Virus spread, tissue inflammation and antiviral response in brains of flavivirus susceptible and resistant mice acutely infected with Murray Valley encephalitis virus.

Inborn resistance to flaviviruses, conferred by a single chromosome 5 locus Flv, is a genetic trait operative in wild mice and a few strains of laboratory mice. In this study we have used in situ hybridisation to trace the spread of flavivirus genomic RNA within the brains of flavivirus susceptible C3H/HeJARC and congenic resistant C3H.PRI- Flv(r) mice following infection with Murray Valley encephalitis virus (MVE) in parallel to studying a brain histopathology and induction of cellular genes involved in antiviral response. We find that in contrast to a high viral RNA content in brains of susceptible mice, viral RNA was markedly reduced in the cortex, olfactory bulb, thalamus and hypothalamus of resistant mice. Trace amounts of viral RNA were detected in the medulla oblongata while it was completely absent from the hippocampus, pons and cerebellum of resistant mice at different time points post infection. The low virus titres within brains of resistant mice coincided with a very mild inflammation, low counts of infiltrating inflammatory cells, and lower IFN I/II and TNFalpha gene induction than in susceptible mice. Furthermore, transcripts of several genes belonging to a 2',5'-oligoadenylate synthetase ( OAS) family, implicated in IFN I-inducible OAS/RNase L antiviral pathway, showed similar brain tissue induction in both strains of mice suggesting only minor contribution of this pathway to the resistance phenotype.

Development and characterization of new flavivirus-resistant mouse strains bearing Flv(r)-like and Flv(mr) alleles from wild or wild-derived mice.

A single genetic locus, flavivirus resistance (Flv), controls virus titres and severity of flavivirus infection in mouse brain. It has been mapped to mouse chromosome 5 and shown to include different allelic forms. While the majority of laboratory mouse strains are susceptible to flaviviruses and carry the Flv(s) allele, wild mice and laboratory mouse strains recently derived from them are resistant and carry flavivirus-resistance alleles including Flv(r)-like and Flv(mr) alleles. Although there is a mouse model of flavivirus resistance conferred by the Flv(r) allele, other resistance alleles have not been adequately studied due to a lack of appropriate animal models. In this paper we describe the development of new flavivirus-resistant mouse strains, C3H.M.domesticus-Flv(r) and C3H.MOLD-Flv(mr), which carry the novel resistance alleles Flv(r)-like and Flv(mr) on the genetic background of flavivirus susceptible C3H/HeJ mice. The new strains were created by 10 to 11 generations of backcrossing followed by brother-sister matings resulting in a generation of homozygous founder stocks. Genome analysis of the newly developed mouse strains has revealed chromosomal regions of approximately 9 and 11 cM, respectively, encompassing Flv on chromosome 5, which are derived from resistant donor mice. These segments are much smaller than the segment of approximately 31 cM described in the congenic resistant mouse strain C3H.PRI-Flv(r) (also known as C3H/RV). The new congenic mouse strains, which were created to carry the Flv(r)-like and Flv(mr) alleles on the standardized genetic background of susceptible mice, represent new animal models of flavivirus resistance conferred by these novel resistance alleles.