Fc receptors Galactose - metabolism Gene Expression Glycan Glycosylation Glycosyltransferase HEK293 Cells Humans Immunoglobulin G Immunoglobulin G - chemistry Immunoglobulin G - genetics Immunoglobulin G - metabolism Immunoglobulins Immunology Molecular biology Monoclonal antibodies Polysaccharides Protein Binding Protein Engineering Proteins Receptor, Epidermal Growth Factor - genetics Receptor, Epidermal Growth Factor - metabolism Receptors Receptors, IgG - chemistry Receptors, IgG - genetics Receptors, IgG - metabolism Recombinant Proteins - chemistry Recombinant Proteins - genetics Recombinant Proteins - metabolism Sialic Acids - metabolism Sialyltransferases - genetics Sialyltransferases - metabolism Studies Sugar Surface plasmon resonance |
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| Title | In Vitro Glycoengineering of IgG1 and Its Effect on Fc Receptor Binding and ADCC Activity |
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