Fc-fusion drugs have C1q/FcγR binding and signaling properties that can affect their immunogenicity.

Abstract

Abstract Fusing the IgG1 constant region (Fc-domain) to therapeutic proteins increases their plasma half-life via neonatal Fc receptor (FcRn) binding. However, potential interactions with other Fc-binding molecules including complement C1q and Fc gamma receptors (FcγR) can have immunological consequences. Our previous studies in a mouse model suggest that engagement of the Fc-Factor IX (FIX) to FcγR on APC and NKT cells could alter the immunogenicity of the FIX moiety. Here, we conducted a comparative study of FDA-approved Fc-fusion proteins to assess their potential for C1q binding as well as FcγR binding and signaling. Binding of soluble drug to C1q was measured by ELISA, and FcγR binding and signaling was evaluated using BW5147:FcγR-ζ reporter cell lines. We demonstrate that rFIXFc and rFVIIIFc bound C1q as well as activating and inhibitory FcγRs (I, IIA, IIB, IIIA). These therapeutic proteins also signaled via FcγRIIIA, and to a lesser extent via FcγRI and FcγRIIB. Other Fc-fusion drugs (TNFR-Fc; CTLA4-Fc) bound FcγRI (TNFR-Fc also bound FcγRIIIA), but did not result in FcγR signaling. As predicted, a control anti-CD20 monoclonal antibody modified for enhanced FcγRIIIA engagement, bound and signaled via FcγRIIIA, while the parent molecule did not; supporting our use of BW5147: FcγR-ζ reporter cells for the assessment of Fc:FcγR interactions. Our studies show that Fc-fusion drugs have distinct C1q/FcγR binding and signaling properties. Moreover, FcγR binding does not predict signaling. Our studies suggest that Fc-FcγR engagement can influence the immunogenicity to Fc-fusion drugs as both fusion partners influence this interaction. Future investigations will elucidate the underlying molecular mechanisms.