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Query: UMLS:C0019158 (
hepatitis
)
30,205
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Three categories of cell lines are described which differ with respect to their permissiveness to mouse
hepatitis
virus (MHV), strain A59. Fully permissive L-2 cells gave rise to 100- to 1000-fold higher numbers of infectious centres than did semi-permissive LM, LM-K or C-1300 cells, whereas non-permissive Vero or C-6 cells were refractory to MHV infection. On an infected cell basis, semi-permissive cells (LM, LM-K or C-1300) were as efficient in replicating viral RNA, protein and progeny virions as fully permissive L-2 cells. This result suggested that LM, LM-K and C-1300 cells were deficient in their ability to permit full expression (as compared to L-2 cells) of an early event in MHV infection. Assays of radiolabelled MHV binding to cells of all three categories (L-2, LM, LM-K and C-6) and of infectious MHV binding to L-2 and LM-K cells showed no correlation between virion binding and degree of permissiveness to MHV infection. Internalization of MHV virions into L-2 and LM-K cells, as assayed by
proteinase K
-resistant infectious centres, showed that, in both cases, maximum virion uptake was complete by approximately 40 min post-inoculation. Direct assays of infectious virion uptake showed similar numbers of internalized viruses (only a threefold difference between L-2 and LM-K cells, as compared to a 500-fold difference in infectious centres). Attempts to enhance MHV uptake into LM-K cells relative to L-2 cells, with DEAE-dextran or the cytoskeleton-disrupting drugs colchicine and cytochalasin B, were unsuccessful, further suggesting that the ability of LM-K cells to internalize the virus was not lacking. The results suggest that MHV infection of at least some semi-permissive cells, such as the LM-K line, is limited by a process which chronologically correlates with virion uncoating. Since LM-K cells have been shown previously to be resistant to membrane fusion in MHV infection, it is postulated that they may also restrict uncoating of MHV by limiting the degree of normal endosomal membrane fusion with the viral envelope.
...
PMID:Early events of importance in determining host cell permissiveness to mouse hepatitis virus infection. 283 66
The E1-glycoprotein (Mr = 26,014; 228 amino acids) of mouse
hepatitis
virus A59 is a class III membrane glycoprotein which has been used in this study as a model system in the study of membrane integration and protein transport. The protein lacks an NH2-terminal cleavable signal sequence and spans the viral membrane three times. Hydrophobic domains I and III could serve as signal sequences for cotranslational membrane integration. Domain I alone was sufficient to translocate the hydrophilic NH2 terminus of E1 across the membranes as evidenced by glycosylation of a newly introduced N-glycosylation site. The COOH-terminal part of E1 involving amino acids Leu124 to Thr228 was found to associate tightly with membranes at the post-translational level, although this part of the molecule lacks pronounced hydrophobic sequences. Membrane protection assays with
proteinase K
showed that a 2-kDa hydrophilic fragment was removed from the COOH terminus of E1 indicating that the protein is largely embedded into the membrane. Microinjection of in vitro transcribed capped and polyadenylated mRNA into CV-1 cells or into secretory AtT20 pituitary tumor cells showed that the E1-protein accumulated in the Golgi but was not detectable at the plasma membrane or in secretory granules. The 28 NH2-terminal hydrophilic amino acid residues play no role in membrane assembly or in intracellular targeting. Various NH2-terminal portions of E1 were fused to Ile145 of the cytoplasmic N-protein of mouse
hepatitis
virus. The resulting hybrid proteins were shown to assemble into membranes in vitro and were detected either in the rough endoplasmic reticulum or transient vesicles of microinjected cells.
...
PMID:Membrane integration and intracellular transport of the coronavirus glycoprotein E1, a class III membrane glycoprotein. 284 93
The toxic effect of insect iridescent virus type 6 - chilo iridescent virus - (CIV) was investigated using Balb/c mice (strain ByJ Ico and Kisslegg). The animals were inoculated with CIV intraperitoneally (1 X 10(9) to 9.2 X 10(11) TCID50/animal). The animals which were administered with 1 X 10(11) to 9 X 10(11) TCID50 of CIV per animal, developed acute clinical illness and died during 18 to 80 h post infection. Histopathological and electronmicroscopic examinations of the liver tissues of those animals which died and/or were sacrificed when moribund showed acute degenerative
hepatitis
leading to death. No evidence for viral replication was found in the liver cells affected. A mortality rate between 21.1% and 100% was recorded for CIV, depending on the strain and number of mice used and the dose of virus administered. The toxic effect of CIV was eliminated or reduced extensively using heat denaturation or treatment of CIV with sodium dodecylsulphate or
proteinase K
. This indicates that the nature of the factor causing toxic degenerative cell damage is a protein.
...
PMID:Insect iridescent virus type 6 induced toxic degenerative hepatitis in mice. 395 91
The IgM-PK-ELISA, an enzyme-linked immunosorbent assay for immunoglobulin M employing a
proteinase K
-treated antigen, and the "Leptoteste-S" macroagglutination test were evaluated for use in a rapid serodiagnosis of human leptospirosis. The microscopic agglutination test (MAT) was used as reference. The three serological tests were applied to serum samples from patients with leptospirosis (N = 89), typhoid fever (N = 8), malaria (N = 19), syphilis (N = 20),
hepatitis
(N = 16) and from clinically healthy donors (N = 92). The overall results of the IgM-PK-ELISA and the "Leptoteste-S" are comparable to those of the MAT. However, both tests differed statistically from MAT in terms of the positivity of the acute-phase sera, with approximately 38% of the patients with leptospirosis being identified earlier than when MAT was used. The IgM-PK-ELISA, with 89.9% sensitivity and 97.4% specificity, could be the test of choice for those laboratories which are equipped to perform ELISA. The "Leptoteste-S", with 89.9% sensitivity and 94.8% specificity, seems to be easier to perform and the most accessible to peripheral laboratories for rapid screening of human sera. Both techniques present the important characteristic of detecting early antibodies against leptospires, thus providing a diagnosis during the early stages of the disease.
...
PMID:Evaluation of diagnostic tests for human leptospirosis. 907 Mar 90
OBLV60 is an acid-dependent syncytium-forming variant isolated from OBL21 cells persistently infected with the pH-independent mouse
hepatitis
virus (MHV)-4 strain. The fusion activity of OBLV60 can be strictly regulated by controlling pH and thus provides the means to definitively examine the entry of MHV into cells by endosomal and nonendosomal pathways. Shortly after high multiplicity infection, both MHV-4 and OBLV60 were detected by electron microscopy in endosomal vesicles and were recovered from lysates of cells treated with
proteinase K
to remove extracellular virus. For OBLV60, but not MHV-4, exposure to lysosomotropic compounds early in infection prevented viral penetration and significantly reduced viral yields. These results suggested that both MHV-4 and OBLV60 utilized the endosomal route of entry into cells, but that MHV-4 did not require acidification of endosomal vesicles. Studies on the entry of virus through fusion at the cell surface were performed by briefly exposing surface-bound OBLV60 to a fusion-permissive pH under conditions that prevent endocytic entry. Acid treatment of surface-bound OBLV60 caused a significant increase in the yields of virus produced in cultures of fusion-sensitive Sac- or DBT cells, demonstrating entry of virus by fusion at the cell surface. No measurable increase in virus production was detected with acid treatment of OBLV60 bound to OBL21 cells, suggesting that entry at the cell surface does not occur in these cells, which are resistant to MHV-induced syncytia formation. These results raise interesting questions concerning how mechanisms of MHV entry influence the selection of fusion variants.
...
PMID:Entry of mouse hepatitis virus into cells by endosomal and nonendosomal pathways. 920 Dec 12
Hepatic expression of cytochrome P450 2A6 (CYP2A6) varies widely in humans and is induced during
hepatitis
; however, the mechanism regulating CYP2A6 has not been established. The murine orthologue Cyp2a5 is regulated post-transcriptionally by mRNA stabilization. A 43-kDa protein that binds to the 3'-untranslated region (3'-UTR) of Cyp2a5 mRNA has been identified, but its role in mRNA stabilization is unclear. We hypothesized that similar interactions occur between cytosolic proteins in human liver and CYP2A6 3'-UTR mRNA. We identified, by RNA electrophoretic mobility shift assay, an hepatic cytosolic protein that binds specifically to sequences in the 3'-UTR of CYP2A6. Complexes did not form with denatured proteins and were eliminated with
proteinase K
digestion. Complex formation was inhibited with a molar excess of unlabeled CYP2A6 RNA but not by non-specific competitor RNA. Protein-mRNA interactions were not affected by probe denaturation, suggesting that RNA secondary structure is not essential for binding. UV cross-linking of complexes revealed RNA-binding proteins in both human and mouse liver cytosols with molecular masses of approximately 43 kDa. Using truncated RNA probes corresponding to various lengths of CYP2A6 mRNA, the protein-binding site was localized to a 50-nucleotide region between bases 1478 and 1527 of the 3'-UTR. Complex formation with hepatic cytosolic protein from four human subjects correlated with levels of hepatic CYP2A6 microsomal protein, suggesting a possible regulatory role. Further characterization of the RNA-binding protein, the primary binding site, and the influence of this interaction on CYP2A6 mRNA stability will help to elucidate the relevance of these findings to the post-transcriptional control of CYP2A6.
...
PMID:Identification of a 43-kDa protein in human liver cytosol that binds to the 3'-untranslated region of CYP2A6 mRNA. 1155 11
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
Nucleic acids extracted from mummified tissues are valuable materials for the study of ancient human beings. Significant difficulty in extracting nucleic acids from mummified tissues has been reported due to chemical modification and degradation. The goal of this study was to determine a method that is more efficient for DNA and RNA extraction from mummified tissues. Twelve mummy specimens were analyzed with 9 different nucleic acid extraction methods, including guanidium thiocyanate (GTC) and
proteinase K
/detergent based methods prepared in our laboratory or purchased. Glyceraldehyde 3-phosphate dehydrogenase DNA and beta-actin RNA were used as markers for the presence of adequate DNA and RNA, respectively, for PCR and RT-PCR amplification. Our results show that 5 M GTC is more efficient of releasing nucleic acids from mummified tissue than
proteinase K
/detergent, and phenol/chloroform extraction with an additional chloroform step is more efficient than phenol/chloroform along. We were able to isolate DNAs from all 12 specimens and RNAs from 8 of 12 specimens, and the nucleic acids were sufficient for PCR and RT-PCR analysis. We further tested
hepatitis
viruses including hepatitis B virus, hepatitis C virus, hepatitis G virus, and TT virus DNA, and fail to detect these viruses in all 12 specimens.
...
PMID:Comparison of DNA and RNA extraction methods for mummified tissues. 1249 Jan 46
