UMLS:C0019158 - FACTA Search

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Query: UMLS:C0019158 (hepatitis)
30,205 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Some properties of a strain of mouse hepatitis virus, MHV-2, grown on DBT cells were determined using a plaque assay on the cells. Viral growth was not inhibited by the presence of actinomycin D or 5-iodo-2-deoxyuridine. MHV-2 was completely inactivated by ether, chloroform, sodium deoxycholate or beta-propiolactone, but showed a moderate resistance to trypsin. Heating at 56 C for 30 min did not completely abolish the virus infectivity. The virus was stable after heating at 50 C for 15 min in 1M-MgCl2 or 1M-MgSO4 as well as at 37 C for 60 min at pH 3.0 to 9.0. Infectivity was decreased to 1/100 and 1/400 after storing at 4 C for 30 days and 37 C for 24 hr, respectively. The virus passed through a 200-nm but not a 50-nm Sartorius membrane filter. The buoyant density of MHV-2 was 1.183 g/cm3 in sucrose gradient, and the fraction contained coronavirus-like particles measuring 70 to 130 nm in diameter. Survival rate was 10% after exposure to ultraviolet at 150 ergs/mm2. Freezing and thawing or sonication at 20 kc for 3 min did not affect the virus titer. No hemagglutinin was demonstrable with red blood cells of the chicken, Japanese quail, mouse, rat, hamster, guinea pig, sheep, bovine or human.
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PMID:Physico-chemical properties of mouse hepatitis virus (MHV-2) grown on DBT cell culture. 3 Aug 81

Various factor sinfluencing the plaque formation of mouse hepatitis virus (MHV-2) in DBT cell monolayers were studied and a practical method for plaque assay was developed. Infected DBT cells yielded high-titered virus and were a satisfactory source of complement-fixing viral antigen. The predominant cytopathic effect of MHV-2 in DBT cells was cell rounding and detachment, but no syncytial formation was observed. Fluorescent antibody staining revealed specific fluorescence only in the cytoplasm of infected DBT cells. In one-step growth experiment, newly formed virus was first recognized within 4-hr postinfection and showed subsequently a rapid exponential increase. Release of newly formed virus from the cell was rapid, and a continuous release lasted for a certain period of time. The average per-cell yield of active virus was estimated to be about 6-7 X 10(2) plaque-forming units.
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PMID:Mouse hepatitis virus (MHV-2). Plaque assay and propagation in mouse cell line DBT cells. 18 29

A mouse hepatitis virus, strain JHM, grown on DBT cell culture was inoculated intranasally into ICR-SLC weanling mice, and histopathological lesions were studied in relation to viral growth. In the spleen virus titer reached a peak of 10(3) PFU/0.2G 48 H after inoculation, and later it decreased gradually. No virus was detected from the liver throughout the experiment, while some early inflammatory reactions appeared in the spleen and liver without any further development. At 48 h postinoculation there existed degeneration and necrosis in the nasal mucosa and submocosa. In the brain and spinal cord active viral growth was seen at 48 h postinfection or later. In the olfactory bulb mitral cells were also affected with accumulation of glial cells and some meningitis. At 72 to 96 h postinoculation, degeneration of neurons and glial cells were remarkable in the tructus olfactorius, cortex of lobus piriformis, septa pellucidum and commissura anterior accompanying meningitis. At 120 h postinfection, pyramidal cells in the hippocumpus were also degenerated and necrotized, and nodular proliferation and collapse of glial cells, small foci of demyelination and perivascular cuffing were seen in the interbrain. At 144 h postinoculation or later, the lesions developed through the whole brain including the pons and medulla oblongata as well as spinal cord. Brain virus titers showed 10(5) PFU/0.2g at 120 h and 10(4) PFU/0.2g at 144 h postinfection. In mice surviving at 168 hr after inoculation severe demyelinating lesions were observed despite of a decreased virus titer. These findings suggest that intranasally inoculated virus might invade the olfactory bulb through the tractus olfactorius and then produce necrotizing lesions, extending later towards the posterior parts of the central nervous system.
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PMID:Nasoencephalopathy of mice infected intrananasally with a mouse hepatitis virus, JHM strain. 19 27

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.
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PMID:Molecular cloning and expression of a spike protein of neurovirulent murine coronavirus JHMV variant cl-2. 131 38

An oligonucleotide complementary to a leader RNA of positive-stranded mouse hepatitis virus (MHV) was tested for the effect on the viral multiplication in mouse DBT cells. A 14-mer antisense oligonucleotide contained a sequence complementary to the conserved pentanucleotide sequence, UCUAA, of the leader RNA. A treatment of MHV-infected cells with the antisense oligonucleotide at concentrations from 5 to 25 microM had an inhibitory effect on the viral multiplication and reduced the synthesis of viral specific mRNA and proteins. No inhibitory effect was observed when the cells were treated with sense oligonucleotide and oligonucleotide which contained unrelated sequences at concentrations from 1 to 10 microM. These results showed that antisense oligonucleotide against the leader RNA reduced the multiplication of positive-stranded RNA virus, MHV.
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PMID:Inhibition of mouse hepatitis virus multiplication by an oligonucleotide complementary to the leader RNA. 132 13

The cellular receptor for the murine coronavirus mouse hepatitis virus (MHV) has been identified as a member of the murine carcinoembryonic antigen (CEA) family (R. K. Williams, G. S. Jiang, and K. V. Holmes, Proc. Natl. Acad. Sci. USA 88:5533-5536, 1991). However, the receptor protein was not detected in some of the susceptible mouse tissues. We therefore examined whether other types of MHV receptor might exist. By polymerase chain reaction with the conserved sequences of murine CEA gene family members (mmCGM) as primers, we detected two CEA-encoding RNAs in the mouse liver. One of them (1.3 kb) encodes mmCGM1, which has previously been identified as the receptor for MHV, and the other one (0.8 kb) was shown to encode another member of mouse CGM, mmCGM2. The sequence analysis showed that mmCGM2 lacks 564 nucleotides in the middle of the gene compared with mmCGM1. These two CEA transcripts are probably derived from the same gene by an alternative splicing mechanism. Expression of either of these cDNA clones in COS-7 cells rendered these cells susceptible to MHV infection, suggesting that not only mmCGM1 but also mmCGM2 serves as a receptor for MHV. The mmCGM2 was the major CEA species in the mouse brain, which is a main target organ for the neurotropic strains of MHV. Very little mmCGM1 was detected in the mouse brain or in cells of the susceptible mouse astrocytoma cell line DBT. This result indicates that MHV may utilize different CEA molecules as the major receptor in the mouse brain and in the liver. This is a first identification of multiple receptors for a single virus. The presence of different receptors in different tissues may explain the target cell specificity of certain MHVs.
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PMID:Mouse hepatitis virus utilizes two carcinoembryonic antigens as alternative receptors. 132 65

Genes 4 and 5 of mouse hepatitis virus (MHV) are known to encode nonstructural proteins ns4, ns5a, and ns5b, whose function is unknown. In this study, we demonstrated that one of the MHV strains, MHV-S, did not synthesize mRNA 4 and made a smaller mRNA 5. Sequence analysis showed that the transcription initiation site for gene 4 of MHV-S was mutated from the consensus UCUAAAC to UUUAAAC, consistent with the idea that mutations in this region abolish mRNA synthesis. Furthermore, within gene 5 there were deletions totaling 307 nucleotides which deleted almost all of open reading frame 5a, but preserved open reading frame 5b of gene 5. Comparison of the growth of MHV-S with other MHV strains in DBT cells revealed no significant growth defect in MHV-S. These results suggest that ns4 and ns5a are not essential for viral replication in tissue culture cells, and thus join gene 2 and the hemagglutinin-esterase (HE) gene as nonessential viral genes in MHV.
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PMID:Mouse hepatitis virus S RNA sequence reveals that nonstructural proteins ns4 and ns5a are not essential for murine coronavirus replication. 165 56

Hepatitogenicity of three plaque purified mutant strains of mouse hepatitis virus, designated as MHV-2S, -2M and -2L, isolated from MHV-2 infected SR-CDF1-DBT cells was studied. After intraperitoneal inoculation with 2 x 10(5) PFU of parental MHV-2 and its mutants to 4-week-old female ICR mice, 40% of mice inoculated with MHV-2S and 20% of mice with -2M died in one week, whereas with -2L all mice survived. All mice inoculated with MHV-2 died in 3 days postinoculation (p.i.). Virus titer of the liver of mice inoculated with MHV-2, -2S and -2M reached peaks (MHV-2:10(7) PFU/0.2 g, -2S: 10(5) PFU/0.2 g and -2M: 10(6) PFU/0.2 g) at 96 hr p.i., while with -2L a peak titer (10(3) PFU/0.2 g) was shown at 48 hr p.i. Immunofluorescence revealed MHV specific antigen in the liver of MHV-2S infected mice in and around necrotic areas though less extensive than that of parental MHV-2 infected mice. With MHV-2M specific fluorescence was restricted in degenerated hepatocytes in the small necrotic foci. In mice inoculated with MHV-2L only faint fluorescence was detected. Histopathologically, in the liver of MHV-2S infected mice zonal necrosis and cell infiltration were observed. There were spotty necrosis and focal cell infiltration in the liver of MHV-2M infected mice and only small inflammatory foci were seen in MHV-2L infected mice. Large number of extracellular virions were detectable in MHV-2S but not in -2M and -2L infected mice by electron microscopy.
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PMID:Hepatitogenicity of three plaque purified mutants of hepatotropic mouse hepatitis virus, MHV-2. 165 11

The outbreak of wasting disease of nude mice occurred in the laboratory colony of a Pharmaceutical Company. The viruses producing cytopathic effect with syncytium formation were isolated from the wasted nude mice by DBT cells, and were identified as mouse coronavirus by direct immunofluorescence. The nude mouse colony was closed and all the nude mice (about 500) were killed by the reason of disease control. At autopsy about 60% of nude mice showed necrotic hepatitis. By the virus isolation to see the source of contamination, viruses were isolated from the feces of apparently healthy mice of ICR, CDF1, DBA/2 and C3H, and from human cancer cell line stocked in liquid nitrogen. In experimental infection, the isolates produced only mild hepatitis in ICR mice treated with cortisone. By cross-neutralization test, the nude isolate reacted closely with the virus from C3H mice but not with the virus from cancer cell line. The isolates from nude and C3H mice produced experimentally wasting disease with necrotic hepatitis in nude mice. These findings suggest that wasting disease in nude mice might be caused by low-virulent mouse coronavirus shed in feces from C3H mice introduced before the outbreak of disease.
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PMID:Natural infection of nude mice with low-virulent mouse coronavirus. 196 24

Erythrocytes from twelve mammalian and avian sources in ten different buffers at three incubation temperatures could not be hemagglutinated with murine hepatitis virus (MHV) strains 3, A59, or S grown on DBT cells. Viral antigen preparation in the absence of fetal calf serum, partial virus purification, or various concentrations of red blood cells still failed to yield detectable hemagglutinating activity. Thus, the newly described MHV-DVIM remains the only hemagglutinating strain of murine coronavirus.
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PMID:Hemagglutination by murine hepatitis viruses. Absence of detectable activity in strains 3, A59, and S grown on DBT cells. 254 82

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