Type A influenza virus (IAV) is a major human pathogen with the capacity to rapidly spread world-wide and to produce severe and sometimes fatal infections resulting in severe pneumonia. Evidence accumulating over the past several decades strongly suggests that disease produced by IAV infection not only reflects the extent of virus replication in the respiratory tract, but also the strength or magnitude of the host innate ad adaptive immune response. Our laboratory has had longstanding interest (over 30 yrs duration) in understanding the role of the adaptive immune CD8+ CTL (CD8+ Te) response in IAV clearance from the infected lungs and in the development of associated pulmonary inflammation and injury. This renewal application builds on recent findings from our laboratory suggesting that pro-inflammatory mediator production by CTL is triggered by recognition of IAV antigen bearing CD45+ inflammatory cells infiltrating the IAV infected pulmonary interstitium while CTL encounter with and recognition of CD45- IAV infected respiratory epithelial cells results in the elimination of these productively-infected cells without triggering inflammatory mediator production of the CTL. The studies described here, which utilize a murine model and primary human cells, are designed to identify the CD45+ inflammatory cell types within the IAV infected respiratory tract that trigger CTL, and the role of costimulatory ligands displayed by these cells in triggering mediator production by CTL. Companion studies will examine the interaction of CTL with CD45- IAV infected respiratory epithelial cells using differentiated primary epithelial cells. We will use this information to explore strategies to selectively suppress excess pulmonary inflammation associated with CTL recognition of CD45+ inflammatory cells in the IAV infected lungs without altering virus clearance from lungs.
The Specific Aims of this program are: 1) To evaluate the contribution of specific CD45+ Inflammatory Cell subsets in the induction of pro-inflammatory mediator production by IAV-specific CTL in the infected RT; 2) To determine the properties of murine and human respiratory epithelial cells (REC) which renders these cells capable of triggering CD8+ Te-mediated cytolysis, but not pro-inflammatory cytokine production; 3) To assess the impact of modulation of co-stimulatory ligands on CTL effector activity in vivo, virus elimination and pulmonary inflammation. The proposed studies should provide a framework for the development of new therapeutic strategies to control the severity of IAV infection.

Public Health Relevance

Type A influenza virus is a major human pathogen with the capacity to produce epidemic disease (seasonal infections) as well as pandemic disease resulting in infections on a worldwide scale with morbidity and mortality measurable in the millions. The recent outbreak of the novel H1N1 swine influenza infection highlights the speed with which this virus can spread around the world as well as its potential to infect a large fractin of the world's population. Research over the past several decades has provided strong evidence that the disease which influenza virus infection produces is not only due to the ability of the virus to replicate in the human respiratory tract and kill the cells there in which it repliates but also reflects the response of the body's immune system to infection. Consequently the stronger/more vigorous the immune response to influenza infection in the respiratory tract the more likely it is that we will experience severe disease such as influenza pneumonia. The research program described in this application explores in both an experimental mouse model and in the human how infection of different cell types in lungs can affect the ability of the body' immune T-cells to eliminate infected cells and to produce inflammatory products which increase lung inflammation. It also explore strategies by which we can eliminate or decrease the amount of inflammation produced by the immune system during infection without altering the ability of the immune system to clear influenza virus from lungs.

Agency
National Institute of Health (NIH)
Institute
National Institute of Allergy and Infectious Diseases (NIAID)
Type
Research Project (R01)
Project #
5R01AI015608-36
Application #
9176005
Study Section
Virology - B Study Section (VIRB)
Program Officer
Hauguel, Teresa M
Project Start
1991-09-01
Project End
2018-11-30
Budget Start
2016-12-01
Budget End
2018-11-30
Support Year
36
Fiscal Year
2017
Total Cost
Indirect Cost
Name
University of Virginia
Department
Pathology
Type
Schools of Medicine
DUNS #
065391526
City
Charlottesville
State
VA
Country
United States
Zip Code
22904
Cardani, Amber; Boulton, Adam; Kim, Taeg S et al. (2017) Alveolar Macrophages Prevent Lethal Influenza Pneumonia By Inhibiting Infection Of Type-1 Alveolar Epithelial Cells. PLoS Pathog 13:e1006140
Adamson, Samantha E; Griffiths, Rachael; Moravec, Radim et al. (2016) Disabled homolog 2 controls macrophage phenotypic polarization and adipose tissue inflammation. J Clin Invest 126:1311-22
Newton, Amy H; Cardani, Amber; Braciale, Thomas J (2016) The host immune response in respiratory virus infection: balancing virus clearance and immunopathology. Semin Immunopathol 38:471-82
Moser, Emily K; Sun, Jie; Kim, Taeg S et al. (2015) IL-21R signaling suppresses IL-17+ gamma delta T cell responses and production of IL-17 related cytokines in the lung at steady state and after Influenza A virus infection. PLoS One 10:e0120169
Kim, Taeg S; Hanak, Mark; Trampont, Paul C et al. (2015) Stress-associated erythropoiesis initiation is regulated by type 1 conventional dendritic cells. J Clin Invest 125:3965-80
Steinke, John W; Liu, Lixia; Turner, Ronald B et al. (2015) Immune surveillance by rhinovirus-specific circulating CD4+ and CD8+ T lymphocytes. PLoS One 10:e0115271
Yao, S; Jiang, L; Moser, E K et al. (2015) Control of pathogenic effector T-cell activities in situ by PD-L1 expression on respiratory inflammatory dendritic cells during respiratory syncytial virus infection. Mucosal Immunol 8:746-59
Hufford, Matthew M; Kim, Taeg S; Sun, Jie et al. (2015) The effector T cell response to influenza infection. Curr Top Microbiol Immunol 386:423-55
Buckley, Monica W; Arandjelovic, Sanja; Trampont, Paul C et al. (2014) Unexpected phenotype of mice lacking Shcbp1, a protein induced during T cell proliferation. PLoS One 9:e105576
Dolina, Joseph S; Braciale, Thomas J; Hahn, Young S (2014) Liver-primed CD8+ T cells suppress antiviral adaptive immunity through galectin-9-independent T-cell immunoglobulin and mucin 3 engagement of high-mobility group box 1 in mice. Hepatology 59:1351-65

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