Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: EC:2.4.99.7 (sialyltransferase)
1,534 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The role of the human beta-galactoside alpha-2,6-sialyltransferase (hu alpha-2,6-ST) in the generation of B cell surface antigens was investigated by selecting subclones of COS cells (monkey kidney epithelial cells) constitutively expressing a transfected cDNA which encodes the hu alpha-2,6-ST (COS alpha-2,6-ST cells). Expression of hu alpha-2,6-ST in COS cells was sufficient to generate sialylated cell surface epitopes on different glycosylated antigens recognized by monoclonal antibodies to CDw75, CD76, and the unclustered monoclonal antibodies HB-4 and EBU-65. These epitopes were sensitive to sialidase treatment and are likely to contain terminal alpha-2,6-linked sialic acid residues. A novel antiserum raised against bacterially expressed hu alpha-2,6-ST fusion protein was used to localize the sialyltransferase in two cell lines with high expression of either endogenous (B cell line JOK-1) or recombinant (COS alpha-2,6-ST cells) hu alpha-2,6-ST. In both cell lines, the enzyme was detected only intracellularly in the juxtanuclear region and not on the cell surface. In contrast, CDw75, formerly proposed to be identical with an alpha-2,6-ectosialyltransferase, was strongly expressed on the cell surface. The different expression patterns show that neither the CDw75 antigen nor any of the other sialylated antigens analyzed is identical with the hu alpha-2,6-ST. Furthermore, the presence of a surface-expressed alpha-2,6-ST appears unlikely in these cell lines. We propose that CDw75, CD76, HB-4, and EBU-65 represent a unique group of B cell differentiation antigens the production of which requires the enzymatic activity of alpha-2,6-ST.
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PMID:Human Golgi beta-galactoside alpha-2,6-sialyltransferase generates a group of sialylated B lymphocyte differentiation antigens. 142 5

We investigated biosynthesis, intracellular transport and release of beta-galactoside alpha-2,6-sialyltransferase in a dexamethasone-inducible rat hepatoma cell line. Confluent cells were induced by 10 microM dexamethasone for 24 h, and metabolically labelled with [35S]methionine/cysteine, followed by immunoprecipitation of sialyltransferase and electrophoretic/fluorographic analysis. The 35S-labelled enzyme was synthesized as a 46-kDa precursor, converted to an intermediate 47-kDa form after 1 h, and gradually to a mature form of 48 kDa within the following 3 h. By means of either tunicamycin inhibition of N-glycosylation or cleavage of N-glycans from isolated sialyltransferase using N-glycosidase F, the sizes of the precursor and the mature form were reduced to 41 kDa and 43 kDa, respectively. After a 4-h chase, treatment with endoglycosidase H revealed two distinct molecular forms of sialyltransferase, bearing either two N-acetyllactosamine-type or one oligomannose-type and one N-acetyllactosamine-type N-linked sugar chain. In addition, sialyltransferase became sensitive to neuraminidase digestion after a 4-h chase. The half-life of intracellular [35S]sialyltransferase was estimated at 3 h. A soluble form was detectable in the supernatant, 2 h after the pulse. Only 12% of the initially labelled sialyltransferase was found in the medium after 12 h, while 73% of the enzyme was degraded intracellularly. To characterize a possible intracellular degradation site, we studied intracellular transport in the presence of either secretion-blocking or acidotropic agents or protease inhibitors. Degradation was significantly delayed by all treatments. Our results show that sialyltransferase follows the secretory pathway as a membrane protein and is retained at a late Golgi stage. We suggest that the bulk of sialyltransferase in rat hepatoma cells is diverted to a post-Golgi degradation pathway. This route contrasts with the post-Golgi trafficking of beta-1,4-galactosyltransferase in HeLa cells, which is constitutively secreted [Strous, G. J. A. M. & Berger, E. G. (1982) J. Biol. Chem. 257, 7623-7628].
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PMID:Biosynthesis and intracellular transport of alpha-2,6-sialyltransferase in rat hepatoma cells. 152 30

Previous studies have indicated that transfection of NIH3T3 cells with the ras oncogene induced modifications of the terminal glycosylation of N-linked glycans which appeared in the early stage after transfection. These changes affected especially the terminal part of N-linked glycans which is substituted with alpha-1,3-Gal residues in NIH3T3 and with Neu5Ac residues in the ras-transformed counterpart. We have transformed NIH3T3 cells with the human c-Ha-ras oncogene, evaluated tumorigenicity and metastatic capacity in vivo and compared alpha-1,3-galactosyltransferase, alpha-2,3- and alpha-2,6-sialyltransferases activities. By using different specific acceptors, we detected the enhancement of sialic acid transfer in transformed cells while the activity of alpha-1,3-galactosyltransferase remained unchanged. We showed that the higher sialyltransferase activity was due to the increase of beta-galactoside alpha-2,6-sialyltransferase in ras-transfectant although alpha-2,3-sialyltransferase was weakly expressed in these cells. On the basis of binding of different lectins, we correlated these observations with changes of protein glycosylation. We concluded that altered glycosylation of ras-transformed NIH3T3 is the result of a competitive effect of the enzymes acting for terminal glycosylation of N-linked glycans and the reflection of the higher expression of alpha-2,6-sialyltransferase.
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PMID:Comparison of sialyl- and alpha-1,3-galactosyltransferase activity in NIH3T3 cells transformed with ras oncogene: increased beta-galactoside alpha-2,6-sialyltransferase. 157 13

Within the hematopoietic system, CDw75 is primarily expressed on cells of the B cell lineage. Cloning and sequencing of the gene has shown CDw75 to be a beta-galactoside alpha-2,6-sialyltransferase. This enzyme plays an important role in the intracellular terminal glycosylation pathways in various cell types. In this article, we demonstrate that COS cells transfected with the CDw75 cDNA clone displayed sialyltransferase activity, in contrast to mock-transfected cells. We also found that activated B cells displayed an increased enzyme activity compared to resting cells, in accordance with the staining data. Moreover, CDw75 expression was found to be up-regulated approximately 7-9-fold from early G1 to the G2/M phases of the cell cycle in peripheral blood leukocyte B cells. This was shown by staining of in vitro activated B cells with the anti-CDw75 monoclonal antibody HH2, using cell fractions corresponding to different stages of the cell cycle. Using a combination of Hoechst 33258 and propidium iodide after bromodeoxyuridine incorporation, it is possible to distinguish between different phases of the first and second cell cycle. By combining this with HH2 immunofluorescence staining, using a multistation multiparameter flow cytometry program, we confirmed the cell cycle-dependent expression of CDw75. Immunocytochemical stainings of cytospin specimens of elutriated B cells showed that the antigen was up-regulated in late G1 before the appearance of the nuclear activation antigen Ki67. Finally, we showed that activated B cells secreted soluble CDw75 into the medium, as demonstrated by a specific blocking of HH2 staining of B cells using suboptimal concentrations of HH2. In accordance with this, we observed small, but detectable levels of soluble sialyltransferase activity in supernatants of activated B cells.
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PMID:Cell cycle-dependent regulation of CDw75 (beta-galactoside alpha-2,6-sialyltransferase) on human B lymphocytes. 157 59

Rat liver beta-galactoside alpha-2,6-sialyltransferase and Vibrio cholerae sialidase were used with cytidine-5'-monophospho-N-acetyl-[3H]neuraminic acid (CMP-[3H]NeuAc) to specifically probe the distribution and sialylation state of Gal beta 1-4GlcNAc residues on N-linked saccharides on the surfaces of murine lymphocytes. The relative extent of exogenous sialyltransferase-mediated sialylation (per cellular protein) was thymocytes greater than T-cells greater than T-cell lymphoma (EL-4) greater than B-cells greater than B-cell lymphoma (AKTB-1b) greater than splenocytes. Prior desialylation increased exogenous resialylation by 23.8-, 13.1-, 7.1-, 7.9-, 7.0-, and 5.3-fold for splenocytes, B-cells, T-cells, EL-4, AKTB-1b, and thymocytes, respectively. Though numerous glycoproteins were labeled, the majority of the Gal beta 1-4GlcNAc residues were detected on a relatively small number of cell surface proteins, many of which are well-defined lymphocyte antigens. Gal beta 1-4GlcNAc residues on thymocytes were found to exist in an undersialylated state on T200 but not on other antigens (e.g., Thy-1). T200 was found to be fully sialylated on mature cells (i.e., hydrocortisone-resistant thymocytes and splenic T-cells), suggesting that its sialylation state is developmentally regulated. These studies indicate that the number, sialylation state, and polypeptide distribution of the penultimate structure, Gal beta 1-4GlcNAc, differ on N-linked saccharides on the surfaces of different lymphocyte populations.
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PMID:Surfaces of murine lymphocyte subsets differ in sialylation states and antigen distribution of a major N-linked penultimate saccharide structure. 213 33

The beta-galactoside alpha-2,6-sialyltransferase represents a member of a family of sialyltransferases which catalyze the terminal addition of sialic acid to maturing carbohydrate chains. We surveyed rat tissues using cDNA probes complementary to coding and noncoding domains of the rat liver alpha-2,6-sialyltransferase. In addition to the expected differences in the level of sialyltransferase mRNA among the tissues, there were dramatic qualitative differences as well. Hepatic sialyltransferase probes hybridize to mRNAs of varying size on Northern blots. A tissue-dependent pattern of expression of these transcripts is documented. Evidence is presented that the multiple transcripts are generated from a common gene sequence. At least one instance of alternate splicing in the generation of the kidney sialyltransferase transcripts is predicted by S1 nuclease analysis. We report the isolation of a rat kidney cDNA clone, RKA, that substantiates this tissue-specific alternate splicing event. The RKA insert, although less than full-length, apparently encodes a polypeptide divergent from the reported hepatic alpha-2,6-sialyltransferase (1). RNA blot analysis indicates that the RKA-type transcripts represent a significant proportion of sialyltransferase RNA in rat kidney. Another class of kidney cDNA clones, RKE, is colinear with the hepatic sialyltransferase sequence. RNA blots probed for the divergent and common regions suggest that complex processing pathways are operative in the tissue-specific expression of sialyltransferase mRNA.
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PMID:Tissue-specific expression of beta-galactoside alpha-2,6-sialyltransferase. Transcript heterogeneity predicts a divergent polypeptide. 279 63

Rat liver beta-galactoside alpha-2,6-sialyltransferase and Vibrio cholerae sialidase were used, in conjunction with CMP-N-acetyl-[3H]neuraminic acid, to probe the glycoconjugate distribution, sialylation state, and level of penultimate Gal beta 1-4GlcNAc residues on the surfaces of murine thymic lymphocytes. We report a detailed characterization of this sialyltransferase-mediated labeling system. Exogenous sialylation of intact cells is dependent on transferase, sugar nucleotide donor, cell number, and incubation time. Additionally, we have demonstrated that the system labeling the cell surface is noncytotoxic and nonmetabolic and is interacting with the entire cell population. Analysis of the exosialylated structures indicates that the sialyltransferase specifically produces an alpha 2-6 linkage on N-linked oligosaccharides. Using this labeling system, we have probed the cell surface saccharide structures of murine thymocytes and demonstrated that most Gal beta 1-4GlcNAc residues are sialylated in the native state. However, one antigen, T200 (Ly-5), is strikingly undersialylated when compared to other cell surface glycoproteins (e.g., Thy 1.2). Upon analysis of exogenously sialylated oligosaccharides, labeled sialic acid was found almost exclusively on monosialylated structures with the remainder on bisialylated oligosaccharides. This suggests that the purified sialyltransferase is very precise in its recognition of oligosaccharides present on the surface of living thymic lymphocytes. This paper illustrates the combined uses of specific glycosidases and glycosyltransferases and how they can be employed in the detailed study of selected cell surface saccharide structures on living nucleated cells.
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PMID:Sialyltransferases as specific cell surface probes of terminal and penultimate saccharide structures on living cells. 330 6

The beta-galactoside alpha-2,6-sialyltransferase is a trans Golgi/trans Golgi network glycosyltransferase which adds sialic acid residues to Asn-linked oligosaccharides of glycoproteins. Previous results suggested that the sialyltransferase stem and signal anchor including flanking sequences may be two independent Golgi retention regions. However, other experiments demonstrated that the sequence of the signal anchor itself was not important. To investigate whether the sialyltransferase signal anchor was necessary and sufficient for Golgi retention, several mutant and chimeric proteins were expressed and localized in Cos-1 and Chinese hamster ovary cells. We found that the signal anchor and flanking sequences were able to retain the sialyltransferase catalytic domain in the Golgi. However, efficient Golgi retention was still observed when the signal anchor was altered or entirely replaced in either the presence or absence of most of the luminal stem region. Chimeric proteins consisting of the sialyltransferase cytoplasmic tail and signal anchor fused to the extracellular domains of two different cell surface proteins demonstrated poor Golgi retention. A significant increase in the Golgi retention of one of these chimeras was observed when two lysines were placed next to the signal anchor on the luminal side. Taken together these results suggest that the sialyltransferase signal anchor is not necessary or sufficient for Golgi retention, rather, appropriately spaced cytoplasmic and luminal flanking sequences are the important elements of the sialyltransferase Golgi retention region.
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PMID:Specific sequences in the signal anchor of the beta-galactoside alpha-2,6-sialyltransferase are not essential for Golgi localization. Membrane flanking sequences may specify Golgi retention. 825 53

Sperm surface glycoproteins are modified during passage through the epididymis, a process believed to be important in the production of functionally mature spermatozoa. The effect of various cytokines on reproductive events has recently been investigated, with conflicting results. In the present investigation, the effect of interferon-alpha-2b (IFN alpha 2b) on sialyltransferase (ST) activity and beta-galactoside alpha-2,6-sialyltransferase (Gal 2,6-ST) mRNA expression was studied in rat testicular tissue. The results revealed the presence of Gal 2,6-ST mRNA in rat testicular tissue, similar in molecular size to that found previously in rat spleen, lung, ovary, kidney, heart, and brain. In addition, we observed that IFN alpha 2b reduced Gal 2,6-ST mRNA and ST activity in rat testes by a comparable magnitude. These findings provide insight into an additional mechanism by which cytokines may affect the reproductive system.
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PMID:Interferon alpha-2b modulates beta-galactoside alpha-2,6-sialyltransferase gene expression in rat testes. 856 5

BLAST analysis of the human and mouse genome sequence databases using the sequence of the human CMP-sialic acid:beta-galactoside alpha-2,6-sialyltransferase cDNA (hST6Gal I, EC2.4.99.1) as a probe allowed us to identify a putative sialyltransferase gene on chromosome 2. The sequence of the corresponding cDNA was also found as an expressed sequence tag of human brain. This gene contained a 1590 bp open reading frame divided in five exons and the deduced amino-acid sequence didn't correspond to any sialyltransferase already known in other species. Multiple sequence alignment and subsequent phylogenic analysis showed that this new enzyme belonged to the ST6Gal subfamily and shared 48% identity with hST6Gal-I. Consequently, we named this new sialyltransferase ST6Gal II. A construction in pFlag vector transfected in COS-7 cells gave raise to a soluble active form of ST6Gal II. Enzymatic assays indicate that the best acceptor substrate of ST6Gal II was the free disaccharide Galbeta1-4GlcNAc structure whereas ST6Gal I preferred Galbeta1-4GlcNAc-R disaccharide sequence linked to a protein. The alpha2,6-linkage was confirmed by the increase of Sambucus nigra agglutinin-lectin binding to the cell surface of CHO transfected with the cDNA encoding ST6Gal II and by specific sialidases treatment. In addition, the ST6Gal II gene showed a very tissue specific pattern of expression because it was found essentially in brain whereas ST6Gal I gene is ubiquitously expressed.
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PMID:Identification and functional expression of a second human beta-galactoside alpha2,6-sialyltransferase, ST6Gal II. 1260 28


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