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Analysis of nonideality: insights from high concentration simulations of sedimentation velocity data.


ABSTRACT: The Aviv fluorescence detection system (Aviv-FDS) has allowed the performance of sedimentation velocity experiments on therapeutic antibodies in highly concentrated environments like formulation buffers and serum. Methods were implemented in the software package SEDANAL for the analysis of nonideal, weakly associating AUC data acquired on therapeutic antibodies and proteins (Wright et al. Eur Biophys J 47:709-722, 2018, Anal Biochem 550:72-83, 2018). This involved fitting both hydrodynamic, ks, and thermodynamic, BM1, nonideality where concentration dependence is expressed as s?=?so/(1?+?ksc) and D?=?Do(1?+?2BM1c)/(1?+?ksc) and so and Do are values extrapolated to c?=?0 (mg/ml). To gain insight into the consequences of these phenomenological parameters, we performed simulations with SEDANAL of a monoclonal antibody as a function of ks (0-100 ml/g) and BM1 (0-100 ml/g). This provides a visual understanding of the separate and joint impact of ks and BM1 on the shape of high-concentration sedimentation velocity boundaries and the challenge of their unique determination by finite element methods. In addition, mAbs undergo weak self- and hetero-association (Yang et al. Prot Sci 27:1334-1348, 2018) and thus we have simulated examples of nonideal weak association over a wide range of concentrations (1-120 mg/ml). Here we demonstrate these data are best analyzed by direct boundary global fitting to models that account for ks, BM1 and weak association. Because a typical clinical dose of mAb is 50-200 mg/ml, these results have relevance for biophysical understanding of concentrated therapeutic proteins.

SUBMITTER: Correia JJ 

PROVIDER: S-EPMC7701085 | biostudies-literature | 2020 Dec

REPOSITORIES: biostudies-literature

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Analysis of nonideality: insights from high concentration simulations of sedimentation velocity data.

Correia J J JJ   Wright R T RT   Sherwood P J PJ   Stafford W F WF  

European biophysics journal : EBJ 20201106 8


The Aviv fluorescence detection system (Aviv-FDS) has allowed the performance of sedimentation velocity experiments on therapeutic antibodies in highly concentrated environments like formulation buffers and serum. Methods were implemented in the software package SEDANAL for the analysis of nonideal, weakly associating AUC data acquired on therapeutic antibodies and proteins (Wright et al. Eur Biophys J 47:709-722, 2018, Anal Biochem 550:72-83, 2018). This involved fitting both hydrodynamic, k<su  ...[more]

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