UMLS:C0038362 - FACTA Search

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Query: UMLS:C0038362 (stomatitis)
8,852 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Membrane fusion is the key step in the entry of enveloped animal viruses into their host cells. Fusion of vesicular stomatitis virus with membranes occurs at acidic pH and is mediated by its envelope glycoprotein, the G protein. To study the structural transitions induced by acidic pH on G protein, we have extracted the protein from purified virus by incubation with nonionic detergent. At pH 6.0, purified G protein was able to mediate fusion of either phospholipid vesicles or Vero cells in culture. Intrinsic fluorescence studies revealed that changes in the environment of Trp residues occurred as pH decreases. In the absence of lipidic membranes, acidification led to G protein aggregation, whereas protein-protein interactions were substituted by protein-lipid interactions in the presence of liposomes. 1,1'-Bis(4-aniline-5-naphthalene sulfonate) (bis-ANS) binding was utilized to probe the degree of exposure of hydrophobic regions of G protein during acidification. Bis-ANS binding was maximal at pH 6.2, suggesting that a hydrophobic segment is exposed to the medium at this pH. At pH 6.0, a dramatic decrease in bis-ANS binding was observed, probably due to loss of tridimensional structure during the conformational rearrangement. This hypothesis was confirmed by circular dichroism analysis at different pH values, which showed a great decrease in alpha-helix content at pH values close to 6.0, suggesting that a reorganization of G protein secondary structure occurs during the fusion reaction. Our results indicate that G protein undergoes dramatic structural changes at acidic pH and acquires a conformational state able to interact with the target membrane.
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PMID:Low pH-induced conformational changes in vesicular stomatitis virus glycoprotein involve dramatic structure reorganization. 1102 41

Baculovirus gp64 envelope glycoprotein is a major component of the envelope of the budded virus and is involved in virus entry into the host cells by endocytosis. To investigate the cell-surface molecules important for infection of baculovirus into mammalian cells, we constructed a recombinant baculovirus, Ac64-CAluc, which has gp64 and luciferase genes under the polyhedrin and the CAG promoter, respectively. For controls, we constructed recombinant viruses possessing vesicular stomatitis virus (VSV) G protein, mouse hepatitis virus (MHV) S protein, or green fluorescent protein (GFP) gene under the polyhedrin promoter and the luciferase gene under the CAG promoter (AcVSVG-CAluc, AcMHVS-CAluc, and AcGFP-CAluc). Treatment of HepG2 cells with phospholipase C markedly reduced the reporter gene expression by Ac64-CAluc or AcVSVG-CAluc in a dose-dependent manner, whereas AcMHVS-CAluc was shown to be resistant to the treatment. Inhibition with purified lipids and susceptibility to the mutant CHO hamster cell lines deficient in phospholipids synthesis suggest that the interaction of gp64 and phospholipids on the cell surface might play an important role in baculovirus infection into mammalian cells.
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PMID:Characterization of cell-surface determinants important for baculovirus infection. 1114 15

The envelope glycoprotein (G) of vesicular stomatitis virus (VSV) contains a short cytoplasmic domain of 29 amino acids. To determine whether VSV particle assembly could accommodate a G protein with a large cytoplasmic domain, we constructed a gene called G/GFP encoding the VSV G protein with the 27-kDa green fluorescent protein linked to its cytoplasmic domain. This gene was inserted into the infectious clone of VSV and we recovered a recombinant virus expressing G/GFP from this extra gene. This VSV-G/GFP virus grew to titers equivalent to that of wild-type virus and was stable upon passaging. The G/GFP protein formed mixed trimers containing an average of two wild-type G proteins and one G/GFP protein. This heterotrimeric protein was expressed on the cell surface, and was incorporated into virus particles with almost the same efficiency as wild-type VSV G protein. These results indicate that there is substantial space available between the viral membrane and the nucleocapsid that can accommodate such a large cytoplasmic domain. The green fluorescent virus particles were readily visualized by fluorescence microscopy and had a normal morphology by electron microscopy. To determine whether virus assembly could occur efficiently when all G proteins contained the GFP cytoplasmic domain, a VSV recombinant in which the G gene was completely replaced by the VSV-G/GFP gene was recovered. This virus rapidly lost expression of the GFP protein sequence through introduction of a stop codon within the sequence encoding the G cytoplasmic domain, indicating strong selection against homotrimeric G protein bearing such a large cytoplasmic domain.
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PMID:Vesicular stomatitis virus glycoprotein containing the entire green fluorescent protein on its cytoplasmic domain is incorporated efficiently into virus particles. 1116 97

Simple and complex retroviral vectors derived from Moloney murine leukemia virus (MLV) and human immunodeficiency virus type 1 (HIV-1), respectively, are useful tools for gene transfer studies. However, factors affecting the stability of these vectors have not been carefully investigated. Here we studied the stability factors on vesicular stomatitis viral envelope glycoprotein (VSV-G)-pseudotyped MLV- and HIV-1-derived vectors. Analysis of the ratio of defective particles versus infectious units using electron microscopy and a functional transduction assay revealed that both vectors consisted of high numbers of defective particles ( approximately 100-350:1), which could be reduced ( approximately 10-20:1) by centrifugation. Frequent freeze-and-thaw rapidly decreased vector titer in the first three to five cycles and stabilized thereafter. Both viral vectors were sensitive to temperatures above 37 degrees C but more stable at temperatures below 37 degrees C, exhibiting a two-phase inactivation kinetic starting with a steep inactivation phase, followed by a more leveled phase. Interestingly, HIV-1-derived vectors were significantly more stable than MLV-derived vectors at higher temperatures (>37 degrees C). Both vectors were rapidly destabilized at pH either below or above 7.0. Incubation with human or mouse serum significantly inhibited VSV-G-pseudotyped vector activities. Preheated human serum still reduced vector half-lives to approximately 50% (150 min), suggesting that certain inactivation factors are not heat-labile. Analyses of these stability factors may improve future production and applications of retroviral and lentiviral vectors.
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PMID:Kinetic analyses of stability of simple and complex retroviral vectors. 1116 26

The yeast SNARE Ykt6p has been implicated in several trafficking steps, including vesicular transport from the endoplasmic reticulum (ER) to the Golgi, intra-Golgi transport, and homotypic vacuole fusion. The functional role of its mammalian homologue (Ykt6) has not been established. Using antibodies specific for mammalian Ykt6, it is revealed that it is found mainly in Golgi-enriched membranes. Three SNAREs, syntaxin 5, GS28, and Bet1, are specifically associated with Ykt6 as revealed by co-immunoprecipitation, suggesting that these four SNAREs form a SNARE complex. Double labeling of Ykt6 and the Golgi marker mannosidase II or the ER-Golgi recycling marker KDEL receptor suggests that Ykt6 is primarily associated with the Golgi apparatus. Unlike the KDEL receptor, Ykt6 does not cycle back to the peripheral ER exit sites. Antibodies against Ykt6 inhibit in vitro ER-Golgi transport of vesicular stomatitis virus envelope glycoprotein (VSVG) only when they are added before the EGTA-sensitive stage. ER-Golgi transport of VSVG in vitro is also inhibited by recombinant Ykt6. In the presence of antibodies against Ykt6, VSVG accumulates in peri-Golgi vesicular structures and is prevented from entering the mannosidase II compartment, suggesting that Ykt6 functions at a late stage in ER-Golgi transport. Golgi apparatus marked by mannosidase II is fragmented into vesicular structures in cells microinjected with Ykt6 antibodies. It is concluded that Ykt6 functions in a late step of ER-Golgi transport, and this role may be important for the integrity of the Golgi complex.
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PMID:Ykt6 forms a SNARE complex with syntaxin 5, GS28, and Bet1 and participates in a late stage in endoplasmic reticulum-Golgi transport. 1132 36

Neuraminidases, also termed sialidases, which catalyze the removal of sialic acid residues from various glycoconjugates, have been previously reported to modulate HIV-1 replication. Given that some of the known opportunistic microbes found in patients infected with HIV-1 harbor neuraminidase (NA) activity, we speculated that pathogen-derived NA might be envisaged as an important factor in the pathogenesis of this retroviral infection. In the present study, we have monitored the putative modulation of HIV-1-mediated syncytium formation and virus replication by highly purified bacterial-derived NA from Arthrobacter ureafaciens. Taking advantage of a luciferase-based syncytium quantitative assay, we demonstrate here that the level of HIV-1-mediated syncytium formation is enhanced in the presence of NA and that it necessitates interaction between gp120 and CD4/chemokine coreceptor. By using pseudotyped recombinant luciferase-encoding HIV-1 particles, we found that NA treatment of human CD4-positive target cells (i.e., T lymphoid, monocytoid, and peripheral blood mononuclear cells) significantly augmented single-round infection by T- and macrophage-tropic isolates of HIV-1. The observed increase in HIV-1 infection was linked with an enhancement in the initial steps of the virus replicative cycle as monitored by viral binding and entry assays. Interestingly, NA treatment also enhances infectivity of HIV-1 pseudotypes with envelope glycoprotein from the amphotropic murine leukemia virus or the vesicular stomatitis virus. Taken together, our results provide useful information regarding the possible contribution of microbial agents carrying NA activity to HIV-1 pathogenesis.
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PMID:Neuraminidase from a bacterial source enhances both HIV-1-mediated syncytium formation and the virus binding/entry process. 1135 65

The microbicidal activity of sodium lauryl sulfate (SLS) against human immunodeficiency virus type 1 (HIV-1) was studied in cultured cells. Pretreatment of HIV-1(NL4-3) with SLS decreased, in a concentration-dependent manner, its infectivity when using 1G5 as target cells. In the absence of a viral pretreatment period or when 1G5 cells were pretreated with SLS, the surfactant-induced inactivation of viral infectivity was less pronounced, especially at concentrations between 375 and 550 microM. SLS had no effect on HIV-1 when the virus was adsorbed to 1G5 cells by a 2-h incubation period. SLS almost completely inhibited the fusion process by decreasing the attachment of HIV-1 to target cells. SLS also inhibited the infectivity of HIV-1-based luciferase reporter viruses pseudotyped with the amphotropic murine leukemia virus envelope (which enters cells in a CD4-, CCR5-, and CXCR4-independent manner), indicating that SLS may inactivate other envelope viruses. In contrast, no effect was seen with vesicular stomatitis virus envelope glycoprotein G (which enters cells through receptor-mediated endocytosis) pretreated with up to 700 microM SLS. SLS also decreased, in a dose-dependent manner, the HIV-1-dependent syncytium formation between 1G5 and J1.1 cells after a 24-h incubation. The reduction of luciferase activity was more pronounced when J1.1 cells (which express HIV-1 proteins on their surface) were pretreated with SLS rather than 1G5 cells. Taken together, our results suggest that SLS could represent a candidate of choice for use in vaginal microbicides to prevent the sexual transmission of HIV and possibly other pathogens causing sexually transmitted diseases.
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PMID:Sodium lauryl sulfate abrogates human immunodeficiency virus infectivity by affecting viral attachment. 1145 79

Sec34p/Grd20p has been implicated in endoplasmic reticulum (ER)-to-Golgi transport and/or post-Golgi trafficking events and exists in a protein complex consisting of at least eight subunits in yeast. Although the mammalian counterpart (Sec34) of Sec34p has been molecularly identified, its role and interacting partners remain undefined. In this study, we have prepared antibodies specifically against the recombinant N-terminal fragment of Sec34 that recognize a polypeptide of about 93 kDa and label the Golgi apparatus. In a well-characterized semi-intact cell assay that reconstitutes transport of the envelope glycoprotein (VSVG) of vesicular stomatitis virus from the ER to the Golgi apparatus, anti-Sec34 antibodies inhibited the transport in a dose-dependent manner. The inhibition by anti-Sec34 antibodies could be neutralized by a noninhibitory amount of the antigen. Large-scale immunoprecipitation of rat liver cytosol with immobilized anti-Sec34 antibodies has co-immunoprecipitated GTC-90 and ldlBp, two peripheral Golgi proteins previously shown to exist in separate protein complexes. Two mammalian homologues (Dor1 and Cod1) of the yeast Sec34 complex were similarly recovered in the Sec34 immunoprecipitates. When expressed in transfected cells, epitope-tagged ldlCp and Cod2 were co-immunoprecipitated with anti-Sec34 antibodies with efficiencies comparable to that observed for tagged ldlBp, Dor1, and Cod1. Direct interactions of Sec34 with ldlBp and ldlCp were further demonstrated in vitro. These results suggest that Sec34, GTC-90, and ldlBp/ldlCp are part of the same protein complex(es) that regulates diverse aspects of Golgi function, including transport from the ER to the Golgi apparatus.
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PMID:Sec34 is implicated in traffic from the endoplasmic reticulum to the Golgi and exists in a complex with GTC-90 and ldlBp. 1192 78

Infection with hepatitis C virus (HCV) generally progresses to chronic disease, although a minority of patients appear to clear viremia spontaneously. In this investigation, serum samples were analyzed for virological parameters, serum alanine aminotransferase (ALT) levels, and neutralizing antibody response against pseudotyped vesicular stomatitis virus (VSV) generated using chimeric envelope glycoprotein 1 (E1) or 2 (E2) of HCV. Testing of sequential serum samples that were collected beginning at the onset of acute-phase disease demonstrated intermittent viremia, elevated ALT levels, and detectable neutralization activity against VSV in 9 of 10 patients. Serum neutralization activity did not exhibit a correlation with the genotype of the infecting HCV or with virus load. On the other hand, patients with chronic HCV infection consistently had detectable amounts of virus present but no significant variation in ALT levels, and serum samples from a majority (>90%) of patients failed to show detectable neutralization activity.
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PMID:Neutralization of pseudotyped vesicular stomatitis virus expressing hepatitis C virus envelope glycoprotein 1 or 2 by serum from patients. 1193 Mar 27

The envelope (Env) glycoprotein of human immunodeficiency virus (HIV) contains 24 N-glycosylation sites covering much of the protein surface. It has been proposed that one role of these carbohydrates is to form a shield that protects the virus from immune recognition. Strong evidence for such a role for glycosylation has been reported for simian immunodeficiency virus (SIV) mutants lacking glycans in the V1 region of Env (J. N. Reitter, R. E. Means, and R. C. Desrosiers, Nat. Med. 4:679-684, 1998). Here we used recombinant vesicular stomatitis viruses (VSVs) expressing HIV Env glycosylation mutants to determine if removal of carbohydrates in the V1 and V2 domains affected protein function and the generation of neutralizing antibodies in mice. Mutations that eliminated one to six of the sites for N-linked glycosylation in the V1 and V2 loops were introduced into a gene encoding the HIV type 1 primary isolate 89.6 envelope glycoprotein with its cytoplasmic domain replaced by that of the VSV G glycoprotein. The membrane fusion activities of the mutant proteins were studied in a syncytium induction assay. The transport and processing of the mutant proteins were studied with recombinant VSVs expressing mutant Env G proteins. We found that HIV Env V1 and V2 glycosylation mutants were no better than wild-type envelope at inducing antibodies neutralizing wild-type Env, although an Env mutant lacking glycans appeared somewhat more sensitive to neutralization by antibodies raised to mutant or wild-type Env. These results indicate significant differences between SIV and HIV with regard to the roles of glycans in the V1 and V2 domains.
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PMID:Role of N-linked glycans in a human immunodeficiency virus envelope glycoprotein: effects on protein function and the neutralizing antibody response. 1193 85

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