Abstract
To investigate relationship between second virial coefficient B (2) and viscosity and aggregation propensity of highly concentrated monoclonal antibody (MAbs) solutions. Intermolecular interactions of 3 MAbs solutions with varying pH were characterized according to B (2) estimated by analytical ultracentrifugation sedimentation equilibrium with initial loading concentrations <10mg/mL. Viscosity measurements and stability assessments of MAb solutions at concentrations higher than 100mg/mL were conducted. B (2) of all MAb solutions depended on solution pH and have qualitative correlation with viscosity and aggregation propensity. The more negative the B (2) values, the more viscous the solution, acquiring increased propensity to aggregate. Solutions with B (2) values of ~2 × 10(-5)mL·mol/g(2) acquire similar viscosity and aggregation propensity regardless of amino acid sequences; for solutions with negative B (2) values, viscosity and aggregation propensity differed depending on sequences. Results suggest attractive intermolecular interactions represented by negative B (2) values are influenced by surface properties of individual MAbs. B (2) can be used, within certain limitations, as an effective indicator of viscosity and aggregation propensity of highly concentrated MAb solutions.
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