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

We have previously reported that ganglioside GM3 was remarkably increased during monocytoid differentiation of human myelogenous leukemia cell line HL-60 cells and that neolacto series gangliosides (NeuAc-nLc) were enriched during granulocytoid differentiation. In addition, HL-60 was differentiated into monocytic lineage by exogenous GM3 and into granulocytoid by NeuAc-nLc. In the present report, the enzymatic bases of glycosphingolipid biosynthesis in HL-60 during differentiation induced by 12-O-tetradecanoylphorbol-13-acetate and all-trans-retinoic acid were investigated. The following results were of particular interest. (i) Lactosylceramide alpha 2-->3 sialyltransferase (GM3 synthase) was remarkably up-regulated during monocyte differentiation, while the GM3 synthase level did not change in granulocytic differentiation. (ii) By contrast, lactosylceramide beta 1-->3N-acetylglucosaminyltransferase (Lc3Cer synthase) was down-regulated during monocytic differentiation, while the activity of Lc3Cer synthase was found to increase in granulocytic differentiation. (iii) The activities of four downstream glycosyltransferases (for synthesis of NeuAc-nLc) were found to increase or to remain unchanged during monocytic and granulocytic differentiation. These results strongly suggested the following. The dramatic GM3 increase and the decrease of NeuAc-nLc during monocytic differentiation are the consequences of the up-regulation of GM3 synthase and the down-regulation of Lc3Cer synthase, although the downstream enzymes are ready to catalyze their enzyme reactions. The notable increase of NeuAc-nLc and the relative decrease of GM3 during granulocytic differentiation are the results of the unchanged level of GM3 synthase and the up-regulation of Lc3Cer synthase together with the activation of the downstream glycosyltransferases. These results suggest that these two key upstream glycosyltransferases, GM3 synthase and Lc3Cer synthase, play critical roles in regulating the glycosphingolipid biosynthesis in HL-60 cells during differentiation. This switching mechanism of these two glycosyltransferases, together with our previous findings, might be one of the most important parts of the determining system of differentiation direction in human myeloid cells into monocytic or granulocytic lineages.
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PMID:Total metabolic flow of glycosphingolipid biosynthesis is regulated by UDP-GlcNAc:lactosylceramide beta 1-->3N-acetylglucosaminyltransferase and CMP-NeuAc:lactosylceramide alpha 2-->3 sialyltransferase in human hematopoietic cell line HL-60 during differentiation. 142 95

1. Activity of two glycosyltransferases was studied in retinoic acid-treated C6 cultured glioma cells. 2. The beta-galactoside alpha 2,3-sialyltransferase transferring N-acetylneuramin onto the O-glycans residues of glycoproteins was activated up to twice after chronic treatment (from 24 to 96 hr) with all-trans retinoic acid. 3. No effect was observed for shorter treatments. 4. On the opposite, the N-glycan galactosyltransferase activity remained unchanged whatever the length of retinoic acid treatment was. 5. The activatory effect was not dependent on isomery, as all-trans and 13-cis retinoic acid isomers were both activators of the C6 glioma cell sialyltransferase. 6. Measurement of adhesion of retinoic acid-treated cells using labelled plasma membranes showed an enhancement of adhesion in correlation with enhancement of sialyltransferase activity.
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PMID:Effect of retinoic acid on two glycosyltransferase activities in C6 cultured glioma cells. 212 49

Cell line MDA 886Ln was established from a laryngeal lymph node metastasis. When grown as a multicellular tumor spheroid (MTS), it exhibits squamous differentiation. We studied the effects of beta-all-trans retinoic acid (RA) on the growth, differentiation and glycoprotein content of this MTS model for squamous carcinomas of the head and neck. The growth of MTSs was inhibited in a dose-dependent manner by 10(-6) to 10(-10) M RA. Growth inhibition occurred between 3 and 5 days of RA treatment (10(-6)M). Immunohistochemical and electrophoretic analyses revealed that RA suppressed the morphological markers of squamous differentiation (squames), involucrin expression, and keratin expression. Gly-coprotein expression was examined by metabolic labelling using 3H-glucosamine, in situ labelling of polyacrylamide gels with 125I-labelled wheat-germ agglutinin (WGA), localization of fluorescein isothionate-WGA in frozen sections, and determination of sialyltransferase activity. Treatment using 10(-6) M RA altered glycoprotein expression both biochemically and morphologically, and WGA was shown to bind preferentially to sialic acid residues. The sensitivity of this MTS model to RA treatment and its ability to be analyzed through morphological, immunohistochemical and biochemical techniques suggest that it will prove useful in studying the relationships between growth, differentiation and RA-induced alterations in squamous carcinomas.
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PMID:Modulation of growth, differentiation and glycoprotein synthesis by beta-all-trans retinoic acid in a multicellular tumor spheroid model for squamous carcinoma of the head and neck. 247 9

Retinoic acid induced differentiation of TERA-2-derived human embryonal carcinoma cells is accompanied by a dramatic reduction of extended globo-series glycolipids, including galactosyl globoside, sialylgalactosyl globoside, and globo-A antigen (each recognized by specific MoAbs). Associated with these glycolipid changes, the activities of two key enzymes, alpha 1----4 galactosyltransferase (for synthesis of globotriaosyl core structure) and beta 1----3 galactosyltransferase (for synthesis of galactosyl globoside), were found to be reduced 3- to 4-fold. The latter enzyme plays a key role in the synthesis of extended globo-series structures, and its characterization has not been reported previously. Therefore, its catalytic activity was studied in detail, including substrate specificity, detergent and phospholipid effects, pH and cation requirements, and apparent Km. During retinoic acid induced differentiation, a series of Lex glycolipid antigens (recognized by anti-SSEA-1 antibody) and their core structures (lacto-series type 2 chains) increase dramatically. In parallel with these changes in glycolipid expression, the activities of two key enzymes, beta 1----3 N-acetylglucosaminyltransferase (for extension of lacto-series type 2 chain) and alpha 1----3 fucosyltransferase (for synthesis of Lex structure), were found to increase by 4- and 2-fold, respectively. Similarly, an increase in the expression of several gangliosides (e.g., GD3 and GT3) during retinoic acid induced differentiation was mirrored by a 4-fold increase in the activity of alpha 2----3 sialyltransferase (for synthesis of ganglio core structure, GM3). The results suggest a coordinate regulation of key glycosyltransferases involved in core structure assembly and terminal chain modification.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Glycolipid glycosyltransferases in human embryonal carcinoma cells during retinoic acid induced differentiation. 249 76

Retinoic acid was found to increase the activity of cytidine monophosphosialic acid:lactosylceramide sialyltransferase activity in a nontransformed clonal hamster cell line, NIL 8, and a virally transformed clone, NIL 8-HSV. The potent tumor promoter phorbol-12-myristate-13-acetate (PMA) had no significant effect on sialyltransferase activity in NIL 8 cells but stimulated this activity almost 6-fold when added to NIL 8-HSV cells. There was a synergistically additive effect on sialyltransferase activity when PMA was added to NIL 8 cells in concert with retinoic acid. On the other hand neither PMA nor retinoic acid had an appreciable effect on two other glycosyltransferases measured, uridine diphospho-N-acetylgalactosamine:globotriaosylceramide N-acetylgalactosaminyl-transferase and uridine diphosphogalactose:asialoagalactofetuin galactosyltransferase. Examination of sialyltransferase activity in a human epidermoid carcinoma cell line showed a large increase in enzyme activity in response to retinoic acid administration. Two nontransformed hamster cell lines had less basal sialyltransferase activity but also showed marked elevations after retinoic acid treatment. It is proposed that one of the molecular mechanisms underlying the biological effects of retinoic acid and PMA may be an increase in sialyltransferase activity. Possible regulatory mechanisms are discussed.
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PMID:Effect of retinoic acid and phorbol-12-myristate-13-acetate on glycosyltransferase activities in normal and transformed cells. 310 23

Previous studies have demonstrated the ability of retinoic acid (RA) to inhibit the growth of two spontaneous murine melanoma cell lines (B16-F1 and S91-C2) and to augment both sialyltransferase activity and the sialylation of an Mr 160,000 cell-surface glycoprotein. The present study examined the effects of RA on an ultraviolet irradiation-induced murine melanoma cell line K-1735P. Like the two spontaneous melanomas, the uv-induced melanoma exhibited susceptibility to the growth-inhibitory action of RA. Both the anchorage-dependent and the anchorage-independent growths of the K-1735P cells were suppressed by RA, with IC50 values of 5 X 10(-9) and 3 X 10(-12) M, respectively. Sialyltransferase activity in both S91-C2 and K-1735P cells treated with 10(-6) or 10(-5) M RA increased two- and three-fold, respectively, as compared with untreated cells. In contrast, cell-surface sialo- and galactoglycoproteins, revealed by labeling with periodate and tritiated borohydrate or with neuraminidase, galactose oxidase, and tritiated borohydrate, respectively, varied between the S91-C2 and the K-1735P cells, and each cell line's modulation by RA was also distinct. These findings suggest that although RA can increase the activity of sialyltransferase in different melanoma cells, this increased activity may, in turn, result in an increased sialylation of distinct cell-surface glycoproteins.
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PMID:Enhancement of sialyltransferase in two melanoma cell lines that are growth-inhibited by retinoic acid results in increased sialylation of different cell-surface glycoproteins. 339 Dec 45

Previous studies have shown that treatment of S91-C2 murine melanoma cells with beta-all-trans-retinoic acid (RA) results in growth inhibition, enhanced activity of sialyltransferase, and increased glycosylation of a Mr 160,000 cell surface sialoglycoprotein (gp160). None of these effects could be detected in mutant clones (e.g., S91-C154) selected from the S91-C2 cells for resistance to RA-induced growth inhibition. These findings suggest that modulation by RA of gp160 might be related causally to growth inhibition. In this study we examined the possible role of gp160 in growth regulation using specific antibodies to this glycoprotein. Metabolic labeling of S91-C2 cells with either [3H]glucosamine or [35S]methionine revealed that the cells shed into the growth medium a gp160-like glycoprotein, in addition to several other macromolecules. The gp160-like glycoprotein was isolated from concentrated conditioned medium after preparative polyacrylamide slab gel electrophoresis in the presence of sodium dodecylsulfate by excision of the corresponding protein band. Rabbits were immunized with this material and immunoblotting revealed that their sera contained antibodies that bound specifically to gp160 in extracts of untreated or RA-treated S91-C2 cells. Indirect immunofluorescence staining followed by fluorescence-activated cell sorter analysis demonstrated that the anti-gp160 antibodies bound to the surface of both untreated and RA-treated S91-C2 cells and that the treated cells bound more of the antibodies than untreated ones. In contrast, these antibodies bound to the same extent to untreated and RA-treated resistant S91-C154 cells. The growth of S91-C2 cells in the presence of anti-gp160 antibodies in semisolid medium as well as in monolayer cultures was inhibited in a dose-dependent fashion. Fifty % growth inhibition was obtained at an immunoglobulin concentration of 10 micrograms/ml. The growth of cells exposed concurrently to RA and anti-gp160 antibodies was also inhibited strongly in semisolid medium, but the antibodies caused only a small increase in the inhibitory effect of RA in monolayer cultures. No inhibition by the antibodies of either anchorage-independent growth or anchorage-dependent growth of S91-C154 cells, grown in the absence or presence of RA, was observed. These results support the suggestion that cell surface gp160 might be involved in growth regulation in the S91-C2 cells.
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PMID:Growth inhibition of murine melanoma cells by antibodies to a cell surface glycoprotein implicated in retinoic acid action. 355 69

We have assayed glycosyltransferase activities during the granulocytic and macrophage-like differentiation of human promyelocytic leukemia (HL-60) cells. Functional granulocytic differentiation was assayed by the decarboxylation of 2-deoxyglucose in addition to nitroblue tetrazolium reduction. Dimethylsulfoxide (DMSO) treated HL-60 cells, induced to granulocytic differentiation, had higher 2-deoxy-glucose decarboxylation activity, and contained less sialyltransferase (ST), more fucosyltransferase (FT), and more N-acetylglucosaminyltransferase (NGT) activities than untreated cells. HL-60 cells treated with another granulocytic differentiator, retinoic acid, also had higher 2-deoxyglucose decarboxylation activity, and contained less ST, more FT, and more NGT activities than untreated cells. In contrast, cells treated with 12-O-tetradecanoyl-phorbol-13-acetate (TPA) reported to differentiate HL-60 to macrophage-like cells, but did not show an increased level of 2-deoxyglucose decarboxylation activity, but contained more galactosyltransferase (GT) and FT activities as compared to untreated cells. These findings suggest that the alterations of glycosyltransferase levels during the differentiation of precursor cells may not depend upon different inducers, but are characteristic of the phenotypic expression of the mature cell type.
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PMID:Glycosyltransferase alterations are cell type related when human promyelocytic leukemia (HL-60) cells are treated with various inducers of differentiation. 641 38

Retinoic acid inhibits the proliferation of the murine melanoma clone S91-C-2 cells, enhances the glycosylation of specific cell surface sialoglycoproteins, and stimulates sialytransferase activity. Mutant clones, selected from the S91-C-2 cells for resistance to the growth-inhibitory effect of retinoic acid, were used to explore whether cell surface modulation by retinoic acid is related to growth inhibition. Glycoprotein synthesis was assessed by analysis of [3H]glucosamine incorporation into glycoconjugates, and cell surface sialo- and galactoglycoproteins were analyzed after radiolabeling by the NaIO4:NaB3H4 and the neuraminidase plus galactose oxidase:NaB3H4 methods, respectively. The cells were solubilized and the labeled molecules were separated by polyacrylamide gel electrophoresis and identified by fluorography. Sialytransferase activity was measured in detergent-solubilized cells, using cytidine 5' -monophosphate-[14C]sialic acid as a sugar donor and asialofetuin as an exogenous acceptor. The results demonstrated that retinoic acid enhanced [3H]glucosamine incorporation into a Mr 160,000 glycoprotein in the S91-C-2 cells but not in any of the resistant mutant clones, while the pattern of [35S]methionine-labeled proteins was not modified in either the sensitive or the resistant clones. Radiolabeling of a Mr 160,000 sialoglycoprotein on the surface of S91-C-2 and of several retinoic acid-sensitive subclones of S91-C-2 was augmented by retinoic acid. A considerably smaller effect was observed on the labeling of Mr 160,000 sialoglycoprotein on one of the resistant clones, and no significant effect could be detected on the other resistant mutant clones. Sialytransferase activity was increased 2- to 3-fold by retinoic acid in the S91-C-2 cells and in several sensitive subclones, but not in any of the resistant mutant clones. Tetradecanoylphorbol acetate, which inhibits the proliferation of both retinoic acid-sensitive and retinoic acid-resistant cells, failed to increase either sialyltransferase activity or cell surface labeling of sialoglycoproteins. These findings suggest that the ability of retinoic acid to stimulate sialyltransferase activity and glycosylation of cell surface glycoproteins is related to the growth-inhibitory effect of this compound.
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PMID:Correlation of retinoic acid-enhanced sialyltransferase activity and glycosylation of specific cell surface sialoglycoproteins with growth inhibition in a murine melanoma cell system. 649 40

Retinoic acid (RA) treatment of murine S91-C2 melanoma cells has been found to augment the activity of glycoprotein: sialyltransferase in a dose-dependent and time-dependent process. The enzymatic activity in cells treated with 10 microM RA reached a maximal level, 3-fold higher than in untreated cells, 72 h after initiation of treatment. In contrast, the addition of RA directly into the reaction mixture had no stimulatory effect on sialyltransferase. The endogenous glycoproteins to which sialic acid is transferred from cytidine monophosphate (CMP)-[14C] sialic acid by the action of sialyltransferase have been identified by fluorography after polyacrylamide gel electrophoresis. One of these acceptors, a glycoprotein of Mr 160 000, comigrated in gel electrophoresis with a cell surface sialoglycoprotein that can be labeled by the periodate-tritiated borohydrate procedure more intensely on intact RA-treated than on untreated cells. Removal of sialic acid residues exposed on the surface of either control or RA-treated cells enhanced 2- to 3-fold the transfer of sialic acid to endogenous acceptors. These results suggest that the increased sialyltransferase activity in RA-treated melanoma cells may be responsible for the enhanced sialylation of certain cell surface glycoproteins. RA treatment of several other tumor cell lines also resulted in stimulation of sialyltransferase activity indicating that this effect of RA is not limited to the S91-C2 melanoma cells.
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PMID:Stimulation of sialyltransferase activity of melanoma cells by retinoic acid. 664 95


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