Effects of Route of Inoculation and Viral Genetic Variation on Antibody Responses to Polyomavirus SV40 in Syrian Golden Hamsters

Genetic variants of polyomavirus SV40 are powerful agents with which to define viral effects on cells and carcinogenesis pathways. We hypothesized that differences in biologic variation among viral strains affect the process of viral infection and are reflected in antibody responses to the viral nonstructural large T-antigen (TAg) protein but not in neutralizing antibody responses against the inoculated viral particles. We analyzed the production of TAg antibody and neutralizing antibody in Syrian golden hamsters that were inoculated with SV40 viral strains by intracardiac, intravenous, or intraperitoneal routes and remained tumor free. Compared with the intraperitoneal route, intravascular (that is, intravenous, intracardiac) inoculation resulted in increased frequency of responsiveness to TAg but not in higher TAg antibody titers. The intravascular route was superior both for eliciting neutralizing antibody responses and for higher titers of those responses. Viruses with complex regulatory regions induced TAg antibody more often than did viruses with simple regulatory regions after intraperitoneal but not intravascular injections, with no differences in antibody titers. This viral genetic variation had no effect on neutralizing antibody production after intraperitoneal or intravascular inoculations or on neutralizing antibody titers achieved. These findings confirm that SV40 variants differ in their biologic properties. Route of inoculation combined with viral genetic variation significantly influence the development of serum antibodies to SV40 TAg in tumor-free hamsters. Route of inoculation—but not viral genetic variation—is an important factor in production of neutralizing antibody to SV40.Abbreviations: TAg, large T antigenPolyomavirus SV40 was discovered as an unrecognized contaminant of early poliovaccines³⁸ and was shown promptly to be an oncogenic virus.^9,15,17,18 Syrian golden hamsters are the small animal model that is susceptible to SV40 tumorigenicity.^{7,9-13,18,27,35} Since its discovery, SV40 has proven to be an outstanding tool for the discovery of mechanisms underlying carcinogenesis and for viral influences on cellular processes.^{1,3,5,19,23,30}Genetic variants of SV40 exist.^{16,20,26,28,33,34,36,37,41} This variation typically occurs in the viral regulatory region, in which some strains have duplications or rearrangements (or both) in the enhancer region, and in the C-terminal region of the large T-antigen (TAg) gene, in which nucleic acid variations may result in amino acid changes in the protein. TAg is an essential viral replication protein and the major viral oncoprotein. An important question is whether SV40 viral variants differ in their biologic properties, including in host responses to infections, as this could affect the spectrum of viral disease pathogenesis. We previously have shown that the viral regulatory region influences SV40 tumor induction in hamsters^35,40 and vertical transmission of the virus in hamsters²⁹ and that the route of inoculation influences SV40-mediated carcinogenesis.²⁷ Because TAg is not a component of the virus particle but instead is synthesized in virus-infected cells, we hypothesized that differences in antibody responses to TAg reflect biologic variation among viral strains with respect to the process of viral infection. In contrast, we expected that neutralizing antibody responses arise primarily against the injected viral particles, which represent a single serotype, and therefore are less informative about viral variation. We report here that an analysis revealed that the route of inoculation—in combination with viral genetic variation—significantly influences the development of serum antibodies to SV40 large TAg but not the titer of those antibodies in virus-exposed, tumor-free hamsters. The route of inoculation—but not viral genetic variation—influenced both the frequency of development and the titers of virus-neutralizing antibodies in the same animals.