The complement protein C1q modulates the activities of anti-influenza HA-stem and anti-SARS-Cov2-nonRBD antibodies and alters viral evolution

Abstract

The broadly neutralizing hemagglutinin (BN-HA) stem antibodies represent an universal vaccine prospect. However, our understanding of how these antibodies interact with the influenza virus is limited by excluding other immune elements, such as complement, in our experimental systems. Here, we show that the Fc binding protein of the complement system, C1q, grants BN-HA stem Abs a novel attachment inhibition (AI) and boosts virus neutralization (VN) activity. C1q promotes AI even if added to preformed BN-HA Ab-virion-RBC complexes, pointing at the steric nature of the phenomenon. Most probably by the same mechanism of steric hindrance, C1q also contributes to fusion inhibition. By employing a panel of engineered avidity-reverted anti-BNHA Abs we show that the C1q-mediated VN enhancement is independent of Ab avidity. We also show that C1q’s presence expands the escape viral repertoire beyond the HA stem domain. Among selected viral variants, near-RBS mutations (E156K-Sb, R224I-Ca, S145N-Ca) modulate HA avidity while causing antigenic drift. Expanding our discoveries to SARS-CoV-2, we identified non-RBD anti-SARS-CoV-2 spike Abs which exhibit C1q-VN enhancement. With an increased SARS-CoV-2 spike per viral particle amount, C1q-VN increased concomitantly. Altogether, our results emphasize the general role of C1q in Ab-mediated antiviral activity and viral evolution. NIH/NIAID intramural funding