The murine model of Leishmania major infection has proven a robust experimental system for investigations of CD4+ subset differentiation in vivo with applications to many areas of immunobiology. The central tenet that has evolved from this model is that control of infection correlates with the presence of a strong Thl response that provides IFN-g required for activation of macrophages and restriction of parasite replication. Conversely, the susceptibility of strains on the BALB background has been correlated with development of an aberrant Th2 response that is not only unable to provide requisite macrophage-activating signals but also abrogates the generation and activities of Th1-type cytokines. The life cycle of this organism - replication within an MHC class II compartment of the mammalian macrophage - underlies this marked CD4+ response and establishes this model as an exceptional probe for understanding the critical decisions faced by helper T cells in mediating appropriate immune responses. Importantly, the switch decision must be made at the time of T cell priming, as illustrated by the timing restrictions necessary for interventions capable of redirecting the aberrant response of BALB/c mice to an immunoprotective Th1 response. By focusing on this early period, we have identified the immunodominant antigen recognized by mice in the early CD4+ response to this parasite and successfully immunized highly susceptible BALB/c mice using combinations of IL-12 with recombinant antigen. Further, we have identified critical requirements for IL-4 during priming in the aberrant BALB/c response, suggesting that the BALB/c susceptibility relates to inappropriate production and/or sensitivity to IL-4 during priming of naive T cells. This proposal seeks to dissect elements of the early interaction of the immune system with L. major in order to more fully understand the nature of the priming response for helper T cells. A series of three specific aims will examine (1) the nature of the immunodominant antigen by characterizing it capacity to protect BALB.B and BALB.K mice, identifying T cell epitopes that will facilitate targeting of altered ligands, and through creation of gene- targeted deletion mutants of the parasite; (2) the cell source for critical cytokines involved in the early development switch of Th1/Th2 cells that originate from the innate immune system; and (3) elucidation of co-stimulatory pathways for IL-4 production that we have identified to be aberrant in mice on the BALB background. Such studies should yield important information regarding the basis of CD4+ subset differentiation and mechanisms that underlie disease susceptibility, and will serve to focus future studies directed at identification of the gene that confers susceptibility of BALB mice to L. major such that human homologs might be found.

Agency
National Institute of Health (NIH)
Institute
National Institute of Allergy and Infectious Diseases (NIAID)
Type
Research Project (R01)
Project #
5R01AI026918-10
Application #
2667688
Study Section
Tropical Medicine and Parasitology Study Section (TMP)
Project Start
1988-07-01
Project End
2001-02-28
Budget Start
1998-03-01
Budget End
1999-02-28
Support Year
10
Fiscal Year
1998
Total Cost
Indirect Cost
Name
University of California San Francisco
Department
Internal Medicine/Medicine
Type
Schools of Medicine
DUNS #
073133571
City
San Francisco
State
CA
Country
United States
Zip Code
94143
Schneider, Christoph; O'Leary, Claire E; von Moltke, Jakob et al. (2018) A Metabolite-Triggered Tuft Cell-ILC2 Circuit Drives Small Intestinal Remodeling. Cell 174:271-284.e14
Miller, Corey N; Proekt, Irina; von Moltke, Jakob et al. (2018) Thymic tuft cells promote an IL-4-enriched medulla and shape thymocyte development. Nature 559:627-631
Nusse, Ysbrand M; Savage, Adam K; Marangoni, Pauline et al. (2018) Parasitic helminths induce fetal-like reversion in the intestinal stem cell niche. Nature 559:109-113
Ricardo-Gonzalez, Roberto R; Van Dyken, Steven J; Schneider, Christoph et al. (2018) Tissue signals imprint ILC2 identity with anticipatory function. Nat Immunol 19:1093-1099
Nadjsombati, Marija S; McGinty, John W; Lyons-Cohen, Miranda R et al. (2018) Detection of Succinate by Intestinal Tuft Cells Triggers a Type 2 Innate Immune Circuit. Immunity 49:33-41.e7
Van Dyken, Steven J; Locksley, Richard M (2018) Chitins and chitinase activity in airway diseases. J Allergy Clin Immunol 142:364-369
Van Dyken, Steven J; Liang, Hong-Erh; Naikawadi, Ram P et al. (2017) Spontaneous Chitin Accumulation in Airways and Age-Related Fibrotic Lung Disease. Cell 169:497-509.e13
Savage, Adam K; Liang, Hong-Erh; Locksley, Richard M (2017) The Development of Steady-State Activation Hubs between Adult LTi ILC3s and Primed Macrophages in Small Intestine. J Immunol 199:1912-1922
Singh, Priti B; Pua, Heather H; Happ, Hannah C et al. (2017) MicroRNA regulation of type 2 innate lymphoid cell homeostasis and function in allergic inflammation. J Exp Med 214:3627-3643
von Moltke, Jakob; O'Leary, Claire E; Barrett, Nora A et al. (2017) Leukotrienes provide an NFAT-dependent signal that synergizes with IL-33 to activate ILC2s. J Exp Med 214:27-37

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