EC:3.4.21.4 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:3.4.21.4 (trypsin)
42,187 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The aims of these studies are (1) to determine whether, and by what mechanism(s), underexpression of M1 and/or NS1 protein restricts replication and cytopathogenicity in mouse brain cells of human influenza viruses which are closely related to the neurovirulent WSN variant but not selected for the neurovirulent phenotype; (2) to learn, ultimately, whether similarly restricted replication in natural infections might be enough to cause direct or indirect, immunologically mediated, neuropathology. On the basis of immunostaining, we have suggested that, in "aged" mouse embryo brain (MEB) cell cultures infected with A/PR/8/34 (PR8) or A/WS/33 (WS), M1 protein expression is restricted mainly in mature astrocytes (the dominant cell type in such cultures), but not in mature oligodendrocytes or neurons. Here we show that amounts of radiolabeled M1 protein in lysates of MEB cultures infected with PR8, WS, or WSN differ in proportion to previously reported single-cycle yields of trypsin-activated infectious virions. Low or undetectable cell-associated M1 does not reflect accelerated degradation, but tends to be accompanied by increased M2 protein (a product of spliced mRNA7). Radiolabeled NS1 is reduced, NS2 relatively increased, in "aged" MEB cultures infected at low m.o.i. with PR8, at high m.o.i. with WS as well, but not with WSN. In contrast, actively dividing and differentiating astrocyte-enriched or "young" MEB cultures tend to produce greatly increased amounts of NS2 even though NS1 may be at "normal" levels, both relative to those in similarly infected CEF cultures. We show, in extension of comparative studies by others on permissive and abortive FPV-infected cell systems, that virus strain-, cell type-, and perhaps differentiation-dependent variations in efficiency of mRNA 7 and 8 transcription and/or splicing are primary factors controlling variable expression of M and NS proteins in mouse brain cell cultures.
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PMID:Replication of H1N1 influenza viruses in cultured mouse embryo brain cells: virus strain and cell differentiation affect synthesis of proteins encoded in RNA segments 7 and 8 and efficiency of mRNA splicing. 214 Jun 29

The combined presence of WSN gene segments 6 (neuraminidase), 7 (M1 and M2), and 8 (NS1 and NS2) in reassortants of WSN with A/Aichi/2/68 (H3N2) has been found by others to be necessary for full expression of neurovirulence in mice. We are examining the expression of the analogous three gene segments in brains of mice after intracerebral infection with non-neuroadapted strains A/WS/33 (WS) (from which WSN was derived) and A/PR/8/34 (PR8). Our aim is to determine possible mechanisms by which one or more of the five gene products may restrict replication of these strains in mouse brain cells to a single cycle, yielding noninfectious hemagglutinating particles (incomplete growth cycle). We found that minority subsets of such particles did produce plaques, provided they were activated by trypsin (analogous to other abortive systems producing virions with uncleaved HA), a step obviated for some WSN virions by indirect promotion of hemagglutinin cleavage by the neuraminidase of that strain. The percentage of such potentially infectious virions, relative to total hemagglutinating particles, was significantly lower in WS- or PR8-infected than in WSN-infected brains, suggesting possible defects in synthesis or function of M1 protein in the former. Cells in immunostained sections and appropriate bands in Western blots (immunoblots) of viral proteins electrophoretically separated from lysates of PR8-infected brains reacted with antibody to nucleoprotein but not to M1 protein. Either method revealed the presence of both proteins in WSN-infected brains. In contrast, Western blot analyses of particles concentrated from PR8-, WS-, or WSN-infected brains by hemadsorption, elution, and pelleting did reveal NP and M1 bands with comparable relative peroxidase-antiperoxidase staining intensities. The findings suggest that availability of M1 protein is a factor influencing the extent or rate of assembly of potentially infectious (i.e., trypsin-activated) progeny virions in mouse brains and that in this respect the two non-neurovirulent strains differ from WSN quantitatively rather than qualitatively.
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PMID:Role of hemagglutinin cleavage and expression of M1 protein in replication of A/WS/33, A/PR/8/34, and WSN influenza viruses in mouse brain. 264 24

The isolation of infectious salmon anaemia virus (ISAV) from asymptomatic wild fish species including wild salmon, sea trout and eel established that wild fish can be a reservoir of ISAV for farmed Atlantic salmon. This report characterizes the biological properties of ISAV isolated from a disease outbreak in farmed Coho salmon in Chile and compares it with ISAV isolated from farmed Atlantic salmon in Canada and Europe. The virus that was isolated from Coho salmon tissues was initially detected with ISAV-specific RT-PCR (reverse transcription-polymerase chain reaction). The ability of the virus to grow in cell culture was poor, as cytopathology was not always conspicuous and isolation required passage in the presence of trypsin. Virus replication in cell culture was detected by RT-PCR and IFAT (indirect fluorescent antibody test), and the virus morphology was confirmed by positive staining electron microscopy. Further analysis of the Chilean virus revealed similarities to Canadian ISAV isolates in their ability to grow in the CHSE-214 cell line and in viral protein profile. Sequence analysis of genome segment 2, which encodes the viral RNA polymerase PB1, and segment 8, which encodes the nonstructural proteins NS1 and NS2, showed the Chilean virus to be very similar to Canadian strains of ISAV. This high sequence similarity of ISAV strains of geographically distinct origins illustrates the highly conserved nature of ISAV proteins PB1, NS1 and NS2 of ISAV. It is noteworthy that ISAV was associated with disease outbreaks in farmed Coho salmon in Chile without corresponding clinical disease in farmed Atlantic salmon. This outbreak, which produced high mortality in Coho salmon due to ISAV, is unique and may represent the introduction of the virus to a native wild fish population or a new strain of ISAV.
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PMID:Isolation and identification of infectious salmon anaemia virus (ISAV) from Coho salmon in Chile. 1141 49

The genomic RNA of hepatitis C virus (HCV) encodes the viral polyprotein precursor that undergoes proteolytic cleavage into structural and nonstructural proteins by cellular and the viral NS3 and NS2-3 proteases. Nonstructural protein 4A (NS4A) is a cofactor of the NS3 serine protease and has been demonstrated to inhibit protein synthesis. In this study, GST pull-down assay was performed to examine potential cellular factors that interact with the NS4A protein and are involved in the pathogenesis of HCV. A trypsin digestion followed by LC-MS/MS analysis revealed that one of the GST-NS4A-interacting proteins to be eukaryotic elongation factor 1A (eEF1A). Both the N-terminal domain of NS4A from amino acid residues 1-20, and the central domain from residues 21-34 interacted with eEF1A, but the central domain was the key player involved in the NS4A-mediated translation inhibition. NS4A(21-34) diminished both cap-dependent and HCV IRES-mediated translation in a dose-dependent manner. The translation inhibitory effect of NS4A(21-34) was relieved by the addition of purified recombinant eEF1A in an in vitro translation system. Taken together, NS4A inhibits host and viral translation through interacting with eEF1A, implying a possible mechanism by which NS4A is involved in the pathogenesis and chronic infection of HCV.
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PMID:Hepatitis C virus NS4A inhibits cap-dependent and the viral IRES-mediated translation through interacting with eukaryotic elongation factor 1A. 1692 14