Abstract

Infection of a naive (non-immune) host with a virus elicits an immediate cellular response termed the innate immune response of the interferon response. Many viruses have evolved to counteract this host defense mechanism. The focus of this grant is to gain a general understanding of how influenza A and B viruses modulate the innate defenses of the host. Virus infection activates cellular functions (presumably through dsRNA) that promote the de novo transcription of antiviral genes, including type I interferon. Interferon is released from the cell and through signal transduction induces the transcription of interferon responsive genes (ISGs) in an autocrine and paracrine manner. Newly synthesized proteins set up an antiviral state in uninfected adjacent cells to limit virus replication in subsequent rounds of infection. In addition, interferon synthesized by professional antigen presenting cells may determine the type of adaptive immunity (TH1/TH2) developed by the host. We recently discovered that the influenza A virus NS1 protein functions to limit the antiviral effects of interferon. A virus which lacks NS1 (de1NS1) replicates poorly in interferon-competent hosts but replicates well (and is pathogenic) in transgenic mouse lines which are defective in interferon signaling of transcription. The interaction between the host and influenza A and B viruses during an interferon response to the virus will be examined. Important questions addressed by the five laboratories participating in this program project grant include: (1) What are the structural requirements in the NS1 protein which enable influenza A and influenza B viruses to counteract the innate immune response of the host? (2) What is the precise molecular mechanism for suppression of the interferon response by influenza virus NS1 proteins? (3) Does deletion or modification of the NS1 gene result in better activation of dendritic cells and consequent stimulation of a TH1 type immune response? (4) Does interferon play a role in the tissue tropism of influenza viruses? (5) Does deletion of the NS1 gene attenuate influenza virus virulence in humans? The goal of this program project grant is to gain new insights into virus modulation of the host interferon response. It is hoped that these efforts may lead to a novel influenza virus vaccine approach based on modifications of the interferon antagonist NS1 protein.

  Funding Agency

Agency
National Institute of Health (NIH)
Institute
National Institute of Allergy and Infectious Diseases (NIAID)
Type
Research Program Projects (P01)
Project #
5P01AI048204-02
Application #
6374634
Study Section
Special Emphasis Panel (ZAI1-PTM-I (M1))
Program Officer
Hackett, Charles J
Project Start
2000-07-01
Project End
2004-06-30
Budget Start
2001-07-01
Budget End
2002-06-30
Support Year
2
Fiscal Year
2001
Total Cost
$889,201
Indirect Cost

  Institution

Name
Mount Sinai School of Medicine
Department
Microbiology/Immun/Virology
Type
Schools of Medicine
DUNS #
114400633
City
New York
State
NY
Country
United States
Zip Code
10029

  Publications

Versteeg, Gijs A; GarcĂ­a-Sastre, Adolfo (2010) Viral tricks to grid-lock the type I interferon system. Curr Opin Microbiol 13:508-16
Legastelois, Isabelle; Garcia-Sastre, Adolfo; Palese, Peter et al. (2007) Preparation of genetically engineered A/H5N1 and A/H7N1 pandemic vaccine viruses by reverse genetics in a mixture of Vero and chicken embryo cells. Influenza Other Respi Viruses 1:95-104
Gimeno, Ramon; Lee, Chien-Kuo; Schindler, Christian et al. (2005) Stat1 and Stat2 but not Stat3 arbitrate contradictory growth signals elicited by alpha/beta interferon in T lymphocytes. Mol Cell Biol 25:5456-65
Falcon, Ana M; Fernandez-Sesma, Ana; Nakaya, Yurie et al. (2005) Attenuation and immunogenicity in mice of temperature-sensitive influenza viruses expressing truncated NS1 proteins. J Gen Virol 86:2817-21
Baskin, Carole R; Garcia-Sastre, Adolfo; Tumpey, Terrence M et al. (2004) Integration of clinical data, pathology, and cDNA microarrays in influenza virus-infected pigtailed macaques (Macaca nemestrina). J Virol 78:10420-32
Bonifaz, Laura C; Bonnyay, David P; Charalambous, Anna et al. (2004) In vivo targeting of antigens to maturing dendritic cells via the DEC-205 receptor improves T cell vaccination. J Exp Med 199:815-24
Brimnes, Marie K; Bonifaz, Laura; Steinman, Ralph M et al. (2003) Influenza virus-induced dendritic cell maturation is associated with the induction of strong T cell immunity to a coadministered, normally nonimmunogenic protein. J Exp Med 198:133-44
Lopez, Carolina B; Garcia-Sastre, Adolfo; Williams, Bryan R G et al. (2003) Type I interferon induction pathway, but not released interferon, participates in the maturation of dendritic cells induced by negative-strand RNA viruses. J Infect Dis 187:1126-36
Lopez, Carolina B; Moran, Thomas M; Schulman, Jerome L et al. (2002) Antiviral immunity and the role of dendritic cells. Int Rev Immunol 21:339-53
Enninga, Jost; Levy, David E; Blobel, Gunter et al. (2002) Role of nucleoporin induction in releasing an mRNA nuclear export block. Science 295:1523-5

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