Abstract
ABSTRACTCoxsackieviruses are enteric viruses that frequently infect humans. To examine coxsackievirus pathogenesis, we orally inoculated mice with the coxsackievirus B3 (CVB3) Nancy strain. Using HeLa cell plaque assays with agar overlays, we noticed that some fecal viruses generated plaques >100 times as large as inoculum viruses. These large-plaque variants emerged following viral replication in several different tissues. We identified a single amino acid change, N63Y, in the VP3 capsid protein that was sufficient to confer the large-plaque phenotype. Wild-type CVB3 and N63Y mutant CVB3 had similar plaque sizes when agarose was used in the overlay instead of agar. We determined that sulfated glycans in agar inhibited plaque formation by wild-type CVB3 but not by N63Y mutant CVB3. Furthermore, N63Y mutant CVB3 bound heparin, a sulfated glycan, less efficiently than wild-type CVB3 did. While N63Y mutant CVB3 had a growth defect in cultured cells and reduced attachment, it had enhanced replication and pathogenesis in mice. Infection with N63Y mutant CVB3 induced more severe hepatic damage than infection with wild-type CVB3, likely because N63Y mutant CVB3 disseminates more efficiently to the liver. Our data reinforce the idea that culture-adapted laboratory virus strains can have reduced fitness in vivo. N63Y mutant CVB3 may be useful as a platform to understand viral adaptation and pathogenesis in animal studies.
Highlights
Coxsackieviruses are enteric viruses that frequently infect humans
We found that 0.26% of the inoculum coxsackievirus B3 (CVB3) plaques had the large-plaque phenotype, suggesting that the large-plaque variant existed at a low level in the inoculum and was enriched following replication in the gut
We examined whether binding to coxsackievirus adenovirus receptor (CAR) or decay-accelerating factor (DAF) differs between WT and N63Y mutant CVB3. 35S-labeled WT or N63Y
Summary
Coxsackieviruses are enteric viruses that frequently infect humans. To examine coxsackievirus pathogenesis, we orally inoculated mice with the coxsackievirus B3 (CVB3) Nancy strain. While N63Y mutant CVB3 had a growth defect in cultured cells and reduced attachment, it had enhanced replication and pathogenesis in mice. Most studies with coxsackieviruses and other viruses use laboratory-adapted viral strains because of their efficient replication in cell culture. We used a cell culture-adapted strain of CVB3, Nancy, to examine viral replication and pathogenesis in orally inoculated mice. N63Y mutant viruses have reduced glycan binding and replication in cell culture; they have enhanced replication and virulence in mice. Cell culture adaptation reduces the virulence of many viruses and is frequently the basis of live-attenuated vaccine development. Some of these culture-adapted variants show changes in affinity for glycosaminoglycans (GAGs), which are sulfated polysaccharides, including HS and heparin. While CVB3 replicates more efficiently in mice lacking the interferon alpha/beta receptor (IFNAR), the immune deficiency of
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