Abstract
In contrast to wild-type vesicular stomatitis virus (VSV) of Indiana (Ind.) origin which express interferon (IFN) inducing- and IFN induction-suppressing activities as mutually exclusive properties, individual particles of wild-type VSV of the New Jersey (N.J.) sero-type (Hazelhurst [H] isolate) paradoxically can both induce IFN and suppress its induction in cells coinfected with a potent inducer of IFN. The properties of IFN induction, and its suppression, appear to reside in the particle that manifests infectivity. Analyses of IFN induction dose–response curves to measure IFN-inducing particles (IFP), and IFN yield-reduction curves to measure IFN induction-suppressing particles (ISP) generated by VSV-N.J.(H) in aged chick embryo cells revealed that (i) a single particle per cell sufficed to induce a quantum (full) yield of IFN, or to suppress fully IFN production by a coinfecting inducing virus, and (ii) the addition of one or more IFP per cell did not suppress the yield of IFN beyond the plateau level. The time-course of IFN production in chick cells infected with VSV-N.J.(H) revealed about a 4-h lag, even when the cells were coinfected with a potent inducer that normally induced IFN 1 or 2 h sooner. Thus, VSV-N.J.(H) appears to regulate the production of IFN in cells–even that initiated by other inducers. Expression of IFP and ISP activities both required primary transcription, with respective genomic targets similar to those reported for VSV-Ind. N.J.(H) is the first wild-type VSV observed to express IFP and ISP activities concomitantly. A model is presented to suggest how these two antagonistic properties might be expressed by a single infectious particle.
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