In vivo effector functions of high-affinity mouse IgG receptor FcγRI in disease and therapy models

Abstract

Two activating mouse IgG receptors (FcγRs) have the ability to bind monomeric IgG, the high-affinity mouse FcγRI and FcγRIV. Despite high circulating levels of IgG, reports using FcγRI^-/- or FcγRIV^-/- mice or FcγRIV-blocking antibodies implicate these receptors in IgG-induced disease severity or therapeutic Ab efficacy. From these studies, however, one cannot conclude on the effector capabilities of a given receptor, because different activating FcγRs possess redundant properties in vivo, and cooperation between FcγRs may occur, or priming phenomena. To help resolve these uncertainties, we used mice expressing only FcγRI to determine its intrinsic properties in vivo. FcγRI^only mice were sensitive to IgG-induced autoimmune thrombocytopenia and anti-CD20 and anti-tumour immunotherapy, but resistant to IgG-induced autoimmune arthritis, anaphylaxis and airway inflammation. Our results show that the in vivo roles of FcγRI are more restricted than initially reported using FcγRI^-/- mice, but confirm effector capabilities for this high-affinity IgG receptor in vivo.

Keywords: Fc receptors; IgG-induced pathologies; Immunotherapy; Mouse models.