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Query: UMLS:C0019158 (
hepatitis
)
30,205
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
A cDNA encoding the spike (S) protein of the neurovirulent murine coronavirus JHMV variant
cl-2
was isolated and sequenced. Analysis of the cDNA revealed that the S protein consists of 1376 amino acids, as does the S protein of mouse
hepatitis
virus 4. We inserted the cDNA into the genome of vaccinia virus to obtain a recombinant vaccinia virus (rVV). The S protein expressed in RK13 cells infected by the rVV was shown to be electrophoretically and immunologically indistinguishable from the S protein produced in DBT cells infected with
cl-2
virus. RVV infection of rats and mice induced S protein-specific antibody production detectable by immunofluorescence and neutralization. Moreover, the S protein expressed by the rVV induced syncytium formation not only in mouse DBT and L cells, which are susceptible to
cl-2
virus infection, but also in rabbit RK13 cells, which are not susceptible to
cl-2
virus infection. This result suggests the possibility that RK13 cells have binding sites for the
cl-2
virus S protein.
...
PMID:Molecular cloning and expression of a spike protein of neurovirulent murine coronavirus JHMV variant cl-2. 131 38
We previously demonstrated by site-directed mutagenesis analysis that the amino acid residues at positions 62 and 214 to 216 in the N-terminal region of mouse
hepatitis
virus (MHV) spike (S) protein are important for receptor-binding activity (H. Suzuki and F. Taguchi, J. Virol. 70:2632-2636, 1996). To further identify the residues responsible for the activity, we isolated the mutant viruses that were not neutralized with the soluble form of MHV receptor proteins, since such mutants were expected to have mutations in amino acids responsible for receptor-binding activity. Five soluble-receptor-resistant (srr) mutants isolated had mutations in a single amino acid at three different positions: one was at position 65 (Leu to His) (srr11) in the S1 subunit and three were at position 1114 (Leu to Phe) (srr3, srr4, and srr7) and one was at position 1163 (Cys to Phe) (srr18) in the S2 subunit. The receptor-binding activity examined by a virus overlay protein blot assay and by a coimmunoprecipitation assay showed that srr11 S protein had extremely reduced binding activity, while the srr7 and srr18 proteins had binding activity similar to that of wild-type
cl-2
protein. However, when cell surface receptors were used for the binding assay, all srr mutants showed activity similar to that of the wild type or only slightly reduced activity. These results, together with our previous observations, suggest that amino acids located at positions 62 to 65 of S1, a region conserved among the MHV strains examined, are important for receptor-binding activity. We also discuss the mechanism by which srr mutants with a mutation in S2 showed high resistance to neutralization by a soluble receptor, despite their sufficient level of binding to soluble receptors.
...
PMID:Identification of spike protein residues of murine coronavirus responsible for receptor-binding activity by use of soluble receptor-resistant mutants. 937 59
We compared the virus-binding activity and receptor-functionality of the receptor proteins isolated from mouse
hepatitis
virus (MHV)-susceptible BALB/c mice (MHVR1) and MHV-resistant SJL mice (MHVR2). By using a soluble receptor protein which lacked the transmembrane and intracytoplasmic domains, virus overlay protein blot assay and neutralization tests showed that MHVR1 bound to JHM
cl-2
virus with 300-500 times higher efficiency than to MHVR2. MHVR1 was revealed to have 10-30 fold higher receptor-functionality than MHVR2 when examined by measuring virus-binding to the receptor expressed on the cell surface. These findings suggested that the differences in susceptibility between BALB/c and SJL mice may depend upon the genotype of the MHV receptor.
...
PMID:Differential receptor-functionality of the two distinct receptor proteins for mouse hepatitis virus. 978 67
The soluble receptor-resistant (srr) mutants, srr7 and srr11, isolated from a murine coronavirus, mouse
hepatitis
virus (MHV) JHMV, have an amino acid mutation at positions 1114 (Leu to Phe) and 65 (Leu to His), respectively, in the spike (S) protein. These mutants failed to efficiently infect BHK cells expressing CEACAM1b (BHK-R2), due to their low entry into this cell line, although they infected cells expressing CEACAM1a (BHK-R1) in a manner similar to that of wild-type (wt) JHMV
cl-2
(Matsuyama and Taguchi, Virology 273, 80-89, 2000). Following the repeated passage of these mutants through BHK-R2 cells, viruses were no longer isolated from srr11-infected cells, while two distinct mutants, srr7A and srr7B, were obtained from srr7-infected cells. Srr7A and srr7B grew 2 log10 higher than srr7 and induced fusion in BHK-R2 cells, being similar to wt virus. In addition to the amino acid change at position 1114 that stemmed from parental srr7, srr7A and srr7B had mutations around position 280, corresponding to the third region of the S1N330 receptor-binding site (S1N330-III) common to all MHV strains examined thus far. Srr7A and srr7B S proteins showed high fusogenicity in both BHK-R1 and BHK-R2 cells, like the wt virus, while srr7Aa and srr7Ba S proteins, which had mutations in S1N330-III but not at amino acid 1114, exhibited profoundly reduced fusion activity in these cell lines. These findings suggest that communication between S1N330-III and the amino acid at position 1114 is important for efficient fusion activity in BHK-R2 cells. S1N330-III is a possible region in the S1 involved in viral entry into cells.
...
PMID:Communication between S1N330 and a region in S2 of murine coronavirus spike protein is important for virus entry into cells expressing CEACAM1b receptor. 1203 74
Although murine coronavirus mouse
hepatitis
virus (MHV) enters cells by virus-cell membrane fusion triggered by its spike (S) protein, it is not well known how the S protein participates in fusion events. We reported that the soluble form of MHV receptor (soMHVR) transformed a nonfusogenic S protein into a fusogenic one (F. Taguchi and S. Matsuyama, J. Virol. 76:950-958, 2002). In the present study, we demonstrate that soMHVR induces the conformational changes of the S protein, as shown by the proteinase digestion test. A
cl-2
mutant, srr7, of the MHV JHM virus (JHMV) was digested with proteinase K after treatment with soMHVR, and the resultant S protein was analyzed by Western blotting using monoclonal antibody (MAb) 10G, specific for the membrane-anchored S2 subunit. A 58-kDa fragment, encompassing the two heptad repeats in S2, was detected when srr7 was digested after soMHVR treatment, while no band was seen when the virus was untreated. The appearance of the proteinase-resistant fragment was dependent on the temperature and time of srr7 incubation with soMHVR and also on the concentration of soMHVR. Coimmunoprecipitation indicated that the direct binding of soMHVR to srr7 S protein induced these conformational changes; this was also suggested by the inhibition of the changes following pretreatment of soMHVR with anti-MHVR MAb CC1. soMHVR induced conformational changes of the S proteins of wild-type (wt) JHMV
cl-2
, as well as revertants from srr7, srr7A and srr7B; however, a major proportion of these S proteins were resistant to proteinase K even without soMHVR treatment. The implications of this proteinase-resistant fraction are discussed. This is the first report on receptor-induced conformational changes of the membrane-anchored fragment of the coronavirus S protein.
...
PMID:Receptor-induced conformational changes of murine coronavirus spike protein. 1241 24
The highly neuropathogenic
cl-2
and less virulent srr7 viruses isolated from the neurotropic JHM strain of the mouse
hepatitis
virus exhibit super acute spread of virus (SAS), a term applied when rapid viral spread from an organ or part of the initially infected site to another non-adjacent organ or part is detected within 12 h after infection. Herein, we used a cytospin procedure to confirm SAS in splenic cells derived from mice whose brains were infected with these viruses. The cytospin procedure enabled effective preservation of the cells on glass slides. With this method, we could characterize extremely low populations of infected cells in the spleen (less than 0.1%) at 12 h post-inoculation with srr7. We observed that all kinds of splenic cells examined were infected, including B220(+)Ly-6C(+) plasmacytoid dendritic cells. The population of viral antigen-positive splenic cells was only slightly higher in
cl-2
infection than in srr7 infection, but the cells showing viral production were present in numbers significantly higher in
cl-2
infection compared with srr7 infection.
...
PMID:Characterization of splenic cells during the early phase of infection with neuropathogenic mouse hepatitis virus. 2161 15
The mouse
hepatitis
virus (MHV) has a high mutation rate, leading to various neuropathologies after infection. The srr7 mutant was isolated from the MHV strain
cl-2
, which induces characteristic spongiform degeneration in the brain. To investigate outcomes of srr7 infection, we re-cloned srr7(H2) from the viral stock srr7(Mix). During this re-cloning, we obtained the mutant viruses, Mu-1, Mu-2, and Br-1 which was isolated from the mice brain infected with srr7(Mix). We examined mutant viruses for infectivity independent of the major MHV receptor (MHVR), because these mutants exhibited high virulence similar to
cl-2
, which is MHVR-independent. To confirm MHVR-independence in vitro, we used a combination of spinoculation and ultraviolet radiation to detect distinct plaque formation (SpinoPlaque(UV+)) afrer infection of BHK cells, which do not express MHVR. Using this technique, we found that the unique neuropathologies caused by infection with the mutant viruses result from infecting neurons, which do not express MHVR. Infection with the mutant viruses was 100% correlated with SpinoPlaque(UV+) formation. This is in contrast to infection with srr7, which does not from SpinoPlaque(UV+).
...
PMID:Receptor-independent infection by mutant viruses newly isolated from the neuropathogenic mouse hepatitis virus srr7 detected through a combination of spinoculation and ultraviolet radiation. 2211 29
