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Query: EC:4.2.2.7 (
heparinase
)
1,270
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
In the preceding paper (Roux, L., Holojda, S., Sundblad, G., Freeze, H. H., and Varki, A. (1988) J. Biol. Chem. 263, 8879-8889) we described the metabolic labeling and isolation of sulfated N-linked oligosaccharides from mammalian cell lines. All cell lines studied contained a class of sulfated sialylated complex-type chains with 2-6 negative charges. In this paper, we show that bovine pulmonary arterial endothelial (CPAE) and human erythroleukemia (K562) cell lines also contain a class of more highly charged sulfated but less sialylated oligosaccharides. These molecules were further characterized by ion exchange chromatography and various enzymatic and chemical treatments. In both cell lines they contained greater than 6 negative charges, but those from K562 were even more highly charged than those from CPAE. Nitrous acid,
heparinase
, and heparitinase degradation of K562 oligosaccharides released 88, 64, and 78%, respectively, of 35S label. Combined digestion with the two enzymes resulted in 87% release. The corresponding values for CPAE were 48, 25, and 50% (60% for the two enzymes together). Chondroitinase ABC (or AC) digestion of K562 and CPAE oligosaccharides released 10 and 5%, respectively. About 30% of the 35S-labeled oligosaccharides from CPAE were sensitive to endo-beta-galactosidase, indicating that poly-N-acetyl-lactosamine structures were present on some chains. Highly charged [3H]mannose-labeled sulfated oligosaccharides from CPAE cells became neutral after treatment with
heparinase
/heparitinase but were resistant to Pronase, further proving that glycosaminoglycan (GAG)-like chains were directly attached to N-linked oligosaccharides. Such neutralized oligosaccharides did not bind to concanavalin A-Sepharose, but some interacted with phytohemagglutinin L4, indicating that they were bi-, tri-, or tetra-antennary complex-type chains. Thus, K562 and CPAE cells contain different types of GAG chains directly attached to
asparagine
-linked oligosaccharides. Such molecules were not found in many other cell lines that synthesize the more typical O-linked GAG chains. This suggests that the occurrence of these novel N-linked chains is not a random event resulting from accidental initiation of GAG chain synthesis on N-linked intermediates in the Golgi apparatus.
...
PMID:Sulfated N-linked oligosaccharides in mammalian cells. II. Identification of glycosaminoglycan-like chains attached to complex-type glycans. 337 51
In the preceding two papers, we described two new classes of sulfated N-linked oligosaccharides isolated from total cellular 35SO4-labeled macromolecules of different mammalian cell lines. The first class carries various combinations of sialic acids and 6-O-sulfate esters on typical complex-type chains, while the second carries heparin and heparan-like sequences. In this study, we have characterized a sulfophosphoglycoprotein of 140 kDa from FG-Met-2 pancreatic cancer cells whose oligosaccharides share some properties of both these classes. The molecule was localized to the cell surface by electron microscopy using a monoclonal antibody (S3-53) and by cell surface 125I-labeling. Metabolic labeling of the cells with radioactive glucosamine, methionine, inorganic sulfate, or phosphate all demonstrated a single 140-kDa molecule. Pulse-chase analysis and tunicamycin treatment indicated the glycosylation of a putative primary translation product of 110 kDa via an intermediate (120 kDa) to the mature form (140 kDa). Digestion with peptide:N-glycosidase F (PNGaseF) indicated a minimum of four N-linked glycosylation sites. PNGaseF released more than 90% of the [6-3H]GlcNH2 label and 40-70% of 35SO4 label from the immunoprecipitated 140-kDa molecule. The isolated oligosaccharides were characterized as described in the preceding two papers. The majority of [6-3H]GlcNH2-labeled molecules were susceptible to neuraminidase. More than 50% of the 35SO4 label was associated with only 5-10% of the 3H-labeled chains. Some of the sulfated chains were partly sialylated molecules with four to five negative charges. Treatment with nitrous acid released about 25% of the 35SO4 label as free sulfate, together with 6% of the [6-3H]GlcNH2 label, indicating the presence of N-sulfated glucosamine residues. Some of these oligosaccharides were degraded by
heparinase
and heparitinase. Therefore, while they are not as highly charged as typical heparin or heparan chains, they must share structural features that permit recognition by the enzymes. Thus, this 140-kDa glycoprotein contains at least four
asparagine
-linked chains substituted with a heterogeneous mixture of sulfated sequences. The heterogeneity of these molecules is as extensive as that described for whole-cell sulfated N-linked oligosaccharides in the preceding two papers.
...
PMID:Sulfated N-linked oligosaccharides in mammalian cells. III. Characterization of a pancreatic carcinoma cell surface glycoprotein with N- and O-sulfate esters on asparagine-linked glycans. 337 52
Passage of Ross River virus strain NB5092 in avian cells has been previously shown to select for virus variants that have enhanced replication in these cells. Sequencing of these variants identified two independent sites that might be responsible for the phenotype. We now demonstrate, using a molecular cDNA clone of the wild-type T48 strain, that an amino acid substitution at residue 218 in the E2 glycoprotein can account for the phenotype. Substitutions that replaced the wild-type
asparagine
with basic residues had enhanced replication in avian cells while acidic or neutral residues had little or no observable effect. Ross River virus mutants that had increased replication in avian cells also grew better in BHK cells than the wild-type virus, whereas the remaining mutants were unaffected in growth. Replication in both BHK and avian cells of Ross River virus mutants N218K and N218R was inhibited by the presence of heparin or by the pretreatment of the cells with
heparinase
. Binding of the mutants, but not of the wild type, to a heparin-Sepharose column produced binding comparable to that of Sindbis virus, which has previously been shown to bind heparin. Replication of these mutants was also adversely affected when they were grown in a CHO cell line that was deficient in heparan sulfate production. These results demonstrate that amino acid 218 of the E2 glycoprotein can be modified to create an heparan sulfate binding site and this modification expands the host range of Ross River virus in cultured cells to cells of avian origin.
...
PMID:An amino acid substitution in the coding region of the E2 glycoprotein adapts Ross River virus to utilize heparan sulfate as an attachment moiety. 1141 96
