Export of the High Affinity IgE Receptor From the Endoplasmic Reticulum Depends on a Glycosylation-Mediated Quality Control Mechanism

Abstract

The high affinity IgE receptor (FcεRI) is a multisubunit complex comprised of either αγ2 or αβγ2 chains. The cotranslational assembly of the IgE-binding α-chain with a dimer of γ-chains occurs in a highly controlled manner and is proposed to involve masking of a dilysine motif present at the cytoplasmic C terminus of the FcεRI α-chain that targets localization of this subunit to the endoplasmic reticulum (ER). Here, we show that ER quality control modulates export from the ER of newly synthesized αγ2 and αβγ2 receptors. We demonstrate that the presence of untrimmed N-linked core glycans (Glc3Man9GlcNAc2) on the FcεRI α-chain activates the ER quality control mechanism to retain this subunit in the ER, despite the presence of γ-chains. At the same time, the untrimmed, ER-localized α-chain exhibits IgE-binding activity, suggesting that FcεRI α-chain folding occurs before constitutive glucose trimming. In additional experiments, we demonstrate that cell surface expression of an α-chain C-terminal truncation mutant is also dependent on glucose trimming, but not on γ-chain coexpression. We suggest that glucosidase trimming of terminal glucose residues is a critical control step in the export of FcεRIα from the ER. Finally, we show that the constitutive ER FcεRI α-chain, expressed in the absence of the other FcεRI subunits, associates with the ER lectin-like chaperone calnexin, but not the structurally similar ER chaperone calreticulin, presumably through interaction with monoglucosylated α-chain ER glycoforms.