Differential effects of FcRn antagonists on the subcellular trafficking of FcRn and albumin
Guanglong Ma, Andrew R. Crowley, Liesbeth Heyndrickx, Ilse Rogiers, Eef Parthoens, Jolien Van Santbergen, Raimund J. Ober, Vladimir Bobkov, Hans de Haard, Peter Ulrichts, Erik Hofman, Els Louagie, Bianca Balbino, E. Sally Ward
Guanglong Ma, Andrew R. Crowley, Liesbeth Heyndrickx, Ilse Rogiers, Eef Parthoens, Jolien Van Santbergen, Raimund J. Ober, Vladimir Bobkov, Hans de Haard, Peter Ulrichts, Erik Hofman, Els Louagie, Bianca Balbino, E. Sally Ward
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Research Article Immunology

Differential effects of FcRn antagonists on the subcellular trafficking of FcRn and albumin

Abstract

The homeostasis of IgG is maintained by the neonatal Fc receptor, FcRn. Consequently, antagonism of FcRn to reduce endogenous IgG levels is an emerging strategy for treating antibody-mediated autoimmune disorders using either FcRn-specific antibodies or an engineered Fc fragment. For certain FcRn-specific antibodies, this approach has resulted in reductions in the levels of serum albumin, the other major ligand transported by FcRn. Cellular and molecular analyses of a panel of FcRn antagonists have been carried out to elucidate the mechanisms leading to their differential effects on albumin homeostasis. These analyses have identified 2 processes underlying decreases in albumin levels during FcRn blockade: increased degradation of FcRn and competition between antagonist and albumin for FcRn binding. These findings have potential implications for the design of drugs to modulate FcRn function.

Authors

Guanglong Ma, Andrew R. Crowley, Liesbeth Heyndrickx, Ilse Rogiers, Eef Parthoens, Jolien Van Santbergen, Raimund J. Ober, Vladimir Bobkov, Hans de Haard, Peter Ulrichts, Erik Hofman, Els Louagie, Bianca Balbino, E. Sally Ward

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Figure 3

Analyses of competition between FcRn antagonists and HSA for binding to FcRn.

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Analyses of competition between FcRn antagonists and HSA for binding to ...
hFcRn was injected at a concentration of 350 nM at pH 6.0 across flow cells coupled with FcRn antagonists. Following a brief dissociation period, HSA at concentrations of 0, 0.5, 1, 2, or 5 μM was injected at pH 6.0. The ability of hFcRn to simultaneously bind to HSA and antagonist was evaluated by calculating the maximum ratio of responses (RU) between each HSA injection and PBS-only control. (A) Schematic representation of the assay based on the interaction of N027, hFcRn, and albumin. The dotted vertical line approximates the point at which the largest ratios were found. (B) Representative data for ratios of signals for HSA/PBS only. Each injection was carried out in duplicate, and the results are representative of 2 independent experiments. Sensorgrams are shown for ARGX-113 (C), HL161BK (D), and N027 (E) in full (left panels) and with the highlighted regions containing the HSA injections expanded (right panels).