Recent outbreaks of highly pathogenic influenza virus have highlighted the need for a better understanding of the interactions between influenza virus and its host. Viral infection triggers a prompt anti-viral response, with type I interferons (IFNs) playing the central role in coordinating the host response through the upregulation of a large number of IFN stimulated genes (ISGs). Several ISGs have direct antiviral activity, while others impact upon the antiviral response by modulating the immune system. We have recently shown that one of these ISGs, ISG15, functions as a critical IFN induced anti-viral molecule. ISG15 is an ubiquitin homolog that is strongly upregulated by IFNs, toll receptor ligation, and viral infection. ISG15 deficient mice display increased lethality following infection with several viruses, including both influenza A and B viruses. Yet the mechanism by which ISG15 exerts this antiviral activity is unknown. ISG15 conjugates to a wide array of intracellular proteins, targeting numerous biological processes. Human ISG15 is also released from cells and functions as a cytokine, activating various immune cells. In this proposal we will test the hypothesis that the conjugation of ISG15 to target proteins results in the inhibition of viral replication within the respiratory epithelium and allows for subsequent clearance of the virus by the host. We will test this hypothesis with the following two aims. The studies in Aim 1 will explore the mechanism by which ISG15 regulates viral replication within the respiratory epithelium. We will also determine if expression of ISG15 within this cell type is sufficient to control influenza virus infection. The studies in Aim 2 will determine if conjugation of ISG15 is required for the antiviral activity of ISG15. We will determine if ISG15 conjugates to viral proteins and regulates viral replication. The results obtained from these studies will provide important insight into a potential mechanism of action for a newly identified antiviral molecule, ISG15. ISG15 functions as a critical antiviral molecule, with activity against several human pathogens, including both influenza A and B viruses. This proposal will explore its mechanism of action during influenza virus infection by investigating its sight of action and requirement for conjugation to target proteins. These studies may provide insight into a potential new therapeutic target in the fight against viral infections.

Public Health Relevance

ISG15 functions as a critical antiviral molecule, with activity against several human pathogens, including both influenza A and B viruses. This proposal will explore its mechanism of action during influenza virus infection by investigating its sight of action and requirement for conjugation to target proteins. These studies may provide insight into a potential new therapeutic target in the fight against viral infections.

Agency
National Institute of Health (NIH)
Institute
National Institute of Allergy and Infectious Diseases (NIAID)
Type
Research Project (R01)
Project #
5R01AI080672-03
Application #
8109260
Study Section
Special Emphasis Panel (ZRG1-IDM-R (04))
Program Officer
Hauguel, Teresa M
Project Start
2009-08-01
Project End
2013-07-31
Budget Start
2011-08-01
Budget End
2012-07-31
Support Year
3
Fiscal Year
2011
Total Cost
$335,195
Indirect Cost
Name
Washington University
Department
Internal Medicine/Medicine
Type
Schools of Medicine
DUNS #
068552207
City
Saint Louis
State
MO
Country
United States
Zip Code
63130
Kimmey, Jacqueline M; Campbell, Jessica A; Weiss, Leslie A et al. (2017) The impact of ISGylation during Mycobacterium tuberculosis infection in mice. Microbes Infect 19:249-258
Sun, Lulu; Miyoshi, Hiroyuki; Origanti, Sofia et al. (2015) Type I interferons link viral infection to enhanced epithelial turnover and repair. Cell Host Microbe 17:85-97
Ketscher, Lars; Hannß, Ronny; Morales, David J et al. (2015) Selective inactivation of USP18 isopeptidase activity in vivo enhances ISG15 conjugation and viral resistance. Proc Natl Acad Sci U S A 112:1577-82
Morales, David J; Lenschow, Deborah J (2013) The antiviral activities of ISG15. J Mol Biol 425:4995-5008
Campbell, Jessica A; Lenschow, Deborah J (2013) Emerging roles for immunomodulatory functions of free ISG15. J Interferon Cytokine Res 33:728-38
Joubert, Pierre-Emmanuel; Werneke, Scott W; de la Calle, Claire et al. (2012) Chikungunya virus-induced autophagy delays caspase-dependent cell death. J Exp Med 209:1029-47
Werneke, Scott W; Schilte, Clementine; Rohatgi, Anjali et al. (2011) ISG15 is critical in the control of Chikungunya virus infection independent of UbE1L mediated conjugation. PLoS Pathog 7:e1002322
Versteeg, Gijs A; Hale, Benjamin G; van Boheemen, Sander et al. (2010) Species-specific antagonism of host ISGylation by the influenza B virus NS1 protein. J Virol 84:5423-30
Lenschow, Deborah J (2010) Antiviral Properties of ISG15. Viruses 2:2154-68
Giannakopoulos, Nadia V; Arutyunova, Elena; Lai, Caroline et al. (2009) ISG15 Arg151 and the ISG15-conjugating enzyme UbE1L are important for innate immune control of Sindbis virus. J Virol 83:1602-10

Showing the most recent 10 out of 11 publications