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:2.4.99.6 (sialyltransferase)
1,546 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

A striking biochemical alteration to the epithelium of the small intestine upon weaning is the loss of microvillar sialic acids. Antibody and cDNA probes to the beta-galactoside alpha 2,6-sialyltransferase (SiaT-1, EC 2.4.99.1) were used to characterize the expression of this sialyltransferase in the small intestine of suckling rats. SiaT-1 mRNA and protein in the intestinal epithelium are rapidly lost upon weaning, in agreement with the loss of mucosal sialic acids and general sialyltransferase activity. Developmental repression of SiaT-1 is manifested in a proximal to distal gradient; SiaT-1 mRNA and protein are lost first from the duodenum and persist the longest in the ileum. We have previously documented that SiaT-1 gene expression can be transcriptionally initiated from a number of distinct tissue-specific promoter regions. Here, by criteria of mRNA mobility on agarose gels, primer extension analysis, and differential Northern hybridization, we show that the promoter previously considered to be liver-specific is operative in SiaT-1 expression in the small intestine of suckling animals. Comparison of this SiaT-1 promoter region with promoter regions of other genes exhibiting dual intestine-hepatic tissue specificity revealed a number of striking sequence similarities. Regulatory implications and consequences of small intestinal SiaT-1 expression in suckling but not in weaned animals are discussed.
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PMID:Developmental regulation of beta-galactoside alpha 2,6-sialyltransferase in small intestine epithelium. 808 31

The developmental expression of the alpha 2,6- and alpha 2,8-linked sialic acid (Sia) residues in trout egg polysialoglycoproteins (PSGPs) was studied by correlating the temporal expression of these sugar residues, and the prerequisite sialyltransferases responsible for their synthesis, during oogenesis. The following new findings are reported. 1) Disialylated glycoproteins were identified in ovaries 4-6 months prior to ovulation. Three months prior to ovulation, a second more highly sialylated glycoprotein appeared. Structural studies confirmed that the two glycoproteins were discrete molecular species, designated PSGP(low Sia) and PSGP(high Sia), which differed only in their Sia content. PSGP(low Sia) contained mostly disialyl (Sia alpha 2,8-Sia alpha 2,6-) side chains, whereas PSGP(high Sia) contained alpha 2,8-linked oligo/polySia side chains ranging in length from 2 to over 20 Sia residues. The average degree of polymerization ([DP]av) was 6. 2) Biosynthetic studies using CMP-[14C]Neu5Ac indicated that three sialyltransferase activities were responsible for synthesis of the polysialyl residues of PSGPs: (i) alpha-N-acetylgalactosaminide alpha 2,6-sialyltransferase (alpha 2,6-ST), which catalyzed formation of the Sia residues alpha 2,6-linked to the proximal GalNAc residues in asialo-PSGP; (ii) alpha 2,6-sialoside alpha 2,8-sialyltransferase (alpha 2,8-ST or "initiase"), which catalyzed transfer of the first alpha 2,8-Sia residue to the alpha 2,6-linked Sia residue; and (iii) an alpha 2,8-polysialyltransferase (alpha 2,8-polyST or "polymerase"), responsible for synthesis of the alpha 2,8-linked poly/oligo Sia chains in PSGP(high Sia). Expression of these enzyme activities increased in accordance with the developmental appearance of each PSGP. 3) Structural characterization of the [14C]Sia-labeled side chains of each PSGP at different stages of development confirmed that synthesis of the disialyl unit containing a single alpha 2,8-Sia residue occurred before alpha 2,8-polysialylation. 4) In ovaries, 96% of the sialyltransferase activities were found in the Golgi-derived immature cortical vesicles or as soluble enzymes released from the fragile vesicles. Less than 4% of the activities were localized in the membrane (Golgi) fraction. In mature eggs, the sialyltransferases were also detected as soluble enzymes, and within the cortical vesicles.
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PMID:Developmental expression of trout egg polysialoglycoproteins and the prerequisite alpha 2,6-, and alpha 2,8-sialyl and alpha 2,8-polysialyltransferase activities required for their synthesis during oogenesis. 814 14

The amount and type of sialylation of tumor cell membranes depends on the activity of a number of different sialyltransferase enzymes. For the detection of specific activities in human colorectal carcinoma tissue several glycoprotein and glycolipid acceptors were used: desialylated fetuin, alpha 1-acid glycoprotein, beta 2-glycoprotein I, ovine submaxillaris mucin, and the gangliosides GM1, GM2, GM3 and GD1a. Because of their possible relevance for metastasis, precursors of Le(a) and Le(x) antigens, too, were employed, namely neoglycolipids produced by coupling LcOse4 or NeoLcOse4 oligosaccharides to L-alpha-phosphatidyl-ethanol-amine-dipalmitoyl. Our data indicate that human colorectal tumor tissue contains two highly active sialyltransferase enzymes, which are only weakly expressed in normal mucosa. These are a N-glycan-specific alpha 2,6-sialyltransferase, which was significantly increased in metastasizing tumors, and a Gal beta 1,3Gal-NAc-specific sialyltransferase, which was increased in tumors of early stages. A shift to enhanced alpha 2,6-sialylation of membrane glycoproteins during carcinogenesis was demonstrated by lectin ELISA analysis of magneto-bead separated tumor cells. Quantitative determination of specific sialyltransferase activities may be a sensitive tool for detection and monitoring of colon carcinoma.
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PMID:Different sialyltransferase activities in human colorectal carcinoma cells from surgical specimens detected by specific glycoprotein and glycolipid acceptors. 819

cDNA clones encoding GalNAc alpha 2,6-sialyltransferase (EC 2.4.99.3) have been isolated from chick embryo cDNA libraries using sequence information obtained from the conserved amino acid sequence of the previously cloned enzymes. The cDNA sequence included an open reading frame coding for 566 amino acids, and the deduced amino acid sequence showed 12% identity with that of Gal beta 1,4GlcNAc alpha 2,6-sialyltransferase from chick embryo. The primary structure of this enzyme suggested a putative domain structure, like that in other glycosyltransferases, consisting of a short NH2-terminal cytoplasmic domain, a signal-membrane anchor domain, a proteolytically sensitive stem region, and a large COOH-terminal active domain. The identity of this enzyme was confirmed by the construction of a recombinant sialyltransferase in which the NH2-terminal part (232 amino acid residues) was replaced with the immunoglobulin signal sequence. The expression of this recombinant in COS-7 cells resulted in secretion of a catalytically active and soluble form of the enzyme into the medium. The expressed enzyme exhibited activity toward only asialomucin and (asialo)fetuin, no significant activity being detected toward the other glycoprotein and glycolipid substrates tested. 14C-Sialylated glycols obtained from asialomucin re-sialylated with this enzyme were identical to NeuAc alpha 2,6-GalNAc-ol and GlcNAc beta 1,3(NeuAc alpha 2,6) GalNAc-ol. Synthetic GalNAc-SerNAc also served as an acceptor for alpha 2,6-sialylation. These results clearly showed that the expressed enzyme is GalNAc alpha 2,6-sialyltransferase.
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PMID:Molecular cloning and expression of GalNAc alpha 2,6-sialyltransferase. 828 7

DNA clones encoding beta-galactoside alpha 2,6-sialyltransferase have been isolated from chick embryonic cDNA libraries using sequence information obtained from the conserved amino acid sequence of the previously cloned enzymes. The cDNA sequence revealed an open-reading frame coding for 413 amino acids, and the deduced amino acid sequence showed 57.6% identity with the sequence of rat liver Gal beta 1,4GlcNAc alpha 2,6-sialyltransferase. The primary structure of this enzyme suggested a putative domain structure, similar to structures found in other glycosyltransferases, consisting of a short N-terminal cytoplasmic domain, a signal-membrane anchor domain, a proteolytically sensitive stem region and a large C-terminal active domain. The identity of this enzyme was confirmed by construction of a recombinant sialyltransferase in which the N-terminus part including the cytoplasmic tail, signal anchor domain and stem region was replaced with an immunoglobulin signal peptide sequence. The expression of this recombinant protein in COS-7 cells resulted in secretion of a catalytically active and soluble form of the enzyme into the medium. The expressed enzyme exhibited activity only towards the disaccharide moiety of Gal beta 1,4GlcNAc in glycoproteins.
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PMID:Molecular cloning and expression of chick embryo Gal beta 1,4GlcNAc alpha 2,6-sialyltransferase. Comparison with the mammalian enzyme. 830 3

The activity of sialyltransferases with different linkage specificities, of a Gal beta 1-4GlcNAc:alpha 2,6-sialyltransferase and a Gal beta 1-4GlcNAc:alpha 2,3-sialyltransferase, was studied in human colorectal tumor tissue from surgical specimens, normal mucosa, liver and liver metastases, and serum of patients suffering from colorectal carcinomas. While alpha 2,3-specific activity was equally high in tumor and mucosa samples, the activity of the alpha 2,6-specific enzyme was increased in tumor tissue and particularly in metastasizing tumors. Also, compared to healthy individuals, serum of patients suffering from metastasizing tumors contained a significantly higher activity of the alpha 2,6-specific enzyme. These results demonstrate that specific sialyltransferase isoforms are expressed in metastasizing tumors and that determination of such isoforms may be a new means for tumor detection and monitoring.
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PMID:Enhanced activity of CMP-neuAc:Gal beta 1-4GlcNAc:alpha 2,6-sialyltransferase in metastasizing human colorectal tumor tissue and serum of tumor patients. 831 49

The alpha 2,6-sialyltransferase (alpha 2,6-ST) acting on N-acetyllactosamine is the major sialyltransferase of suckling rat jejunum. Jejunal explants of 7-day-old rats maintained in serum-free or serum-containing organ culture secreted alpha 2,6-ST into the cultivation medium. Dexamethasone (80 nM) stimulates primarily the secreted pool of alpha 2,6-ST. Fetal calf serum promotes the stimulatory effect of dexamethasone also on the bound form of alpha 2,6-ST.
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PMID:Alpha 2,6-sialyltransferase predominates in cultured jejunum of suckling rats: it is up-regulated by dexamethasone and secreted during cultivation. 832 58

Transferrin is N-glycosylated glycoprotein and plays an important role in iron transport from sites of absorption and storage to sites of utilization. Chronic ethanol alters the normal microheterogeneity pattern of transferrin as a consequence of changes in the sialic acid content. However the underlying basis of this change in sialic acid contents of transferrin in alcohol abuse remains unclear. We have undertaken this study in order to investigate the effects of chronic ethanol in rats with respect to the hepatic rate of (i) transferrin synthesis based on labeled leucine incorporation, (ii) the incorporation of labeled N-acetyl mannosamine (NAM) into sialic acid residues of transferrin, and (iii) roles of specific sialyltransferase and sialidase at hepatic subcellular level. The results showed no significant difference in the incorporation of labeled leucine into transferrin at all levels between the control and ethanol group, whereas the incorporation of NAM into transferrin was significantly decreased by 84% (p < 0.001) both at the whole cell and Golgi level. Thus, the incorporation of labeled NAM relative to the incorporation of labeled leucine into hepatic transferrin was significantly decreased by 86% (p < 0.001) in chronic ethanol-treated animals as compared with the controls both at the whole cell golgi levels. These data are further supported by our finding of concomitant decrease in the activity of beta-galactoside alpha 2,6-sialyltransferase by 58% (p < 0.01) in ethanol-treated rats as compared with control animals.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Effects of chronic ethanol on enzymes regulating sialylation and desialylation of transferrin in rats. 833 87

Gal beta-1,4-GlcNAc alpha 2,6-sialyltransferase (CMP-N-acetylneuraminate:beta-galactoside alpha 2,6 sialyltransferase, EC 2.4.99.1) is a glycoprotein containing carbohydrate chains of the complex type (Jamieson, J.C. (1989) Life Sci. 43, 691-697). The carbohydrate chains may be important for controlling the expression of sialyltransferase catalytic activity during transit of the enzyme from the rough endoplasmic reticulum to the Golgi complex where it is active as a membrane bound enzyme anchored to the luminal face. To study the role of the carbohydrate chains of sialyltransferase for enzyme activity, conditions were established in which the native enzyme was deglycosylated with N-Glycanase and endo F. It was found that Glycanase removed the carbohydrate chains from native sialyltransferase, but methanol or ethanol had to be present for rapid and complete deglycosylation. Presence of methanol or ethanol were not essential for removal of carbohydrate chains with endo F. There was a correlation between the loss of catalytic activity of sialyltransferase with increased deglycosylation. After deglycosylation with Glycanase for 18 h catalytic activity was largely eliminated and there was a reduction in molecular mass of about 5 kDa compared to the untreated enzyme when examined by immunoblot analysis; this reduction was identical to that found when the denatured enzyme was deglycosylated with Glycanase. At shorter times of incubation partially deglycosylated forms of the enzyme were detected. Complete deglycosylation of native or denatured sialyltransferase with endo F could not be achieved. However, incubation with endo F for 24 h resulted in a loss of catalytic activity of about 60%. Immunoblot analysis showed the presence of three forms of the enzyme corresponding in molecular mass to the native and deglycosylated enzyme and a third form corresponding to a partially deglycosylated enzyme. Sialyltransferase was also subjected to sequential treatment with exoglycosidases. Removal of NeuAc and Gal had little effect on catalytic activity, but subsequent removal of GlcNAc resulted in a significant loss in catalytic activity suggesting that the presence of the trimannose core with GlcNAc attached is important for the expression of catalytic activity. The presence of organic solvents during deglycosylation with Glycanase may be a useful method that can be applied to other glycoproteins.
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PMID:The role of the carbohydrate chains of Gal beta-1,4-GlcNAc alpha 2,6-sialyltransferase for enzyme activity. 839 96

Tumor cell surface sialic acid levels determine a number of important properties governing cellular interactions and cell-cell communication. Towards understanding the mechanism of regulation of sialic acid levels upon cellular transformation, we have studied the regulation of expression of beta-galactoside alpha 2,6-sialyltransferase in a rat tumor, the Zajdela ascitic hepatoma. We demonstrate distinct differences in the regulation of expression of the enzyme in the tumor cells as compared to normal liver cells. The expression of sialyltransferase is regulated both at the transcriptional and post-transcriptional level in a tissue-specific manner.
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PMID:Regulation of expression of beta-galactoside alpha 2,6-sialyltransferase in a rat tumor, Zajdela ascitic hepatoma. 842 23


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