The V158F polymorphism in human FcγRIIIa/CD16a defines opposing receptor responses when interacting with soluble immune complexes
Nicolas Manuel Eckert, Philipp Kolb, Florian Lerch, Reinhard Edmund Voll, Maike Hofmann, Elisabeth Puchhammer-Stöckl, Hannes Vietzen, Valeria Falcone, Hartmut HengelAbstract
The V158F polymorphism found in the human Fc receptor CD16a (also known as FcγRIIIa) is thought to influence autoimmune disorders and responses to IgG-based therapies. V158F is known to influence the IgG affinity, and thereby triggering of the CD16a receptor expressed on various immune cells. In contrast to CD16 triggering by opsonized IgG, the mechanistic details of its interaction with soluble circulating IgG immune complexes (ICs) remain poorly understood. In this study we aimed to clarify the functional impact of the CD16a-V158F polymorphism in the context of IC-mediated diseases. We generated BW5147 reporter cells for both human CD16a V158F polymorphic variants. Using synthetic and disease-associated soluble IgG ICs, we assessed their respective functional responses, which were further validated using primary human NK cells. While both reporter cell variants bound ICs, the CD16aV but not the CD16aF reporter cells exhibited functional response to soluble ICs. This functional dichotomy was further confirmed in primary CD16+ human NK cells. We provide evidence for an intrinsic difference between V158F polymorphic variants of human CD16a in their responsiveness to soluble ICs, extending beyond the previously reported distinctions of low- and high-affinity binding. Future studies investigating genotype-dependent clinical-immunological differences could enhance our understanding of the pathophysiology in IC-mediated diseases and pave the way for potential individualized treatment strategies.