Abstract

Rapid expulsion is an IgE or IgG-mediated intestinal immune response that results in the elimination from the gut of large number os T. spiralis muscle larvae in a challenge infection of actively immune rats. This immune response has several unique characteristics that are of general significance. To wit: it is the only native IgE-mediated anti nematode immune response for which the cellular and molecular components have been defined. Furthermore, it is the only unequivocal example of a host- protective function for IgE in a normal immune response. Analysis of this response is therefore fundamentally relevant not just to mechanisms of immunity to nematodes but also to allergy and to intestinal immunity. During the tenure of this grant we defined the site of production, the kinetics, migration pattern and phenotype of protective cells which will transfer rapid expulsion provided CD4+ CD45RC- cells have first been transferred. The role of CD4+ OX22 cells can be substituted by infecting rats with an unrelated nematode. Heligmosomoides polygyrus, 5- understanding of anti nematode immunity. We propose herein to continue these studies with a focus on the properties of the protective cells and IgE, the two known essential elements. What is not known is how the cells and IgE interact to result in the expression of rapid expulsion. We therefore will determine the behavior and function of both cells and IgE in vivo and define the precise mechanism through which rapid expulsion is expressed. The work will involve cellular and molecular studies in vitro and in vivo. We have also recently developed an afferent/efferent lymph and serum assay system with which we can measure local, regional and specifically remove cytokines and other effectors. We will use antisense oligonucleotide therapy to specifically remove cytokine production ability from CD4+ OX22 cells, prior to transfer, to determine which cytokines are essential for cellular function. This will be backed by an analysis of the cytokine profile of labelled CD4+ OX22 cells isolated from the gut after transfer to naive animals. Furthermore, we have shown that infection. CD4+ OX22 cells and IL-4 can all elevate the IgE-binding and transport properties of the gut. We have demonstrated the upregulation of IgE binding molecules on lamina propria cells and intraepithelial lymphocytes and will identify and characterize FceR and the cells bearing them. We will search for effector molecules in afferent lymph from actively immune and adoptively transferred rats during expression of rapid expulsion and isolate active molecules. This approach is focussed, integrated and will define effectors in a physiologically relevant manner. Abbreviations: T. spiralis, Ts; intraepithelial lymphocytes, IEL; lamina propria, LP, enterocyte, ENT; thoracic duct, TD. Rapid expulsion, RE: muscle larvae ML.

  Funding Agency

Agency
National Institute of Health (NIH)
Institute
National Institute of Allergy and Infectious Diseases (NIAID)
Type
Research Project (R01)
Project #
5R01AI017484-15
Application #
2390252
Study Section
Tropical Medicine and Parasitology Study Section (TMP)
Project Start
1981-09-30
Project End
1998-03-31
Budget Start
1997-04-01
Budget End
1998-03-31
Support Year
15
Fiscal Year
1997
Total Cost
Indirect Cost

  Institution

Name
Cornell University
Department
Veterinary Sciences
Type
Schools of Veterinary Medicine
DUNS #
City
Ithaca
State
NY
Country
United States
Zip Code
14850

  Publications

Bell, R G (1998) The generation and expression of immunity to Trichinella spiralis in laboratory rodents. Adv Parasitol 41:149-217
Negrao-Correa, D; Adams, L S; Bell, R G (1996) Intestinal transport and catabolism of IgE: a major blood-independent pathway of IgE dissemination during a Trichinella spiralis infection of rats. J Immunol 157:4037-44
Ramaswamy, K; Negrao-Correa, D; Bell, R (1996) Local intestinal immune responses to infections with Trichinella spiralis. Real-time, continuous assay of cytokines in the intestinal (afferent) and efferent thoracic duct lymph of rats. J Immunol 156:4328-37
Ramaswamy, K; Goodman, R E; Bell, R G (1994) Cytokine profile of protective anti-Trichinella spiralis CD4+ OX22- and non-protective CD4+ OX22+ thoracic duct cells in rats: secretion of IL-4 alone does not determine protective capacity. Parasite Immunol 16:435-45
Bell, R G; Issekutz, T (1993) Expression of a protective intestinal immune response can be inhibited at three distinct sites by treatment with anti-alpha 4 integrin. J Immunol 151:4790-802
Llana, T; Bell, R G (1993) Characterization of an inhibitory factor derived from epithelial cells of the small intestine. Reg Immunol 5:18-27
Goodman, R E; Oblak, J; Bell, R G (1992) Synthesis and characterization of rat interleukin-10 (IL-10) cDNA clones from the RNA of cultured OX8- OX22- thoracic duct T cells. Biochem Biophys Res Commun 189:1-7
Bell, R G (1992) Trichinella spiralis: evidence that mice do not express rapid expulsion. Exp Parasitol 74:417-30
Wang, C H; Bell, R G (1992) Characterization of cellular and molecular immune effectors against Trichinella spiralis newborn larvae in vivo. Cell Mol Biol 38:311-25
Bell, R G; Appleton, J A; Negrao-Correa, D A et al. (1992) Rapid expulsion of Trichinella spiralis in adult rats mediated by monoclonal antibodies of distinct IgG isotypes. Immunology 75:520-7

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