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Novel Divergent Rhabdovirus in Feces of Red Fox, Spain - Volume 20, Number 12—December 2014 - Emerging Infectious Disease journal - CDC

Novel Divergent Rhabdovirus in Feces of Red Fox, Spain - Volume 20, Number 12—December 2014 - Emerging Infectious Disease journal - CDC





Volume 20, Number 12—December 2014

Letter

Novel Divergent Rhabdovirus in Feces of Red Fox, Spain

Figures

Technical Appendicies

To the Editor: Rhabdoviruses (family Rhabdoviridae) are enveloped single-stranded negative-sense RNA viruses belonging to the Mononegavirales order. The International Committee on Taxonomy of Viruses recognizes 11 genera (CytorhabdovirusEphemerovirusLyssavirusNovirhabdovirusNucleorhabdovirusPerhabdovirus,SigmavirusSprivivirusTibrovirusTupavirusVesiculovirus) (1). In addition, many recently described rhabdoviruses remain unassigned. Rhabdoviruses contain 5 major genes, encoding for nucleoprotein (N), phosphoprotein (P), matrix (M), glycoprotein (G), and RNA-dependent RNA polymerase (L). The Rhabdoviridaefamily includes pathogens of various animal species, humans, and plants. Viruses of the genus Lyssavirus are the most relevant to public health because they can cause rabies. Bats are the driving force within this genus; foxes and various other species of wild carnivores also can be infected with lyssaviruses and transmit them to humans and dogs (2).
During a viral metagenomic survey, conducted as described previously (3), of fecal samples collected from 4 red foxes (Vulpes vulpes) that were found dead in Álava, Basque Country, Spain, we identified the complete coding sequence and the partial leader and trailer sequence of a novel rhabdovirus, tentatively called red fox fecal rhabdovirus (RFFRV; 15,541 nt, GenBank accession no. KF823814; Technical Appendix[PDF - 60 KB - 6 pages]) by mapping 8,287 of the 56,519 sequence reads in the sample of a red fox. A proportion of obtained reads contained sequences that were >99% identical to mitochondrial DNA of V. vulpes, which confirmed that the sample was collected from a red fox.
Thumbnail of Genome organization and phylogenetic analysis of RFFRV. A) Genome organization of RFFRV. Indicated are the locations of the major ORFs (including the positions of the first and last nucleotide) and 3 theoretical minor ORFs between the G and L genes. B) Phylogenetic maximum-likelihood tree using the WAG+F+I+G model and 100 bootstrap replicates in MEGA5 (http://www.megasoftware.net) of the deduced amino acid sequence of the L genes of various viruses of the order Mononegavirales. G, g
Figure. Genome organization and phylogenetic analysis of RFFRV. A) Genome organization of RFFRV. Indicated are the locations of the major ORFs (including the positions of the first and last nucleotide) and 3...
The obtained sequence of RFFRV was partially confirmed by specific primers and Sanger sequencing of PCR amplicons. Five major and 3 minor open reading frames (ORFs) were identified that had a genome organization similar to that of other rhabdoviruses (Figure, panel A). No significant hits were obtained by BLAST analysis (http://blast.ncbi.nlm.gov/Blast.cgi) of N, P, M, and G nucleotide and amino acid sequences, which was reported previously for novel divergent rhabdoviruses (4).
Predicted N, P, and M genes of RFFRV consist of 1,629, 2,490, and 813 nt, respectively, encoding for 543, 830, and 271 aa (Technical Appendix[PDF - 60 KB - 6 pages] Table 1). In addition to the absence of significant hits observed by BLAST analysis, no significant sequence homology was observed with known rhabdovirus proteins in pairwise alignments. Furthermore, no conserved motifs were detected in N, P, and M genes of RFFRV that are commonly observed in rhabdoviruses. However, intergenic regions between all major ORFs contained relatively conserved motifs that could be transcription termination/polyadenylation sequences (A/U) CU7, similar to other rhabdoviruses (5). Adjacent to this termination signal was a stretch of conserved nucleotides that might function as a transcription initiation signal Technical Appendix[PDF - 60 KB - 6 pages] Table 1).
The amino acid sequence of the G protein consisted of 669 aa and contained an N terminal signal peptide (1-MYHLIVLLVMLGQRAVA-17), a noncytoplasmic domain (aa 18–646), a transmembrane domain (647-ITAILMPLLSLAVVVGIIMCC-667), and a cytoplasmic tail of 2 aa, similar to other rhabdovirus G proteins as predicted by using Phobius and TMHMM (http://www.cbs.dtu.dk/services/TMHMM) (6,7). We predicted 3 potential glycosylation sites in the ectodomain at positions 38–40 (NKT), 554–556 (NAS), and 592–594 (NIS) using NetNGlyc 1.0 (http://www.cbs.dtu.dk/services/NetNGlyc).
Between the G and L genes, a complex intergenic region was present that contained 3 ORFs of 246 nt (7,413–7,658 aa), 231 nt (7,716–7,946 aa), and 459 nt (7,893–8,355 aa), of which 2 were overlapping frames (U1–3). Additional ORFs between G and L genes were detected previously in other rhabdoviruses (8,9). We detected transmembrane domains in the amino acid sequences of all 3 additional ORFs, suggesting they might act as viroporin (8,9).
The L gene of RFFRV contained 6,591 nt (2,197 aa). We detected several conserved domains and motifs, including RNA-dependent RNA polymerase, mRNA-capping region, mRNA capping enzyme, and virus-capping methyltransferase. Alignment of the deduced amino acid sequence of the L gene with the L gene of various other viruses belonging to the Mononegavirales order by using MAFFT version 7 (http://mafft.cbrc.jp/alignment/software/) and subsequent phylogenetic reconstruction by using a maximum-likelihood tree (WAG+F+I+G model with 100 bootstrap replicates in MEGA5 [http://www.megasoftware.net]) suggested that this virus belongs to a novel genus of the Rhabdoviridiae family. In addition, pairwise identities of the deduced amino acid sequence of the L gene of RFFRV with that of other rhabdoviruses of the Rhabdoviridae family were only <35% (Technical Appendix[PDF - 60 KB - 6 pages] Table 2).
Because the fox was found dead and no tissue samples were collected, whether RFFRV played a role in the animal’s death is unknown. In addition, multiple attempts to isolate this virus on various cell lines of eukaryotes (Vero E6, MDCK, CRFK, N2a, and BHK cells, primary fox kidney cells) failed because of the absence of cytopathic effects and viral replication by quantitative reverse transcription PCR, despite a high number of reads in the original sample. The fox might have acquired the virus through spillover from a small prey, such as a bat, and additional studies are required to elucidate the prevalence, original host, and pathogenic potential of this novel virus.
Rogier Bodewes1Comments to Author , Aritz Ruiz-Gonzalez1, Anita C. Schürch, Albert D.M.E. Osterhaus, and Saskia L. Smits
Author affiliations: Erasmus Medical Centre, Rotterdam, the Netherlands (R. Bodewes, A.C. Schürch, A.D.M.E. Osterhaus, S.L. Smits)University of the Basque Country, Vitoria-Gasteiz, Spain (A. Ruiz-Gonzalez)National Institute for Environmental Protection and Research, Ozzano dell'Emilia, Italy (A. Ruiz-Gonzalez)Viroclinics Biosciences, Rotterdam (A.D.M.E. Osterhaus, S.L. Smits)

Acknowledgments

We thank all researchers and institutions for their invaluable help during sampling and for providing the specimens used in this study, especially Patricia Lizarraga, Laura Elorza, Ricardo Gutierrez, and Luis Javier Chueca.
This work was funded by the European Community’s Seventh Framework Program (FP7/2007–2013) under the project “European Management Platform for Emerging and Re-emerging Infectious Disease Entities” European Community grant agreement no. 223498; the Virgo Consortium; and the Niedersachsen-Research Network on Neuroinfectiology of the Ministry of Science and Culture of Lower Saxony, Germany. In addition, this research was funded partially by the Basque Government through the research group on “Systematics, Biogeography and Population Dynamics” (ref. IT317-10; GIC10/76).
A.R.-G. holds a postdoctoral fellowship awarded by the Department of Education, Universities and Research of the Basque Government (ref. DKR-2012-64) and was awarded a short-visit research grant from the ConGenOmics Research networking program of the European Science Foundation to visit the Department of Viroscience, Erasmus Medical Centre and develop the current research project.

References

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Figure

Technical Appendix

Suggested citation for this article: Bodewes R, Ruiz-Gonzalez A, Schürch AC, Osterhaus ADME, Smits SL. Novel divergent rhabdovirus in feces of red fox, Spain [letter]. Emerg Infect Dis [Internet]. 2014 Dec [date cited]. http://dx.doi.org/10.3201/eid2012.140236
DOI: 10.3201/eid2012.140236


1These authors contributed equally to this article.

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