Natural killer (NK) cells are innate lymphocytes that play a pivotal role in early anti-pathogen host defense and are particularly important in mediating resistance to viral infections. Indeed, humans with selective NK cell deficiencies experience significant difficulty with herpesviruses infections. The ability of NK cells to kill abnormal cells and produce immunomodulatory cytokines and chemokines uniquely positions them to not only participate in the initial defense against intracellular pathogens but also to influence the subsequent adaptive immune response. In addition to killing infected cells and generating cytokines and chemokines, NK cells are stimulated to vigorously proliferate during viral infections. This proliferative response can be divided into three distinct phases: early nonspecific NK cell proliferation, preferential proliferation of NK cells that are able to recognize infected cells, and cessation of proliferation and contraction of the expanded NK cell population. The regulatory mechanisms involved in controlling these different phases of NK cell proliferation are poorly characterized. The long-term objective of these studies is to understand the in vivo regulation of NK cell proliferation and homeostasis during viral infections. Using murine cytomegalovirus (MCMV) infection as a model system, we propose to address several critical, unresolved issues in the in vivo regulation of NK cell proliferation and homeostasis including 1) the relative contributions of cytokines and NK cell activation receptors to viral-induced NK cell proliferation, 2) the mechanism by which NK cell activation receptor signaling augments cytokine-driven NK cell proliferation, and 3) the role of the adaptive immune system in the resolution of viral-induced NK cell proliferation. We contend that a clearer understanding of in vivo NK cell proliferation and homeostasis during viral infections will have broad translational implications and may lead to novel therapeutic interventions to modulate NK cells to either stimulate more effective responses (e.g., during intractable viral infections or solid organ malignancies) or down-regulate over-exuberant or inappropriate responses (e.g., during NK cell lymphoproliferative disorders or autoimmune diseases). Public Health Relevance: Our innate immune system provides early resistance to viral infections while the more specific adaptive immune system is being activated. The overall objective of the proposed studies is to understand the regulation of one important type of cell in our innate immune response, natural killer cells, during viral infections. A more complete understanding of natural killer cell homeostasis during viral infections may lead to new ways to modulate natural killer cell responses during viral infections or autoimmune disorders.

Public Health Relevance

Our innate immune system provides early resistance to viral infections while the more specific adaptive immune system is being activated. The overall objective of the proposed studies is to understand the regulation of one important type of cell in our innate immune response, natural killer cells, during viral infections. A more complete understanding of natural killer cell homeostasis during viral infections may lead to new ways to modulate natural killer cell responses during viral infections or autoimmune disorders.

Agency
National Institute of Health (NIH)
Institute
National Institute of Allergy and Infectious Diseases (NIAID)
Type
Research Project (R01)
Project #
1R01AI078994-01A2
Application #
7740883
Study Section
Immunity and Host Defense Study Section (IHD)
Program Officer
Beisel, Christopher E
Project Start
2009-07-15
Project End
2014-06-30
Budget Start
2009-07-15
Budget End
2010-06-30
Support Year
1
Fiscal Year
2009
Total Cost
$380,000
Indirect Cost
Name
Washington University
Department
Pediatrics
Type
Schools of Medicine
DUNS #
068552207
City
Saint Louis
State
MO
Country
United States
Zip Code
63130
Throm, Allison A; Alinger, Joshua B; Pingel, Jeanette T et al. (2018) Dysregulated NK cell PLC?2 signaling and activity in juvenile dermatomyositis. JCI Insight 3:
Fotis, Lampros; Shaikh, Nurmohammad; Baszis, Kevin W et al. (2017) Serologic Evidence of Gut-driven Systemic Inflammation in Juvenile Idiopathic Arthritis. J Rheumatol 44:1624-1631
Mah, Annelise Y; Rashidi, Armin; Keppel, Molly P et al. (2017) Glycolytic requirement for NK cell cytotoxicity and cytomegalovirus control. JCI Insight 2:
Chapa, Travis J; Du, Yushen; Sun, Ren et al. (2017) Proteomic and phylogenetic coevolution analyses of pM79 and pM92 identify interactions with RNA polymerase II and delineate the murine cytomegalovirus late transcription complex. J Gen Virol 98:242-250
Zhao, Yun M; French, Anthony R (2013) Mechanistic model of natural killer cell proliferative response to IL-15 receptor stimulation. PLoS Comput Biol 9:e1003222
Ornstein, Bradley W; Hill, Elaise B; Geurs, Theresa L et al. (2013) Natural killer cell functional defects in pediatric patients with severe and recurrent herpesvirus infections. J Infect Dis 207:458-68
Fogel, Leslie A; Yokoyama, Wayne M; French, Anthony R (2013) Natural killer cells in human autoimmune disorders. Arthritis Res Ther 15:216
Fogel, Leslie A; Sun, Michel M; Geurs, Theresa L et al. (2013) Markers of nonselective and specific NK cell activation. J Immunol 190:6269-76
Sullivan, Ryan P; Fogel, Leslie A; Leong, Jeffrey W et al. (2013) MicroRNA-155 tunes both the threshold and extent of NK cell activation via targeting of multiple signaling pathways. J Immunol 191:5904-13
Sullivan, Ryan P; Leong, Jeffrey W; Schneider, Stephanie E et al. (2012) MicroRNA-deficient NK cells exhibit decreased survival but enhanced function. J Immunol 188:3019-30

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