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Abstract
Luciferase-based imaging allows a global view of microbial pathogenesis. We applied this technique to gammaherpesvirus infection by inserting a luciferase expression cassette into the genome of murine herpesvirus-4 (MuHV-4). The recombinant virus strongly expressed luciferase in lytically infected cells without significant attenuation. We used it to compare different routes of virus inoculation. After intranasal infection of anaesthetized mice, luciferase was expressed in the nose and lungs for 7–10 days and in lymphoid tissue, most consistently the superficial cervical lymph nodes, for up to 30 days. Gastrointestinal infection was not observed. Intraperitoneal infection was very different to intranasal, with strong luciferase expression in the liver, kidneys, intestines, reproductive tract and spleen, but none in the nose or lungs. The nose has not previously been identified as a site of MuHV-4 infection. After intranasal infection of non-anaesthetized mice, it was the only site of non-lymphoid luciferase expression. Nevertheless, lymphoid colonization and persistence were still established, even at low inoculation doses. In contrast, virus delivered orally was very poorly infectious. Inoculation route therefore had a major impact on pathogenesis. Low dose intranasal infection without anaesthesia seems most likely to mimic natural transmission, and may therefore be particularly informative about normal viral gene functions.
Highlights
Gammaherpesviruses are highly prevalent and cause considerable disease
Neither Epstein– Barr virus (EBV) nor Kaposi’s sarcoma-associated herpesvirus (KSHV) are easy to analyse, because their infections are largely limited to humans
High level latent gene expression is probably incompatible with normal host colonization for a gammaherpesvirus: most EBV-infected cells express no latency genes at all
Summary
Gammaherpesviruses are highly prevalent and cause considerable disease. A major challenge in combating this disease is to understand natural infection, for example how gammaherpesviruses first enter their hosts. Neither Epstein– Barr virus (EBV) nor Kaposi’s sarcoma-associated herpesvirus (KSHV) are easy to analyse, because their infections are largely limited to humans. Gammaherpesviruses that allow experimental in vivo analysis can tell us a great deal. Murine herpesvirus-4 (MuHV-4) (Nash et al, 2001; Stevenson & Efstathiou, 2005) currently provides the most accessible model. MuHV-4 has been isolated from yellownecked mice (Apodemus flavicollis) (Kozuch et al, 1993), and closely related viruses have been isolated from a shrew (Crocidura russula) (Chastel et al, 1994) and from wood mice (Apodemus sylvaticus) (Blasdell et al, 2003), suggesting
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