Activated N-formyl Peptide Receptor and High-affinity IgE Receptor Occupy Common Domains for Signaling and Internalization

Overview

Journal Mol Biol Cell

Specialties Cell Biology
Molecular Biology

Date 2007 Feb 3

PMID 17267694

Citations 10

Authors

Mei Xue

Genie Hsieh

Mary Ann Raymond-Stintz

Janet Pfeiffer

Diana Roberts

Stanly L Steinberg

Janet M Oliver

Eric R Prossnitz

Diane S Lidke

Bridget S Wilson

Affiliations

Soon will be listed here.

Abstract

Immune cells display multiple cell surface receptors that integrate signals for survival, proliferation, migration, and degranulation. Here, immunogold labeling is used to map the plasma membrane distributions of two separate receptors, the N-formyl peptide receptor (FPR) and the high-affinity IgE receptor (FepsilonRI). We show that the FPR forms signaling clusters in response to monovalent ligand. These domains recruit Gi, followed by the negative regulatory molecule arrestin2. There are low levels of colocalization of FPR with FcepsilonRI in unstimulated cells, shown by computer simulation to be a consequence of receptor density. Remarkably, there is a large increase in receptor coclustering when cells are simultaneously treated with N-formyl-methionyl-leucyl-phenylalanine and IgE plus polyvalent antigen. The proximity of two active receptors may promote localized cross-talk, leading to enhanced inositol-(3,4,5)-trisphosphate production and secretion. Some cointernalization and trafficking of the two receptors can be detected by live cell imaging, but the bulk of FPR and FcepsilonRI segregates over time. This segregation is associated with more efficient internalization of cross-linked FcepsilonRI than of arrestin-desensitized FPR. The observation of receptors in lightly coated membrane invaginations suggests that, despite the lack of caveolin, hematopoietic cells harbor caveolae-like structures that are candidates for nonclathrin-mediated endocytosis.

Citing Articles

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The role of formylated peptides and formyl peptide receptor 1 in governing neutrophil function during acute inflammation.

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