Abstract

The molecular identification of SARS-CoV as the virus causing the clinical SARS disease opens many avenues for studies of disease pathogenesis, prevention and treatment. The pulmonary tract is likely the major portal of entry for this virus and disease of the lung is a significant source of SARS-associated morbidity and mortality. We hypothesize that the airway epithelial surface is the initial point of contact between the host and the SARS-CoV. Currently little is known regarding the host-pathogen interactions at this critical mucosal interface for this infection. The overall goal of this project is to understand how SARS-CoV enters polarized human airway epithelia and other lung cell types and to identify epithelial innate host defense responses that are elicited in response to the pathogen that may influence disease pathogenesis. We will also investigate how this knowledge may be applied towards the development of treatment or prevention strategies for SARS-CoV pulmonary infections using RNA interference (RNAi) technology. There are three specific aims:
Aim 1. What is the route of entry and exit for SARS-CoV in human airway epithelia? We will use well-differentiated primary cultures of human airway epithelia to investigate several aspects on SARS-CoV entry and exit from this important target cell.
Aim 2. What is the relationship between SARS-CoV and interferon-dependent epithelial immunity? The following questions will be addressed: Does SARS-CoV infection induce interferon release from respiratory epithelial cells? Do interferons inhibit SARS-CoV replication in respiratory epithelial cells? How does SARS-CoV infection subvert interferon-dependent immunity? Aim 3. Can mucosal immunity to SARS-CoV be enhanced through use of RNA interference? RNA interference is a powerful method to selectively target mRNA degradation in mammalian cells. We will evaluate the use of RNAi as a specific method to inhibit viral infection and replication in human airway epithelia. Completion of these studies will provide a wealth of new information and insight regarding the interactions between the pathogenic coronavirus and the epithelial cells of the human lung.

  Funding Agency

Agency
National Institute of Health (NIH)
Institute
National Institute of Allergy and Infectious Diseases (NIAID)
Type
Research Program Projects (P01)
Project #
5P01AI060699-03
Application #
7262557
Study Section
Special Emphasis Panel (ZAI1)
Project Start
Project End
Budget Start
2006-08-01
Budget End
2007-07-31
Support Year
3
Fiscal Year
2006
Total Cost
$320,999
Indirect Cost

  Institution

Name
University of Iowa
Department
Type
DUNS #
062761671
City
Iowa City
State
IA
Country
United States
Zip Code
52242

  Publications

Sodhi, Chhinder P; Wohlford-Lenane, Christine; Yamaguchi, Yukihiro et al. (2018) Attenuation of pulmonary ACE2 activity impairs inactivation of des-Arg9 bradykinin/BKB1R axis and facilitates LPS-induced neutrophil infiltration. Am J Physiol Lung Cell Mol Physiol 314:L17-L31
Castaño-Rodriguez, Carlos; Honrubia, Jose M; Gutiérrez-Álvarez, Javier et al. (2018) Role of Severe Acute Respiratory Syndrome Coronavirus Viroporins E, 3a, and 8a in Replication and Pathogenesis. MBio 9:
Zheng, Jian; Perlman, Stanley (2018) Immune responses in influenza A virus and human coronavirus infections: an ongoing battle between the virus and host. Curr Opin Virol 28:43-52
Chu, Daniel K W; Hui, Kenrie P Y; Perera, Ranawaka A P M et al. (2018) MERS coronaviruses from camels in Africa exhibit region-dependent genetic diversity. Proc Natl Acad Sci U S A 115:3144-3149
Galasiti Kankanamalage, Anushka C; Kim, Yunjeong; Damalanka, Vishnu C et al. (2018) Structure-guided design of potent and permeable inhibitors of MERS coronavirus 3CL protease that utilize a piperidine moiety as a novel design element. Eur J Med Chem 150:334-346
Grunewald, Matthew E; Fehr, Anthony R; Athmer, Jeremiah et al. (2018) The coronavirus nucleocapsid protein is ADP-ribosylated. Virology 517:62-68
Canton, Javier; Fehr, Anthony R; Fernandez-Delgado, Raúl et al. (2018) MERS-CoV 4b protein interferes with the NF-?B-dependent innate immune response during infection. PLoS Pathog 14:e1006838
Fehr, Anthony R; Jankevicius, Gytis; Ahel, Ivan et al. (2018) Viral Macrodomains: Unique Mediators of Viral Replication and Pathogenesis. Trends Microbiol 26:598-610
Alshukairi, Abeer N; Zheng, Jian; Zhao, Jingxian et al. (2018) High Prevalence of MERS-CoV Infection in Camel Workers in Saudi Arabia. MBio 9:
Wang, Yanqun; Sun, Jing; Channappanavar, Rudragouda et al. (2017) Simultaneous Intranasal/Intravascular Antibody Labeling of CD4+ T Cells in Mouse Lungs. Bio Protoc 7:

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