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)

In cells that allow replication of vesicular stomatitis virus (VSV), there are two phases of translation inhibition: an early block of host translation and a later inhibition of viral translation. We investigated the phosphorylation of the alpha subunit of the eIF2 complex during these two phases of viral infection. In VSV-infected cells, the accumulation of phosphorylated (inactivated) eIF2alpha did not begin until well after host protein synthesis was inhibited, suggesting that it only plays a role in blocking viral translation later after infection. Consistent with this, cells expressing an unphosphorylatable eIF2alpha showed prolonged viral protein synthesis without an effect on host protein synthesis inhibition. Induction of eIF2alpha phosphorylation at early times of viral infection by treatment with thapsigargin showed that virus and host translation are similarly inhibited, demonstrating that viral and host messages are similarly sensitive to eIF2alpha phosphorylation. A recombinant virus that expresses a mutant matrix protein and is defective in the inhibition of host and virus protein synthesis showed an altered phosphorylation of eIF2alpha, demonstrating an involvement of viral protein function in inducing this antiviral response. This analysis of eIF2alpha phosphorylation, coupled with earlier findings that the eIF4F complex is modified earlier during VSV infection, supports a temporal/kinetic model of translation control, where at times soon after infection, changes in the eIF4F complex result in the inhibition of host protein synthesis; at later times, inactivation of the eIF2 complex blocks VSV protein synthesis.
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PMID:Inhibition of host and viral translation during vesicular stomatitis virus infection. eIF2 is responsible for the inhibition of viral but not host translation. 1570 63

The Gag protein of human immunodeficiency virus type 1 (HIV-1) associates with the envelope protein complex during virus assembly. The available evidence indicates that this interaction involves recognition of the gp41 cytoplasmic tail (CT) by the matrix protein (MA) region of Pr55(Gag). Here we show that substitution of Asp for Leu at position 49 (L49D) in MA results in a specific reduction in particle-associated gp120 without affecting the levels of gp41. Mutant virions were markedly reduced in single-cycle infectivity despite a relatively modest defect in fusion with target cells. Studies with HIV-1 particles containing decreased levels of envelope proteins suggested that the L49D mutation also inhibits a postentry step in infection. Truncation of the gp41 tail, or pseudotyping by vesicular stomatitis virus glycoprotein, restored both the fusion and infectivity of L49D mutant virions to wild-type levels. Truncation of gp41 also resulted in equivalent levels of gp120 on particles with and without the MA mutation and enhanced the replication of the L49D mutant virus in T cells. The impaired fusion and infectivity of L49D mutant particles were also complemented by a single point mutation in the gp41 CT that disrupted the tyrosine-containing endocytic motif. Our results suggest that an altered interaction between the MA domain of Gag and the gp41 cytoplasmic tail leads to dissociation of gp120 from gp41 during HIV-1 particle assembly, thus resulting in impaired fusion and infectivity.
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PMID:A mutation in the human immunodeficiency virus type 1 Gag protein destabilizes the interaction of the envelope protein subunits gp120 and gp41. 1647 47

Recovery of recombinant, negative-strand, nonsegmented RNA viruses from a genomic cDNA clone requires a rescue system that promotes de novo assembly of a functional ribonucleoprotein (RNP) complex in the cell cytoplasm. This is accomplished typically by cotransfecting permissive cells with multiple plasmids that encode the positive-sense genomic RNA, the nucleocapsid protein (N or NP), and the two subunits of the viral RNA-dependent RNA polymerase (L and P). The transfected plasmids are transcribed in the cell cytoplasm by phage T7 RNA polymerase (T7 RNAP), which usually is supplied by infection with a recombinant vaccinia virus or through use of a stable cell line that expresses the polymerase. Although both methods of providing T7 RNAP are effective neither is ideal for viral vaccine development for a number of reasons. Therefore, it was necessary to modify existing technology to make it possible to routinely rescue a variety of recombinant viruses when T7 RNAP was provided by a cotransfected expression plasmid. Development of a broadly applicable procedure required optimization of the helper-virus-free methodology, which resulted in several modifications that improved rescue efficiency such as inclusion of plasmids encoding viral glycoproteins and matrix protein, heat shock treatment, and use of electroporation. The combined effect of these enhancements produced several important benefits including: (1) a helper-virus-free methodology capable of rescuing a diverse variety of paramyxoviruses and recombinant vesicular stomatitis virus (rVSV); (2) methodology that functioned effectively when using Vero cells, a suitable substrate for vaccine production; and (3) a method that enabled rescue of highly attenuated recombinant viruses, which had proven refractory to rescue using published procedures.
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PMID:An efficient helper-virus-free method for rescue of recombinant paramyxoviruses and rhadoviruses from a cell line suitable for vaccine development. 1656 39

VLPs (virus-like particles) are promising delivery vectors for molecular therapy, since they combine the major advantages of viral vectors with significantly fewer viral vector disadvantages. The present paper describes the molecular construction of chimaeric VLPs based on minimal SIV (simian immunodeficiency virus) and HIV1 components. A chimaeric protein was constructed by fusion of SIV matrix protein (p17) and HIV1 p6 protein, and we demonstrated that the chimaeric proteins assemble as 80 nm nanoparticles containing approximately 7700 chimaeric protein units. Chimaeric VLPs are released from HEK-293T cells (human embryonic kidney cells expressing the large T-antigen of simian virus 40) and are fully encapsulated with lipid membrane. Chimaeric VLPs are produced at 3.7-fold higher levels when compared with SIV p17 VLPs owing to duplication of a PTAP (Pro-Thr-Ala-Pro) domain previously shown as essential for virus particle release. The chimaeric VLPs constructed in the present paper were efficiently pseudotyped with vesicular-stomatitis-virus glycoprotein, as shown by immunoprecipitation assays.
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PMID:Molecular construction of bionanoparticles: chimaeric SIV p17-HIV I p6 nanoparticles with minimal viral protein content. 1739 Nov 1

Multiple myeloma is a radiosensitive malignancy that is currently incurable. Here, we generated a novel recombinant vesicular stomatitis virus [VSV(Delta51)-NIS] that has a deletion of methionine 51 in the matrix protein and expresses the human sodium iodide symporter (NIS) gene. VSV(Delta51)-NIS showed specific oncolytic activity against myeloma cell lines and primary myeloma cells and was able to replicate to high titers in myeloma cells in vitro. Iodide uptake assays showed accumulation of radioactive iodide in VSV(Delta51)-NIS-infected myeloma cells that was specific to the function of the NIS transgene. In bg/nd/xid mice with established subcutaneous myeloma tumors, administration of VSV(Delta51)-NIS resulted in high intratumoral virus replication and tumor regression. VSV-associated neurotoxicity was not observed. Intratumoral spread of the infection was monitored noninvasively by serial gamma camera imaging of (123)I-iodide biodistribution. Dosimetry calculations based on these images pointed to the feasibility of combination radiovirotherapy with VSV(Delta51)-NIS plus (131)I. Immunocompetent mice with syngeneic 5TGM1 myeloma tumors (either subcutaneous or orthotopic) showed significant enhancements of tumor regression and survival when VSV(Delta51)-NIS was combined with (131)I. These results show that VSV(Delta51)-NIS is a safe oncolytic agent with significant therapeutic potential in multiple myeloma.
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PMID:Radioiodide imaging and radiovirotherapy of multiple myeloma using VSV(Delta51)-NIS, an attenuated vesicular stomatitis virus encoding the sodium iodide symporter gene. 1751 1

Unlike vesicular stomatitis virus, rabies virus glycoprotein gene has not been successfully relocated closer to promoter-proximal regions by reverse genetics. Here we describe an efficient system for the Evelyn-Rokitnicki-Abelseth (ERA) rabies virus with the glycoprotein gene switched with the matrix protein gene, creating a reshuffled virus ERAgm (gene order N-P-G-M-L). With the aid of an autogene plasmid, the T7 RNA polymerase containing a nuclear location signal from the SV40 large T antigen facilitated virus recovery. The rearranged ERAgm rabies virus replicated as well as the parental ERA (gene order N-P-M-G-L) virus, reaching 10(9) ffu/ml in infected BSR cells. The altered glycoprotein gene position in viral genome presented an alternative way to study the pathogenicity of rabies virus. This also provides a potential novel method for rabies vaccine development.
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PMID:Glycoprotein gene relocation in rabies virus. 1785 Sep 11

The budding reactions of a number of enveloped viruses use the cellular machinery involved in the formation of the luminal vesicles of endosomal multivesicular bodies (MVB). Budding of these viruses is dependent on the presence of specific late-domain motifs in membrane-associated viral proteins. Such budding reactions usually involve ubiquitin and are blocked by expression of an ATPase-deficient form of VPS4, a cellular AAA+ ATPase believed to be required late in the MVB pathway for the disassembly/release of the MVB machinery. Here we examined the role of the MVB pathway in the budding of the late-domain-containing rhabdovirus vesicular stomatitis virus (VSV) and the alphavirus Semliki Forest virus (SFV). We tested early and late steps in the MVB pathway by depleting ubiquitin with the proteasome inhibitor MG-132 and by using cell lines inducibly expressing VPS4A or VPS4B protein. As previously shown, VSV budding was strongly dependent on ubiquitin. In contrast to the findings of previous studies with VPS4A, expression of ATPase-deficient mutants of either VPS4A or VPS4B inhibited VSV budding. Inhibition by VPS4 required the presence of the PPPY late domain on the VSV matrix protein and resulted in the accumulation of nonreleased VSV particles at the plasma membrane. In contrast, SFV budding was independent of both ubiquitin and the activity of VPS4, perhaps reflecting the important role of the highly organized envelope protein lattice during alphavirus budding.
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PMID:Ubiquitin depletion and dominant-negative VPS4 inhibit rhabdovirus budding without affecting alphavirus budding. 1791 8

The complete genome of mandarin fish Siniperca chuatsi rhabdovirus (SCRV) was cloned and sequenced. It comprises 11,545 nucleotides and contains five genes encoding the nucleoprotein N, the phosphoprotein P, the matrix protein M, the glycoprotein G, and the RNA-dependent RNA polymerase protein L. At the 3' and 5' termini of SCRV genome, leader and trailer sequences show inverse complementarity. The N, P, M and G proteins share the highest sequence identities (ranging from 14.8 to 41.5%) with the respective proteins of rhabdovirus 903/87, the L protein has the highest identity with those of vesiculoviruses, especially with Chandipura virus (44.7%). Phylogenetic analysis of L proteins showed that SCRV clustered with spring vireamia of carp virus (SVCV) and was most closely related to viruses in the genus Vesiculovirus. In addition, an overlapping open reading frame (ORF) predicted to encode a protein similar to vesicular stomatitis virus C protein is present within the P gene of SCRV. Furthermore, an unoverlapping small ORF downstream of M ORF within M gene is predicted (tentatively called orf4). Therefore, the genomic organization of SCRV can be proposed as 3' leader-N-P/C-M-(orf4)-G-L-trailer 5'. Orf4 transcription or translation products could not be detected by northern or Western blot, respectively, though one similar mRNA band to M mRNA was found. This is the first report on one small unoverlapping ORF in M gene of a fish rhabdovirus.
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PMID:Genomic sequence of mandarin fish rhabdovirus with an unusual small non-transcriptional ORF. 1806 57

Cellular APOBEC3G (A3G) protein is packaged into human immunodeficiency virus type 1 (HIV-1) virions in producer cells yet restricts viral replication in target cells. To characterize this restriction in target cells, the effect of A3G on generating various HIV-1 cDNA products was measured by quantitative real-time PCR. A3G decreased cDNA products from Vif-deficient HIV-1, with minor effects on early reverse transcripts and larger declines in late reverse transcripts. However, the greatest decline was typically observed in nuclear 2-LTR circles. Moreover, the magnitude of these declines varied with A3G dose. Adding integration inhibitor did not stop the A3G-mediated loss in 2-LTR circles. Moreover, obstructing HIV-1 nuclear entry using vesicular stomatitis virus matrix protein did not stop the A3G-mediated decline in late reverse transcripts. Collectively, these data suggest that A3G has important restriction activity in the cytoplasm and progressively diminishes viral cytoplasmic and nuclear cDNA forms with increasing magnitude during restriction.
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PMID:APOBEC3G restricts early HIV-1 replication in the cytoplasm of target cells. 1830 58

Immunogold electron microscopy and analysis were used to determine the organization of the major structural proteins of vesicular stomatitis virus (VSV) during virus assembly. We determined that matrix protein (M protein) partitions into plasma membrane microdomains in VSV-infected cells as well as in transfected cells expressing M protein. The sizes of the M-protein-containing microdomains outside the virus budding sites (50 to 100 nm) were smaller than those at sites of virus budding (approximately 560 nm). Glycoprotein (G protein) and M protein microdomains were not colocalized in the plasma membrane outside the virus budding sites, nor was M protein colocalized with microdomains containing the host protein CD4, which efficiently forms pseudotypes with VSV envelopes. These results suggest that separate membrane microdomains containing either viral or host proteins cluster or merge to form virus budding sites. We also determined whether G protein or M protein was colocalized with VSV nucleocapsid protein (N protein) outside the budding sites. Viral nucleocapsids were observed to cluster in regions of the cytoplasm close to the plasma membrane. Membrane-associated N protein was colocalized with G protein in regions of plasma membrane of approximately 600 nm. In contrast to the case for G protein, M protein was not colocalized with these areas of nucleocapsid accumulation. These results suggest a new model of virus assembly in which an interaction of VSV nucleocapsids with G-protein-containing microdomains is a precursor to the formation of viral budding sites.
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PMID:Plasma membrane microdomains containing vesicular stomatitis virus M protein are separate from microdomains containing G protein and nucleocapsids. 1836 37

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