Evidence That IgE Molecules Mediate a Spectrum of Effects on Mast Cell Survival and Activation via Aggregation of the FcεRI

We demonstrate that binding of different IgE molecules (IgEs) to their receptor, FcεRI, induces a spectrum of activation events in the absence of a specific antigen and provide evidence that such activation reflects aggregation of FcεRI. Highly cytokinergic IgEs can efficiently induce production of...

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Bibliographic Details
Published in:Proceedings of the National Academy of Sciences - PNAS 2003-10, Vol.100 (22), p.12911-12916
Main Authors: Kitaura, Jiro, Song, Jinming, Tsai, Mindy, Asai, Koichi, Maeda-Yamamoto, Mari, Mocsai, Attila, Kawakami, Yuko, Liu, Fu-Tong, Lowell, Clifford A., Barisas, B. George, Galli, Stephen J., Kawakami, Toshiaki
Format: Article
Language:English
Subjects:
Aggregation
Anisotropy
Antigens
Biological Sciences
Cytokines
Haptens
Hybridomas
Mast cells
Molecules
Phosphorescence
Secretion
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Summary:We demonstrate that binding of different IgE molecules (IgEs) to their receptor, FcεRI, induces a spectrum of activation events in the absence of a specific antigen and provide evidence that such activation reflects aggregation of FcεRI. Highly cytokinergic IgEs can efficiently induce production of cytokines and render mast cells resistant to apoptosis in an autocrine fashion, whereas poorly cytokinergic IgEs induce these effects inefficiently. Highly cytokinergic IgEs seem to induce more extensive FcεRI aggregation than do poorly cytokinergic IgEs, which leads to stronger mast cell activation and survival effects. These effects of both types of IgEs require Syk tyrosine kinase and can be inhibited by FcεRI disaggregation with monovalent hapten. In hybridoma-transplanted mice, mucosal mast cell numbers correlate with serum IgE levels. Therefore, survival effects of IgE could contribute to the pathogenesis of allergic disease.
ISSN:0027-8424
1091-6490
DOI:10.1073/pnas.1735525100