Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0021051 (immunodeficiency)
 71,517 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The imino sugar, N-butyldeoxynojirimycin, is an inhibitor of the glycoprotein-processing enzyme glucosidase I and exhibits anti-(human immunodeficiency virus) activity in vitro. We have investigated the effect(s) of this compound on cell-surface glycoproteins by flow cytometry. We observed selective modulation of the transferrin receptor in response to treatment with 0.5 mM N-butyldeoxynojirimycin resulting in reduced cell-surface transferrin-receptor expression. The receptor modulation was dose dependent, resulted in reduced 59Fe uptake by treated cells and was fully reversible within 24 h of culture in the absence of the compound. Pulse/chase analysis in conjunction with endoglycosidase-H digestion demonstrated that transferrin-receptor glycosylation was altered following N-butyldeoxynojirimycin treatment, which is compatible with glucosidase inhibition. In addition, modulation of transferrin receptor in response to N-butyldeoxynojirimycin was not confined to a single cell line, but was also observed with certain human lymphoid and myeloid cell lines. Mechanism(s) of action of the imino sugar resulting in reduced cell-surface transferrin-receptor expression are discussed.
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PMID:Modulation of cell-surface transferrin receptor by the imino sugar N-butyldeoxynojirimycin. 138 60

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 processing and transport of the envelope glycoprotein complex of feline immunodeficiency virus (FIV) in the persistently infected Crandell feline kidney (CRFK) cell line were investigated. Pulse-chase analyses revealed that the glycoprotein is synthesized as a precursor with an Mr of 145,000 (gp145) and is quickly trimmed to a molecule with an Mr of 130,000 (gp130). Treatment of gp130 with endoglycosidase H (endo H) resulted in a protein with an Mr of 75,000, indicating that nearly half the weight of the gp130 precursor consists of endo H-sensitive glycans during biosynthesis. Chase periods of up to 8 h revealed intermediates during the further processing of this glycoprotein precursor. Initially, two minor protein species with apparent Mrs of 100,000 and 90,000 were detected along with gp130. At later chase times these two species appeared to migrate as a single dominant species with an Mr of 95,000 (gp95). Concomitant with the appearance of gp95 was another protein with an Mr of approximately 40,000 (gp40). Chase periods of up to 8 h revealed that approximately half of the precursor was processed into the gp95-gp40 complex within 4 h. gp95 was efficiently transported from the cell into the culture medium by 1 to 2 h after labeling, whereas gp40 was not observed to be released from infected CRFK cells. Analysis of the processing in the presence of monensin, castanospermine, and swainsonine also suggests the existence of these intermediates in the processing of this lentivirus glycoprotein. As with human immunodeficiency virus, virus produced in the presence of glucosidase inhibitors and reduced infectivity for T-lymphocyte cultures.
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PMID:Processing of the glycoprotein of feline immunodeficiency virus: effect of inhibitors of glycosylation. 184 41

The envelope glycoprotein (gp70) of a molecularly cloned, replication-defective feline leukemia virus (FeLV-FAIDS clone 61C) carries determinants for induction of fatal immunodeficiency disease, whereas the gp70 of its companion replication-competent, probably parent virus (clone 61E) does not. Immunoprecipitation analysis of the extracellular glycoproteins of 61E and EECC, a replication-competent viral construct composed of the 61C env and 3' long terminal repeat fused to the 61E gag-pol genes, demonstrated that the gp70 of EECC could be distinguished from that of 61E by both feline immune serum and a murine monoclonal antibody. Molecular weights of both the envelope precursor polyprotein (gp80) and the mature extracellular glycoprotein (gp70) of 61E were smaller than the corresponding proteins from the pathogenic EECC. Both the molecular weight disparity and monoclonal antibody discrimination of the two gp80s were abolished by inhibition of envelope protein glycosylation with tunicamycin, whereas the apparent gp70 size differences were resolved by enzymatic removal of N-linked oligosaccharides. Pulse-chase studies in EECC-infected cells demonstrated that processing of gp80 to gp70 was delayed and that this retardation of envelope glycoprotein processing could be simulated in 61E-infected cells by treatment with the glucosidase inhibitor N-methyldeoxynojirimycin, a compound that causes retention of oligosaccharides in the high-mannose form. The resultant 61E gp70 then could be recognized by sera from EECC-immunized cats. The presence of a higher content of sialic acid on the apathogenic 61E gp70 indicated that oligosaccharides of 61E and EECC gp70 were processed differently. These data suggested that the unique biochemical properties which distinguish the envelope glycoproteins of the FeLV-FAIDS variant from its companion apathogenic parent virus were responsible for T-cell cytopathicity and induction of immunodeficiency disease. Further biochemical characterization of these glycoproteins should be useful in understanding the pathogenic mechanisms of immunodeficiency disease induced by retroviruses.
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PMID:Posttranslational modifications distinguish the envelope glycoprotein of the immunodeficiency disease-inducing feline leukemia virus retrovirus. 253 25

The processing and secretion of the envelope glycoprotein of human immunodeficiency virus type 1 (HIV-1) were studied in chronically infected cells treated with the trimming glucosidase inhibitor deoxynojirimycin (DNM). In Molt3 cells infected with human T-lymphotropic virus type III (HTLV-IIIB), DNM inhibited the intracellular proteolytic processing of gp160 to gp120 and gp41. A clone of the HUT78 cell line called 6D5, when chronically infected with the HIV-1 isolate HTLV-III451 was shown to release both gp160 and gp120 into the culture medium. The secretion of envelope glycoproteins from these infected cells was not inhibited by DNM treatment. The secreted proteins had higher molecular weights than gp160 and gp120 from cultures not treated with DNM, presumably due to the presence of unprocessed carbohydrate residues on the polypeptide chain. These secreted glycoproteins from DNM-treated cells exhibited specific interaction with the CD4 molecule on the surface of target cells. However, the syncytium formation induced by HIV-1-infected cells on CD4+ cells was significantly inhibited in the presence of the glucosidase inhibitor. The minimal cytotoxicity of the DNM coupled with its strong inhibitory effect on the cell-to-cell spread of the virus suggest that it may be potentially useful in antiviral drug therapy of HIV-1 infection.
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PMID:Processing and secretion of envelope glycoproteins of human immunodeficiency virus type 1 in the presence of trimming glucosidase inhibitor deoxynojirimycin. 254 77

Human immunodeficiency virus (HIV), the causative agent of AIDS, infects human lymphocytes and monocytes. An interaction between the viral envelope gp 120 and CD4 protein is required to initiate an infectious cycle. HIV infection in vitro induces syncytium formation by cell-to-cell fusion; this aspect of viral cytopathogenicity is even more dependent on gp120-CD4 interactions. That gp120 is extremely heavily glycosylated (31-36 N-linked glycans per molecule), suggests involvement of N-linked glycans in the gp120-CD4 interaction. We therefore investigated the effects of castanospermine, 1-deoxynojirimycin (dNM) and 1-deoxymannojirimycin (dMM), three trimming glycosidase inhibitors which perturb N-linked glycan structure, on induction of the formation of syncytium between HIV-infected and CD4-expressing cells. The glucosidase inhibitors castanospermine and dNM, but not the mannosidase inhibitor dMM, inhibited syncytium formation and interfered with infectivity. The potential of glucosidase inhibitors as anti-HIV therapeutic agents deserves further investigation, especially because dNM and related compounds show little toxicity in vitro and in vivo.
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PMID:Interference with HIV-induced syncytium formation and viral infectivity by inhibitors of trimming glucosidase. 295 66

N-glycosylation of the human immunodeficiency virus type-1 envelope (Env) glycoprotein precursor (gp160) occurs by transfer of Glc3Man9GlcNAc2 onto the nascent protein. Maturation then occurs via cleavage of the three Glc residues, which starts during translation. These events are considered necessary to create Env functional conformation: treatment with "alpha"-glucosidase inhibitors, but not alpha-mannosidase inhibitors (i) impairs gp160 cleavage into gp120 and gp41, (ii) diminishes the accessibility of gp120 V3 region, (iii) prevents gp120 binding to its CD4 receptor, and (iv) prevents gp41-mediated membrane fusion. These inhibitors are of therapeutic interest. Here, using a collection of parent and mutant CHO cells that possess mutations in different steps of glycosylation, we reassessed the role of glycans in both the processing and the properties of recombinant gp160 expressed from a vaccinia virus vector. Mutant cells were as follows: Lec23 (which lacks alpha-glucosidase I activity) produces a collection of triglucosylated structures (Glc3Man7-9GlcNAc2); LEC10 (which has increased GlcNAc transferase III activity) produces complex glycans with a bisected GlcNAc residue; Lec1 (which lacks GlcNAc transferase I) and Lec3.2.8.1 (which lacks GlcNAc transferase I and has decreased activity of CMP-NeuNAc and UDP-Gal translocases) produce Man5GlcNAc2 glycans at complex or hybrid sites. As expected, glycosylation of Env produced from mutants was affected but, irrespective of the glycosylation phenotype, (i) similar quantities of Env were synthesized, (ii) the immunoreactivity of V3 was similar, (iii) gp160 was efficiently cleaved into gp120 and gp41, (vi) Env was exposed at the cell membrane, (v) secreted gp120 bound CD4, and (vi) membrane gp41 was able to induce membrane fusion with CD4+ cells. Thus, the glycosylation alterations examined are dispensable for Env processing and biological activity in CHO cells. In particular, removal of the three outer Glc residues was not required per se for Env folding in this system because functional Env is obtained from Lec23 cells: it appears therefore that lack of modification is not equivalent to drug inhibition of modification. These data are discussed in the light of previous reports describing the use of glycosidase inhibitors to alter glycosylation.
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PMID:Biological properties of recombinant HIV envelope synthesized in CHO glycosylation-mutant cell lines. 861 25

N-Linked oligosaccharides play many roles in the fate and functions of glycoproteins. One function is to assist in the folding of proteins by mediating interactions of the lectin-like chaperone proteins calnexin and calreticulin with nascent glycoproteins. These interactions can be prevented by inhibitors of the alpha-glucosidases and this causes some proteins to be misfolded and retained within the endoplasmic reticulum. In human immunodeficiency virus (HIV) and hepatitis B virus (HBV) the misfolding of key viral envelope glycoproteins interferes with the viral life cycle. It has been demonstrated in an animal model of chronic HBV that glucosidase inhibitors can alter glycosylation and have anti-viral activity. As the mechanism of action of alpha-glucosidase inhibitors is the induction of misfolded or otherwise defective viral glycoproteins, such inhibitors may be useful therapeutics for many viruses, especially those which bud from the endoplasmic reticulum (where protein folding takes place). For example bovine viral diarrhea virus, a pestivirus akin to hepatitis C virus, is also extremely sensitive to glucosidase inhibition.
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PMID:Alpha-glucosidase inhibitors as potential broad based anti-viral agents. 967 87

HIV (human immunodeficiency virus)-1 Env is displayed on the surface of infected cells and subsequently incorporated into virions, which is necessary for the initiation of a viral infection by recognition of the CD4 and the chemokine receptors (such as CCR5 or CXCR4) on the surface of new target cells. As a type 1 integral membrane glycoprotein, Env is cotranslationally translocated into the endoplasmic reticulum. In this report, we characterized the synthesis of Env, which did not occur at a constant rate but by translational/translocational pausing that has not previously been shown with a viral encoded glycoprotein. Overall translation was not impeded by the presence of the reducing agent dithiothreitol in vivo, although this did influence the cleavage of the precursor gp160 into its mature form, gp120. Env interacts transiently with resident components of the endoplasmic reticulum such as calnexin, which had maximal association at a 10-min post-translation. Addition of the glucosidase inhibitor, castanospermine, failed to significantly influence the association of Env with calnexin, consistent with the notion that calnexin recognizes components other than alpha-terminal glucose. Moreover, castanospermine treatment failed to affect the infectivity of virions. Taken together, this report demonstrates the existence of translational/translocational pausing for a viral glycoprotein and suggests that trimming of glucose from HIV-1 Env is not essential for the initiation of virus infection.
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PMID:Characterization of the biosynthesis of human immunodeficiency virus type 1 Env from infected T-cells and the effects of glucose trimming of Env on virion infectivity. 1105 27

Since the onset of the AIDS epidemic, some 20 million people have died and the estimate is that today close to 40 million are living with type 1 human immunodeficiency virus (HIV)/AIDS. About 14 thousands people are infected worldwide daily with this disease. Still, only a few pharmaceuticals are available for AIDS chemotheraphy. Some pharmaceuticals act against the virus before the entrance of the HIV into the host cells. One of these targets is the glucosidase protein. This class of enzymes has been recently explored because the synthesis of viral glycoproteins depends on the activity of enzymes, such as glucosidase and transferase, for the elaboration of the polysaccharides. In this work we study several glucosidase inhibitors. The DFT method is used to compute atomic charges and the ligand/receptor interaction was simulated with docking software. Analysis of the interactions of the proposed pharmaceutical, a pseudodisaccharide, with the Thermotoga maritima 4-alpha-glucanotransferase in complex with modified acarbose, the scores from docking as well as the graphical superposition of all the ligands, suggest that our molecular designed pseudo-disaccharide may be a potent glucosidase inhibitor.
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PMID:Computer-aided molecular design of novel glucosidase inhibitors for AIDS treatment. 1521 6


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