Neutrophil-mediated inflammation contributes to the pathogenesis of many diseases including autoinflammatory syndromes, heart disease, asthma, rheumatic disease and inflammatory bowel disease. A key early step in the inflammatory response is the directional migration of neutrophils to sites of inflammation. The overall goal of this proposal is to understand the basic molecular mechanisms that regulate neutrophil chemotaxis in vivo, and to understand how these mechanisms contribute to the development of chronic inflammation using zebrafish as a model system. The strength of this proposal lies in the use of novel transgenic zebrafish lines that we have developed to study neutrophil chemotaxis and inflammation in vivo. Using these tools we have made the observation that zebrafish neutrophils exhibit bidirectional migration between tissues and the vasculature, and reverse neutrophil migration contributes to resolution of the inflammatory response. The hypothesis that guides this research is that neutrophil chemotaxis mediated by G-protein coupled receptors (GPCR), phosphoinositide signaling and the adaptor protein PSTPIP1 modulate bidirectional neutrophil trafficking between tissues and the vasculature and the development of inflammation in vivo. We are now uniquely positioned with improved methods for high efficiency transient expression of transgenes or biosensor probes in zebrafish neutrophils to dissect the molecular mechanisms that regulate neutrophil chemotaxis and bidirectional migration in vivo. Accordingly, we propose the following specific aims: 1. Elucidate how phosphoinositide signaling regulates bidirectional neutrophil trafficking and inflammation in zebrafish. 2. Elucidate how GPCR signaling through CXCR4 regulates bidirectional neutrophil trafficking and inflammation in zebrafish, and 3. Use zebrafish as a model system to examine neutrophil chemotaxis in autoinflammatory disease in vivo. The research proposed in this grant will not only elucidate the molecular mechanisms that regulate neutrophil chemotaxis, but will also likely provide insight into the pathogenesis of chronic inflammation and the development of new therapeutic for control of disease states in which inflammation is central to pathogenesis.

Public Health Relevance

The proposed research contributes to human health by increasing our understanding of the molecular mechanisms that regulate leukocyte motility, wound healing and inflammation using zebrafish as a model system. Knowledge of the basic mechanisms that regulate neutrophil chemotaxis in vivo should aid in the identification of therapeutic targets for autoinflammatory syndromes and other disease states in which inflammation is central to pathogenesis, including heart disease, asthma, arthritis and inflammatory bowel disease.

Agency
National Institute of Health (NIH)
Institute
National Institute of General Medical Sciences (NIGMS)
Type
Research Project (R01)
Project #
5R01GM074827-07
Application #
8110463
Study Section
Special Emphasis Panel (ZRG1-CB-N (03))
Program Officer
Dunsmore, Sarah
Project Start
2005-08-15
Project End
2013-07-31
Budget Start
2011-08-01
Budget End
2012-07-31
Support Year
7
Fiscal Year
2011
Total Cost
$307,580
Indirect Cost
Name
University of Wisconsin Madison
Department
Pediatrics
Type
Schools of Medicine
DUNS #
161202122
City
Madison
State
WI
Country
United States
Zip Code
53715
de Oliveira, Sofia; Rosowski, Emily E; Huttenlocher, Anna (2016) Neutrophil migration in infection and wound repair: going forward in reverse. Nat Rev Immunol 16:378-91
Vincent, William J B; Freisinger, Christina M; Lam, Pui-Ying et al. (2016) Macrophages mediate flagellin induced inflammasome activation and host defense in zebrafish. Cell Microbiol 18:591-604
LeBert, D C; Squirrell, J M; Huttenlocher, A et al. (2016) Second harmonic generation microscopy in zebrafish. Methods Cell Biol 133:55-68
Rosowski, Emily E; Deng, Qing; Keller, Nancy P et al. (2016) Rac2 Functions in Both Neutrophils and Macrophages To Mediate Motility and Host Defense in Larval Zebrafish. J Immunol 197:4780-4790
LeBert, Danny C; Squirrell, Jayne M; Rindy, Julie et al. (2015) Matrix metalloproteinase 9 modulates collagen matrices and wound repair. Development 142:2136-46
Huttenlocher, Anna; Smith, Judith A (2015) Neutrophils in pediatric autoimmune disease. Curr Opin Rheumatol 27:500-4
Harvie, Elizabeth A; Huttenlocher, Anna (2015) Non-invasive Imaging of the Innate Immune Response in a Zebrafish Larval Model of Streptococcus iniae Infection. J Vis Exp :
Harvie, Elizabeth A; Huttenlocher, Anna (2015) Neutrophils in host defense: new insights from zebrafish. J Leukoc Biol 98:523-37
Tauzin, Sebastien; Starnes, Taylor W; Becker, Francisco Barros et al. (2014) Redox and Src family kinase signaling control leukocyte wound attraction and neutrophil reverse migration. J Cell Biol 207:589-98
Shelef, Miriam A; Sokolove, Jeremy; Robinson, William H et al. (2014) Reply: To PMID 24497204. Arthritis Rheumatol 66:2644-5

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