A first insight into the developability of an Immunoglobulin G3: a combined computational and experimental approach

Georgina B. Armstrong*, Alan Lewis, Vidhi Shah, Paul Taylor, Craig J. Jamieson, Glenn A. Burley, Will Lewis, Zahra Rattray*

*Corresponding author for this work

Research output: Contribution to journalArticlepeer-review

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Abstract

Immunoglobulin G 3 (IgG3) monoclonal antibodies (mAbs) are high-value scaffolds for developing novel therapies. Despite their wide-ranging therapeutic potential, IgG3 physicochemical properties and developability characteristics remain largely under-characterized. Protein–protein interactions elevate solution viscosity in high-concentration formulations, impacting physicochemical stability, manufacturability, and the injectability of mAbs. Therefore, in this manuscript, the key molecular descriptors and biophysical properties of a model anti-IL-8 IgG1 and its IgG3 ortholog are characterized. A computational and experimental framework was applied to measure molecular descriptors impacting their downstream developability. Findings from this approach underpin a detailed understanding of the molecular characteristics of IgG3 mAbs as potential therapeutic entities. This work is the first report examining the manufacturability of IgG3 for high-concentration mAb formulations. While poorer conformational and colloidal stability and elevated solution viscosity were observed for IgG3, future efforts controlling surface potential through sequence-engineering of solvent-accessible patches can be used to improve biophysical parameters that dictate mAb developability.
Original languageEnglish
Pages (from-to)2439-2451
Number of pages13
JournalACS Pharmacology & Translational Science
Volume7
Issue number8
Early online date15 Jul 2024
DOIs
Publication statusPublished - 9 Aug 2024

Keywords

  • antibody
  • viscosity
  • developability
  • IgG1
  • IgG3
  • computational models
  • protein-protein interactions
  • monoclonal antibody

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