Brittney Fey scite author profile

BackgroundTissue culture-adapted Tulane virus (TV), a GI.1 rhesus enteric calicivirus (ReCV), and a mixture of GII.2 and GII.4 human norovirus (NoV)-containing stool sample were used to intrastomacheally inoculate juvenile rhesus macaques (Macaca mulatta) in order to evaluate infection caused by these viruses.Methodology & FindingsTwo of the three TV-inoculated macaques developed diarrhea, fever, virus-shedding in stools, inflammation of duodenum and 16-fold increase of TV-neutralizing (VN) serum antibodies but no vomiting or viremia. No VN-antibody responses could be detected against a GI.2 ReCV strain FT285, suggesting that TV and FT285 represent different ReCV serotypes. Both NoV-inoculated macaques remained asymptomatic but with demonstrable virus shedding in one animal. Examination of duodenum biopsies of the TV-inoculated macaques showed lymphocytic infiltration of the lamina propria and villous blunting. TV antigen-positive (TV+) cells were detected in the lamina propria. In most of the TV+ cells TV co-localized perinuclearly with calnexin – an endoplasmic reticulum protein. A few CD20+TV+ double-positive B cells were also identified in duodenum. To corroborate the authenticity of CD20+TV+ B cells, in vitro cultures of peripheral blood mononuclear cells (PBMCs) from healthy macaques were inoculated with TV. Multicolor flow cytometry confirmed the presence of TV antigen-containing B cells of predominantly CD20+HLA-DR+ phenotype. A 2-log increase of viral RNA by 6 days post inoculation (p<0.05) suggested active TV replication in cultured lymphocytes.Conclusions/SignificanceTaken together, our results show that ReCVs represent an alternative cell culture and animal model to study enteric calicivirus replication, pathogenesis and immunity.

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Molecular detection of novel astroviruses in wild and laboratory mice

Farkas

Fey

Keller

et al. 2012

Virus Genes

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Pooled fecal specimens collected from striped field mice (Apodemus agrarius), yellow-necked mice (Apodemus flavicollis), and bank voles (Myodes glareolus) and individual stool samples collected from laboratory mice were tested for the presence of picornaviruses and astroviruses. Picornavirus RNA was detected only in one striped field mouse sample pool, while astrovirus RNA was detected in two yellow-necked mouse sample pools and in six of the 121 laboratory mouse samples. In a 234-amino acid (aa) fragment of the viral RNA dependent RNA polymerase (RdRp), the wild mouse picornavirus revealed the closest homology to the canyon mouse (Peromyscus crinitus) (93 % aa) and canine kobuviruses (92 % aa) and to Aichi virus (88 % aa). The two astroviruses detected in the yellow-necked mouse samples shared 77 % aa homology with each other in the partial (125 aa) RdRp region, 61-62 % aa homology with rat astroviruses and only 54-58 % aa homology with the house mouse (Mus musculus) astrovirus strain USA/2008/M52. The six laboratory mouse astroviruses displayed 97-100 % aa homology to each other, and shared 71-77 % aa homology with the yellow-necked mouse astroviruses, 58-59 % aa homology with rat astroviruses and 55-56 % aa homology with strain USA/2008/M52. The sequence of a 3,263 bp genome segment including the partial ORF1b (RdRp), complete ORF2 (capsid precursor), and 3' NTR of a research mouse astrovirus strain (TF18LM) was determined. The full-length ORF2 showed low identities (17-34 % aa) with other members of the Mamastrovirus genus and only 17 % aa homology with the house mouse astrovirus strain USA/2008/M52, indicating that AstVs described in this study represent a novel Mamastrovirus species. The relevance of astrovirus infection and its effect on biomedical research conducted in mice needs to be investigated.

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Molecular detection of novel picornaviruses in chickens and turkeys

et al. 2011

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Fecal specimens, including swabs and litter extracts, collected from chickens, domestic ducks, turkeys, and Canadian geese were tested using degenerate primers targeting regions encoding for conserved amino acid motifs (YGDD and DY(T/S)(R/K/G)WDST) in calicivirus RNA-dependent RNA polymerases. Similar motifs are also present in other RNA viruses. Two fecal specimens and 18 litter extracts collected from chickens and turkeys yielded RT-PCR products. BLAST search and phylogenetic analysis revealed that all amplicons represented picornaviruses that clustered into two major groups. Four chicken and one turkey samples yielded 250 bp amplicons with 84-91% nucleotide identity to the recently described turkey hepatitis viruses, while 280 and 283 bp amplicons obtained from 11 chicken and 4 turkey samples represented novel picornaviruses with the closest nucleotide identity to kobuviruses (54-61%) and turdiviruses (47-54%). Analysis of 2.2-3.2 kb extended genome sequences including the partial P2 (2C) and complete P3 (3A, 3B (VPg), 3C(pro), and 3D(pol)) regions of selected strains indicated that viruses yielding the 280/283 bp amplicons represent a putative new genus of Picornaviridae. The 3'-non-translated region (NTR) of the turkey hepatitis-like viruses described in this study was significantly longer (641-654 nt) than that of any of the other piconaviruses and included a putative short open reading frame (ORF). In summary, we report the molecular detection of novel picornaviruses that appear to be endemic in both chickens and turkeys.

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Relationship between genotypes and serotypes of genogroup 1 recoviruses: a model for human norovirus antigenic diversity

Farkas

Lun

Fey

2014

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Human norovirus (NoV) research greatly relies on cell culture-propagable surrogate caliciviruses, including murine NoVs and the prototype 'recovirus' (ReCV), Tulane virus. However, the extreme biological diversity of human NoVs cannot be modelled by a uniform group of viruses or single isolate. Based on a diverse group of recently described ReCVs, a more advanced model reflecting human NoV biological diversity is currently under development. Here, we have reported the genotypic and serotypic relationships among 10 G1 ReCV isolates, including Tulane virus and nine other recent cell culture-adapted strains. Based on the amino acid sequences of virus capsid protein, VP1, and classification constraints established for NoVs, G1 ReCVs were separated into three genotypes, with variable organization of the three open reading frames. Interestingly, crossneutralization plaque assays revealed the existence of four distinct serotypes, two of which were detected among the G1.2 strains. The amino acid (aa) difference between the two G1.2 ReCV serotypes (12%) was less than the minimum 13 % difference established between NoV genotypes. Interestingly, one of the G1.3 ReCVs was equally neutralized by antisera raised against the G1.3 (6 % aa difference) and G1.1 (25 % aa difference) representative strains. These results imply the existence of a large number of human NoV serotypes, but also shared crossneutralization epitopes between some strains of different genotypes. In conclusion, the newly developed ReCV surrogate model can be applied to address biologically relevant questions pertaining to enteric CV diversity.

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Molecular detection of murine noroviruses in laboratory and wild mice

Farkas

Fey

Keller

et al. 2012

Veterinary Microbiology

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Brittney Fey

Experimental Inoculation of Juvenile Rhesus Macaques with Primate Enteric Caliciviruses

Molecular detection of novel astroviruses in wild and laboratory mice

Molecular detection of novel picornaviruses in chickens and turkeys

Relationship between genotypes and serotypes of genogroup 1 recoviruses: a model for human norovirus antigenic diversity

Molecular detection of murine noroviruses in laboratory and wild mice

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