Antibody arrests γ-herpesvirus olfactory super-infection independently of neutralization

Protecting against persistent viruses is an unsolved challenge. The clearest example for a gamma-herpesvirus is resistance to super-infection by Murid herpesvirus-4 (MuHV-4). Most experimental infections have delivered MuHV-4 into the lungs. A more likely natural entry site is the olfactory epithelium. Its protection remains unexplored. Here, prior exposure to olfactory MuHV-4 gave good protection against super-infection. The protection was upstream of B cell infection, which occurs in lymph nodes, and showed redundancy between antibody and T cells. Adding antibody to virions that blocked heparan binding strongly reduced olfactory host entry - unlike in the lungs, opsonized virions did not reach IgG Fc receptor + myeloid cells. However, the nasal antibody response to primary infection was too low to reduce host entry. Instead, the antibody acted downstream, reducing viral replication in the olfactory epithelium. This depended on IgG Fc receptor engagement rather than virion neutralization. Thus antibody can protect against natural γ-herpesvirus infection before it reaches B cells and independently of neutralization.