Paesen, G. C.; Ng, W. M.; Sutton, G.; Doores, K. J.; Bowden, T. A.

The spillover of New World (NW) arenaviruses from rodent reservoirs into human populations poses a continued risk to human health. NW arenaviruses present a glycoprotein (GP) complex on the envelope surface of the virion, which orchestrates host-cell entry and is a key target of the immune response arising from infection and immunization. Each protomer of the trimeric GP is composed of a stable signal peptide (SSP), a GP1 attachment glycoprotein, and a GP2 fusion glycoprotein. To glean insights into the architecture of this key therapeutic target, we determined the crystal structures of NW GP1-GP2 heterodimeric complexes from Junin virus (JUNV) and Machupo virus (MACV). Due to the metastability of the interaction between GP1 and GP2, structural elucidation required the introduction of a disulfide bond at the GP1-GP2 complex interface, but no other stabilizing modifications were required. While the overall assembly of NW GP1-GP2 is conserved with that presented by Old World (OW) arenaviruses, including Lassa virus (LASV) and lymphocytic choriomeningitis virus (LCMV), NW GP1-GP2 complexes are structurally distinct. Indeed, we note that when compared to the OW GP1-GP2 complex, the globular portion of NW GP1 undergoes limited structural alterations upon detachment from its cognate GP2. We further demonstrate that our engineered GP1-GP2 heterodimers are antigenically relevant and recognized by neutralizing antibodies. These data provide insights into the distinct assemblies presented by NW and OW arenaviruses, as well as provide molecular-level blueprints that may guide vaccine development.