Abstract
To identify factors involved in the expression of ligand-gated ion channels, we expressed nicotinic acetylcholine receptors in HEK cells to characterize roles for oligosaccharide trimming, calnexin association, and targeting to the proteasome. The homologous subunits of the acetylcholine receptor traverse the membrane four times, contain at least one oligosaccharide, and are retained in the endoplasmic reticulum until completely assembled into the circular arrangement of subunits of delta-alpha-gamma-alpha-beta to enclose the ion channel. We previously demonstrated that calnexin is associated with unassembled subunits of the receptor, but appears to dissociate when subunits are assembled in various combinations. We used the glucosidase inhibitor castanospermine to block oligosaccharide processing, and thereby inhibit calnexin's interaction with the oligosaccharides in the receptor subunits. Castanospermine treatment reduces the association of calnexin with the alpha-subunit of the receptor, and diminishes the intracellular accumulation of unassembled receptor subunit protein. However, treatment with castanospermine does not appear to alter subunit folding or assembly. In contrast, co-treatment with proteasome inhibitors and castanospermine enhances the accumulation of polyubiquitin-conjugated alpha-subunits, and generally reverses the castanospermine induced loss of alpha-subunit protein. Co-transfection of cDNAs encoding the alpha- and delta-subunits, which leads to the expression of assembled alpha- and delta- subunits, also inhibits the loss of alpha-subunits expressed in the presence of castanospermine. Taken together, these observations indicate that calnexin association reduces the degradation of unassembled receptor subunits in the ubiquitin-proteasome pathway.
Highlights
The nicotinic acetylcholine receptor is a prototype molecule of a family of ligand-gated ion channels, which include GABAA, glycine, and 5HT3 receptors [1, 2]
Using transient expression of acetylcholine receptor subunits in HEK cells, we find a role for calnexin association in reducing degradation of unassembled subunits by the proteasome, since treatment with castanospermine reduces the subunit-calnexin association and increases the polyubiquitination of the ␣-subunit
Castanospermine Diminishes Accumulation of ␣, , and ␦-Subunits in the Cell, without Generally Influencing the Accumulation of Other Cellular Proteins—Cells were treated with the glucosidase inhibitor castanospermine, to identify roles for glucose trimming in the biogenesis of acetylcholine receptors expressed in HEK cells
Summary
The nicotinic acetylcholine receptor is a prototype molecule of a family of ligand-gated ion channels, which include GABAA, glycine, and 5HT3 receptors [1, 2]. The subunits are thought to undergo a maturation pathway which includes oligosaccharide attachment [4], formation of disulfide bonds [5,6,7], proline isomerization [8], and intersubunit contacts at specific interfaces (9 –11) Members of this family of receptors are composed of a multisubunit complex of glycoproteins which are retained and assembled in the endoplasmic reticulum prior to transport to the cell surface [9, 12]. With the ␦-subunit reduces the degradation of the ␣-subunit when ␣- and ␦-subunits are co-expressed in the presence of castanospermine, indicating that glucose trimming, calnexin association, assembly and entrance into the proteasome are linked in the expression of the receptor Connections among these phenomena are likely to be critical to the fidelity of expression of other multisubunit glycoproteins
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