Alpha/Beta Interferon Protects Adult Mice from Fatal Sindbis Virus Infection and Is an Important Determinant of Cell and Tissue Tropism

Abstract

ABSTRACT Infection of adult 129 Sv/Ev mice with consensus Sindbis virus strain TR339 is subclinical due to an inherent restriction in early virus replication and viremic dissemination. By comparing the pathogenesis of TR339 in 129 Sv/Ev mice and alpha/beta interferon receptor null (IFN-α/βR −/− ) mice, we have assessed the contribution of IFN-α/β in restricting virus replication and spread and in determining cell and tissue tropism. In adult 129 Sv/Ev mice, subcutaneous inoculation with 100 PFU of TR339 led to extremely low-level virus replication and viremia, with clearance under way by 96 h postinoculation (p.i.). In striking contrast, adult IFN-α/βR −/− mice inoculated subcutaneously with 100 PFU of TR339 succumbed to the infection within 84 h. By 24 h p.i. a high-titer serum viremia had seeded infectious virus systemically, coincident with the systemic induction of the proinflammatory cytokines interleukin-12 (IL-12) p40, IFN-γ, tumor necrosis factor alpha, and IL-6. Replicating virus was located in macrophage-dendritic cell (DC)-like cells at 24 h p.i. in the draining lymph node and in the splenic marginal zone. By 72 h p.i. virus replication was widespread in macrophage-DC-like cells in the spleen, liver, lung, thymus, and kidney and in fibroblast-connective tissue and periosteum, with sporadic neuroinvasion. IFN-α/β-mediated restriction of TR339 infection was mimicked in vitro in peritoneal exudate cells from 129 Sv/Ev versus IFN-α/βR −/− mice. Thus, IFN-α/β protects the normal adult host from viral infection by rapidly conferring an antiviral state on otherwise permissive cell types, both locally and systemically. Ablation of the IFN-α/β system alters the apparent cell and tissue tropism of the virus and renders macrophage-DC-lineage cells permissive to infection.