Abstract
Proper folding of nascent polypeptides is essential for their function and is monitored by intracellular "quality control" elements. The molecular chaperone calnexin participates in this process by retaining in the endoplasmic reticulum a variety of unfolded proteins, including class I major histocompatibility complex molecules. We transfected human B cell lines with genes encoding either wild-type HLA-A2 heavy chains or mutant heavy chains lacking sites for glycosylation or deficient in binding to beta 2-microglobulin (beta 2m). In CIR cells, calnexin did not associate detectably with wild-type heavy chains but bound strongly to mutant heavy chains unable to bind beta 2m. Removal of the glycosylation addition site by further mutagenesis prevented binding of mutant heavy chains to calnexin. In Daudi cells, deficient in synthesis of beta 2m, wild-type HLA-A2 heavy chains, but not a non-glycosylated mutant, bound calnexin. Castanospermine, which blocks trimming of glucose residues from asparagine-linked glycans, inhibited association of calnexin with heavy chains encoded by a second class I gene, HLA-B*0702. Although initiation of calnexin binding appears to depend on the presence of oligosaccharide on the substrate, removal of the glycan from calnexin-associated heavy chains by digestion with endoglycosidase H did not disrupt the interaction. These results suggest that calnexin first recognizes carbohydrate on substrate proteins and then binds more stably to peptide determinants, which disappear upon folding.
Highlights
:j:To whom correspondence should be addressed: Dept. of Pathology, 733 Scaife Hall, University of Pittsburgh School of Medicine, Pittsburgh, PA 15261
Major histocompatibility complex (MHC) heavy chains, which are important for recognition by calnexin
Previous studies demonstrated that calnexin binds to class I major histocompatibility complex (MHC) heavy chains prior to binding 132-microglobulin (132m) in the ER and dissociates before class I MHC molecules enter the Golgi
Summary
Calnexin Recognizes Carbohydrate and Protein Determinants of Class I Major Histocompatibility Complex Molecules*. Castanospermine, which blocks trimming of glucose residues from asparagine-linked glycans, inhibited association of calnexin with heavy chains encoded by a second class I gene, HLA-B*0702. Initiation of calnexin binding appears to depend on the presence of oligosaccharide on the substrate, removal of the glycan from ealnexin-associated heavy chains by digestion with endoglycosidase H did not disrupt the interaction These results suggest that calnexin first recognizes carbohydrate on substrate proteins and binds more stably to peptide determinants, which disappear upon folding. Castanospermine and other drugs that inhibit trimming of glucose residues from high mannose glycans block calnexin binding, leading to the suggestion that calnexin recognizes monoglucosylated glycans on substrates [6] This implies that calnexin may be a lectin, it does not appear to have homology to known lectins. Our results suggest that calnexin recognizes both oligosaccharide and unfolded regions of proteins
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