Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0038362 (stomatitis)
 8,852 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The alpha/beta (type I) interferon-inducible human MxA protein confers resistance to vesicular stomatitis virus (VSV) and influenza A virus in MxA-transfected mouse 3T3 cells (3T3/MxA). We investigated the inhibitory effects of the MxA protein on measles virus (MV) and VSV in the human monocytic cell line U937. In transfected U937 clones which constitutively express MxA (U937/MxA), the release of infectious MV and VSV was reduced approximately 100-fold in comparison with control titers. Transcription of VSV was inhibited similar to that observed for 3T3/MxA cells, whereas no difference was detected for MV in the rates of transcription or the levels of MV-specific mRNAs. In contrast, analysis of MV protein expression by immunofluorescence and immunoprecipitation revealed a significant reduction in the synthesis of MV glycoproteins F and H in U937/MxA cells. These data demonstrate a virus-specific effect of MxA which may, in the case of MV, contribute to the establishment of a persistent infection in human monocytic cells.
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PMID:MxA-dependent inhibition of measles virus glycoprotein synthesis in a stably transfected human monocytic cell line. 839 13

We cloned the genomic RNA of canine distemper virus (CDV) and determined the nucleotide sequence of the large (L) protein-coding gene. The L gene is 6573 nucleotides long and contains a single open reading frame coding for a polypeptide of 2161 amino acids (MW 246,354). The precise 5' end of the viral genome consists of a 38-nucleotide leader region. The CDV L protein shows over 77% amino acid similarity with its morbilliform relative measles virus (MV) with nearly 67% of their amino acids conserved. The sequence homology of 11 negative strand viruses L proteins is compared and relatedness was found in the following decreasing order: CDV, MV, Sendai virus, parainfluenza virus type 3, simian virus 5, parainfluenza virus type 2, mumps virus, Newcastle disease virus, respiratory syncytial virus, vesicular stomatitis virus, rabies virus. The consensus sequence of proposed functional domains involved in L gene catalytic activities was well conserved in the CDV L protein.
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PMID:Canine distemper virus L gene: sequence and comparison with related viruses. 843 85

The human parainfluenza virus type 3 (HPIV3) fusion (F) and hemagglutinin-neuraminidase (HN) glycoproteins are the principal components involved in virion receptor binding, membrane penetration, and ultimately, syncytium formation. While the requirement for both F and HN in this process has been determined from recombinant expression studies, stable physical association of these proteins in coimmunoprecipitation studies has not been observed. In addition, coexpression of other heterologous paramyxovirus F or HN glycoproteins with either HPIV3 F or HN does not result in the formation of syncytia, suggesting serotype-specific protein differences. In this study, we report that simian virus 5 and Sendai virus heterologous HN proteins and measles virus hemagglutinin (H) were found to be down-regulated when coexpressed with HPIV3 F. As an alternative to detecting physical associations of these proteins by coimmunoprecipitation, further studies were performed with a mutant HPIV3 F protein (F-KDEL) lacking a transmembrane anchor and cytoplasmic tail and containing a carboxyl-terminal retention signal for the endoplasmic reticulum (ER). F-KDEL was defective for transport to the cell surface and could down-regulate surface expression of HPIV3 HN and heterologous HN/H proteins from simian virus 5, Sendai virus, and measles virus in coexpression experiments. HN/H down-regulation appeared to result, in part, from an early block to HPIV3 HN synthesis, as well as an instability of the heterologous HN/H proteins within the ER. In contrast, coexpression of F-KDEL with HPIV3 wild-type F or the heterologous receptor-binding proteins, respiratory syncytial virus glycoprotein (G) and vesicular stomatitis virus glycoprotein (G), were not affected in transport to the cell surface. Together, these results support the notion that the reported serotype-specific restriction of syncytium formation may involve, in part, down-regulation of heterologous HN expression.
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PMID:Down-regulation of paramyxovirus hemagglutinin-neuraminidase glycoprotein surface expression by a mutant fusion protein containing a retention signal for the endoplasmic reticulum. 876 7

Human MxA protein is a type I Interferon-inducible intracytoplasmic protein, which mediates antiviral actions against a variety of negative-strand RNA viruses including influenza A, measles, and vesicular stomatitis viruses. Recently, it has also been shown that several members of the Bunyaviridae family are inhibited by MxA protein. The hantavirus genus in the Bunyaviridae family includes important human pathogenic viruses, e.g., Puumala (PUUV), Hantaan, and Sin Nombre viruses. Tula virus (TULV) is a new member of the genus, but its pathogenicity in man remains to be determined. As assumed by the similarities in replication strategy. MxA would be a good candidate molecule for antiviral action against these viruses, also. To gain more insight into the MxA action on PUUV, we studied PUUV and TULV replication in stably MxA genetransfected Vero cells. We show that MxA protein has the capacity to inhibit both viral protein and RNA accumulation in virus-infected cells. We also studied PUUV and TULV infection in MxA-transfected U-937 cell clones. In these cell lines both hantaviruses grew poorly, independent of whether the cells were expressing MxA or not Whether cell line-specific differences in the antiviral activity of MxA protein against hantaviruses exist cannot be conclusively determined due to the lack of productive infection of PUUV and TULV in U-937 cells.
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PMID:Inhibition of puumala and tula hantaviruses in Vero cells by MxA protein. 886 99

In a previous study we demonstrated that vesicular stomatitis virus (VSV) can be used as a vector to express a soluble protein in mammalian cells. Here we have generated VSV recombinants that express four different membrane proteins: the cellular CD4 protein, a CD4-G hybrid protein containing the ectodomain of CD4 and the transmembrane and cytoplasmic tail of the VSV glycoprotein (G), the measles virus hemagglutinin, or the measles virus fusion protein. The proteins were expressed at levels ranging from 23-62% that of VSV G protein and all were transported to the cell surface. In addition we found that all four proteins were incorporated into the membrane envelope of VSV along with the VSV G protein. The levels of incorporation of these proteins varied from 6-31% of that observed for VSV G. These results suggest that many different membrane proteins may be co-incorporated quite efficiently with VSV G protein into budding VSV virus particles and that specific signals are not required for this co-incorporation process. In fact, the CD4-G protein was incorporated with the same efficiency as wild type CD4. Electron microscopy of virions containing CD4 revealed that the CD4 molecules were dispersed throughout the virion envelope among the trimeric viral spike glycoproteins. The recombinant VSV-CD4 virus particles were about 18% longer than wild type virions, reflecting the additional length of the helical nucleocapsid containing the extra gene. Recombinant VSVs carrying foreign antigens on the surface of the virus particle may be useful for viral targeting, membrane protein purification, and for generation of immune responses.
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PMID:Foreign glycoproteins expressed from recombinant vesicular stomatitis viruses are incorporated efficiently into virus particles. 887 40

Several years ago, we reported that a Sendai virus (SeV) defective genome (DIH4UV) could be rescued in vivo with human parainfluenza virus type 1 (hPIV1) and bovine PIV3 but not by measles virus or vesicular stomatitis virus. It was concluded that the cis-acting RNA sequences were conserved within the SeV/PIV1/PIV3 group but that interactions between the polymerase complex (P-L) and the template protein N were unique for each virus. We have re-examined these conclusions using proteins expressed from cloned N, P and L genes for SeV and PIV3. The results demonstrate the specificity of the protein-protein interactions between polymerase and template, and confirm the prediction of the earlier work that PIV3 N, P and L proteins are capable of assembling and replicating SeV mini-genomes also expressed from a cDNA clone.
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PMID:Rescue of Sendai virus cDNA templates with cDNA clones expressing parainfluenza virus type 3 N, P and L proteins. 888 79

A marked suppression of immune function has long been recognized as a major cause of the high morbidity and mortality rate associated with acute measles. As a hallmark of measles virus (MV)-induced immunosuppression, peripheral blood lymphocytes (PBLs) isolated from patients exhibit a significantly reduced capacity to proliferate in response to mitogens, allogens, or recall antigens. In an in vitro system we show that proliferation of naive PBLs [responder cells (RCs)] in response to a variety of stimuli was significantly impaired after cocultivation with MV-infected, UV-irradiated autologous PBLs [presenter cells (PCs]. We further observed that a 50% reduction in proliferation of RCs could still be observed when the ratio of PC to RC was 1:100. The effect was completely abolished after physical separation of the two populations, which suggests that soluble factors were not involved. Proliferative inhibition of the RCs was observed after short cocultivation with MV-infected cells, which indicates that surface contact between one or more viral proteins and the RC population was required. We identified that the complex of both MV glycoproteins, F and H, is critically involved in triggering MV-induced suppression of mitogen-dependent proliferation, since the effect was not observed (i) using a recombinant MV in which F and H were replaced with vesicular stomatitis virus G or (ii) when either of these proteins was expressed alone. Coexpression of F and H, however, lead to a significant proliferative inhibition in the RC population. Our data indicate that a small number of MV-infected PBLs can induce a general nonresponsiveness in uninfected PBLs by surface contact, which may, in turn, account for the general suppression of immune responses observed in patients with acute measles.
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PMID:Interaction of measles virus glycoproteins with the surface of uninfected peripheral blood lymphocytes induces immunosuppression in vitro. 891 90

Two hundred years ago Edward Jenner inoculated James Phipps with vaccinia and 181 years later smallpox had disappeared from the surface of the earth as a result of generalized vaccination. Compared to the requirements of modern vaccinology, the procedures used by Jenner and his successors, were extremely primitive because of an almost total lack of knowledge in the field of microbiology and immunology. The active principle of smallpox vaccine is vaccinia virus, which in many respects, differs from that of natural cowpox; the term "cowpox" has been used for more than a century and a half to designate the vaccine; it appears itself to be a misnomer, because it is most probably by a virus of rodents, which only occasionally infects bovines or other species, especially cats. The origin of vaccinia remains doubtful, but a plausible explanation is that it is derived from horse-pox. Jenner was convinced that he was working with a virus of equine origin, which was occasionally transmitted from the horse to the cow by the personnel on the farms. Horse pox has now completely disappeared. Especially during the first years after Jenner's discovery, great confusion was caused by other lesions on the cow's udder, which were called "spurious cowpox". We know today that these lesions could be caused by the viruses of papular stomatitis, pseudo-cowpox or para-vaccinia (milker's nodules), herpes mammilitis and papillomatosis; they could not be differentiated from those of cowpox or vaccinia, in addition lesions due to bacteria or other causes also led to confusion. During the first eighty years the vaccine was being transferred almost exclusively from arm to arm with the risks inherent in this procedure; one of the reasons for applying this method was the fear of "bestialization" thought to be linked with the use of material of animal origin. Several contaminations have been observed as a result of the use of the arm-to-arm procedure: smallpox was transmitted, especially in the beginning, because vaccinations were carried out in a contaminated environment. Syphilis was diagnosed in several countries after the use of vaccine taken from syphilis patients. At least two foci of hepatitis were reported after the use of contaminated human lymph. Transmission of tuberculosis or what was then designated as scrofulosis was unlikely, but was used as one of the main arguments against vaccination by the antivaccinists. Varicella and measles were transmitted from time to time with the vaccine and also bacterial infections, such as staphylococci, streptococci e.a. From the global point of view, however, the number of contaminations remained limited in comparison with the large numbers of vaccinations that were performed. Another problem the early vaccinators were facing, was that of the decline and disappearance of the immunity after a certain number of years. Jenner and his successors believed that the immunity post vaccination would be lifelong as it was after variolation. When in the early part of the 19th century more and more immunity breakdowns occurred, this observation led to total confusion and it took dozens of years of debate and controversy before the only logical and efficacious measure, i.e. revaccination, was generally accepted and implemented. In the last third of the 19th century "human lymph", obtained by arm-to-arm vaccination, was gradually replaced everywhere by animal lymph i.e. vaccine produced on the skin of animals, mainly calves. The determining factor in the switch was the risk of vaccination syphilis. Everywhere vaccine institutes were created, where the vaccinia virus was propagated on the skin of calves. The harvested virus served each time for the inoculation of fresh calves; this resulted in a gradual increase of the number of passages leading to the possible risk of overattenuation. To avoid this risk, passages in man, donkeys, rabbits or other species were performed from time to time.
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PMID:[Jenner's cowpox vaccine in light of current vaccinology]. 902 32

Transcription by nonsegmented negative-strand RNA viruses is mediated by the viral RNA-dependent RNA polymerase and transcriptional cofactor P. The P protein is activated by phosphorylation, an event initiated by cellular kinases. The kinase used differs among this group of RNA viruses; vesicular stomatitis virus and respiratory syncytial virus utilize casein kinase II (CKII), whereas human parainfluenza virus type 3 utilizes PKC isoform zeta (PKC-zeta) for activation of its P protein. To identify the cellular kinase(s) involved in the phosphorylation of the canine distemper virus (CDV) P protein, we used recombinant CDV P in phosphorylation assays with native kinase activities present in CV1 cell extracts or purified CKII and PKC isoforms. Here, we demonstrate that the CDV P protein is phosphorylated by two cellular kinases, where PKC-zeta has the major and CKII the minor activities. In contrast, the P protein of another member of the morbillivirus genus, measles virus, is phosphorylated predominantly by CKII, whereas PKC-zeta has only minor activity. Selective inhibition of PKC-zeta activity within CV1 cells eliminated permissiveness to CDV replication, indicating an in vivo role for PKC-zeta in the virus replication cycle. The broad tissue expression of PKC-zeta parallels the pantropic nature of CDV infections, suggesting that PKC-zeta activity is a determinant of cellular permissiveness to CDV replication.
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PMID:Phosphorylation of canine distemper virus P protein by protein kinase C-zeta and casein kinase II. 918 3

Immune suppression during measles accounts for most of the morbidity and mortality associated with the virus infection. Experimental study of this phenomenon has been hampered by the lack of a suitable animal model. We have used the cotton rat to demonstrate that mitogen-induced proliferation of spleen cells from measles virus-infected animals is impaired. Proliferation inhibition is seen in all lymphocyte subsets and is not dependent on viral replication. Cells which express the viral glycoproteins (hemagglutinin and fusion protein) transiently by transfection induce proliferation inhibition after intraperitoneal inoculation, whereas application of a recombinant measles virus in which measles virus glycoproteins are replaced with the vesicular stomatitis virus G protein does not have an antiproliferative effect. Therefore, in vivo expression of measles virus glycoproteins is sufficient and necessary to induce inhibition of lymphocyte proliferation.
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PMID:Measles virus-induced immune suppression in the cotton rat (Sigmodon hispidus) model depends on viral glycoproteins. 931 94


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