biostudies-literature00430Unknown8(1)Seijsing JLowering the total level of Immunoglobulin G (IgG) in circulation is a promising general treatment option for many autoimmune diseases driven by pathogenic autoantibodies. The half-life of IgG in circulation is unusually long as a consequence of its interaction with the neonatal Fc receptor (FcRn), which protects it from lysosomal degradation by cells in contact with blood. Blocking the IgG/FcRn interaction prevents FcRn-mediated rescue, which may lead to increased catabolism and a lowering of the total IgG level. Here, we find that an engineered alternative scaffold protein, an affibody molecule, interacting specifically with FcRn, is able to block the IgG/FcRn interaction in vitro. The affibody molecule (ZFcRn) was expressed alone or as a fusion to an albumin binding domain (ABD), to extend its half-life in circulation, in both cases with retained affinity and blocking potential. Repeated i.v. injections in mice of ZFcRn and ZFcRn-ABD were found to result in an up to 40% reduction of the IgG serum-level after 5 days. Potential applications of ZFcRn as a general treatment modality for autoimmune diseases are discussed.Scientific reports5141https://www.ebi.ac.uk/biostudies/studies/S-EPMC5865129biostudies-literatureIn vivo depletion of serum IgG by an affibody molecule binding the neonatal Fc receptor.PMC5865129Yu SFrejd FYHoiden-Guthenberg IGraslund TSeijsing J43falseIn vivo depletion of serum IgG by an affibody molecule binding the neonatal Fc receptor.Lowering the total level of Immunoglobulin G (IgG) in circulation is a promising general treatment option for many autoimmune diseases driven by pathogenic autoantibodies. The half-life of IgG in circulation is unusually long as a consequence of its interaction with the neonatal Fc receptor (FcRn), which protects it from lysosomal degradation by cells in contact with blood. Blocking the IgG/FcRn interaction prevents FcRn-mediated rescue, which may lead to increased catabolism and a lowering of the total IgG level. Here, we find that an engineered alternative scaffold protein, an affibody molecule, interacting specifically with FcRn, is able to block the IgG/FcRn interaction in vitro. The affibody molecule (ZFcRn) was expressed alone or as a fusion to an albumin binding domain (ABD), to extend its half-life in circulation, in both cases with retained affinity and blocking potential. Repeated i.v. injections in mice of ZFcRn and ZFcRn-ABD were found to result in an up to 40% reduction of the IgG serum-level after 5 days. Potential applications of ZFcRn as a general treatment modality for autoimmune diseases are discussed.2018-01-01T00:00:00Z2018 Mar2024-02-16T06:22:03.188Z2019-03-26T23:20:43ZS-EPMC58651292957253810.1038/s41598-018-23481-5