Modulation of the high concentration viscosity of IgG 1 antibodies using clinically validated Fc mutations
The self-association of therapeutic antibodies can result in elevated viscosity and create problems in manufacturing and formulation, as well as limit delivery by subcutaneous injection. The high concentration viscosity of some antibodies has been reduced by variable domain mutations or by the addit...
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| Published in | mAbs Vol. 16; no. 1; p. 2379560 |
|---|---|
| Main Authors | , , , , |
| Format | Journal Article |
| Language | English |
| Published |
United States
31.12.2024
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| Subjects | |
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| Abstract | The self-association of therapeutic antibodies can result in elevated viscosity and create problems in manufacturing and formulation, as well as limit delivery by subcutaneous injection. The high concentration viscosity of some antibodies has been reduced by variable domain mutations or by the addition of formulation excipients. In contrast, the impact of Fc mutations on antibody viscosity has been minimally explored. Here, we studied the effect of a panel of common and clinically validated Fc mutations on the viscosity of two closely related humanized IgG
κ antibodies, omalizumab (anti-IgE) and trastuzumab (anti-HER2). Data presented here suggest that both Fab-Fab and Fab-Fc interactions contribute to the high viscosity of omalizumab, in a four-contact model of self-association. Most strikingly, the high viscosity of omalizumab (176 cP) was reduced 10.7- and 2.2-fold by Fc modifications for half-life extension (M252Y:S254T:T256E) and aglycosylation (N297G), respectively. Related single mutations (S254T and T256E) each reduced the viscosity of omalizumab by ~6-fold. An alternative half-life extension Fc mutant (M428L:N434S) had the opposite effect in increasing the viscosity of omalizumab by 1.5-fold. The low viscosity of trastuzumab (8.6 cP) was unchanged or increased by
2-fold by the different Fc variants. Molecular dynamics simulations provided mechanistic insight into the impact of Fc mutations in modulating electrostatic and hydrophobic surface properties as well as conformational stability of the Fc. This study demonstrates that high viscosity of some IgG
antibodies can be mitigated by Fc mutations, and thereby offers an additional tool to help design future antibody therapeutics potentially suitable for subcutaneous delivery. |
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| AbstractList | The self-association of therapeutic antibodies can result in elevated viscosity and create problems in manufacturing and formulation, as well as limit delivery by subcutaneous injection. The high concentration viscosity of some antibodies has been reduced by variable domain mutations or by the addition of formulation excipients. In contrast, the impact of Fc mutations on antibody viscosity has been minimally explored. Here, we studied the effect of a panel of common and clinically validated Fc mutations on the viscosity of two closely related humanized IgG
κ antibodies, omalizumab (anti-IgE) and trastuzumab (anti-HER2). Data presented here suggest that both Fab-Fab and Fab-Fc interactions contribute to the high viscosity of omalizumab, in a four-contact model of self-association. Most strikingly, the high viscosity of omalizumab (176 cP) was reduced 10.7- and 2.2-fold by Fc modifications for half-life extension (M252Y:S254T:T256E) and aglycosylation (N297G), respectively. Related single mutations (S254T and T256E) each reduced the viscosity of omalizumab by ~6-fold. An alternative half-life extension Fc mutant (M428L:N434S) had the opposite effect in increasing the viscosity of omalizumab by 1.5-fold. The low viscosity of trastuzumab (8.6 cP) was unchanged or increased by
2-fold by the different Fc variants. Molecular dynamics simulations provided mechanistic insight into the impact of Fc mutations in modulating electrostatic and hydrophobic surface properties as well as conformational stability of the Fc. This study demonstrates that high viscosity of some IgG
antibodies can be mitigated by Fc mutations, and thereby offers an additional tool to help design future antibody therapeutics potentially suitable for subcutaneous delivery. |
| Author | Heisler, Joel Izadi, Saeed Zarzar, Jonathan Carter, Paul J Kovner, Daniel |
| Author_xml | – sequence: 1 givenname: Joel orcidid: 0000-0002-2703-3035 surname: Heisler fullname: Heisler, Joel organization: Department of Antibody Engineering, Genentech, Inc, South San Francisco, CA, USA – sequence: 2 givenname: Daniel surname: Kovner fullname: Kovner, Daniel organization: Department of Pharmaceutical Development, Genentech, Inc, South San Francisco, CA, USA – sequence: 3 givenname: Saeed orcidid: 0000-0003-4206-8559 surname: Izadi fullname: Izadi, Saeed organization: Department of Pharmaceutical Development, Genentech, Inc, South San Francisco, CA, USA – sequence: 4 givenname: Jonathan surname: Zarzar fullname: Zarzar, Jonathan organization: Department of Pharmaceutical Development, Genentech, Inc, South San Francisco, CA, USA – sequence: 5 givenname: Paul J orcidid: 0000-0001-7854-062X surname: Carter fullname: Carter, Paul J organization: Department of Antibody Engineering, Genentech, Inc, South San Francisco, CA, USA |
| BackLink | https://www.ncbi.nlm.nih.gov/pubmed/39028186$$D View this record in MEDLINE/PubMed |
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| SubjectTerms | Humans Immunoglobulin Fab Fragments - chemistry Immunoglobulin Fab Fragments - genetics Immunoglobulin Fc Fragments - chemistry Immunoglobulin Fc Fragments - genetics Immunoglobulin G - chemistry Immunoglobulin G - genetics Mutation Omalizumab - chemistry Trastuzumab - chemistry Viscosity |
| Title | Modulation of the high concentration viscosity of IgG 1 antibodies using clinically validated Fc mutations |
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