Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:2.4.99.6 (sialyltransferase)
 1,546 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

We are interested in determining whether carbohydrates are important regulatory determinants in the intracellular transport and secretion of glycoproteins. In the present study, we have used swainsonine, an indolizidine alkaloid, to modify the structure of N-glycosidically linked complex oligosaccharides. By inhibiting Golgi mannosidase II, swainsonine prevents the trimming of GlcNAc(Man)5(GlcNAc)2 to GlcNAc-(Man)3(GlcNAc)2, resulting in the formation of hybrid-type oligosaccharides. We find, from pulse-chase experiments using [35S]methionine and immunoprecipitation of individual proteins from culture media, that swainsonine treatment (1 microgram/ml) accelerated the secretion of glycoproteins (transferrin, ceruloplasmin, alpha 2-macroglobulin, and alpha 1-antitrypsin) by decreasing the lag period by 10-15 min relative to untreated cultures. The enhanced secretion was specific for glycoproteins since the secretion of albumin, a nonglycoprotein, was unaffected. When alpha 1-antitrypsin was immunoprecipitated from the cell lysates, sodium dodecyl sulfate-polyacrylamide gel electrophoresis fluorographic analysis demonstrated that the conversion of the high-mannose precursor to the hybrid form in swainsonine-treated cells occurred more rapidly (by about 10 min) than the conversion to the complex form in control cells. Since both the hybrid and complex forms of alpha 1-antitrypsin are terminally sialylated by sialyltransferase in the trans-Golgi, these results suggest that swainsonine-modified glycoproteins traverse the Golgi more rapidly than their normal counterparts. Therefore, accelerated transport within this organelle may account for the decreased lag period of glycoprotein secretion in the swainsonine-treated cultures.
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PMID:Swainsonine treatment accelerates intracellular transport and secretion of glycoproteins in human hepatoma cells. 257 69

We have used Chinese hamster ovary (CHO) cells and a murine lymphoma cell line to study the recycling of the 215-kD and the 46-kD mannose 6-phosphate receptors to various regions of the Golgi to determine the site where the receptors first encounter newly synthesized lysosomal enzymes. For assessing return to the trans-most Golgi compartments containing sialyltransferase (trans-cisternae and trans-Golgi network), the oligosaccharides of receptor molecules on the cell surface were labeled with [3H]galactose at 4 degrees C. Upon warming to 37 degrees C, the [3H]galactose residues on both receptors were substituted with sialic acid with a t1/2 approximately 3 hrs. Other glycoproteins acquired sialic acid at least 8-10 times slower. Return of the receptors to the trans-Golgi cisternae containing galactosyltransferase could not be detected. Return to the cis/middle Golgi cisternae containing alpha-mannosidase I was measured by adding deoxymannojirimycin, a mannosidase I inhibitor, during the initial posttranslational passage of [3H]mannose-labeled glycoproteins through the Golgi, thereby preserving oligosaccharides which would be substrates for alpha-mannosidase I. After removal of the inhibitor, return to the early Golgi with subsequent passage through the Golgi complex was measured by determining the conversion of the oligosaccharides from high mannose to complex-type units. This conversion was very slow for the receptors and other glycoproteins (t1/2 approximately 20 h). Exposure of the receptors and other glycoproteins to the dMM-sensitive alpha-mannosidase without movement through the Golgi apparatus was determined by measuring the loss of mannose residues from these proteins. This loss was also slow. These results indicate that both Man-6-P receptors routinely return to the Golgi compartment which contains sialyltransferase and recycle through other regions of the Golgi region less frequently. We infer that the trans-Golgi network is the major site for lysosomal enzyme sorting in CHO and murine lymphoma cells.
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PMID:Intracellular movement of two mannose 6-phosphate receptors: return to the Golgi apparatus. 296 50

Liver slices from control and 24hr inflamed rats were incubated for up to 20hr with 5mM 1-deoxynojirimycin (DN), an inhibitor of the processing glucosidases. The amounts of albumin and alpha 1-acid glycoprotein (AGP) and the activities of sialyltransferase were determined in liver and medium. The presence of DN significantly inhibited the release of AGP and sialyltransferase. The inhibitory effect of DN was most pronounced with slices from inflamed rats. Secretion of albumin was not inhibited. Incorporation studies with labelled leucine and mannose showed that the inhibitor did not significantly affect protein synthesis, but it did inhibit mannose incorporation into AGP and sialyltransferase. The results show that DN inhibits the secretion of acute phase AGP and sialyltransferase in liver slices and further suggests that sialyltransferase is a glycoprotein.
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PMID:Studies on the effect of 1-deoxynojirimycin on the release of albumin, sialyltransferase and alpha 1 acid glycoprotein from liver slices from normal and inflamed rats. 297 May 69

To investigate the presence of glycosyltransferase activity at the apical surfaces of columnar cells in small intestine, CMP-[3H]-sialic acid was injected into the lumen of a ligated segment of rat jejunum; 5 min later the tissue was fixed and processed for light microscopic autoradiography. After a 3-6-month exposure, an autoradiographic reaction appeared over the microvillar surfaces of columnar cells, indicating the presence of surface sialyltransferase activity accompanied by endogenous acceptors. When CMP-[3H]-sialic acid was injected into the posterior chamber of rat eye or the lumen of mouse gallbladder, no autoradiographic reaction was observed at the surfaces of the cells facing these cavities. After injection of UDP-[3H]-galactose into the same three sites, an autoradiographic reaction was observed in the Golgi regions of the various epithelial cells, but not along their apical surfaces. Competition experiments using unlabeled galactose indicated that [3H]-galactose had been released from the nucleotide and had entered the cells to be incorporated into the Golgi apparatus.
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PMID:Autoradiographic demonstration of in vivo sialylation of endogenous acceptors at the microvillar surface of intestinal columnar cells after intraluminal administration of CMP-[3H]-sialic acid. 311 Feb 65

Lymph node (LN) T cells from autoimmune MRL/MpJ-lpr/lpr (lpr) mice and control MRL/MpJ-+/+ (+/+) mice were compared as to their cell surface lectin-binding sites and glycosyltransferase activities. T cells from enlarged LN of lpr mice expressed a higher amount of binding sites for lectins reactive to mucin-type sugar chains than normal +/+ mouse T cells. Correspondingly, glycosyltransferase activities involved in the biosynthesis of mucin-type sugar chains were higher in lpr mouse T cells than in +/+ T cells. The activities of UDP-N-acetylgalactosamine (GalNAc):polypeptide GalNAc transferase and UDP-galactose (Gal):asialo bovine submaxillary mucin (BSM) Gal transferase were found to be elevated. The activity of UDP-Gal:asialo-agalacto transferrin Gal transferase, which is involved in the biosynthesis of complex type sugar chains, was also increased in lpr mice but to a smaller extent than the mucin-type Gal transferase activities. An abnormality in sialyltransferase activity was also found in lpr T cells.
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PMID:Enhancement of the activities of glycosyltransferases involved in the biosynthesis of mucin-type sugar chains in autoimmune MRL lpr/lpr mouse T cells. 313 57

Golgi-membrane-bound Gal beta 1-4GlcNAc alpha 2-6-sialyltransferase (CMP-N-acetylneuraminate:beta-galactoside alpha 2-6-sialyltransferase, EC 2.4.99.1) behaves as an acute-phase reactant increasing about 5-fold in serum in rats suffering from inflammation. The mechanism of release from the Golgi membrane is not understood. In the present study it was found that sialyltransferase could be released from the membrane by treatment with ultrasonic vibration (sonication) followed by incubation at reduced pH. Maximum release occurred at pH 5.6, and membranes from inflamed rats released more enzyme than did membranes from controls. Galactosyltransferase (UDP-galactose:N-acetylglucosamine galactosyltransferase; EC 2.4.1.38), another Golgi-located enzyme, which does not behave as an acute-phase reactant, remained bound to the membranes under the same conditions. Release of the alpha 2-6-sialyltransferase from Golgi membranes was substantially inhibited by pepstatin A, a potent inhibitor of cathepsin D-like proteinases. Inhibition of release of the sialyltransferase also occurred after preincubation of sonicated Golgi membranes with antiserum raised against rat liver lysosomal cathepsin D. Addition of bovine spleen cathepsin D to incubation mixtures of sonicated Golgi membranes caused enhanced release of the sialyltransferase. Intact Golgi membranes were incubated at lowered pH in presence of pepstatin A to inhibit any proteinase activity at the cytosolic face; subsequent sonication showed that the sialyltransferase had been released, suggesting that the proteinase was active at the luminal face of the Golgi. Golgi membranes contained a low level of cathepsin D activity (EC 3.4.23.5); the enzyme was mainly membrane-bound, since it could only be released by extraction with Triton X-100 or incubation of sonicated Golgi membranes with 5 mM-mannose 6-phosphate. Immunoblot analysis showed that the transferase released from sonicated Golgi membranes at lowered pH had an apparent Mr of about 42,000 compared with one of about 49,000 for the membrane-bound enzyme. Values of Km for the bound and released enzyme activities were comparable and were similar to values reported previously for liver and serum enzymes. The work suggests that a major portion of sialyltransferase containing the catalytic site is released from a membrane anchor by a cathepsin D-like proteinase located at the luminal face of the Golgi and that this explains the acute-phase behaviour of this enzyme.
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PMID:The role of a cathepsin D-like activity in the release of Gal beta 1-4GlcNAc alpha 2-6-sialyltransferase from rat liver Golgi membranes during the acute-phase response. 314 77

The biosynthesis of N-glycoloylneuraminic acid in fractionated porcine submandibular glands was investigated. The following substrates: [3H]N-acetylmannosamine, free [14C]N-acetylneuraminic acid, CMP-[14C]N-acetylneuraminic acid, [14C]N-acetylneuraminic acid linked alpha(2----3) to galactose residues, or alpha(2----6) to Gal-beta(1----4)-GlcNAc residues of porcine submandibular mucin and [14C]N-acetylneuraminic acid linked alpha(2----6) to GalNAc residues of ovine submandibular gland mucin were incubated, in the presence of cofactors, with the soluble protein, heavy membrane and microsomal fractions of porcine submandibular glands. Radio thin-layer chromatographic analysis revealed that only one substrate, CMP-[14C]N-acetylneuraminic acid, was hydroxylated. The product was identified as CMP-[14C]N-glycoloylneuraminic acid by (i) co-chromatography with non-radioactive CMP-N-glycoloylneuraminic acid standard, (ii) acid hydrolysis to free [14C]N-glycoloylneuraminic acid, (iii) alkaline hydrolysis to yield N-glycoloylneuraminic acid and 2-deoxy-2,3-didehydro-N-glycoloylneuraminic acid and (iv) transfer of [14C]N-glycoloylneuraminic acid to asialo-fetuin by sialyltransferase. 85% of CMP-N-acetylneuraminic acid hydroxylase activity was present in the soluble protein fraction, with small amounts of activity in the two particulate fractions. The CMP-N-acetylneuraminic acid hydroxylase in the soluble protein fraction had an absolute requirement for Fe2+ ions and a reducing cofactor. NADPH and NADH were by far the most effective cofactors, smaller amounts of hydroxylation could, however, be supported by ascorbic acid and 6,7-dimethyl-5,6,7,8-tetrahydrobiopterin.
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PMID:The biosynthesis of N-glycoloylneuraminic acid occurs by hydroxylation of the CMP-glycoside of N-acetylneuraminic acid. 320 54

As described previously (I. Kijima-Suda et al., Cancer Res., 46: 858-862, 1986), a sialyltransferase inhibitor, 5-fluoro-2',3'-isopropylidene-5'-O-(4-N-acetyl-2,4-dideoxy-3,6,7,8-tetra -O- acetyl-1-methoxycarbonyl-D-glycero-alpha-D-galactooctapyranosyl)ur idine (KI-8110), inhibits pulmonary metastasis of murine colon adenocarcinoma 26 sublines of high (NL-17) and low (NL-44) metastatic potential. To investigate the mechanism of this inhibition, the effect of KI-8110 on the metastatic cascade, especially on the interaction between tumor cells and platelets which may play a crucial role in tumor cell metastasis, was examined. NL-17 cells induced irreversible platelet aggregation in heparinized human platelet-rich plasma in vitro. This activity was reduced by pretreatment of the tumor cells with KI-8110. Inhibition of aggregation was also induced by the treatment of tumor cells with neuraminidase or Limax flavus agglutinin, a lectin specific for sialic acid. Sialic acid, fucose, sialyllactose, and bovine submaxillary mucin inhibited this tumor cell-induced platelet aggregation, while galactose, mannose, lactose, alpha 1-acid glycoprotein, fetuin, and asialo-bovine submaxillary mucin did not. KI-8110 also inhibited platelet-derived growth factor-dependent growth of NL-17 cells, but showed no effect on insulin or epidermal growth factor-dependent growth of the tumor cells. Platelet-derived growth factor-induced phosphorylation of membrane protein was reduced by treatment of NL-17 cells with KI-8110. The same result was obtained in the neuraminidase-treated membrane fraction of NL-17 cells. These results suggest that KI-8110 inhibits experimental tumor cell metastasis by inhibiting the interaction between tumor cells and host platelets in at least two pathways, and this may be due to a reduction of sialic acid contents of the membrane surface of tumor cells.
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PMID:Possible mechanism of inhibition of experimental pulmonary metastasis of mouse colon adenocarcinoma 26 sublines by a sialic acid: nucleoside conjugate. 328 33

Using 500-MHz 1H NMR spectroscopy we have investigated the branch specificity that bovine colostrum CMP-NeuAc:Gal beta 1----4GlcNAc-R alpha 2----6-sialyltransferase shows in its sialylation of bi-, tri-, and tetraantennary glycopeptides and oligosaccharides of the N-acetyllactosamine type. The enzyme appears to highly prefer the galactose residue at the Gal beta 1----4GlcNAc beta 1----2Man alpha 1----3 branch for attachment of the 1st mol of sialic acid in all the acceptors tested. The 2nd mol of sialic acid becomes linked mainly to the Gal beta 1----4GlcNAc beta 1----2Man alpha 1----6 branch in bi- and triantennary substrates, but this reaction invariably proceeds at a much lower rate. Under the conditions employed, the Gal beta 1----4GlcNAc beta 1----6Man alpha 1----6 branch is extremely resistant to alpha 2----6-sialylation. A higher degree of branching of the acceptors leads to a decrease in the rate of sialylation. In particular, the presence of the Gal beta 1----4GlcNAc beta 1----6Man alpha 1----6 branch strongly inhibits the rate of transfer of both the 1st and the 2nd mol of sialic acid. In addition, it directs the incorporation of the 2nd mol into tetraantennary structures toward the Gal beta 1----4GlcNAc beta 1----4Man alpha 1----3 branch. In contrast, the presence of the Gal beta 1----4GlcNAc beta 1----4Man alpha 1----3 branch has only minor effects on the rates of sialylation and, consequently, on the branch preference of sialic acid attachment. Results obtained with partial structures of tetraantennary acceptors indicate that the Man beta 1----4GlcNAc part of the core is essential for the expression of branch specificity of the sialyltransferase. The sialylation patterns observed in vivo in glycoproteins of different origin are consistent with the in vitro preference of alpha 2----6-sialyltransferase for the Gal beta 1----4GlcNAc beta 1----2Man alpha 1----3 branch. Our findings suggest that the terminal structures of branched glycans of the N-acetyllactosamine type are the result of the complementary branch specificity of the various glycosyltransferases that are specific for the acceptor sequence Gal beta 1----4GlcNAc-R.
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PMID:Branch specificity of bovine colostrum CMP-sialic acid: Gal beta 1----4GlcNAc-R alpha 2----6-sialyltransferase. Sialylation of bi-, tri-, and tetraantennary oligosaccharides and glycopeptides of the N-acetyllactosamine type. 354 84

It was previously shown that reductive alkali treatment of purified human cervical mucin releases a heterogeneous population of reduced neutral, sialylated, and sulfated oligosaccharides (Yurewicz, E. C., and Moghissi, K. S. (1981) J. Biol. Chem. 256, 11895-11904). Four major sialylated oligosaccharide fractions were isolated with approximate compositions of Fuc:GlcNac:Gal:NeuAc:N-acetylgalactosaminitol (GalNAcol) = 0:0:0:1:1 (B1a), 0:0:1:1:1 (B2b), 0:1:2:1:1 (B3a), and 1:1:2:1:1 (B4a), where Fuc is fucose. They comprised roughly 3, 11, 7, and 6% of recovered oligosaccharide chains, respectively. On the basis of periodate oxidations, methylation analyses, and sequential degradations with glycosidases, the following structures were determined. (Formula: see text) Oligosaccharides 1 and 2 are characterized by the presence of N-acetylneuraminic acid in alpha 2,6-linkage to N-acetylgalactosaminitol. The remaining oligosaccharides contain N-acetylneuraminic acid in alpha 2,3-linkage to galactose residues. Oligosaccharides 3 and 4 and oligosaccharides 5 and 6 were isolated as unresolved isomeric mixtures in fractions B3a and B4a, respectively. Oligosaccharides 3 and 4 were distinguished on the basis of susceptibility to digestion with Aspergillus niger beta-galactosidase whereas oligosaccharides 5 and 6 were distinguished on the basis of differential rates of digestion with beef kidney alpha-fucosidase. The structural data indicate the presence of at least two sialyltransferases in human cervical epithelium and further suggest a potential physiologically significant competition between sialyltransferase and beta-N-acetylglucosaminyltransferase for C-6 of the N-acetylgalactosamine residue O-glycosidically linked to serine/threonine of the polypeptide core.
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PMID:Structural studies of sialylated oligosaccharides of human midcycle cervical mucin. 355 66


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