EC:3.2.1.96 - FACTA Search

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Query: EC:3.2.1.96 (endoglycosidase H)
1,826 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The influenza virus neuraminidase (NA), a type II transmembrane glycoprotein, is expressed at the surface of infected cells and is a major structural component of the virion. The kinetics of biosynthesis of NA, including modification of N-linked sugar chains, association with GRP78-BiP, oligomerization, and transport to the cell surface, were examined in A/WSN/33 influenza-infected BHK cells. Prior to gaining endoglycosidase H (endo H) resistance, NA was found to transiently associate with GRP78-BiP (t1/2 approximately 5 min). The protein was synthesized as a monomer and within 10 min a significant fraction of it was chased into dimers and tetramers with a t1/2 approximately 15 to 20 min before endo H resistance was acquired suggesting that oligomerization took place in the endoplasmic reticulum. WSN NA remained completely endo H sensitive up to 15 min after synthesis, acquired partial resistance to endo H between 15 and 30 min (t1/2 approximately 25 min) after synthesis and exhibited heterogeneity in endo H-resistant forms. NA was first detected at the cell surface 30 min after synthesis, increased to a maximum at 1 hr, after which it decreased, presumably due to incorporation into virions. The results on the biosynthesis of NA, a type II protein for which the three-dimensional structure is known, will be useful in structure/function and virion assembly studies.
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PMID:Synthesis and processing of the influenza virus neuraminidase, a type II transmembrane glycoprotein. 158 34

The hemagglutinin (HA) of influenza virus is a type I transmembrane glycoprotein which is acylated with long-chain fatty acids. In this study we have used oligonucleotide-directed mutagenesis of cloned cDNA and a simian virus 40 expression system to determine the fatty acid binding site in HA and to examine possible functions of covalently linked fatty acids. The results show that the HA is acylated through thioester linkages at three highly conserved cysteine residues located in the cytoplasmic domain and at the carboxy-terminal end of the transmembrane region, whereas a cysteine located in the middle of the membrane-spanning domain is not acylated. Mutants lacking fatty acids at individual or all three attachment sites acquire endoglycosidase H-resistant oligosaccharide side chains, are cleaved into HA1 and HA2 subunits, and are transported to the plasma membrane at rates similar to that of wild-type HA. All mutants are membrane bound and not secreted into the medium. These results exclude transport signal and membrane-anchoring functions of covalently linked fatty acids for this integral membrane glycoprotein. Furthermore, lack of acylation has no obvious influence on the biological activities of HA: cells expressing fatty acid-free HA bind to and, after brief exposure to mildly acidic pH, fuse with erythrocytes; the HA-induced polykaryon formation is not impaired, either. Other possible functions of covalently linked fatty acids in integral membrane glycoproteins which cannot be examined in conventional cDNA expression systems are discussed.
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PMID:Site-specific mutagenesis identifies three cysteine residues in the cytoplasmic tail as acylation sites of influenza virus hemagglutinin. 190 16

Mutant V.24.1 defines the End4 complementation group of temperature-sensitive Chinese hamster ovary cell mutants selected for resistance to protein toxins. We investigated the secretory pathway in the mutant cells and found: 1) The hemagglutinin of influenza virus failed to reach the plasma membrane and was retained in a form sensitive to endoglycosidase H at the restrictive temperature. 2) Transferrin receptors synthesized at the restrictive temperature remained sensitive to endoglycosidase H. 3) Secretion of total soluble protein into the medium was strongly reduced at high temperature. These data indicate that V.24.1 cells are defective in secretion at the restrictive temperature. To see what effect the lesion had on the endocytic pathway, we measured the accumulation and recycling of the fluid-phase marker horseradish peroxidase. Accumulation was inhibited by 50% while recycling was barely affected, suggesting that the rate of fluid-phase endocytosis was reduced. We previously showed that the clathrin-coated pit pathway of endocytosis was not affected in the mutant, indicated by a normal transferrin cycle (Colbaugh, P. A., Stookey, M., and Draper, R. K. (1989) J. Cell Biol. 108, 2211-2219). Thus, the secretory lesion correlates with reduced fluid-phase endocytosis without impairing the clathrin-dependent pathway of receptor-mediated endocytosis. We also investigated the delivery of endocytosed material to lysosomes and found that delivery was partially, but not completely, impaired in the mutant. This suggests that endocytosed material can enter lysosomes, although slowly, in the absence of a functional secretory pathway.
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PMID:Impaired secretion and fluid-phase endocytosis in the End4 mutant of Chinese hamster ovary cells. 212 70

Recombinant plasmids were constructed in which genes coding for either the entire or the signal-minus (amino acid residues 2-17 deleted) hemagglutinin (HA) of WSN influenza virus were placed under the control of the alcohol dehydrogenase I gene promoter of Saccharomyces cerevisiae. Both recombinant plasmids were shown to direct the synthesis of HA-specific polypeptides that were detected by immunoprecipitation with antiviral antibodies. The complete HA produced in yeast had an approximate Mr of 70,000 and was glycosylated, as determined by the endoglycosidase H sensitivity, and was bound to membrane. Therefore, the complete HA polypeptide possessing the signal sequence probably traversed the yeast secretory pathways. Signal-minus HA, on the other hand, had a lower molecular weight and was nonglycosylated. The specific binding of yeast HA with antiviral antibodies could be competitively inhibited by influenza viral HA, demonstrating that the HA produced in yeast contained antigenic determinants of the native viral HA.
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PMID:Influenza viral (A/WSN/33) hemagglutinin is expressed and glycosylated in the yeast Saccharomyces cerevisiae. 258 Mar 4

We have previously shown that Xenopus oocytes arrested at second meiotic metaphase lost their characteristic multicisternal Golgi apparati and cannot secrete proteins into the surrounding medium. In this paper, we extend these studies to ask whether intracellular transport events affecting the movement of secretory proteins from the endoplasmic reticulum to the Golgi apparatus are also similarly inhibited in such oocytes. Using the acquisition of resistance to endoglycosidase H (endo H) as an assay for movement to the Golgi, we find that within 6 h, up to 66% of the influenza virus membrane protein, hemagglutinin (HA), synthesized from injected synthetic RNA, can move to the Golgi apparati in nonmatured oocytes; indeed after longer periods some correctly folded HA can be detected at the cell surface where it distributes in a nonpolarized fashion. In matured oocytes, up to 49% of the HA becomes endo H resistant in the same 6-h period. We conclude that movement from the endoplasmic reticulum to the Golgi can occur in matured oocytes despite the dramatic fragmentation of the Golgi apparati that we observe to occur on maturation. This observation of residual protein movement during meiotic metaphase contrasts with the situation at mitotic metabphase in cultured mammalian cells where all movement ceases, but resembles that in the budding yeast Saccharomyces cerevisiae where transport is unaffected.
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PMID:Protein transport from endoplasmic reticulum to the Golgi complex can occur during meiotic metaphase in Xenopus oocytes. 279 29

We have used monospecific antisera to two lysosomal membrane glycoproteins, lgp120 and a similar protein, lgp110, to compare the biosynthesis and intracellular transport of lysosomal membrane components, plasma membrane proteins, and lysosomal enzymes. In J774 cells and NRK cells, newly synthesized lysosomal membrane and plasma membrane proteins (the IgG1/IgG2b Fc receptor or influenza virus hemagglutinin) were transported through the Golgi apparatus (defined by acquisition of resistance to endo-beta-N-acetylglucosaminidase H) with the same kinetics (t1/2 = 11-14 min). In addition, immunoelectron microscopy of normal rat kidney cells showed that lgp120 and vesicular stomatitis virus G-protein were present in the same Golgi cisternae demonstrating that lysosomal and plasma membrane proteins were not sorted either before or during transport through the Golgi apparatus. To define the site at which sorting occurred, we compared the kinetics of transport of lysosomal and plasma membrane proteins and a lysosomal enzyme to their respective destinations. Newly synthesized proteins were detected in dense lysosomes (lgp's and beta-glucuronidase) or on the cell surface (Fc receptor or hemagglutinin) after the same lag period (20-25 min), and accumulated at their final destinations with similar kinetics (t1/2 = 30-45 min), suggesting that these two lgp's are not transported to the plasma membrane before reaching lysosomes. This was further supported by measurements of the transport of membrane-bound endocytic markers from the cell surface to lysosomes, which exhibited additional lag periods of 5-15 min and half-times of 1.5-2 h. The time required for transport of newly synthesized plasma membrane proteins to the cell surface, and for the transport of plasma membrane markers from the cell surface to lysosomes would appear too long to account for the rapid transport of lgp's from the Golgi apparatus to lysosomes. Thus, the observed kinetics suggest that lysosomal membrane proteins are sorted from plasma membrane proteins at a post-Golgi intracellular site, possibly the trans Golgi network, before their delivery to lysosomes.
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PMID:Kinetics of intracellular transport and sorting of lysosomal membrane and plasma membrane proteins. 282 Oct 12

We have previously described a hybrid protein, GHHA, that contains a fragment of the influenza hemagglutinin joined to the C terminus of a nearly complete rat growth hormone (Rizzolo, L.J., Finidori, J., Gonzalez, A., Arpin, M., Ivanov, I.E., Adesnik, M., and Sabatini, D.D. (1985) J. Cell Biol. 101, 1351-1362). GHHA was transported from the rough endoplasmic reticulum (ER) to a smooth cisterna, continuous with the rough ER, but proximal to the Golgi apparatus. We have now labeled GHHA with [3H]palmitate, demonstrating that fatty acylation can occur in the ER. As expected for a thioester linkage, the label was released from GHHA by hydroxylamine and identified as palmitic acid by thin-layer chromatography. In a second study, we analyzed the structure of the N-linked carbohydrate chain of GHHA. The N-linked oligosaccharides, all high-mannose type, were released by endoglycosidase H and size-fractionated by high pressure liquid chromatography. The predominant structures were Glc1Man8GlcNAc and Man8GlcNAc, indicating that only 2 or 3 glucose and 1 mannose residues were removed from the original Glc3Man9GlcNAc2. Determination of the structure by acetolysis fragmentation indicated that a single Man8GlcNAc isomer was formed by a deoxymannojirimycin-sensitive alpha-mannosidase. This contrasts with a previously characterized ER alpha-mannosidase (Bischoff, J., Liscum, L., and Kornfeld, R. (1986) J. Biol. Chem. 261, 4766-4774) that generates the same isomer, but is deoxymannojirimycin-resistant. These data suggest the possibility that different enzymes are partitioned within the ER.
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PMID:Post-translational protein modification in the endoplasmic reticulum. Demonstration of fatty acylase and deoxymannojirimycin-sensitive alpha-mannosidase activities. 296 26

We have investigated the effects of the carboxylic ionophores monensin and nigericin on the intracellular processing and transport of the influenza-virus envelope proteins haemagglutinin and neuraminidase in Madin-Darby-canine-kidney-cell monolayers. In the presence of either ionophore, haemagglutinin acquires resistance to the enzyme endoglycosidase H more slowly than it does in untreated cells. In addition, the ionophores cause a block in oligosaccharide-processing events that are believed to occur normally in the trans elements of the Golgi complex. This block is not overcome even at long chase times. Finally, the ionophores cause a substantial slowing of the delivery of both haemagglutinin and neuraminidase to the plasma membrane. We conclude that the ionophores cause delays in the intracellular transport of these proteins both early and late in the pathway, that is, before and after passage through the trans-Golgi, and perturb the processing functions of this compartment. The possible significance of these observations with regard to the intracellular transport of newly synthesized plasma-membrane proteins in epithelial cells is discussed.
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PMID:Intracellular processing and transport of influenza-virus envelope proteins in Madin-Darby canine kidney cells. Effects of the carboxylic ionophores monensin and nigericin. 342 18

MDCK (Madin-Darby canine kidney) cells infected with the NWS strain of influenza virus incorporate 35SO4 into complex types of oligosaccharides of the N-linked glycoproteins. On the other hand, when these virus-infected MDCK cells are incubated in the presence of swainsonine, an inhibitor of the processing mannosidase II, approximately 40-80% of the total [35S]glycopeptides were of the hybrid types of structures. Thus, these sulfated, hybrid types of glycopeptides were completely susceptible to digestion by endoglucosaminidase H, whereas the sulfated glycopeptides from infected cells incubated without swainsonine were completely resistant to endo-beta-N-acetylglucosaminidase H. When virus-infected MDCK cells were incubated in the presence of castanospermine, an inhibitor of the processing glucosidase I, the N-linked glycopeptides contained mostly oligosaccharide chains of the Glc3Man7-9GlcNAc2 types of structures, and these oligosaccharides were devoid of sulfate. Structural analysis of these abnormally processed oligosaccharides produced in the presence of swainsonine or castanospermine indicated that they differed principally in the processing of one oligosaccharide branch as indicated by the structures shown below. They also differed in that only the swainsonine-induced structures were sulfated. These data indicate that removal of glucose units and perhaps other processing steps are necessary before sulfate residues can be added. (Formula: see text).
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PMID:The effect of swainsonine and castanospermine on the sulfation of the oligosaccharide chains of N-linked glycoproteins. 391 27

The influenza viral hemagglutinin contains L-fucose linked alpha 1,6 to some of the innermost GlcNAc residues of the complex oligosaccharides. In order to determine what structural features of the oligosaccharide were required for fucosylation or where in the processing pathway fucosylation occurred, influenza virus-infected MDCK cells were incubated in the presence of various inhibitors of glycoprotein processing to stop trimming at different points. After several hours of incubation with the inhibitors, [5,6-3H]fucose and [1-14C]mannose were added to label the glycoproteins, and cells were incubated in inhibitor and isotope for about 40 h to produce mature virus. Glycopeptides were prepared from the viral and the cellular glycoproteins, and these glycopeptides were isolated by gel filtration on Bio-Gel P-4. The glycopeptides were then digested with endo-beta-N-acetylglucosaminidase H and rechromatographed on the Bio-Gel column. In the presence of castanospermine or 2,5-dihydroxymethyl-3,4-dihydroxypyrrolidine, both inhibitors of glucosidase I, most of the radioactive mannose was found in Glc3Man7-9GlcNAc structures, and these did not contain radioactive fucose. In the presence of deoxymannojirimycin, an inhibitor of mannosidase I, most of the [14C]mannose was in a Man9GlcNAc structure which was also not fucosylated. However, in the presence of swainsonine, an inhibitor of mannosidase II, the [14C]mannose was mostly in hybrid types of oligosaccharides, and these structures also contained radioactive fucose. Treatment of the hybrid structures with endoglucosaminidase H released the [3H]fucose as a small peptide (Fuc-GlcNAc-peptide), whereas the [14C]mannose remained with the oligosaccharide. The data support the conclusion that the addition of fucose linked alpha 1,6 to the asparagine-linked GlcNAc is dependent upon the presence of a beta 1,2-GlcNAc residue on the alpha 1,3-mannose branch of the core structure.
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PMID:The effect of glycoprotein-processing inhibitors on fucosylation of glycoproteins. 393 56

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