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The Origins of Nonideality Exhibited by Monoclonal Antibodies and Fab Fragments in Human Serum.

Hayli A LarsenWilliam M AtkinsAbhinav Nath
Published in: Protein science : a publication of the Protein Society (2023)
The development of therapeutic antibodies remains challenging, time consuming and expensive. A key contributing factor is a lack of understanding of how proteins are affected by complex biological environments such as serum and plasma. Nonideality due to attractive or repulsive interactions with co-solutes can alter the stability, aggregation propensity, and binding interactions of proteins in solution. Fluorescence correlation spectroscopy (FCS) can be used to measure apparent second virial coefficient (B 2,app ) values for therapeutic and model monoclonal antibodies (mAbs) that capture the nature and strength of interactions with co-solutes in directly in undiluted serum and similar complex biological media. Here, we use FCS-derived B 2,app measurements to identify the components of human serum responsible for non-ideal interactions with mAbs and Fab fragments. Most mAbs exhibit neutral or slightly attractive interactions with intact serum. Generally, mAbs display repulsive interactions with albumin and mildly attractive interactions with IgGs in the context of whole serum. Crucially, however, these attractive interactions are much stronger with pooled IgGs isolated from other serum components, indicating that the effects of serum nonideality can only be understood by studying the intact medium (rather than isolated components). Moreover, Fab fragments universally exhibited more attractive interactions than their parental mAbs, potentially rendering them more susceptible to nonideality-driven perturbations. FCS-based B 2,app measurements have the potential to advance our understanding of how physiological environments impact protein-based therapeutics in general. Furthermore, incorporating such assays into preclinical biologics development may help de-risk molecules and make for a faster and more efficient development process. This article is protected by copyright. All rights reserved.
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