Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: UMLS:C0027819 (neuroblastoma)
27,800 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The silver-haired bat variant of rabies virus (SHBRV) has been identified as the etiological agent of a number of recent human rabies cases in the United States that are unusual in not having been associated with any known history of conventional exposure. Comparison of the different biological and biochemical properties of isolates of this virus with those of a coyote street rabies virus (COSRV) revealed that there are unique features associated with SHBRV. In vitro studies showed that, while the susceptibility of neuroblastoma cells to infection by both viruses was similar, the infectivity of SHBRV was much higher than that of COSRV in fibroblasts (BHK-21) and epithelial cells (MA-104), particularly when these cells were kept at 34 degrees C. At this temperature, low pH-dependent fusion and cell-to-cell spread of virus is seen in BHK-21 cells infected with SHBRV but not with COSRV. It appears that SHBRV may possess an unique cellular tropism and the ability to replicate at lower temperature, allowing a more effective local replication in the dermis. This hypothesis is supported by in vivo results which showed that while SHBRV is less neurovirulent than COSRV when administered via the intramuscular or intranasal routes, both viruses are equally neuroinvasive if injected intracranially or intradermally. Consistent with the above findings, the amino acid sequences of the glycoproteins of SHBRV and COSRV were found to have substantial differences, particularly in the region that contains the putative toxic loop, which are reflected in marked differences in their antigenic composition. Nevertheless, an experimental rabies vaccine based on the Pittman Moore vaccine strain protected mice equally well from lethal doses of SHBRV and COSRV, suggesting that currently used vaccines should be effective in the postexposure prophylaxis of rabies due to SHBRV.
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PMID:Characterization of a unique variant of bat rabies virus responsible for newly emerging human cases in North America. 864 32

In humans, rabies still is a fatally evolving encephalomyelitis caused by a Rhabdovirus of the genus Lyssavirus. In general, the disease is contracted through a contact with an infected mammal. Taxonomically, different rabies and closely related rabies-like viruses can be distinguished. New molecular identification techniques can be utilized as epidemiological tools to study the geographic distribution and presence in different reservoirs of the viruses. Antigenic diversity and new insights in the mechanisms of the immune response can have serious implication in vaccine strategies. Virus detection for diagnostic and epidemiological purposes can be done by immunofluorescency, by inoculating murine neuroblastoma cells and by using molecular techniques. Rabies is a zoonosis with a worldwide distribution. In Belgium, the epizootic is present in the Southern part of the country. Fox vaccination campaigns contributed significantly to the eradication of the virus from its natural reservoir. The importance of the prophylactic and therapeutic use of the vaccine, the control of wildlife animal reservoir and stringent public health measures to combat rabies is discussed. Due to stringent control measures, no endogenous case of human rabies have been reported since 1922 in Belgium.
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PMID:Rabies prophylaxis. 895 Aug 40

IMR-32 human neuroblastoma cells are a continuous nerve cell line expressing neuronal nicotinic acetylcholine receptors. These cells were found to be susceptible to infection by rabies virus (CVS strain). After infection, viral antigen accumulated in the cell body in puncta and larger masses and spread out into the processes until at 3-4 days the entire cell was filled with antigen and lysed. A variety of chemical agents including cholinergic agonists and antagonists were tested for ability to inhibit infection of IMR-32 cells in a fluorescent focus assay. Agents found to inhibit infection were antibodies against the viral glycoprotein, gangliosides, a synthetic peptide of the neurotoxin-binding site of Torpedo acetylcholine receptor alpha1 subunit, alpha-bungarotoxin, and lysosomotropic agents. All other agents tested including other cholinergic ligands and synthetic peptides were not effective. Except for lysosomotropic agents, the agents which inhibited infection also inhibited attachment of virus to the cell surface. These results indicate that IMR-32 cells are a useful model in studying the interaction of a neurotropic virus with human neurons. The ability of alpha-bungarotoxin to inhibit infection suggests that neuronal alpha-bungarotoxin-binding receptors might serve as central nervous system receptors for rabies virus.
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PMID:Rabies virus infection of IMR-32 human neuroblastoma cells and effect of neurochemical and other agents. 922 59

We investigated the effect of rabies virus infection on the actin cytoskeleton using various techniques. Confocal microscopic examination of rabies virus-infected neuroblastoma cells at late stages of infection revealed a dramatic decrease in F-actin staining. The results of a fluorimetric assay with pyrenylated actin indicated that purified rabies virus nucleocapsid has no direct action on the kinetics of actin polymerization and only a weak effect on the final extent of polymerization. Video-microscopy experiments with purified components showed that rabies virus nucleocapsid inhibits the actin-bundling effect induced by dephospho-synapsin I, a neuron-specific protein which is known to exert a control on the actin-based cytoskeleton. Thus, the observed decrease in F-actin staining in infected cells might be ascribed to an indirect action of rabies nucleocapsid on the effects of actin-binding proteins such as synapsin I.
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PMID:Alteration of the actin-based cytoskeleton by rabies virus. 936 69

An antigenic double mutant of rabies virus (challenge virus standard [CVS] strain) was selected by successive use of two neutralizing antiglycoprotein monoclonal antibodies, both specific for antigenic site III. This mutant differed from the original virus strain by two amino acid substitutions in the ectodomain of the glycoprotein. The lysine in position 330 and the arginine in position 333 were replaced by asparagine and methionine, respectively. This double mutant was not pathogenic for adult mice. When injected intramuscularly into the forelimbs of adult mice, this virus could not penetrate the nervous system, either by the motor or by the sensory route, while respective single mutants infected motoneurons in the spinal cord and sensory neurons in the dorsal root ganglia. In vitro experiments showed that the double mutant was able to infect BHK cells, neuroblastoma cells, and freshly prepared embryonic motoneurons, albeit with a lower efficiency than the CVS strain. Upon further incubation at 37 degrees C, the motoneurons became resistant to infection by the mutant while remaining permissive to CVS infection. These results suggest that rabies virus uses different types of receptors: a molecule which is ubiquitously expressed at the surface of continuous cell lines and which is recognized by both CVS and the double mutant and a neuron-specific molecule which is not recognized by the double mutant.
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PMID:An avirulent mutant of rabies virus is unable to infect motoneurons in vivo and in vitro. 942 Feb 24

The existence of specific rabies virus (RV) glycoprotein (G) binding sites on the surfaces of neuroblastoma cells is demonstrated. Spodoptera frugiperda (Sf21) cells expressing G of the RV strain CVS (Gcvs-Sf21 cells) bind specifically to neuroblastoma cells of different species but not to any other cell type (fibroblast, myoblast, epithelial, or glioma). Attachment to mouse neuroblastoma NG108-15 cells is abolished by previous treatment of Gcvs-Sf2 cells with anti-G antibody. Substitutions for lysine at position 330 and for arginine at position 333 in RV G greatly reduce interaction between Gcvs-Sf21 cells and NG108-15 cells. These data are consistent with in vivo results: an avirulent RV mutant bearing the same double mutation is not able to infect sensory neurons or motoneurons (P. Coulon, J.-P. Ternaux, A. Flamand, and C. Tuffereau, J. Virol. 72:273-278, 1998) after intramuscular inoculation into a mouse. Furthermore, infection of NG108-15 cells by RV but not by vesicular stomatitis virus leads to a reduction of the number of binding sites at the neuronal-cell surface. Our data strongly suggest that these specific attachment sites on neuroblastoma cells represent a neuronal receptor(s) used by RV to infect certain types of neurons in vivo.
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PMID:Neuronal cell surface molecules mediate specific binding to rabies virus glycoprotein expressed by a recombinant baculovirus on the surfaces of lepidopteran cells. 944 3

Passage of the mouse-adapted rabies virus strain CVS-24 (where CVS is challenge virus standard) in BHK cells results in the rapid selection of a dominant variant designated CVS-B2c that differs genotypically and phenotypically from the dominant variant CVS-N2c present in mouse-brain- or neuroblastoma-cell-passaged CVS-24. The glycoprotein of CVS-B2c has 10 amino acid substitutions compared with that of CVS-N2c. Because CVS-B2c can be reproducibly selected in BHK cells, it is likely to be a conserved minor subpopulation of CVS-24. CVS-N2c is more neurotropic in vitro and in vivo than CVS-B2c, which replicates more readily in nonneuronal cells in vitro and in vivo. These characteristics appear to be relevant to the pathogenicity of the two variants. CVS-N2c is more pathogenic for adult mice than CVS-B2c. In contrast, CVS-B2c is more pathogenic for neonatal mice. These differences in pathogenicity are reflected in the selection pattern when mixtures of CVS-N2c and CVS-B2c were used to infect neonatal and adult mice. Although CVS-N2c was highly selected in adult mice, no selection for either variant was seen in neonates, suggesting that certain aspects of development, such as maturation of the nervous and immune systems, may contribute to the selection process. We speculate that the existence of different variants within a rabies virus strain may facilitate the virus in overcoming barriers to its spread, both within the host and between species.
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PMID:Rabies virus quasispecies: implications for pathogenesis. 950 Dec 31

Early events in rabies virus entry into cultured IMR-32 human neuroblastoma cells were investigated. After adsorption of rabies virus to the cell surface in the cold and warming to 37 degrees C in the presence of tracers for early endosomes, rabies virus and tracers were localized by immunofluorescence microscopy. After 5 min, rabies virus colocalized with Lucifer Yellow, Texas Red-dextran, rhodamine-wheat germ agglutinin, and transferrin receptor in puncta in the cell body, neurites, and nerve terminals. Rabies virus did not colocalize with lysosomal glycoprotein. An acidotropic probe revealed that some of the virus-containing puncta were acidified. Rabies virus also colocalized with synapsin I, a synaptic vesicle marker, in swellings along processes, indicating some virus enters nerve terminals. Electron microscopy revealed the presence of rabies virus within irregular membrane compartments located near the cell surface in the cell body and neurites. The membrane of the virus particle was often continuous with that of the vacuole. It is concluded that rabies virus enters IMR-32 neuroblastoma cells by adsorptive endocytosis and that, shortly after entry, rabies virus is located within and fuses with acidic endosomes.
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PMID:Rabies virus entry into endosomes in IMR-32 human neuroblastoma cells. 974 68

Rabies virus has been shown to induce apoptosis in infected cells, but the intracellular pathway of cell killing is unknown. In this report, we show that rabies virus infected mouse neuroblastoma cells underwent chromatin condensation and DNA fragmentation within 48 h post-infection. An increased level of the apoptotic enhancer, Bax, was detected within 24 h after infection. In contrast to Bax, the production of the apoptotic antagonist, Bcl-2, remained unchanged. Shortly after detection of Bax, caspase 1 (ICE) was upregulated. Reduction of DNA fragmentation in rabies virus infected cultures pretreated with YVAD and DEVD suggested that more than one subfamily of caspase functioned in the death process. Significant degradation of the DNA repair enzyme, poly ADP-ribose polymerase (PARP), was revealed after caspase upregulation. This study showed that replication of rabies viruses in mouse neuroblastoma cells induced the Bax-related death program leading to destruction of the DNA repair system probably by caspase activity.
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PMID:Rabies virus replication induces Bax-related, caspase dependent apoptosis in mouse neuroblastoma cells. 978 70

The rabies virus glycoprotein molecule (G) can be divided into two parts separated by a flexible hinge: the NH2 half (site II part) containing antigenic site II up to the linear region (amino acids [aa] 253 to 275 encompassing epitope VI [aa 264]) and the COOH half (site III part) containing antigenic site III and the transmembrane and cytoplasmic domains. The structural and immunological roles of each part were investigated by cell transfection and mouse DNA-based immunization with homogeneous and chimeric G genes formed by fusion of the site II part of one genotype (GT) with the site III part of the same or another GT. Various site II-site III combinations between G genes of PV (Pasteur virus strain) rabies (GT1), Mokola (GT3), and EBL1 (European bat lyssavirus 1 [GT5]) viruses were tested. Plasmids pGPV-PV, pGMok-Mok, pGMok-PV, and pGEBL1-PV induced transient expression of correctly transported and folded antigens in neuroblastoma cells and virus-neutralizing antibodies against parental viruses in mice, whereas, pG-PVIII (site III part only) and pGPV-Mok did not. The site III part of PV (GT1) was a strong inducer of T helper cells and was very effective at presenting the site II part of various GTs. Both parts are required for correct folding and transport of chimeric G proteins which have a strong potential value for immunological studies and development of multivalent vaccines. Chimeric plasmid pGEBL1-PV broadens the spectrum of protection against European lyssavirus genotypes (GT1, GT5, and GT6).
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PMID:Chimeric lyssavirus glycoproteins with increased immunological potential. 984 25


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