Abstract
Cathepsin L, a lysosomal cysteine protease, is the major excreted protein of transformed mouse NIH 3T3 cells. Previous studies have shown that asparagine-linked oligosaccharides associated with the secreted hydrolase contain mannose 6-phosphate (Man 6-P), the recognition marker for transport of newly synthesized acid hydrolases to lysosomes. To investigate the mechanism by which cathepsin L evades targeting to lysosomes, we determined the structure of the enzyme's oligosaccharides and analyzed its interaction with the cation-independent mannose 6-phosphate (Man 6-PCl) receptor. Oligosaccharides associated with procathepsin L isolated from the medium of [3H]mannose-labeled J774 cells were remarkably homogeneous; all of the radiolabeled structures were high mannose-type units that contained two phosphomonoesters and 7 mannose residues. Both the alpha 1,3- and alpha 1,6-branches of the oligosaccharides were phosphorylated. Oligosaccharides released by endoglycosidase H from [3H]mannose-labeled procathepsin L bound to a Man 6-PCl receptor affinity column. Despite the high affinity binding of these oligosaccharides, the intact glycoprotein was not a good ligand for the Man 6-PCl receptor. Procathepsin L was internalized poorly by Man 6-P receptor-mediated endocytosis and the purified acid protease interacted weakly with a Man 6-PCl affinity column. In contrast, pro-beta-glucuronidase (another acid hydrolase produced by J774 cells) was an excellent ligand for the Man 6-PCl receptor as judged by the endocytosis and affinity chromatographic assays. Phosphorylated oligosaccharides associated with the J774-secreted pro-beta-glucuronidase were heterogeneous and contained both mono- and diphosphorylated species. Tryptic glycopeptides generated from [3H]mannose-labeled procathepsin L, unlike the intact protein, were excellent ligands for the Man 6-PCl receptor. The results indicate that oligosaccharides associated with procathepsin L are processed uniformly to diphosphorylated species that bind with high affinity to the Man 6-PCl receptor. Protein determinants inherent within the intact acid hydrolase, however, inhibit the high affinity binding of these oligosaccharides and, as a result, impair the interaction of procathepsin L with the receptor.
Highlights
Previous studies have shown that asparaginelinked oligosaccharides associated with the secreted hydrolase contain mannose 6-phosphate (Man 6-P), the recognition marker for transport of newly synthesized acid hydrolases to lysosomes
To investigate the mechanism by which cathepsin L evades targeting to lysosomes, we determined the structure of the enzyme’s oligosaccharides and analyzed its interaction with the cation-independent mannose 6-phosphate (Man 6-P”)
Mannose-type Oligosaccharide-To determine the structure of the phosphorylated oligosaccharides associated with cathepsin L, the acid hydrolase was isolated from the growth medium of mouse 5774 cells
Summary
To investigate the mechanism by which cathepsin L evades targeting to lysosomes, we determined the structure of the enzyme’s oligosaccharides and analyzed its interaction with the cation-independent mannose 6-phosphate (Man 6-P”). 5774 cells were remarkably homogeneous; all of the radiolabeled structures were high mannose-type units that contained two phosphomonoesters and 7 mannose residues. Both the a1,3- and al,6-branches of the oligosaccharides were phosphorylated. H from [3H]mannose-labeled procathepsin L bound to a Man 6-P” receptor affinity column. Despite the high affinity binding of these oligosaccharides, the intact glycoprotein was not a good ligand for the Man 6-PC’ receptor. L was internalized poorly by Man 6-P receptor-mediated endocytosis and the purified acid protease interacted weakly with a Man 6-P” affinity column.
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