Abstract

Macrophages are distributed throughout the body where they are poised to detect pathogens and to subsequently alert the immune system to the presence of infection through the production of inflammatory mediators. Inflammatory mediators are critical for pathogen control, but if produced excessively, can result in inflammatory diseases. My long-term goal is to understand the regulation of the production of inflammatory mediators by macrophages during infection. I have identified a novel type of negative regulation of the inflammatory response to pathogens through the TREM-2/DAP12 receptor complex.
The specific aims of this proposal seek to define the mechanism of TREM-2 and DAP12 inhibition of inflammatory signaling in macrophages both in vivo and in vitro.
The specific aims are: 1. To determine the ligand requirements for TREM-2 and DAP12 inhibition of inflammatory responses in macrophages. I will test the hypothesis that low avidity signals through DAP12 result in inhibition of inflammatory responses, whereas high avidity signals result in activation of inflammatory responses. 2. To determine the mechanism by which TREM-2 and DAP12 inhibit inflammatory signaling in macrophages. These experiments will define how DAP12 signaling results in inhibition of ERK phosphorylation and activation leading to dampening of inflammatory cytokine production in macrophages. 3. To determine why DAP12-deficient mice have enhanced innate immune responses in vivo. I will determine the mechanism for the increased innate response to Listeria monocytogenes infection in DAP12- deficient mice. I also will investigate what myeloid populations are inhibited by DAP12 signaling and whether this correlates with TREM-2 and TREM-2 ligand expression. Results from these studies should provide novel insights into how the early innate immune response to infectious pathogens is controlled. This is a topic of significance in the development of vaccines to prevent infection and immunomodulatory drugs to treat infections with pathogens relevant to biodefense, including Listeria monocytogenes, an Ml AID category B priority pathogen addressed in this proposal.

  Funding Agency

Agency
National Institute of Health (NIH)
Institute
National Institute of Allergy and Infectious Diseases (NIAID)
Type
Research Project (R01)
Project #
5R01AI073441-05
Application #
8059737
Study Section
Special Emphasis Panel (ZRG1-IMM-L (02))
Program Officer
Palker, Thomas J
Project Start
2007-05-15
Project End
2013-04-30
Budget Start
2011-05-01
Budget End
2013-04-30
Support Year
5
Fiscal Year
2011
Total Cost
$439,877
Indirect Cost

  Institution

Name
Benaroya Research Institute at Virginia Mason
Department
Type
DUNS #
076647908
City
Seattle
State
WA
Country
United States
Zip Code
98101

  Publications

Tampella, Giacomo; Kerns, Hannah M; Niu, Deqiang et al. (2015) The Tec Kinase-Regulated Phosphoproteome Reveals a Mechanism for the Regulation of Inhibitory Signals in Murine Macrophages. J Immunol 195:246-56
Campanholle, Gabriela; Mittelsteadt, Kristen; Nakagawa, Shunsaku et al. (2013) TLR-2/TLR-4 TREM-1 signaling pathway is dispensable in inflammatory myeloid cells during sterile kidney injury. PLoS One 8:e68640
Yee, Nathan K; Hamerman, Jessica A (2013) ?(2) integrins inhibit TLR responses by regulating NF-?B pathway and p38 MAPK activation. Eur J Immunol 43:779-92
Buechler, Matthew B; Teal, Thomas H; Elkon, Keith B et al. (2013) Cutting edge: Type I IFN drives emergency myelopoiesis and peripheral myeloid expansion during chronic TLR7 signaling. J Immunol 190:886-91
Sun, Xizhang; Wiedeman, Alice; Agrawal, Nalini et al. (2013) Increased ribonuclease expression reduces inflammation and prolongs survival in TLR7 transgenic mice. J Immunol 190:2536-43
Giltiay, Natalia V; Chappell, Craig P; Sun, Xizhang et al. (2013) Overexpression of TLR7 promotes cell-intrinsic expansion and autoantibody production by transitional T1 B cells. J Exp Med 210:2773-89
Ito, Hiroaki; Hamerman, Jessica A (2012) TREM-2, triggering receptor expressed on myeloid cell-2, negatively regulates TLR responses in dendritic cells. Eur J Immunol 42:176-85
Ni, Minjian; MacFarlane 4th, Alexander W; Toft, Michelle et al. (2012) B-cell adaptor for PI3K (BCAP) negatively regulates Toll-like receptor signaling through activation of PI3K. Proc Natl Acad Sci U S A 109:267-72
Jhingran, Anupam; Mar, Katrina B; Kumasaka, Debra K et al. (2012) Tracing conidial fate and measuring host cell antifungal activity using a reporter of microbial viability in the lung. Cell Rep 2:1762-73
Averill, Michelle M; Barnhart, Shelley; Becker, Lev et al. (2011) S100A9 differentially modifies phenotypic states of neutrophils, macrophages, and dendritic cells: implications for atherosclerosis and adipose tissue inflammation. Circulation 123:1216-26

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