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)

The glycoprotein precursor of the highly cytopathic Zairian virus HIV1-NDK synthesized in CEM leukemic cells displayed a molecular mass of 140 kDa (gp140) as compared to the 160 kDa of gp160 of HIV1-LAV prototype strain. This precursor was cleaved to produce a smaller than prototype extra-cellular envelope glycoprotein (gp100) and a transmembrane component with a usual size (gp41). Immunoprecipitates from tunicamycin-treated infected cells demonstrated the presence of a non-glycosylated precursor of 100 kDa for HIV1-LAV prototype strain and 90 kDa for HIV1-NDK. Digestion of labeled precipitates with a mixture of endoglycosidase F and glycopeptidase F reduced the size of HIV1-LAV gp160 and gp120 to 100 and 60 kDa, respectively, while HIV1-NDK gp140 and gp100, after treatment with the same enzymes, displayed an apparent molecular mass of 90 kDa and 55 kDa, respectively. From these data we conclude that HIV1-LAV gp120 and HIV1-NDK gp100 differ both in their proteic moiety (60 kDa and 55 kDa, respectively) and in their carbohydrate moiety (60 kDa and 45 kDa, respectively). These differences could not be deduced from the available gene sequences of the two viruses. A chimeric virus containing the first 124 amino acid residues of the envelope glycoprotein coded by HIV1-LAV sequence and the rest by HIV1-NDK displayed normal size envelope glycoproteins, demonstrating the involvement of this N-terminal sequence in the alteration of the molecular mass characteristic of HIV1-NDK gp140 and gp100. Finally, characterization of the gag gene products from both strains demonstrated that HIV1-NDK p18 and p15 have a slower electrophoretic mobility as compared to its HIV1-LAV counterparts. Therefore, structural properties of HIV1-NDK env and gag products, reflected by their unusual electrophoretic mobilities, may be responsible for HIV1-NDK biological properties.
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PMID:Structural variability of env and gag gene products from a highly cytopathic strain of HIV-1. 164 54

Apparently conflicting results have been reported regarding the role of env glycoprotein glycans in human immunodeficiency virus type 1 (HIV-1) infectivity and cytopathogenicity. Whereas we have shown that enzymic removal of carbohydrates from mature envelope glycoproteins has only limited effect on the ability of HIV-1 to bind to CD4 and to infect target cells, sugar analogues that interfere with the glycosylation process of the nascent molecule markedly reduce virus infectivity. Here we have investigated the effect of a glucosidase inhibitor, 1-deoxynojirimycin (dNM), on the bioactivity and immunoreactivity of precursor gp160 produced by recombinant vaccinia virus-infected BHK-21 cells (rgp160). dNM (4 mM) did not affect the amount of rgp160 recovered nor its secretion from the cells. As described by other authors the effect of dNM was incomplete, resulting in the production of rgp160, the glycosylation of which was heterogeneous with respect to apparent Mr distribution and to sensitivity to endoglycosidase H and endoglycosidase F, all the species being susceptible to N-glycanase. A major reduction of the binding to CD4+ cells was noted with rgp 160 produced by dNM-treated cells using a quantitative indirect immunofluorescence assay and labelling with polyclonal human anti-HIV IgG. Similarly, dNM treatment altered the accessibility to murine monoclonal antibody 110-4 of the exposed V3 loop of HIV-1 gp120 by at least 10-fold, as determined by either ELISA capture assay or immunoaffinity purification. Such bioactivity and conformation modifications, which result from the abnormal folding of the nascent glycoprotein due to aberrant glycosylation, may account for the impaired HIV-1 infectivity elicited by dNM.
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PMID:Effect of a glucosidase inhibitor on the bioactivity and immunoreactivity of human immunodeficiency virus type 1 envelope glycoprotein. 167 78

The envelope glycoprotein of HIV-I in infected, cultured human T cells is synthesized as a precursor of apparent Mr 160 kDa (gp160) and is cleaved to two glycoproteins, gp120 and gp41, which are the mature envelope glycoproteins in the virus. Neither the temporal and spatial features of glycosylation nor the oligosaccharide processing and proteolytic cleavage of the envelope glycoprotein are well understood. To understand more about these events, we investigated the glycosylation and cleavage of the envelope glycoproteins in the CD4+ human cell line, Molt-3, persistently infected with HIV-I (HTLV IIIB). The carbohydrate analysis of gp160 and gp120 and the behavior of the glycoproteins and glycopeptides derived from them on immobilized lectins demonstrate that both of these glycoproteins contain complex- and high-mannose-type Asn-linked oligosaccharides. In addition, the N-glycanase-resistant oligosaccharides of gp120 were found to contain N-acetyl-galactosamine, a common constituent of Ser/Thr-linked oligosaccharides. Pulse-chase analysis of the conversion of [35S]cysteine-labeled gp160 showed that in Molt-3 cells it takes about 2 h for gp120 to arise with a half-time of conversion of about 5 h. At its earliest detectable occurrence, gp120 was found to contain complex-type Asn-linked oligosaccharides. Taken together, these results indicate that proteolytic cleavage of gp160 to gp120 and gp41 occurs either within the trans-Golgi or in a distal compartment.
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PMID:gp160 of HIV-I synthesized by persistently infected Molt-3 cells is terminally glycosylated: evidence that cleavage of gp160 occurs subsequent to oligosaccharide processing. 189 96

We have shown that enzymatic removal of N-linked glycans from human immunodeficiency virus type 1 (HIV-1) recombinant envelope glycoproteins gp160 and gp120 produced in BHK-21 cells did not significantly reduce their ability to bind to CD4, the cellular receptor for the virus. Because recombinant proteins may behave differently from proteins present on virions, we investigated whether such viral envelope glycoproteins either in a purified form or present on viral particles could be deglycosylated by treatment with an endoglycosidase F-N-glycanase mixture which cleaves all accessible glycan moieties. Endoglycosidase analysis of the carbohydrate composition of purified viral gp120 (vgp120) indicated a glycosylation pattern similar to that for recombinant gp120 (rgp120), and treatment with endoglycosidase F-N-glycanase resulted in comparable molecular weight (MW) reduction for both molecules. Similarly, after immunoblotting of the deglycosylated viral preparation, the characteristic 160- and 120-kilodalton (kDa) bands were replaced by 90- and 60-kDa bands, respectively. The apparent MW of gp41 shifted to 35 kDa. These results are consistent with complete deglycosylation. The immunoreactive conformation of envelope glycoproteins remained unaltered after deglycosylation: they were recognized to the same extent by specific human polyclonal or mouse monoclonal antibodies, and no proteolysis of viral proteins occurred during enzymatic treatment. Deglycosylation of vgp120 resulted in a less than 10-fold reduction of the ability to bind to CD4, presented either in a soluble form or at the cell membrane. In addition, deglycosylation significantly reduced, but did not abolish, HIV-1 binding to and infectivity of CD4+ cells as determined, respectively, by an indirect immunofluorescence assay and a quantitative dose-response infection assay. Taken together, these results indicate that removal of glycans present on mature envelope glycoproteins of HIV-1 diminishes but does not abolish either virus binding to CD4 or its capacity to infect CD4+ cells.
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PMID:Role of N-linked glycans of envelope glycoproteins in infectivity of human immunodeficiency virus type 1. 233 19

gp120 and CD4 are two glycoproteins that are considered to interact together to allow the binding of HIV to CD4+ cells. We have utilized enzymatic digestion by endoglycosidases in order to analyze N-linked carbohydrate chains of these proteins and their possible role in the interaction of gp120 or gp160 with CD4. SDS denaturation was not necessary to obtain optimal deglycosylation of either molecule, but deglycosylation of CD4, nonetheless, depended on the presence of 1% Triton X-100. Endo H and Endo F that cleave high mannose type and biantennary glycans diminish the molecular mass of the glycoproteins from 120 or 160 Kd to 90 or 130 Kd, respectively; but these enzymes had no action on CD4 glycans. Endo F N-glycanase mixture, which acts on all glycan species, including triantennary chains, led to complete deglycosylation of gp120/160 and of CD4. Therefore, probably half of the glycan moieties of gp120/160 are composed of high mannose and biantennary chains, the other half being triantennary species. The carbohydrate structures of CD4 seems to be triantennary chains. To analyze the binding of gp120/160 to CD4, we used a molecular assay in which an mAb (110-4) coupled to Sepharose CL4B allowed the attachment of soluble gp120/160 to the beads; 125I-sCD4 was then added to measure the binding of CD4 to different amounts of gp120/160. Binding to gp160 was not modified when using completely deglycosylated 125I-sCD4, while deglycosylation of gp120 or of gp160 resulted in the decrease of the binding to native CD4 by two- and fivefold, respectively. Native and deglycosylated gp120/160 bound to CD4+ cells with comparable affinities. In addition, deglycosylated gp120 displaced 125I-gp160 binding to CD4+ cells and inhibited fusion of fresh Molt-T4 cells with CEM HIV1- or HIV2-infected cells to the same extent. Taken together, these results indicate that carbohydrates of CD4 and of gp120/160 do not play a significant role in the in vitro interaction between these two molecules.
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PMID:Role of N-linked glycans in the interaction between the envelope glycoprotein of human immunodeficiency virus and its CD4 cellular receptor. Structural enzymatic analysis. 253 47

The major envelope glycoproteins gp120 and gp41 of human immunodeficiency virus type 1, the causative agent for human AIDS, contain numerous N-linked oligosaccharides. We report here our discovery that N-acetylglucosamine residues within the complex-type N-linked oligosaccharides of both gp120 and its precursor, gp160, are sulfated. When human Molt-3 cells persistently infected with human T-cell leukemia virus IIIB were metabolically radiolabeled with 35SO4, gp160, gp120, and to some extent gp41 were radiolabeled. The 35SO4-labeled oligosaccharides were quantitatively released by N-glycanase treatment and were bound by immobilized Ricinus communis agglutinin I, a lectin that binds to terminal beta-galactosyl residues. The kinetics of release of sulfate upon acid hydrolysis from 35SO4-labeled gp120 indicate that sulfation occurs in a primary sulfate ester linkage. Methylation analysis of total glycopeptides from Molt-3 cells metabolically radiolabeled with [3H]glucosamine demonstrates that sulfation occurs at the C-6 position of N-acetylglucosamine. Fragmentation of the gp120-derived 35SO4-labeled glycopeptides by treatment with hydrazine and nitrous acid and subsequent reduction generated galactosyl-anhydromannitol-6-35SO4, which is the expected reaction product from GlcNAc-6-sulfate within a sulfated lactosamine moiety. Charge analysis of the [3H]galactose- and [3H]glucosamine-labeled glycopeptides from gp120 and gp160 indicates that approximately 14% of the complex-type N-linked oligosaccharides are sulfated.
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PMID:Complex-type N-linked oligosaccharides of gp120 from human immunodeficiency virus type 1 contain sulfated N-acetylglucosamine. 841 50