Optimal Aggregation of FcεRI with a Structurally Defined Trivalent Ligand Overrides Negative Regulation Driven by Phosphatases

Optimal Aggregation of FcεRI with a Structurally Defined Trivalent Ligand Overrides Negative Regulation Driven by Phosphatases

To investigate why responses of mast cells to antigen-induced IgE receptor (FcεRI) aggregation depend nonlinearly on antigen dose, we characterized a new artificial ligand, DF3, through complementary modeling and experimentation. This ligand is a stable trimer of peptides derived from bacteriophage...

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Published in:ACS chemical biology Vol. 9; no. 7; pp. 1508 - 1519
Main Authors: Mahajan, Avanika, Barua, Dipak, Cutler, Patrick, Lidke, Diane S, Espinoza, Flor A, Pehlke, Carolyn, Grattan, Rachel, Kawakami, Yuko, Tung, Chang-Shung, Bradbury, Andrew R. M, Hlavacek, William S, Wilson, Bridget S
Format: Journal Article
Language:English
Published: United States American Chemical Society 18-07-2014
Subjects:
Animals
Antigens - chemistry
Antigens - immunology
Cell Degranulation
Humans
Immunoglobulin E - immunology
Ligands
Mast Cells - cytology
Mast Cells - immunology
Models, Molecular
Peptides - chemistry
Peptides - immunology
Phosphoric Monoester Hydrolases - immunology
Protein Tyrosine Phosphatase, Non-Receptor Type 11 - immunology
Rats
Receptors, IgE - immunology
Signal Transduction
Viral Proteins - chemistry
Viral Proteins - immunology
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Summary:To investigate why responses of mast cells to antigen-induced IgE receptor (FcεRI) aggregation depend nonlinearly on antigen dose, we characterized a new artificial ligand, DF3, through complementary modeling and experimentation. This ligand is a stable trimer of peptides derived from bacteriophage T4 fibritin, each conjugated to a hapten (DNP). We found low and high doses of DF3 at which degranulation of mast cells sensitized with DNP-specific IgE is minimal, but ligand-induced receptor aggregation is comparable to aggregation at an intermediate dose, optimal for degranulation. This finding makes DF3 an ideal reagent for studying the balance of negative and positive signaling in the FcεRI pathway. We find that the lipid phosphatase SHIP and the protein tyrosine phosphatase SHP-1 negatively regulate mast cell degranulation over all doses considered. In contrast, SHP-2 promotes degranulation. With high DF3 doses, relatively rapid recruitment of SHIP to the plasma membrane may explain the reduced degranulation response. Our results demonstrate that optimal secretory responses of mast cells depend on the formation of receptor aggregates that promote sufficient positive signaling by Syk to override phosphatase-mediated negative regulatory signals.
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ISSN:1554-8929
1554-8937
DOI:10.1021/cb500134t