Tobacco Mosaic Virus in the Lungs of Mice following Intra-Tracheal Inoculation

Fanny Balique,Abdoulaye Oury Barry,Audrey Ferretti,Hervé Lecoq,Didier Raoult,Khatoun Al Moussawi,Tatsiana Ngounga,Eric Ghigo,Jean-Louis Mege,Philippe Colson,Claude Nappez,Hubert Lepidi

doi:10.1371/journal.pone.0054993

Abstract

Plant viruses are generally considered incapable of infecting vertebrates. Accordingly, they are not considered harmful for humans. However, a few studies questioned the certainty of this paradigm. Tobacco mosaic virus (TMV) RNA has been detected in human samples and TMV RNA translation has been described in animal cells. We sought to determine if TMV is detectable, persists, and remains viable in the lung tissues of mice following intratracheal inoculation, and we attempted to inoculate mouse macrophages with TMV. In the animal model, mice were intratracheally inoculated with 1011 viral particles and were sacrificed at different time points. The virus was detected in the mouse lungs using immunohistochemistry, electron microscopy, real-time RT-PCR and sequencing, and its viability was studied with an infectivity assay on plants. In the cellular model, the culture medium of murine bone marrow derived macrophages (BMDM) was inoculated with different concentrations of TMV, and the virus was detected with real-time RT-PCR and immunofluorescence. In addition, anti-TMV antibodies were detected in mouse sera with ELISA. We showed that infectious TMV could enter and persist in mouse lungs via the intratracheal route. Over 14 days, the TMV RNA level decreased by 5 log10 copies/ml in the mouse lungs and by 3.5 log10 in macrophages recovered from bronchoalveolar lavage. TMV was localized to lung tissue, and its infectivity was observed on plants until 3 days after inoculation. In addition, anti-TMV antibody seroconversions were observed in the sera from mice 7 days after inoculation. In the cellular model, we observed that TMV persisted over 15 days after inoculation and it was visualized in the cytoplasm of the BMDM. This work shows that a plant virus, Tobacco mosaic virus, could persist and enter in cells in mammals, which raises questions about the potential interactions between TMV and human hosts.

Highlights

Plant viruses are abundant inhabitants of the biosphere and are responsible for major diseases in a wide range of crops worldwide [1]
The abundance of biological data accumulated for Tobacco mosaic virus (TMV) [9], its high replication rate in plants, and the dogma that TMV, as other plant viruses, is safe for vertebrate animals including humans, led researchers to consider this virus as a good candidate for new experimental vaccine strategies [2,3,10,11,12,13]
We found TMV RNA at high titers using real-time reverse transcription (RT)-PCR in lung tissues and bronchoalveolar fluids, with RNA loads greater than 7 log10

Summary

Introduction

Plant viruses are abundant inhabitants of the biosphere and are responsible for major diseases in a wide range of crops worldwide [1]. Their host repertoire is not known to overlap with that of vertebrate viruses, which suggests that the viruses of Plantae and Vertebrata exist as infectious members of two separate worlds. TMV has a single-stranded RNA genome of 6,400 nucleotides and was recently classified in the Virgaviridae family [8] This rod-shaped virus infects tobacco plants and causes mottling and discoloration of leaves. TMV-derived recombinant vaccines can facilitate the exposure of vertebrates to various peptides

Methods

Results

Conclusion