Immunoglobulin-binding sites of human FcalphaRI (CD89) and bovine Fcgamma2R are located in their membrane-distal extracellular domains.

To localize the immunoglobulin (Ig)-binding regions of the human Fcalpha receptor (FcalphaRI, CD89) and the bovine Fcgamma2 receptor (bFcgamma2R), chimeric receptors were generated by exchanging comparable regions between these two proteins. FcalphaRI and bFcgamma2R are highly homologous and are more closely related to each other than to other human and bovine FcRs. Nevertheless, they are functionally distinct in that FcalphaRI binds human IgA (hIgA) but not bovine IgG2 (bIgG2), whereas bFcgamma2R binds bIgG2 but not hIgA. FcalphaRI and bFcgamma2R possess extracellular regions consisting of two Ig-like domains, a membrane-distal extracellular domain (EC1), a membrane-proximal EC domain (EC2), a transmembrane region, and a short cytoplasmic tail. Chimeras constructed by exchanging complete domains between these two receptors were transfected to COS-1 cells and assayed for their ability to bind hIgA- or bIgG2-coated beads. The results showed that the Ig-binding site of both FcalphaRI and bFcgamma2R is located within EC1. Supporting this observation, monoclonal antibodies that blocked IgA binding to FcalphaRI were found to recognize epitopes located in this domain. In terms of FcR-Ig interactions characterized thus far, this location is unique and surprising because it has been shown previously that leukocyte FcgammaRs and FcepsilonRI bind Ig via sites principally located in their EC2 domains.