Abstract
We have shown previously that purified chondroitin 6-sulfotransferase-1 (C6ST-1) was a glycoprotein abundant in N-linked oligosaccharides and could sulfate both chondroitin (C6ST activity) and keratan sulfate (KSST activity); however, functional roles of the N-glycans have remained unclear. In the present study, we show essential roles of N-glycans attached to C6ST-1 in the generation of the active enzyme and in its KSST activity. Treatment with tunicamycin of COS-7 cells transfected with C6ST-1 cDNA totally abolished production of the active C6ST-1. A nearly complete removal of N-glycans of the recombinant C6ST-1 by peptide N-glycosidase F increased the C6ST activity but decreased the KSST activity. Among six potential N-glycosylation sites, deletion of the fourth or sixth site from the amino terminus inhibited production of the active C6ST-1, whereas deletion of the fifth site resulted in a marked loss of the KSST activity. Wild-type recombinant C6ST-1 showed a typical Golgi localization, whereas M-4 recombinant C6ST-1, in which the fourth N-glycosylation site was deleted, colocalized with calnexin, an endoplasmic reticulum-resident protein. Unlike wildtype recombinant C6ST-1, M-4 recombinant C6ST-1 showed a weak affinity toward wheat germ agglutinin and was converted completely to the nonglycosylated form by endoglycosidase H. These observations suggest that N-glycan attached to the fourth N-glycosylation site may function in the proper processing of N-glycans required for the Golgi localization, thereby causing the production of the active C6ST-1, and that N-glycan attached to the fifth N-glycosylation site may contribute to the KSST activity of C6ST-1.
Highlights
CTCATTTTGTGGCAGATGCCAGCAGCACTGACCCAGCCCTGC-3Ј (42-mer) GCAGGGCTGGGTCAGTGCTGCTGGCATCTGCCACAAAATGAG-3Ј (42-mer) CCCTGCTCTTATCGGAGAGTGCATCTCTCTTGTCCC-3Ј (36-mer) GGGACAAGAGAGATGCACTCTCCGATAAGAGCAGGG-3Ј (36-mer) CCGCCTGCACAGCCTGAGCCTGCAGCTGGGC-3Ј (31-mer) GCCCAGCTGCAGGCTCAGGCTGTGCAGGCGG-3Ј (31-mer) CGTCGCTGCGGGCCACTCAGCGTGACCTTGGC-3Ј (32-mer) GCCAAGGTCACGCTGAGTGGCCCGCAGCGACG-3Ј (32-mer) GTCTACTCCACTCAGAAAAGCTCTTCTGAGCAGTTTG-3Ј (37-mer) CAAACTGCTCAGAAGAGCTTTTCTGAGTGGAGTAGAC-3Ј (37-mer) GATGCCGCCTCACTCACCAGCCGCTCCATCAGCCTGCTG-3Ј (39-mer) CAGCAGGCTGATGGAGCGGCTGGTGAGTGAGGCGGCATC-3Ј (39-mer) found to be glycoproteins containing relatively abundant N-linked oligosaccharides
These results indicate that attachment of N-glycans is essential for the generation of the active chondroitin 6-sulfotransferase-1 (C6ST-1)
In the presence of 0.01 g/ml tunicamycin, chondroitin 6-sulfotransferase (C6ST) activity was fully retained, whereas the expressed protein exhibited multiple discrete bands on the Western blot (Fig. 1B, lane 3). These discrete protein bands are thought to correspond to different glycoforms of C6ST-1 bearing different numbers of N-glycans, because these protein bands were converted to the nonglycosylated form after the PNGase F digestion
Summary
CTCATTTTGTGGCAGATGCCAGCAGCACTGACCCAGCCCTGC-3Ј (42-mer) GCAGGGCTGGGTCAGTGCTGCTGGCATCTGCCACAAAATGAG-3Ј (42-mer) CCCTGCTCTTATCGGAGAGTGCATCTCTCTTGTCCC-3Ј (36-mer) GGGACAAGAGAGATGCACTCTCCGATAAGAGCAGGG-3Ј (36-mer) CCGCCTGCACAGCCTGAGCCTGCAGCTGGGC-3Ј (31-mer) GCCCAGCTGCAGGCTCAGGCTGTGCAGGCGG-3Ј (31-mer) CGTCGCTGCGGGCCACTCAGCGTGACCTTGGC-3Ј (32-mer) GCCAAGGTCACGCTGAGTGGCCCGCAGCGACG-3Ј (32-mer) GTCTACTCCACTCAGAAAAGCTCTTCTGAGCAGTTTG-3Ј (37-mer) CAAACTGCTCAGAAGAGCTTTTCTGAGTGGAGTAGAC-3Ј (37-mer) GATGCCGCCTCACTCACCAGCCGCTCCATCAGCCTGCTG-3Ј (39-mer) CAGCAGGCTGATGGAGCGGCTGGTGAGTGAGGCGGCATC-3Ј (39-mer) found to be glycoproteins containing relatively abundant N-linked oligosaccharides. It has been reported that N-glycans contained in various glycoproteins are involved in protein folding, ER-associated protein degradation, intracellular trafficking, and production of functional proteins [21,22,23,24,25]. We have previously shown that N-glycans attached to C4ST-1 are involved in the production and stability of the active enzyme [26]. Functional roles of N-glycans attached to these sulfotransferases has not been fully understood. We examined the roles of N-glycans attached to C6ST-1 and found that N-glycans on C6ST-1 affected the intracellular localization and thereby the production of the active enzyme. We found unexpectedly that one of the N-glycans is required for the sulfotransferase activity of C6ST-1 toward KS
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