Abstract

The Fc region of IgG-based molecules plays an important role in determining their in vivo pharmacokinetic profile by its pH-dependent binding to the neonatal Fc receptor (FcRn) which is expressed on the endothelial cells lining blood vessels. By virtue of this pH-specific interaction with IgG-Fc, FcRn mediates IgG homeostasis in human adults by maintaining serum IgG levels, and also transfers maternal IgGs from mother to fetus via the placenta. The Fc–FcRn interaction is also critical for keeping IgG-based therapeutic molecules in circulation thereby enhancing their serum half life. A homogeneous cell-based flow cytometric FcRn binding assay was established to characterize the Fc–FcRn interaction of therapeutic IgG-based molecules. It is a competition-based assay, wherein the IgG-Fc containing test molecule competes with a fixed concentration of fluorescently-labeled IgG-Fc moiety in solution for binding to the cell-expressed FcRn. The cell-bound fluorescence is read on a flow cytometer. Response of the test sample is analyzed relative to the standard sample and the results are reported as % relative binding. The assay is robust and meets the qualification criteria for specificity, method linearity, accuracy and precision over the relative binding range of 60%–160%. This assay was shown to effectively characterize altered Fc–FcRn interactions for photo-stressed, heat-stressed, oxidized, and Fc mutant samples. It was observed that the relative binding of the IgG-Fc to the cell-surface-expressed FcRn in the assay varies across different molecules, even within the same IgG subclass. This indicates that the Fc–FcRn binding can be influenced by the antigen-binding region of the molecules in addition to the IgG subclass. Overall, this assay is reflective of the in vivo mechanism of immunoglobulin binding to membrane-bound FcRn, and can be used as an analytical tool for assessing lot-to-lot consistency and stability testing across different batches of the same molecule. Additionally, the assay can be used as an effective tool for elucidating the amino acids in the IgG-Fc domain that are critical for FcRn binding and also for comparing the binding of different IgG-Fc containing molecules to FcRn.

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