Structural analysis of the asparagine-linked oligosaccharides from three lysosomal enzymes of Dictyostelium discoideum. Evidence for an unusual acid-stable phosphodiester.

H. H. Freeze, R. Yeh, A. L. Miller, S. Kornfeld

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Abstract

Lysosomal enzymes of the slime mold Dictyostelium discoideum contain mannose 6-phosphate and bind with high affinity to the phosphomannosyl receptor of human fibroblasts. In this study, we have partially characterized the Asn-linked oligosaccharide units present on these enzymes. [3H]Mannose-labeled alpha-D-mannosidase, beta-D-glucosidase, and beta-D-N-acetylglucosaminidase were purified from the spent growth medium of strain AX3 and glycopeptides were prepared by pronase digestion. Approximately 75% of the glycopeptides contained sulfate residues. These could be removed by solvolysis without degrading the underlying oligosaccharide. Following solvolysis (but not before), the oligosaccharides could be released by endo-beta-N-acetylglucosaminidase H, indicating the presence of high mannose-type units. Greater than 85% of the oligosaccharides contained one or two mannose 6-phosphate residues in the form of an unusual acid-stable phosphodiester. About 3% of the oligosaccharides contained phosphomonoesters and only 6% were neutral species. The major neutral oligosaccharide eluted in the position of Man9GlcNAc when analyzed by high performance liquid chromatography whereas the minor species appeared to be 1-2 residues larger. Acetolysis of the major phosphorylated fractions revealed that molecules with a single mannose 6-phosphate contained the phosphomannosyl residue on the branch linked alpha 1,6 to the beta-linked mannose whereas molecules with two phosphomannosyl residues had the residues on this branch as well as the branch linked alpha 1,3 to the beta-linked mannose. The mechanism of mannose phosphorylation in the slime mold must differ from that of mammalian cells since the phosphomannosyl residues are present as acid-resistant phosphodiesters rather than acid-labile phosphodiesters.

Original languageEnglish
Pages (from-to)14874-14879
Number of pages6
JournalJournal of Biological Chemistry
Volume258
Issue number24
StatePublished - Dec 25 1983

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