Generation of chimeric forms of rhesus macaque rhadinovirus expressing KSHV envelope glycoproteins gH and gL for utilization in an NHP model of infection.

Kaposi's sarcoma-associated herpesvirus (KSHV) is a human gammaherpesvirus associated with Kaposi's sarcoma and B cell malignancies. Like all herpesviruses, KSHV contains conserved envelope glycoproteins (gps) involved in virus binding, entry, assembly, and release from infected cells, which are also targets of the immune response. Due to the lack of a reproducible animal model of KSHV infection, the precise functions of the KSHV gps during infection are not completely known. Fortunately, a nonhuman primate (NHP) model of KSHV infection and disease has been established utilizing closely related rhesus macaque rhadinovirus (RRV) that naturally infects rhesus macaques (RM) and possesses analogous gps to KSHV. To address the roles conserved envelope gps gH and gL play during KSHV infection , we utilized the pathogenic RRV BAC to generate chimeric forms of RRV expressing KSHV gL or KSHV gH/gL, as well as an RRV mutant lacking gL expression. These viruses incorporate KSHV gH and gL into infectious virions, and although they display variable replication and differing plaque phenotypes in primary rhesus fibroblasts, they retain the ability to infect human B cells . Importantly, we also demonstrate that RRV gp chimeras can infect RM and induce the development of antibodies against KSHV. Overall, this work demonstrates that RRV gp chimeras can serve as important tools to assess the role of KSHV gH/gL in infection and disease while also providing an NHP model for testing the efficacy of KSHV gH and gL neutralizing antibodies and vaccine strategies to prevent and treat KSHV infection.IMPORTANCERhesus macaque rhadinovirus (RRV) is a rhesus macaque homolog of KSHV and serves as a model system for examining Kaposi's sarcoma-associated herpesvirus (KSHV) infection and pathogenesis . KSHV and RRV both encode conserved herpesvirus envelope glycoproteins, including gH and gL, that are important for regulating entry into host cells. In this study, we utilized the RRV BAC system to generate chimeric forms of RRV expressing KSHV gH and gL, as well as a mutant form of RRV lacking gL expression. Although these mutant and chimeric viruses can replicate , they do display growth properties different from wild-type RRV. Importantly, we demonstrate that RRV gp chimeras are capable of infecting rhesus macaques , inducing B cell hyperplasia, and promoting the development of anti-viral antibody responses that can also recognize KSHV antigens. RRV gp chimeras provide a novel system that allows for the examination of the role of KSHV gH and gL during infection .