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Disease
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Enzyme
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Target Concepts:
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Query: UMLS:C0038362 (
stomatitis
)
8,852
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Some but not all known Mx proteins possess intrinsic antiviral activity. The mouse genome contains two related interferon-regulated genes, designated Mx1 and Mx2. Mx1 codes for a nuclear 72-kDa protein which selectively interferes with the multiplication of influenza viruses. The Mx2 gene is crippled by a mutation in commonly used laboratory mouse strains and, hence, the antiviral potential of the Mx2 protein was unknown. We have corrected the frameshift mutation in a cloned Mx2 cDNA by site-directed mutagenesis. Expression of the repaired Mx2 cDNA in Swiss mouse 3T3 cells gave rise to an 80-kDa
cytoplasmic protein
that cross-reacted with antibodies to other Mx proteins. In contrast to the cases of mouse Mx1 and human Mx proteins, permanent cell lines were extremely unstable with respect to Mx2 expression. Analysis at the single-cell level revealed that mouse Mx2 conferred to the transfected cells a high degree of resistance to vesicular
stomatitis
virus, but had no inhibitory effect on influenza virus. The antiviral potential of mouse Mx2 is thus similar to that of rat Mx2 protein.
...
PMID:Mouse Mx2 protein inhibits vesicular stomatitis virus but not influenza virus. 131 77
Cells respond to treatment with interferons by synthesizing several induced proteins, including one or more structurally related proteins collectively called Mx. Nuclear and cytoplasmic forms of Mx have been described, some of which inhibit virus replication. Human MxA is a
cytoplasmic protein
that specifically inhibits the multiplication of influenza virus and vesicular
stomatitis
virus. Here, we describe a mutant MxA protein, MxA(R645), which inhibited influenza virus but was inactive against vesicular
stomatitis
virus. It differs from wild-type MxA by a Glu to Arg substitution near the carboxy terminus. Like wild-type MxA, and as expected for an Mx protein acting in the cytoplasm, MxA(R645) blocked influenza virus at a step after primary transcription. When moved to the nucleus of transfected cells with the help of a foreign nuclear transport signal, its mode of action changed. Like mouse Mx1, nuclear MxA(R645) interfered with primary transcription of influenza virus, which is a nuclear process. Our results thus define an MxA region that determines antiviral specificity and further demonstrate that nuclear forms of MxA can mimic the action of mouse Mx1 whose natural location is the cell nucleus.
...
PMID:Mechanism of human MxA protein action: variants with changed antiviral properties. 131 72
Upon stimulation with alpha/beta interferon, rat cells synthesize three Mx proteins. Sequence analysis of corresponding cDNAs reveals that these three proteins are derived from three distinct genes. One of the rat cDNAs is termed Mx1 because it is most closely related to the mouse Mx1 cDNA and because it codes for a nuclear protein that, like the mouse Mx1 protein, inhibits influenza virus growth. However, this protein differs from mouse Mx1 protein, in that it also inhibits vesicular
stomatitis
virus (VSV), a rhabdovirus. A second rat cDNA is more closely related to the mouse Mx2 cDNA and directs the synthesis of a
cytoplasmic protein
that inhibits VSV but not influenza virus. The third rat cDNA codes for a
cytoplasmic protein
that differs from the second one in only eight positions and has no detectable activity against either virus. These results indicate that rat Mx proteins have antiviral specificities not anticipated from the analysis of the murine Mx1 protein.
...
PMID:Activity of rat Mx proteins against a rhabdovirus. 217 90
The human gene for mature interferon-alpha 1 (IFN-alpha 1) was inserted in a new transcription-translation fusion vector system based on the expression and secretion signals of the gene for type A streptococcal pyrogenic exotoxin, speA. As deduced from the known nucleotide sequences of the component elements, the encoded IFN-alpha 1 was a fusion protein carrying an N-terminal extension of 17 amino acids. When inserted in appropriate vectors capable of replication in Escherichia coli, Bacillus subtilis and Streptococcus sanguis, this expression configuration directed the synthesis of antiviral activity in all 3 organisms, as judged by the cythopathic effect inhibition assay of Vesicular
Stomatitis
Virus. In E. coli JM101, IFN activity was found mainly in the
cytoplasmic protein
fraction whereas in the gram-positive hosts, it was completely secreted into the culture medium.
...
PMID:Expression of the human interferon-alpha 1 gene under transcriptional and translational control of the speA gene. 313 61
Although basic fibroblast growth factor (bFGF/FGF-2) is found outside cells, it lacks a conventional signal peptide sequence; the mechanism underlying its export from cells is therefore unknown. Using a transient COS-1 cell expression system, we have identified a novel membrane-associated transport pathway that mediates export of FGF-2. This export pathway is specific for the 18-kD isoform of FGF-2, is resistant to the anti-Golgi effects of Brefeldin A, and is energy-dependent. In FGF-2-transfected COS-1 cells, this ER/Golgi-independent pathway appears to be constitutively active and functions to quantitatively export metabolically-labeled 18-kD FGF-2. Co-transfection and co-immunoprecipitation experiments, using a vector encoding the
cytoplasmic protein
neomycin phosphotransferase, further demonstrated the selectivity of this export pathway for FGF-2. When neomycin phosphotransferase was appended to the COOH-terminus of 18-kD FGF-2, the chimera was exported. However, the transmembrane anchor sequence of the integral membrane glycoprotein (G protein) of vesicular
stomatitis
virus (VSV) blocked export. The chimeric protein localized to the plasma membrane with its FGF-2 domain extracellular and remained cell-associated following alkaline carbonate extraction. Taken together, the data suggest that FGF-2 is "exported" from cells via a unique cellular pathway, which is clearly distinct from classical signal peptide-mediated secretion. This model system provides a basis for the development and testing of therapeutic agents which may block FGF-2 export. Such an intervention may be of considerable use for the treatment of angiogenesis-dependent diseases involving FGF-2.
...
PMID:Quantitative export of FGF-2 occurs through an alternative, energy-dependent, non-ER/Golgi pathway. 786 Jun 46
p200 is a
cytoplasmic protein
that associates with vesicles budding from the trans-golgi network (TGN). The protein was identified by a monoclonal antibody AD7. We have used this antibody to analyze whether p200 functions in exocytic transport from the TGN to the apical or basolateral plasma membrane in Madin-Darby canine kidney cells. We found that transport of the viral marker proteins, influenza hemagglutinin (HA) to the apical surface or vesicular
stomatitis
virus glycoprotein (VSV G) to the basolateral surface in streptolysin O-permeabilized cells was not affected when p200 was depleted from both the membranes and the cytosol. When vesicles isolated from perforated cells were analyzed by equilibrium density gradient centrifugation, the p200 immunoreactive membranes did not comigrate with either the apical vesicle marker HA or the basolateral vesicle marker VSV G. Immunoelectron microscopy of perforated and double-labeled cells showed that the p200 positive vesicular profiles were not labeled by antibodies to HA or VSV G when the viral proteins were accumulated in the TGN. Furthermore, the p200-decorated vesicles were more electron dense than those labeled with the viral antibodies. Together, these results suggest that p200 does not function in the transport pathways that carry HA from the TGN to the apical surface or VSV G from the TGN to the basolateral surface.
...
PMID:Analysis of the role of p200-containing vesicles in post-Golgi traffic. 881 1
P56 is the most abundant protein induced by interferon (IFN) treatment of human cells. To facilitate studies on its induction pattern and cellular functions, we expressed recombinant P56 as a hexahistidine-tagged protein in Escherichia coli and purified it to apparent homogeneity using affinity chromatography. A polyclonal antibody raised against this recombinant protein was used to show that P56 is primarily a
cytoplasmic protein
. Cellular expression of P56 by transfection did not inhibit the replication of vesicular
stomatitis
virus and encephalomyocarditis virus. P56 synthesis was rapidly induced by IFN-beta, and the protein had a half-life of 6 h. IFN-gamma or poly(A)(+) could not induce the protein, but poly(I)-poly(C) or an 85-bp synthetic double-stranded RNA efficiently induced it. Similarly, infection of GRE cells, which are devoid of type I IFN genes, by vesicular
stomatitis
virus, encephalomyocarditis virus, or Sendai virus caused P56 induction. Surprisingly, Sendai virus could also induce P56 in the mutant cell line P2.1, which cannot respond to either IFN-alpha/beta or double-stranded RNA. Induction of P56 in the P2.1 cells and the parental U4C cells by virus infection was preceded by activation of IRF-3 as judged by its translocation to the nucleus from the cytoplasm.
...
PMID:Induction of the human protein P56 by interferon, double-stranded RNA, or virus infection. 1066 16
Mx proteins are evolutionarily conserved dynamin-like large GTPases involved in viral resistance triggered by types I and III interferons. The human MxA is a
cytoplasmic protein
that confers resistance to a large number of viruses. The MxA protein is also known to self-assembly into high molecular weight homo-oligomers. Using a yeast two-hybrid screen, we identified 27 MxA binding partners, some of which are related to the SUMOylation machinery. The interaction of MxA with Small-Ubiquitin MOdifier 1 (SUMO1) and Ubiquitin conjugating enzyme 9 (Ubc9) was confirmed by co-immunoprecipitation and co-localization by confocal microscopy. We identified one SUMO conjugation site at lysine 48 and two putative SUMO interacting motifs (SIMa and SIMb). We showed that MxA interacts with the EIL loop of SUMO1 in a SIM-independent manner via its CID-GED domain. The yeast two-hybrid mapping also revealed that Ubc9 binds to the MxA GTPase domain. Mutation in the putative SIMa and SIMb, which are located in the GTPase binding domain, reduced MxA antiviral activity. In addition, we showed that MxA can be conjugated to SUMO2 or SUMO3 at lysine 48 and that the SUMOylation-deficient mutant of MxA (MxAK48R) retained its capacity to oligomerize and to inhibit Vesicular
Stomatitis
Virus (VSV) and Influenza A Virus replication, suggesting that MxA SUMOylation is not essential for its antiviral activity.
...
PMID:MxA interacts with and is modified by the SUMOylation machinery. 2544 5
