Discovery of two highly divergent negative-sense RNA viruses associated with the parasitic nematode, Capillaria hepatica, in wild Mus musculus from New York City.

Simon H Williams,Xiaoyu Che,Joel A Garcia,Tanja S Zabka,Komal Jain,Dorothy Muller,Thomas Briese,Robert M Corrigan,W Ian Lipkin,Alexandra Oleynik,Cadhla Firth

doi:10.1099/jgv.0.001315

Abstract

Recent advances in high-throughput sequencing technology have led to a rapid expansion in the number of viral sequences associated with samples from vertebrates, invertebrates and environmental samples. Accurate host identification can be difficult in assays of complex samples that contain more than one potential host. Using unbiased metagenomic sequencing, we investigated wild house mice (Mus musculus) and brown rats (Rattus norvegicus) from New York City to determine the aetiology of liver disease. Light microscopy was used to characterize liver disease, and fluorescent microscopy with in situ hybridization was employed to identify viral cell tropism. Sequences representing two novel negative-sense RNA viruses were identified in homogenates of wild house mouse liver tissue: Amsterdam virus and Fulton virus. In situ hybridization localized viral RNA to Capillaria hepatica, a parasitic nematode that had infected the mouse liver. RNA from either virus was found within nematode adults and unembryonated eggs. Expanded PCR screening identified brown rats as a second rodent host for C. hepatica as well as both nematode-associated viruses. Our findings indicate that the current diversity of nematode-associated viruses may be underappreciated and that anatomical imaging offers an alternative to computational host assignment approaches.

Highlights

Advances in sequencing technology have accelerated the discovery of sequences representing potential new viruses [1]
Data from the second hroughput sequencing (HTS) run using the Personal Genome Machine (PGM) system generated a total of 4.41 million reads with an average length of 140 nt, and 1.21 million reads remained after quality filtering and host subtraction
In situ hybridization (ISH) demonstrated that viral nucleic acid was localized to nematode adults and eggs within the liver, rather than the liver parenchyma

Summary

Introduction

Advances in sequencing technology have accelerated the discovery of sequences representing potential new viruses [1]. Recent studies highlight the potential for the discovery and characterization of viruses sourced from diverse origins, including arthropods [2], mammals [3] and marine samples [4]. Viruses have been detected using high-throughput sequencing (HTS) in investigations of plant-p arasitic [5], free-living [6] and vertebrate-parasitic nematodes [7]. Unbiased HTS analysis of extracts of mouse liver led to the discovery of two novel viruses: Amsterdam virus (AMSV) and Fulton virus (FULV). In situ hybridization (ISH) demonstrated that nucleic acids of both viruses were present in Capillaria hepatica nematodes infecting mouse livers rather than mouse liver parenchyma. Nucleic acids of AMSV and FULV were detected in nematodes by PCR in the livers of brown rats (Rattus norvegicus) from nearby housing complexes in NYC

Methods

Results

Conclusion