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)

Infection with vesicular stomatitis virus (VSV) results in the rapid inhibition of cellular macromolecular synthesis, including transcription, translation, and maturation of the U1 and U2 snRNPs. Unlike infection with VSV, influenza virus infection did not result in the inhibition of either the processing of U1 and U2 snRNAs or the assembly of the RNPs. Although influenza virus relies on the cellular splicing apparatus to generate viral mRNAs, the maturation of snRNPs was inhibited during double infections with VSV. However, this inhibition of snRNP maturation had no effect on the splicing of a cellular pre mRNA in extracts prepared from VSV-infected HeLa cells. Thus, the effects of VSV on the processing and assembly of snRNPs appear to involve virus-specific functions and unique cellular targets. Coinfection with VSV and influenza virus resulted in the dramatic inhibition of influenza virus transcription; polyadenylated mRNAs corresponding to the influenza virus NP and NS1 proteins could not be detected by Northern blot analysis. However, reduced levels of the influenza virus replicative templates were still synthesized during double infection. Coinfection with VSV also resulted in the inhibition of influenza viral mRNA translation, even when superinfection with VSV was delayed until 3 or 6 hr after influenza virus infection. VSV required at least 2 hr to affect the inhibition of translation; this corresponded to the time after VSV infection when inhibition of cellular protein synthesis was evident. These results demonstrate that, in contrast to adenovirus, the VSV-mediated inhibition of cellular macromolecular synthesis may be effective against influenza virus.
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PMID:Inhibitory effects of vesicular stomatitis virus on cellular and influenza viral RNA metabolism and protein synthesis. 254 15

We have developed a highly efficient in vitro-transport assay that couples translocation across the ER membrane and transport to the Golgi complex using the secreted pheromone alpha-factor as a marker protein. Radiolabeled prepro-alpha-factor of high specific radioactivity is obtained by in vitro-translating this protein in a yeast lysate. Prepro-alpha-factor synthesized in vitro is then translocated directly into microsomes or the ER of permeabilized yeast cells. Conversion of the 26-kDa ER form of pro-alpha-factor to the high molecular weight Golgi form is dependent on the presence of ATP and soluble and membrane-bound factors. Differential centrifugation and fractionation on a sucrose gradient have shown that the ER and Golgi forms of alpha-factor are enriched in separate compartments after the transport reaction. These and other findings (see Ruohola et al., 1988, for a more complete discussion) indicate that conversion to the high molecular weight form of alpha-factor is the result of authentic intercompartmental transport. Permeabilized mammalian cells have been used to reconstitute transport from the ER to the Golgi complex. In these systems (Becker et al., 1987; Simons and Virta, 1987), a viral membrane glycoprotein protein (vesicular stomatitis virus G protein) is used as the marker protein. This protein is radiolabeled with [35S]methionine during virus infection, either before or after the cells are permeabilized. Radiolabeled G protein, residing in the ER, is then transported to the Golgi complex in the presence of an ATP-regenerating system. In the mammalian system the donor and acceptor compartments are retained within the permeabilized cells (Simons and Virta, 1987); however, on occasion the addition of an exogenous acceptor compartment is required (Beckers et al., 1987). The assay we developed (Ruohola et al., 1988) differs from the mammalian assay (Beckers et al., 1987) in that we introduce radiolabeled marker protein into the ER in vitro during translocation rather than during virus infection. In addition, in our assay the acceptor Golgi compartment is always provided exogenously to the permeabilized cells. Therefore, if acceptor membranes are present in the PYC, they are not utilized. Because the permeabilized cells and the S3 fraction are prepared differently, the conditions used to prepare the cells may lead to inactivation or loss of the acceptor compartment. The in vitro assay will enable us to purify components involved in transporting proteins from the lumen of the ER to the Golgi complex. Antibody prepared to purified components can be used to clone the genes that code for these proteins.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Reconstitution of transport from the ER to the Golgi complex in yeast using microsomes and permeabilized yeast cells. 267 24

Infection of the retina with herpes simplex virus type 1 (HSV-1) causes devastating lesions usually leading to blindness. However, the interactions between individual retinal cell types and this virus have not been well characterized, probably because of limitations posed by the complexity of the intact retina. We have now approached this problem through the use of separate, purified populations of isolated chick embryo retinal neurons and photoreceptor cells, of glial cells, and of pigmented epithelial cells. This manuscript deals with the initial part of these studies, aimed at determining the susceptibility of different retinal types to HSV-1 infection. The different cultures were exposed to HSV-1 for 3-48 hr, and cell infection was evaluated by immunocytochemical detection of viral antigens or by autoradiographic study of viral DNA replication. Practically 100% of the retinal glial cells and pigmented epithelial cells appeared susceptible to HSV-1 infection. On the other hand, as many as 70% of the neurons present in glia-free, pigment epithelium-free cultures, also appeared infected after a 24-hr exposure to the virus. Neuronal susceptibility to HSV-1 was already present in early (2-day) cultures, was time- and concentration-dependent, and led to neuronal degeneration after 24-48 hr. Neuronal infection was also corroborated by the detection of viral particles by transmission electron microscopy. Photoreceptor cells were consistently and selectively resistant to HSV-1 infection at all the concentrations and time points investigated. Both immunocytochemical and autoradiographic studies showed similar results. Photoreceptor resistance to HSV-1 appears to be selective, since they could be readily infected with RNA viruses such as vesicular stomatitis virus and influenza virus. These cell culture preparations offer an attractive system for the investigation of cellular mechanisms involved in the differential susceptibility of retinal cells to viral infection. Moreover, they could also help in the screening of treatments potentially capable of preventing and (or) curing HSV-induced retinal infection.
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PMID:Differential sensitivity of cultured retinal neurons and photoreceptors to herpes simplex infection. 282 Jul 71

Recombinant bovine interferon-alpha and -gamma differ in their action against influenza virus on bovine cells. Bovine IFN-alpha severely impairs early protein synthesis and replication of influenza virus in bovine cells in contrast to bovine IFN-gamma which fails to induce an antiviral state against influenza virus. Otherwise the IFN system seems to function normally in bovine cells since both bovine IFN-alpha and -gamma induce an antiviral state against vesicular stomatitis virus. The establishment of the specific antiviral state against influenza virus correlates with the induction by bovine IFN-alpha, but not -gamma, of two cytoplasmic proteins related to the IFN-induced mouse protein Mx involved in the mechanism of resistance of mice to influenza virus infection. This study suggests that bovines possess a system for resistance to influenza virus similar to the mouse Mx system.
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PMID:The action of recombinant bovine interferons on influenza virus replication correlates with the induction of two Mx-related proteins in bovine cells. 282 76

Infection of L929 murine cells with vesicular stomatitis virus (VSV) results in inhibition of host protein synthesis and appearance of membrane alterations at a time when cells are still actively engaged in viral protein synthesis. VSV temperature-sensitive (ts) mutants have been used to explore the role(s) played by the virus-coded proteins in the genesis of these effects. Cells were infected with each of five ts mutants representing the known complementation groups of VSV Indiana serotype, and incubated at permissive (32 degrees C) and non-permissive temperatures (39 degrees C). Protein synthesis in the presence and absence of Hygromycin B (Hyg. B) was analyzed during virus infection via incorporation of 35S-methionine in acid-precipitable material and SDS-polyacrylamide gel electrophoresis. Data indicate that mutants belonging to groups I (L protein), II (NS protein) and IV (N protein) do not inhibit host protein synthesis and do not induce any membrane changes when grown at the non-permissive temperature. Mutants of group III (M protein) and V (G protein), instead, do inhibit cell protein synthesis and induce membrane changes also when grown at the non-permissive temperature; this suggests that these effects do not correlate with the biological activity of these proteins and their interaction with the cellular membrane. On the other hand, mutants exhibiting defective steps of nucleocapsid replication are apparently unable to induce these effects once more suggesting that virus replication per se is essential, as also indirectly shown by experiments employing cycloheximide to mimic shut-off.
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PMID:L929 cells infected with temperature sensitive mutants of vesicular stomatitis virus: virus replication is necessary for induction of changes in membrane permeability. 282 8

The effects of interferon (IFN)-gamma or IFN-alpha/beta on virus yield, (2'-5')oligo(A) synthetase activation, H-2 antigen expression and proliferation of T lymphocytes have been investigated. Under the culture conditions used, vesicular stomatitis virus or Semliki Forest virus replication in T cells was not impaired by the addition of IFN-gamma, whereas it was completely inhibited by the addition of IFN-alpha/beta. In contrast, B cell lines, macrophage-transformed cell lines and fibroblasts were fully protected by both IFN-gamma as well as IFN-alpha/beta following virus infection. The lack of sensitivity of T lymphocytes to the antiviral effects of IFN-gamma was not due to absence of specific membrane receptors, since in saturation binding experiments with 125I-labeled murine IFN-gamma most T cell lines displayed a number of binding sites and a degree of affinity comparable to those found on B cells, which are fully sensitive to IFN-gamma antiviral activity. Analysis of IFN-induced dsRNA-dependent (2'-5')oligo(A) synthetase activity, one of the biochemical markers for cellular responses to IFN, showed that it was not induced in T lymphocytes after IFN-gamma treatment, whereas IFN-alpha/beta induced high levels. Both IFN-gamma and IFN-alpha/beta enhanced H-2 antigen expression on T cells as well as on cells of different histological type. Moreover, when IFN-gamma was tested for its antiproliferative activity on T cells, it was found to consistently potentiate the response of these cells to mitogens or growth factors, rather than inhibit their proliferation. Taken as a whole these results suggest that on T lymphocytes IFN-gamma should not be regarded as an antiviral agent, but rather as a modulator of T cell growth and functional differentiation, transducing intracellular signals dissimilar to those observed with target cells of different origin.
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PMID:Interferon-gamma is not an antiviral, but a growth-promoting factor for T lymphocytes. 283 46

Treatment of HeLa cells with human lymphoblastoid interferon (IFN-alpha) does not inhibit reovirus type 3 protein synthesis during virus infection. In contrast, reovirus translation is blocked by treatment of L cells with mouse IFN-alpha. The (2'-5')A synthetase activity is induced in HeLa cells by IFN-alpha treatment and is activated after reovirus infection, since cell lysates from these cells synthesize in vitro (2'-5')A oligonucleotides. The IFN-induced protein kinase activity is also triggered in those lysates upon dsRNA addition. Thus, contrary to DNA-containing viruses, such as vaccinia virus or adenovirus, reovirus infection does not destroy or reverse the IFN-induced antiviral state. In support of this conclusion, superinfection with poliovirus or vesicular stomatitis virus of reovirus-infected HeLa cells treated with IFN leads only to a blockade of translation of the former viruses. These results provide a remarkable example where in the same cells doubly infected with two different viruses, the antiviral state induced by IFN-alpha is manifested by selectively inhibiting translation of one kind of virus (poliovirus or vesicular stomatitis virus) without affecting the translation of reovirus type 3. In addition, these results indicate that the resistance of reovirus translation to inhibition by IFN is different from the mechanism of resistance induced by DNA-containing viruses.
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PMID:Reovirus type 3 synthesizes proteins in interferon-treated HeLa cells without reversing the antiviral state. 283 60

When mouse fibroblast L-929 cells were pre-infected with vesicular stomatitis virus, an enhancement of invasiveness by Salmonella typhimurium was observed. The effect was more pronounced when higher virus doses were used. Short-time (5 h) pre-incubation with virus caused a moderate enhancement of invasiveness. When virus pre-incubation time was increased to 8 h or 13 h, a further enhancement was observed. Results obtained after pre-incubation with UV inactivated virus were similar to that achieved by the short-time pre-incubation with the corresponding viable virus preparation. This indicates (i) an early phase of virus infection, when virus causes enhancement of invasiveness that is not dependent on viral nucleic acid induced metabolism, and (ii) a later phase, when virus-induced metabolism is necessary for the enhancement. When virus and bacteria were given concomitantly to infant mice, lethality was increased compared to groups that only received virus or bacteria. The data indicate that vesicular stomatitis virus aggravates infection with a facultatively intracellular bacterium, partly by enhancing the invasiveness of the bacteria.
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PMID:Vesicular stomatitis virus infection enhances invasiveness of Salmonella typhimurium. 283 53

Recombinant plasmids pMTIF-beta 1A and pMTIF-beta 1B were constructed by fusing the metallothionein I promoter-regulatory region to the human beta 1 interferon (HuIFN-beta 1) gene. These linearized fusion genes were then introduced into mouse germ lines by zygote microinjection. The chromosomal integration and the germ line transmission of the injected DNA sequences in the resulting transgenic mice were detected by DNA dot blot and Southern transfer hybridizations. The sera of at least two strains of metallothionein/HuIFN transgenic mice were found to protect human WISH cells against vesicular stomatitis virus infection, and this activity could be neutralized by preincubation with anti-HuIFN-beta 1 antibody. These transgenic mice demonstrated significantly enhanced resistance to pseudorabies virus compared with nontransgenic mice when inoculated with pseudorabies virus. The level of resistance seemed to correlate with the concentrations of HuIFN-beta 1 in serum. These transgenic mice may be used as models to study IFN-induced responses and may serve as prototypes to generate disease-resistant animals.
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PMID:Enhanced viral resistance in transgenic mice expressing the human beta 1 interferon. 284 84

In order to induce a non-lethal infection restricted to central aminergic neurons projecting to the olfactory bulbs a series of temperature sensitive (ts) and G-protein monoclonal antibody escape mutants of vesicular stomatitis virus (VSV) were instilled into the nasal cavity of mice. In three-week (wk)-old NMRI mice four monoclonal antibody escape mutants caused an extensive infection of the olfactory epithelium and, like a wild type strain, a lethal brain infection after spread along olfactory pathways. Three ts mutant strains showed an attenuated pathogenic potential. Strain G31 caused a lethal infection with a somewhat prolonged course while the strain G11 failed to invade the nervous system. Strain G41 showed minimal invasion of central nervous system in three-wk-old mice and caused a lethal infection in newborn and one-wk-old mice. In contrast, two-wk-old mice survived infection with this mutant, which spread along olfactory pathways and rather selectively affected aminergic reticular core neurons in the diagonal band, the locus ceruleus and the raphe nuclei in the brainstem. Thus, an age-dependent virus infection of the olfactory pathways can cause restricted lesions in the brain providing a model for studies of virus-induced changes in aminergic neurotransmission.
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PMID:Non-lethal infection of aminergic reticular core neurons: age-dependent spread of ts mutant vesicular stomatitis virus from the nose. 284

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