EC:3.5.1.52 - FACTA Search

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Query: EC:3.5.1.52 (PNGase F)
1,527 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

E-selectin is a cytokine-inducible membrane glycoprotein capable of mediating adhesion of leukocytes to endothelial cells. It is highly glycosylated, containing 11 sites for N-linked glycosylation. N-Glycosylation of E-selectin was analyzed by endoglycosidase treatment. Analysis of immunoprecipitated E-selectin from human umbilical vein endothelial cells (HUVEC) by polyacrylamide gel electrophoresis in the presence of sodium dodecylsulfate showed that E-selectin was completely resistant to endoglycosidase H, but sensitive to peptide N-glycanase F digestion. This suggested that all N-linked oligosaccharide chains were of the complex type. The role of N-linked glycosylation in surface expression and secretion of E-selectin was studied using interleukin-1-stimulated HUVEC, cultured in the presence of the soluble glycosylation inhibitors tunicamycin or castanospermine. Cell surface expression was analyzed by indirect flow cytometry. N-Glycosylation was blocked by tunicamycin, and resulted in a significantly reduced surface expression of E-selectin, whereas castanospermine only marginally reduced E-selectin expression. The deglycosylated forms of E-selectin were also found to be fully capable of mediating adhesion of HT-29 cells in vitro. In conclusion, these studies show that E-selectin is heavily glycosylated with complex type N-linked oligosaccharides and that N-glycosylation is important for expression of E-selectin on human endothelial cells.
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PMID:Role of N-linked glycosylation in expression of E-selectin on human endothelial cells. 758 10

Subgroup B adenoviruses (Ad3, -7, -11, -35) contain two open reading frames (ORFs) in the early E3 transcription unit that are not present in subgroup C adenoviruses (Ad2, Ad5). The product of one of these ORFs, a 20,500-kDa (20.5K) protein, was shown previously to be expressed as two diffuse 22K and 36K bands on SDS-PAGE; the 22K appeared to be the precursor to the 36K species. As judged by its predicted sequence, 20.5K is a type I membrane glycoprotein with two potential sites for N-glycosylation and a transmembrane domain near its COOH-terminus. Here we show that when Ad3- or Ad7-infected cells were radiolabeled in the presence of tunicamycin, which prevents the addition of N-linked oligosaccharides, both the 22K and the 36K forms of 20.5K showed increased mobility in SDS-PAGE, indicating that both forms contain N-linked sugars. Both the 22K and the 36K forms were sensitive to digestion by endoglycosidase F and N-glycanase, again indicating that they both contain N-linked sugars. Only the 22K species was sensitive to endoglycosidase H, indicating that it contains high-mannose-type oligosaccharides and that the 36K species contains complex-type carbohydrates. The 36K form was sensitive to neuraminidase, indicating that its sugars contain terminal sialic acid. When digested with N-glycanase and neuraminidase, the 36K form was sensitive to O-glycanase, indicating that the 36K form has O-linked oligosaccharides. The 22K form was labeled with [3H]mannose and the 36K form was labeled with [3H]glucosamine and to a much lesser extent by [3H]mannose. Altogether these results indicate that the 20.5K protein is cotranslationally modified with N-linked high-mannose oligosaccharides, then the protein moves into the Golgi and trans-Golgi network where it acquires O-linked and complex N-linked oligosaccharides.
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PMID:The E3-20.5K membrane protein of subgroup B human adenoviruses contains O-linked and complex N-linked oligosaccharides. 761 71

gp57/42 is a membrane glycoprotein localized in the trans-Golgi, flagellar pocket region of the cell surface, endosomes and lysosomes of bloodstream forms of Trypanosoma brucei rhodesiense. Pulse-chase immunoprecipitation experiments revealed that gp57/42 acquires a unique N-linked oligosaccharide recognized by the CB1 monoclonal antibody 20-30 minutes after protein synthesis, probably in the trans-Golgi. We refer to gp57/42 molecules that carry the CB1 epitope as CB1-gp. Pulse labeled CB1-gp contained only one core protein, p57, when chase times were 30 minutes or less. As time of chase increased from 30 to 60 minutes, a new polypeptide, p42, appeared in N-glycanase-treated CB1 immunoprecipitates. Since p57 and p42 share 10 of 13 methionyl peptides, we conclude that p42 is a fragment of p57. Cleavage of p57 to p42 was not inhibited when cells were chased in two thiol protease inhibitors or in 3,4-diisocoumarin, but was inhibited by leupeptin. Cell surface biotinylation was used to determine if newly synthesized CB1-gp was transported from the Golgi to the surface. When cells were pulse labeled and chased for 30 minutes, as much as 40% of the radiolabeled CB1-gp could be biotinylated on the cell surface. The amount of CB1-gp that could be biotinylated decreased when chases were extended from 30 to 60 minutes, suggesting that pulse labeled CB1-gp left the surface. In contrast, pulse labeled variant surface glycoprotein molecules continued to accumulate on the surface where they could be biotinylated between 30 and 60 minutes of chase. Biotinylated CB1-gp derived from cells chased for 30 minutes contained p57 but no p42. However, when labeled cells were biotinylated after a 30 minute chase and then incubated another 30 minutes at 37 degrees C, the biotinylated CB1-gp contained both p57 and p42. The p57 in biotinylated CB1-gp was not cleaved to p42 if the additional incubation was done at 4 or 12 degrees C. This suggests that transport to a compartment where processing occurs and/or the processing enzymes are inhibited by low temperature. When surface biotinylation was done after a 60 minute chase, p42 was detected in biotinylated CB1-gp, suggesting that CB1-gp molecules had passed through the processing compartment and then appeared on the cell surface. Thus, a major portion of the newly synthesized CB1-gp is routed from the Golgi to endocytic compartments via the cell surface. In trypanosomes this process involves a unique surface domain, the flagellar pocket.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Transport of a lysosomal membrane glycoprotein from the Golgi to endosomes and lysosomes via the cell surface in African trypanosomes. 769 16

Cranin is a 120 kDa integral membrane glycoprotein which binds laminin under conditions of physiologic ionic strength in a calcium-dependent manner. Here, binding of cranin to laminin has been characterized using both ligand-blotting assays and laminin affinity bead assays. Binding was specifically inhibited by anti-laminin antibodies against the A chain terminal domain G, but not by several other region-specific antibodies. Dextran sulfate, fucoidin, and sulfatide were potent inhibitors of binding (50% inhibition at 0.03, 0.5, and 1.7 micrograms/ml, respectively); heparin was a weaker inhibitor (50% inhibition approximately 5 micrograms/ml), and mannan and chondroitin sulfate were not inhibitory at 100 micrograms/ml. Binding was not inhibited by lactose or the A chain peptide PA22-2. The mobility of the broad, fuzzy cranin band was shifted after digestion with neuraminidase, N-glycanase, and O-glycanase, though none of these treatments decreased band heterogeneity nor destroyed the ability to bind laminin. Cranin bound to Jacalin lectin, which recognizes the Gal beta 1-3GalNAc linkage expressed in certain classes of mucins. These findings indicate that cranin binds at or near the high affinity sulfatide-binding site previously mapped to the E3 domain of laminin, which is known to exhibit bioactivity for neural cells. In view of the extremely low abundance of cranin in brain membranes (approximately 0.005%), its avid laminin-binding activity is remarkable, and strongly suggests that cranin may play a physiologic role in regulating specific neural cell interactions.
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PMID:Cranin interacts specifically with the sulfatide-binding domain of laminin. 814 89

Immunoglobulin G (IgG) autoantibodies of 20 patients with autoimmune hemolytic anemia (AHA) were used in immunoaffinity assays with surface-radioiodinated human red blood cells (RBCs), and detergent-solubilized products were analyzed by SDS-PAGE/autoradiography. Four membrane proteins were identified as candidate autoantigens: a nonglycosylated polypeptide with an apparent molecular mass of 34 kD (p34) that was expressed in all available RBC phenotypes except Rhnull but differed consistently in apparent molecular mass from the 32-kD Rh(D) polypeptide co-isolated by IgG allo-anti-D; a heterogenous 37-55-kD glycoprotein, also deficient in Rhnull RBCs, which disappeared after deglycosylation by N-glycanase, with the appearance of a sharp, new approximately 31-kD band distinct from p34 and from Rh(D) polypeptide; a approximately 100-kD major membrane glycoprotein identified by immunoblotting as the band 3 anion transporter; and glycophorin A (GPA), also confirmed by immunoblotting. GP37-55 was not seen in the absence of p34, and both proteins are likely to be members of the Rh family. Indeed, a 34-kD polypeptide band and 37-55-kD poly-disperse "smear," isolated concurrently from the same labeled RBCs by IgG allo-anti-e, were indistinguishable from their autoantibody-isolated counterparts and may well be the same protein identified at different epitopes by the auto- and allo-antibodies. Individual AHA patients' autoantibodies isolated p34 and gp37-55, alone or in combination with band 3 (nine cases); strong band 3 alone (five cases); and combinations of band 3 with GPA (six cases). The autoantibodies of three additional patients whose AHA had been induced by alpha-methyldopa also isolated p34 and gp37-55.
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PMID:Erythrocyte membrane proteins reactive with human (warm-reacting) anti-red cell autoantibodies. 847 10

A membrane glycoprotein of 190 kDa has been identified previously by photoaffinity labeling as a candidate for the ATP-dependent export pump for leukotriene C4 in mastocytoma cells [Leier, I., Jedlitschky, G., Buchholz, U. & Keppler, D. (1994) Eur. J. Biochem. 220, 599-606]. The present study indicates that this protein represents the murine homolog of the human multidrug resistance protein (MRP). In immunoblot analyses several polyclonal anti-MRP antibodies and one monoclonal antibody recognized the protein of 190-kDa in plasma membranes of mastocytoma cells. Immunoprecipitation after photoaffinity labeling with [3H]leukotriene C4 precipitated the labeled 190-kDa glycoprotein. Deglycosylation by glycopeptide N-glycosidase F of mastocytoma membrane proteins was performed in comparison with membranes from MRP-overexpressing cells and resulted in a reduction of the molecular mass of 190 kDa by about 20 kDa in all membrane preparations. The expression of the murine mrp gene in the mastocytoma cells was analyzed by amplification and sequencing of two mrp cDNA fragments in the first nucleotide binding domain (182 bp) and in a domain proximal to the 3'-end (291 bp). The deduced amino acid sequences of these fragments were identical with murine Mrp and 86.7% and 89.7% identical with the corresponding sequences of human MRP. These results indicate that the ATP-dependent release of leukotriene C4 by murine mastocytoma cells is mediated by murine Mrp.
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PMID:Identification of the biosynthetic leukotriene C4 export pump in murine mastocytoma cells as a homolog of the multidrug-resistance protein. 897 33

Previous studies have shown that normal human intestinal epithelial cells stimulate CD8(+) suppressor T cell proliferation in an allogeneic mixed epithelial/T cell co-culture system, which is neither restricted by class I or class II major histocompatibility complex antigens nor by any soluble factors from epithelial cells. Two epithelial specific monoclonal antibodies (mAb), mAb B9 and mAb L12, are potent inhibitors of this mixed epithelial/T cell reaction but not of conventional mixed lymphocyte reactions. While phenotypically distinct by tissue staining, both mAbs recognize a 180-kDa epithelial membrane glycoprotein (gp180). Further characterization of gp180 revealed the following. 1) The protein migrated between 150 and 180 kDa in SDS-polyacrylamide gel electrophoresis and could be resolved by Western blot using mAb B9 or mAb L12. 2) The molecule has two forms, an apically sorted glycosylphosphatidylinositol-anchored form and a basolateral transmembrane form. 3) gp180 is heavily N-glycosylated, since N-glycanase treatment results in a >50% reduction in size. 4) Purified gp180 can bind to peripheral blood T cells and activate p56(lck). 5) gp180 can activate p56(lck) in 3G8 (a murine T cell hybridoma transfected with human CD8alpha cDNA) but not in 3G4 (CD4 transfectant), suggesting that gp180 binds to CD8. Thus, gp180 appears to be a novel regulator of mucosal immune responses.
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PMID:Characterization of a 180-kDa intestinal epithelial cell membrane glycoprotein, gp180. A candidate molecule mediating t cell-epithelial cell interactions. 913 38

To gain insight into the role of Oa1, the mouse homolog of the human X-linked ocular albinism 1 protein, its properties and subcellular localization were investigated. Antiserum raised against an expressed segment of the Oa1 protein recognized a band of approximately 48 kDa in immunoblots of extracts of cultured mouse melan-a melanocytes, but not of cells of non-melanocyte origin. When melanocyte extracts were treated with glycopeptidase F, a approximately 44 kDa band appeared. Like the melanogenic enzyme tyrosinase, expression of Oa1 was stimulated by alpha-melanocyte stimulating hormone and inhibited by agouti signal protein. Upon density gradient centrifugation of organelles of melan-a cells, Oa1 protein colocalized with the late endosomal/lysosomal marker Lamp1, but only partial overlap was observed with melanosomal proteins in the high density region of the gradient. Immunofluorescence staining revealed that neither endogenous Oa1 nor an Oa1-green fluorescent protein fusion product colocalized with the melanosomal protein tyrosinase related protein-1 in the cell periphery. In contrast, colocalization of Oa1 and Oa1-green fluorescent protein fusion product with Lamp1 was extensive throughout the cell. These results indicate that Oa1 is a melanocyte-specific integral membrane glycoprotein localized to late endosomes/lysosomes but not mature melanosomes. Considering the microscopic findings in patients with X-linked ocular albinism 1, we speculate that Oa1 may play a role in the trafficking of vesicles to developing melanosomes.
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PMID:The mouse ocular albinism 1 gene product is an endolysosomal protein. 1118 Sep 81

Lectin blot analysis of membrane glycoprotein samples from Sf-9 cells upon transfection of individual human beta-1,4-galactosyltransferase (beta-1,4-GalT) I, II, III, IV, V et VI cDNAs showed that the endogenous N-linked oligosaccharides are galactosylated (Guo et al., Glycobiology (2001), in press). Further analysis revealed that membrane glycoprotein samples from all the gene-transfected cells are also reactive to Lycopersicon esculentum agglutinin (LEA) et Datura stramonium agglutinin (DSA), both of which bind to oligosaccharides with poly-N-acetyllactosamine chains while no lectin reactive protein bands are detected when blots are pretreated with a mixture of diplococcal beta-1,4-galactosidase et jack bean beta-N-acetylhexosaminidase or N-glycanase. Analysis of endo-beta-galactosidase-digestion products revealed the presence of the Gal1-->GlcNAc1-->Gal and/or GlcNAc1-->Gal structures in the gene-transfected cells. When the homogenates of the gene-transfected cells were used as enzyme sources towards oligosaccharides with the GlcNAc beta 1-->(3Gal beta 1-->4GlcNAc)(1-3) structures, human recombinant beta-1,4-GalTs I et II galactosylated these oligosaccharides more effectively than other beta-1,4-GalTs. These results indicate that beta-1,4-GalTs I-VI can synthesize poly-N-acetyllactosamine chains with beta-1,3-N-acetylglucosaminyltransferase.
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PMID:Occurrence of poly-N-acetyllactosamine synthesis in Sf-9 cells upon transfection of individual human beta-1,4-galactosyltransferase I, II, III, IV, V and VI cDNAs. 1153 Feb 3

It was established that remarkable changes in the N-glycosylation are induced in immortalized cancer cells. Whether changes were induced in human stromal cells immortalized by transfection with the human telomerase catalytic subunit (hTert) cDNA was examined by lectin blot analysis. Morphological appearance and growth rate of the gene-transfected stromal cells were not changed significantly. However, lectin blot analysis of membrane glycoprotein samples showed that bindings of Ricinus communis agglutinin-I (RCA-I) and of leuko-agglutinating phytohemagglutinin to glycoprotein bands increase significantly in the gene-transfected cells. No lectin binding was observed when blotted filters were treated with diplococcal beta-1,4-galactosidase or N-glycanase prior to incubation with RCA-I. In contrast, no changes in Coomassie brilliant blue-staining and in binding of concanavalin A were obtained between the primary and gene-transfected stromal cells. These results indicate that the highly branched N-glycosylation with augmented galactosylation is induced in human stromal cells immortalized by the telomerase expression.
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PMID:Changes in N-glycosylation of human stromal cells by telomerase expression. 1256 58

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