Gene/Protein
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Gene/Protein
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Target Concepts:
Gene/Protein
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Query: UMLS:C0019158 (
hepatitis
)
30,205
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
The picornavirus 3C proteases are required for the processing of viral polyproteins during infections of host cells. Here we report that the
3C protease
of the hepatitis A virus, like that of the encephalomyocarditis virus, is a substrate for rapid, ubiquitin-mediated degradation in vitro. Ubiquitin was shown to stimulate the turnover of the
hepatitis
virus
3C protease
, and labeled protease was found to become incorporated into a mixture of high molecular weight species, which is characteristic of conjugation with polyubiquitin chains. In the presence of methylated ubiquitin, a new 33 kDa species formed, consistent with the generation of a monoubiquitin-
3C protease
conjugate. The rate of degradation of the
3C protease
was reduced by inhibitors of the 26S proteasome. A similar evaluation of the
3C protease
of poliovirus revealed that it is stable protein and is not conjugated with ubiquitin. It was also determined that the hepatitis A and encephalomyocarditis virus 3C proteases compete with each other for conjugation with ubiquitin and for degradation. This suggests that the two 3C proteases are both recognized by the same ubiquitin system enzyme, or enzymes, responsible for selecting them as targets for destruction.
...
PMID:Evaluation of the susceptibility of the 3C proteases of hepatitis A virus and poliovirus to degradation by the ubiquitin-mediated proteolytic system. 929 63
The replicase of mouse
hepatitis
virus strain JHM (MHV-JHM) is encoded by two overlapping open reading frames, ORF1a and ORF1b, which are translated to produce a 750-kDa precursor polyprotein. The polyprotein is proposed to be processed by viral proteinases to generate the functional replicase complex. To date, only the MHV-JHM amino-terminal proteins p28 and p72, which is processed to p65, have been identified. To further elucidate the biogenesis of the MHV-JHM replicase, we cloned and expressed five regions of ORF1a in bacteria and prepared rabbit antisera to each region. Using the immune sera to immunoprecipitate radiolabeled proteins from MHV-JHM infected cells, we determined that the MHV-JHM ORF1a is initially processed to generate p28, p72, p250, and p150. Pulse-chase analysis revealed that these intermediates are further processed to generate p65, p210, p40, p27, the MHV 3C-like proteinase, and p15. A putative replicase complex consisting of p250, p210, p40, p150, and a large protein (> 300 kDa) coprecipitate from infected cells disrupted with NP-40, indicating that these proteins are closely associated even after initial proteolytic processing. Immunofluorescence studies revealed punctate labeling of ORF1a proteins in the perinuclear region of infected cells, consistent with a membrane-association of the replicase complex. Furthermore, in vitro transcription/translation studies of the MHV-JHM 3Cpro and flanking hydrophobic domains confirm that
3C protease
activity is significantly enhanced in the presence of canine microsomal membranes. Overall, our results demonstrate that the MHV-JHM ORF1a polyprotein: (1) is processed into more than 10 protein intermediates and products, (2) requires membranes for efficient biogenesis, and (3) is detected in discrete membranous regions in the cytoplasm of infected cells.
...
PMID:Processing of the coronavirus MHV-JHM polymerase polyprotein: identification of precursors and proteolytic products spanning 400 kilodaltons of ORF1a. 951 67
Commercial assays for the diagnosis of hepatitis A detect antibody to hepatitis A virus (anti-HAV), but they cannot discriminate between antibody resulting from infection and antibody induced by inactivated vaccine. With the licensing and increasing use of inactivated hepatitis A vaccines, there is a need for a test to distinguish between infection and vaccination. Since antibodies to viral non-structural proteins are elicited by infection but not by vaccination with inactivated vaccine, we developed and evaluated a test for such antibodies. The antibody response to the non-structural
3C proteinase
(anti-3C) of virus HAV was studied by ELISA in chimpanzees experimentally infected with virulent (wild type) or with attenuated HAV strains and in children who received inactivated HAV vaccine or placebo during a vaccination trial in Nicaragua. Anti-3C was detected in 89% of 18 chimpanzees infected with wild-type HAV strains and 27% of 26 chimpanzees infected with attenuated HAV strains. There was a direct correlation between severity of
hepatitis
and magnitude of the anti-3C response. In the vaccine trial, anti-3C was detected only in children who were infected with HAV during the study; IgG anti-3C persisted for at least 15 months after infection in one child. Vaccinated and uninfected children remained negative for anti-3C. The anti-3C response can be regarded as an indicator of viral replication. Its detection should be useful for distinguishing between antibody acquired in response to HAV infection and antibody induced by immunization with inactivated vaccine.
...
PMID:Detection of antibodies to HAV 3C proteinase in experimentally infected chimpanzees and in naturally infected children. 1128 98
Coxsackievirus B3 (CVB3) is a causative agent of viral myocarditis,
hepatitis
, pancreatitis, and meningitis in humans. The adenosine-uridine (AU)-rich element RNA binding factor 1 (AUF1) is an integral component in the regulation of gene expression. AUF1 destabilizes mRNAs and targets them for degradation by binding to AU-rich elements in the 3' untranslated region (UTR) of mRNAs. The 3'-UTR of the CVB3 genome contains canonical AU-rich sequences, raising the possibility that CVB3 RNA may also be subjected to AUF1-mediated degradation. Here, we reported that CVB3 infection led to cytoplasmic redistribution and cleavage of AUF1. These events are independent of CVB3-induced caspase activation but require viral protein production. Overexpression of viral protease 2A reproduced CVB3-induced cytoplasmic redistribution of AUF1, while in vitro cleavage assay revealed that viral
protease 3C
contributed to AUF1 cleavage. Furthermore, we showed that knockdown of AUF1 facilitated viral RNA, protein, and progeny production, suggesting an antiviral property for AUF1 against CVB3 infection. Finally, an immunoprecipitation study demonstrated the physical interaction between AUF1 and the 3'-UTR of CVB3, potentially targeting CVB3 genome toward degradation. Together, our results suggest that cleavage of AUF1 may be a strategy employed by CVB3 to enhance the stability of its viral genome.
...
PMID:Cytoplasmic redistribution and cleavage of AUF1 during coxsackievirus infection enhance the stability of its viral genome. 2357 32
