Xenopus laevis has long been used successfully as the ectothermic vertebrate species of choice for studying the phylogeny of the complex immune system. In addition, X. laevis has proved to be an excellent model system for answering fundamental immunological questions that are not phylogenetically restricted to a given taxon. In part, this is because development of the Xenopus immune system occurs at two distinct times: once during larval life, and then again during the metamorphic transition from immunocompetent larva to immunocompetent adult. Since the larval form is free-swimming and amenable to a variety of surgical and nonsurgical interventions, valuable information can be obtained that is not possible to obtain from in utero studies of mammals (e.g., development of self-tolerance to adult specific antigens, acquisition of a second T-cell repertoire, and ontogeny of T-cell subsets in a natural setting). Moreover, metamorphosis is hormonally driven which permits examination of immunologically relevant neuroendocrine-immune system interactions in a developing immune system. Another critical aspect of Xenopus immunology that makes it important as a model is the well-documented absence of classical and non-classical MHC class I expression during the pre-metamophic larval period. Finally, transplantable tumor cell lines that either express or lack MHC class I and II molecules also contribute to the use of Xenopus as a naturally-occurring """"""""knockout"""""""" species. The broad objectives of this proposal are to further develop Xenopus laevis as a non-mammalian immunobiologically-focused model by: (1) assuring the systematic breeding and husbandry of different clones, strains, and species of Xenopus;(2) organizing a central repository of information and existing research materials (e.g., cell lines, DNA libraries, mAbs, animals) readily available to the scientific community;and (3) generating new tools for immunological research (e.g., new mAbs, cDNA libraries, cells lines, transgenics frogs). Many areas of existing and new research should benefit from satisfying these aims. We envision: further development of X. laevis as: a nonmammalian model for studying: (1) tumor immunity;(2) self-tolerance and autoimmunity during ontogeny;(3) host-pathogen interactions;(4) genome evolution and genomic regulation;(5) immunotoxicology (e.g. endocrine disruptors);(6) the role of heat shock proteins in immunity;(7) the function of nonclassical MHC class I antigens;and (8) the evolution of toll-like receptors (structure and function) in immunity.

Agency
National Institute of Health (NIH)
Institute
National Institute of Allergy and Infectious Diseases (NIAID)
Type
Resource-Related Research Projects (R24)
Project #
3R24AI059830-05S1
Application #
7878392
Study Section
Allergy & Clinical Immunology-1 (AITC)
Program Officer
Gondre-Lewis, Timothy A
Project Start
2009-07-14
Project End
2009-10-31
Budget Start
2009-07-14
Budget End
2009-10-31
Support Year
5
Fiscal Year
2009
Total Cost
$8,932
Indirect Cost
Name
University of Rochester
Department
Microbiology/Immun/Virology
Type
Schools of Dentistry
DUNS #
041294109
City
Rochester
State
NY
Country
United States
Zip Code
14627
Robert, Jacques (2018) Frog's DCs have it all in one. Eur J Immunol 48:415-418
Neely, Harold R; Guo, Jacqueline; Flowers, Emily M et al. (2018) ""Double-duty"" conventional dendritic cells in the amphibian Xenopus as the prototype for antigen presentation to B cells. Eur J Immunol 48:430-440
Edholm, Eva-Stina; Banach, Maureen; Hyoe Rhoo, Kun et al. (2018) Distinct MHC class I-like interacting invariant T cell lineage at the forefront of mycobacterial immunity uncovered in Xenopus. Proc Natl Acad Sci U S A 115:E4023-E4031
Grogan, Laura F; Robert, Jacques; Berger, Lee et al. (2018) Review of the Amphibian Immune Response to Chytridiomycosis, and Future Directions. Front Immunol 9:2536
Banach, Maureen; Edholm, Eva-Stina; Robert, Jacques (2017) Exploring the functions of nonclassical MHC class Ib genes in Xenopus laevis by the CRISPR/Cas9 system. Dev Biol 426:261-269
De Jesús Andino, Francisco; Lawrence, B Paige; Robert, Jacques (2017) Long term effects of carbaryl exposure on antiviral immune responses in Xenopus laevis. Chemosphere 170:169-175
Banach, Maureen; Robert, Jacques (2017) Tumor immunology viewed from alternative animal models-the Xenopus story. Curr Pathobiol Rep 5:49-56
Jacques, Robert; Edholm, Eva-Stina; Jazz, Sanchez et al. (2017) Xenopus-FV3 host-pathogen interactions and immune evasion. Virology 511:309-319
Edholm, Eva-Stina; Rhoo, Kun Hyoe; Robert, Jacques (2017) Evolutionary Aspects of Macrophages Polarization. Results Probl Cell Differ 62:3-22
Nakai, Yuya; Nakajima, Keisuke; Robert, Jacques et al. (2016) Ouro proteins are not essential to tail regression during Xenopus tropicalis metamorphosis. Genes Cells 21:275-86

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