Abstract

Human noroviruses (type virus Norwalk) are the major cause of epidemic non-bacterial gastroenteritis in the world. As Category B agents, analysis of their biology is a high priority. However, these viruses have been difficult to study because they have not been cultured ex vivo. Therefore many fundamental questions remain about the biology of these viruses. In 2003 we reported the discovery of the first murine norovirus (MNV-1, Appendix 1, Karst et al., STAT1-dependent innate immunity to a Norwalk-like virus. 2003. Science. 299:1575-8). We have subsequently found that this efficient enteric virus has a surprising tropism for dendritic cells and macrophages in vivo, and used this information to develop the first tissue culture replication system for a norovirus (Appendix 2, Wobus et al., Replication of a Norovirus in cell culture reveals a tropism for dendritic cells and macrophages. PLOS Biology. E432. Epub Nov 30 2004). Using this novel system we have developed a plaque assay for MNV-1, plaque purified MNV-1, purified milligram amounts of virus, obtained the first cryo-EM image of an infectious norovirus, and proved that MNV-1 RNA is infectious, even in cells that are not permissive for MNV-1 infection. This latter result indicates that MNV-1 tropism is determined at steps in infection prior to delivery of viral RNA into the cytoplasm such as binding, entry, or uncoating. Based on these new data, there are two goals of the Specific Aims. First, we propose to define fundamental mechanisms of viral entry for a viral genus that has not been studied in detail before. Second, we seek to define whether differences in these fundamental mechanisms between cells determine MNV-1 cell tropism.
The Specific Aims are:
Aim 1. Define the viral events involved in MNV-1 binding, entry, and uncoating.
Aim 2. Define the cellular events involved in MNV-1 binding, entry, and uncoating.
Aim 3. Determine the cellular and molecular basis of MNV-1 cell tropism. The proposed studies will provide fundamental information about the binding, entry, and uncoating of a very important genus of viruses that includes many human pathogens. ? ? ?

  Funding Agency

Agency
National Institute of Health (NIH)
Institute
National Institute of Allergy and Infectious Diseases (NIAID)
Type
Research Project (R01)
Project #
5R01AI065982-02
Application #
7183465
Study Section
Virology - B Study Section (VIRB)
Program Officer
Berard, Diana S
Project Start
2006-02-15
Project End
2011-01-31
Budget Start
2007-02-01
Budget End
2008-01-31
Support Year
2
Fiscal Year
2007
Total Cost
$328,747
Indirect Cost

  Institution

Name
Washington University
Department
Pathology
Type
Schools of Medicine
DUNS #
068552207
City
Saint Louis
State
MO
Country
United States
Zip Code
63130

  Publications

Hwang, Seungmin; Maloney, Nicole S; Bruinsma, Monique W et al. (2012) Nondegradative role of Atg5-Atg12/ Atg16L1 autophagy protein complex in antiviral activity of interferon gamma. Cell Host Microbe 11:397-409
Hyde, Jennifer L; Gillespie, Leah K; Mackenzie, Jason M (2012) Mouse norovirus 1 utilizes the cytoskeleton network to establish localization of the replication complex proximal to the microtubule organizing center. J Virol 86:4110-22
Virgin, Herbert W; Todd, John A (2011) Metagenomics and personalized medicine. Cell 147:44-56
Hyde, Jennifer L; Mackenzie, Jason M (2010) Subcellular localization of the MNV-1 ORF1 proteins and their potential roles in the formation of the MNV-1 replication complex. Virology 406:138-48
Katpally, Umesh; Voss, Neil R; Cavazza, Tommaso et al. (2010) High-resolution cryo-electron microscopy structures of murine norovirus 1 and rabbit hemorrhagic disease virus reveal marked flexibility in the receptor binding domains. J Virol 84:5836-41
Virgin, Herbert W; Levine, Beth (2009) Autophagy genes in immunity. Nat Immunol 10:461-70
Hensley, Scott E; Pinto, Amelia K; Hickman, Heather D et al. (2009) Murine norovirus infection has no significant effect on adaptive immunity to vaccinia virus or influenza A virus. J Virol 83:7357-60
Hyde, Jennifer L; Sosnovtsev, Stanislav V; Green, Kim Y et al. (2009) Mouse norovirus replication is associated with virus-induced vesicle clusters originating from membranes derived from the secretory pathway. J Virol 83:9709-19
Chachu, Karen A; LoBue, Anna D; Strong, David W et al. (2008) Immune mechanisms responsible for vaccination against and clearance of mucosal and lymphatic norovirus infection. PLoS Pathog 4:e1000236
McCartney, Stephen A; Thackray, Larissa B; Gitlin, Leonid et al. (2008) MDA-5 recognition of a murine norovirus. PLoS Pathog 4:e1000108

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