Stabilization of Keratinocyte Monolayer Integrity in the Presence of Anti-Desmoglein-3 Antibodies through FcRn Blockade with Efgartigimod: Novel Treatment Paradigm for Pemphigus?

Anna Zakrzewicz,Katrien Vanderheyden,Stian Foss,Jan Terje Andersen,Vladimir Bobkov,Peter Verheesen,Hans De Haard,Simon Feldhoff,Benedikt Beckert,Celina Würth,Ritva Tikkanen

doi:10.3390/cells11060942

Anna Zakrzewicz, Katrien Vanderheyden + Show 9 more

Open Access

https://doi.org/10.3390/cells11060942

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Abstract

Pemphigus vulgaris is an autoimmune blistering disease of the epidermis, caused by autoantibodies against desmosomal proteins, mainly desmogleins 1 and 3, which induce an impairment of desmosomal adhesion and blister formation. Recent findings have shown that inhibition of immunoglobulin G binding on the neonatal Fc receptor, FcRn, results in reduced autoantibody recycling and shortens their half-life, providing a valid treatment option for PV. We have here analyzed the role of FcRn in human keratinocytes treated with antibodies isolated from pemphigus vulgaris patient or with recombinant anti-desmoglein-3 antibodies that induce pathogenic changes in desmosomes, such as loss of monolayer integrity, aberrant desmoglein-3 localization and degradation of desmoglein-3. We show that blocking IgG binding on FcRn by efgartigimod, a recombinant Fc fragment undergoing clinical studies for pemphigus, stabilizes the keratinocyte monolayer, whereas the loss of desmoglein-3 is not prevented by efgartigimod. Our data show that FcRn may play a direct role in the pathogenesis of pemphigus at the level of the autoantibody target cells, the epidermal keratinocytes. Our data suggest that in keratinocytes, FcRn may have functions different from its known function in IgG recycling. Therefore, stabilization of keratinocyte adhesion by FcRn blocking entities may provide a novel treatment paradigm for pemphigus.

Highlights

In the epidermis, resistance to mechanical stress is generated by intercellular adhesion structures such as desmosomes that are required for the integrity of the epidermis
The monoclonal antibodies hAK23 and monoclonal anti-Dsg3 IgG1 AK23 (mAK23) showed similar binding affinities and were able to compete for the binding to recombinant Dsg3 in an enzyme-linked immunosorbent assay (ELISA) assay (Supplementary Figure S1)
This study is the first demonstration of a direct effect of FcRn blockade by efgartigimod on the main anti-Dsg autoantibody target cells in pemphigus, the epidermal keratinocytes

Summary

Introduction

Resistance to mechanical stress is generated by intercellular adhesion structures such as desmosomes that are required for the integrity of the epidermis. Desmosomes contain transmembrane proteins of the cadherin family, the desmogleins (Dsg) and desmocollins (Dsc), that mediate the intercellular adhesion by interacting with their counterparts on the surface of their neighboring cells. The cytoplasmic domains of Dsg and Dsc form complexes with plaque proteins, including plakoglobin, plakophilin and desmoplakin, which mediate the interaction with the keratin filaments (for a review, see [1]). In human diseases such as pemphigus, disruption of desmosomal adhesion results in blistering of the epidermis [2]. Pemphigus vulgaris (PV) is an autoimmune disease that manifests as flaccid blistering of the mucosa and the epidermis, caused mainly by IgG1 and IgG4 autoantibodies against the desmosomal cadherins, especially Dsg and Dsg. Non-desmoglein autoantibodies are frequently observed in the sera of pemphigus patients, but their contribution in pemphigus pathogenesis will require further investigation [3–5]

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