UMLS:C0038362 - FACTA Search

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Query: UMLS:C0038362 (stomatitis)
8,852 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

A human T-lymphoblastoid cell line, TCL-Fuj, produces large amounts of interferon (IFN)-gamma constitutively. A variant cell line, 2M, was derived from it. Both cell lines express similar surface antigen markers, but differ in surface morphology. Compared with the parent TCL-Fuj cell line, 2M produced less IFN-gamma constitutively but more in response to IFN inducers. The IFNs produced constitutively and on stimulation with inducers were analyzed by SDS-polyacrylamide gel electrophoresis. In TCL-Fuj cells, the constitutive and induced IFNs consisted of the same molecular species (22K and 39K). In 2M cells, smaller IFNs were produced constitutively (18K and 32K) and induction resulted in a marked increase of 22K molecules. These two cell lines also differed in sensitivity to the antiviral activity of IFN. Other T-lymphoblastoid cell lines, HPB-ALL and TCL-Fuj 4 cells, which did not produce IFN-gamma were permissive for vesicular stomatitis virus (VSV) replication; its growth was markedly suppressed by IFN-gamma and -alpha. TCL-Fuj cells were also permissive for VSV, but were not susceptible to the antiviral effect of the IFNs. In contrast, in 2M cells the multiplication of VSV was restricted; the viral yield was further reduced by the IFNs and increased by treatment with anti-human IFN-gamma serum. Several clonal cell lines derived from TCL-Fuj and 2M cells had characteristics similar to the respective parent cell lines. The growth of both cell lines was not affected by IFN-gamma or by -alpha. The separation of antiviral and anti-proliferative susceptibilities was peculiar to 2M cells unlike other cell lines.
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PMID:Human T-lymphoblastoid cell lines with high and low abilities to produce interferon-gamma constitutively and their susceptibilities to interferon. 311 50

A human solvent-detergent (SD)-treated factor IX concentrate has been produced from cryoprecipitate-poor plasma using DEAE-Sepharose CL-6B and heparin-Sepharose CL-6B chromatography. The DEAE eluate was incubated with an SD mixture [0.3% tri(n-butyl) phosphate-1% Tween 80, 6-h at 24 degrees C] which was found to inactivate, in less than 1 h, more than 3.8 log10 of vesicular stomatitis virus and more than 4.8 log10 of Sindbis virus; the SD was removed by a subsequent heparin adsorption step. The specific activity of the concentrate was 10.9 +/- 1.3 IU factor IX: c/mg protein (n = 15). The factor IX coagulant to antigen ratio was 0.7 +/- 0.1. The concentrate was essentially free of factors II, VII and X, and protein C. The usual major contaminants of prothrombin complex concentrate (PCC) were absent: the concentrate contained about 94% alpha-1 proteins, and only 4 major proteins were resolved by SDS-PAGE (respective apparent molecular weight: 130, 86, 76 and 69 kilodaltons), and by crossed immunoelectrophoresis against an anti-PCC serum. The nonactivated partial thromboplastin time was equivalent to that of PCC; the product was devoid of factor IXa, of other activated procoagulant factors and of coagulant-active phospholipids (removed with SD in the heparin breakthrough fraction). Animal studies using the Wessler test and acute-toxicity test in rabbits revealed no adverse side effects. SD treatment could thus be used to inactivate viruses in factor IX concentrate and improve the safety of replacement therapy in hemophilia B.
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PMID:Large-scale production and properties of a solvent-detergent-treated factor IX concentrate from human plasma. 326 37

We studied the effects of changes in microtubule assembly status upon the intracellular transport of an integral membrane protein from the rough endoplasmic reticulum to the plasma membrane. The protein was the G glycoprotein of vesicular stomatitis virus in cells infected with the Orsay-45 temperature-sensitive mutant of the virus; the synchronous intracellular transport of the G protein could be initiated by a temperature shift-down protocol. The intracellular and surface-expressed G protein were separately detected and localized in the same cells at different times after the temperature shift, by double-immunofluorescence microscopic measurements, and the extent of sialylation of the G protein at different times was quantitated by immunoprecipitation and SDS PAGE of [35S]methionine-labeled cell extracts. Neither complete disassembly of the cytoplasmic microtubules by nocodazole treatment, nor the radical reorganization of microtubules upon taxol treatment, led to any perceptible changes in the rate or extent of G protein sialylation, nor to any marked changes in the rate or extent of surface appearance of the G protein. However, whereas in control cells the surface expression of G was polarized, at membrane regions in juxtaposition to the perinuclear compact Golgi apparatus, in cells with disassembled microtubules the surface expression of the G protein was uniform, corresponding to the intracellular dispersal of the elements of the Golgi apparatus. The mechanisms of transfer of integral proteins from the rough endoplasmic reticulum to the Golgi apparatus, and from the Golgi apparatus to the plasma membrane, are discussed in the light of these observations, and compared with earlier studies of the intracellular transport of secretory proteins.
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PMID:Effect of microtubule assembly status on the intracellular processing and surface expression of an integral protein of the plasma membrane. 608 53

Seventeen temperature-sensitive mutants of the Concan subtype of the New Jersey serotype of vesicular stomatitis virus have been isolated following mutagenesis and assigned to two complementation groups: CC/A, containing three mutants, and CC/B, containing 14 mutants. Prototype mutants of these two Concan groups efficiently complemented prototype mutants of the Hazelhurst complementation groups (with the exception of the corresponding group) which correspond to genes specifying the L, N, M and NS proteins. The pattern of intersubtypic complementation allowed the correlation of the Concan CC/B group with the Hazelhurst B group (L gene) and of the Concan CC/A group with the Hazelhurst A group (N gene). In contrast, the Concan prototype mutants failed to complement the prototype mutant of each of the five Indiana complementation groups for which genetic assignments have been made. The partitioning of intracellular nucleocapsids of the Concan and Hazelhurst subtypes during isolation was identical, and distinct from that of Indiana serotype intracellular nucleocapsids. The M protein of the Concan, but not of the Hazelhurst, subtype was observed to migrate as a doublet on SDS-polyacrylamide gels electrophoresed in a phosphate buffer.
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PMID:Functional relationships within the New Jersey serotype of vesicular stomatitis virus: genetic and physiological comparisons of the Hazelhurst and Concan subtypes. 609 22

Prostaglandins of the A series were found to strongly suppress the replication of vesicular stomatitis virus (VSV) in mouse L fibroblasts. The highest non-toxic dose of PGA1, 4 micrograms/ml, decreased VSV production by 93.6%. At this dose, PGA1 did not alter DNA, RNA or protein synthesis in uninfected L cells for periods up to 24 h, whereas it further suppressed protein synthesis and slightly increased RNA synthesis in VSV-infected cells. The presence of PGA1 during virus adsorption, with no treatment after infection, reduced VSV yields by 63.6%. However, the presence of PGA1 during an early step of VSV replication was not essential for the antiviral action to occur (PGA1 treatment could be started 1 to 2 h post-infection). Apart from a slight overall inhibition of virus protein synthesis, PGA1 strongly suppressed the synthesis of the VSV glycoprotein G; moreover, it produced an alteration in the mobility of this protein in SDS-polyacrylamide gels. We propose that this slight decrease in molecular weight (about 4000) of the G protein in the presence of PGA1 could be due to an alteration in the glycosylation process.
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PMID:Prostaglandin A inhibits the replication of vesicular stomatitis virus: effect on virus glycoprotein. 619 41

Gradient SDS-polyacrylamide gel electrophoresis (PAGE) and proteolytic digestions were utilized to examine the virion proteins of two isolates of wild-type vesicular stomatitis virus (WT-VSV), WTATCC from the American Type Culture Collection and WTGL and Glasgow, as well as temperature-sensitive (ts) mutant ts G31 and a central nervous system (CNS) isolate of ts G31 designated ts G31BP. The WTATCC M protein differed in electrophoretic mobility and in its tryptic or chymotryptic peptide maps from the 125I-labelled M proteins in WTGL, ts G31 or ts G31BP. The M protein in the latter three viruses appeared identical using either tryptic or chymotryptic digestion procedures; however, limited digestion with V8 protease revealed a difference between the M protein of ts G31 and both WTGL and ts G31BP M proteins. The L, NS and G proteins all had identical tryptic and chymotryptic peptide maps in WTGL, ts G31 and ts G31BP virions. The N protein, however, was demonstrated to be distinctly different in the WTGL virion when compared with the ts G31 (or ts G31BP) virion by its tryptic peptide map. In addition, limited proteolytic digestion of the 125I-labelled N proteins revealed a different peptide structure in ts G31BP compared to N proteins of ts G31 or WTGL. The altered N protein in the CNS isolate, ts G31BP, is discussed in terms of its altered in vivo phenotype of labile viral RNA, and its potential role in the unique CNS disease associated with this virus.
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PMID:Alterations in peptide structure of vesicular stomatitis virus mutant and its central nervous system isolate. 626 80

Autoradiography of colony replicas immobilized on filter paper was used to isolate a Chinese hamster ovary cell line deficient in incorporation of radiolabeled fucose into a trichloroacetic acid-insoluble fraction. This cell line, called 62.1, has the same growth rate at 37 degrees C as wild-type cells, but incorporates five times less fucose into acid-insoluble radioactivity. Chemical analysis of fucose bound to macromolecules also showed a fivefold reduction in the mutant. The fucoproteins of the mutant cell line differ qualitatively from those of wild-type cells as visualized by SDS gel electrophoresis fluorography; no differences were detected between total proteins as visualized by coomassie blue staining. The macromolecular sialic acid content of the mutant was somewhat higher than the wild type (20%). Studies of the synthesis of the glycoprotein of vesicular stomatitis virus in mutant and wild-type cells showed that the mutant is unable to synthesize complex-type N-linked oligosaccharides. Enzyme assays show that ths defect in the mutant is due to reduction in UDP-N-acetylglucosamine-glycoprotein N-acetyl-glucosaminyltransferase, a key enzyme in the assembly of complex glycopeptides. Hybridization studies have shown that mutant 62.1 has common mutations belonging to the same complementation group as mutant PhaR1-1. This latter mutant was previously isolated using lectin resistance by Stanley et al. (1975) and was also deficient in the above N-acetyl-glucosaminyltransferase.
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PMID:Autoradiographic detection and characterization of a Chinese hamster ovary cell mutant deficient in fucoproteins. 628 69

Some isolates of the temperature sensitive mutant tsD1 of complementation group D of vesicular stomatitis virus of New Jersey serotype have a nucleocapsid (N) protein which shows an increased electrophoretic mobility on sodium dodecyl sulfate--polyacrylamide gel electrophoresis (SDS-PAGE) when compared with wild type. Utilizing techniques involving specific chemical cleavage at tryptophan or methionine residues, as well as enzymatic cleavage with carboxypeptidases A and B, we have determined that residues near the carboxyterminus are responsible for the electrophoretic difference of the mutant protein. We have further shown that there are no differences in the tryptic peptides of the mutant compared with the wild type or a non-ts revertant in this region of the protein. We have identified a tryptic peptide located outside the relevant carboxyterminal region which is distinct in mutant and revertant. We conclude that the mutation producing the aberrant electrophoretic mobility of N protein of the tsD1 mutant is a missense point mutation located at least 40 amino acid residues from the carboxyterminus and which interacts with a more proximal carboxyregion so as to influence electrophoretic mobility on SDS-PAGE.
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PMID:Characterization of the electrophoretic mobility mutation in the N protein of the tsD1 mutant of vesicular stomatitis virus New Jersey serotype. 629 85

Two proteins which are related to certain proteins induced by hyperthermia (heat shock proteins; hsp) are synthesized during lytic infection of chick embryo (CE) cells by Sindbis virus or vesicular stomatitis virus (VSV). Incubation of the infected cells at elevated temperature further increased the rate of synthesis of these proteins. The stress proteins induced by Sindbis virus had different mobilities on SDS-polyacrylamide gels compared to related stress proteins induced in mock-infected CE cells. Induction of the stress proteins in Sindbis virus- and VSV-infected CE cells was actinomycin D sensitive. Kinetic studies indicated that induction of the stress proteins is an early event during infection. The lytic virus-induced selective termination of host protein synthesis did not affect the synthesis of these proteins. Furthermore, the synthesis of these virus-induced stress proteins was resistant, relative to the synthesis of most host proteins, to alterations in the intracellular concentrations of Na+ and K+. The synthesis of a protein related to a major low-molecular-weight hsp of CE cells was not induced after Sindbis virus or VSV infection. Immunoprecipitation experiments and sedimentation analyses demonstrated that significant levels of the capsid protein (C) of Sindbis virus and nucleocapsid protein (N) of VSV are physically associated with a hsp in lysates of infected CE cells.
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PMID:Induction of stress proteins in Sindbis virus- and vesicular stomatitis virus-infected cells. 631 78

The structural and functional lesions in the RNA-positive complementation groups, C and D, of the New Jersey serotype (Hazelhurst subtype) of vesicular stomatitis virus have been characterized. The M protein of the temperature-sensitive mutant C1, the prototype of the C complementation group, was degraded at the restrictive temperature in vivo, and was resolved from the wild-type M protein by SDS-polyacrylamide gel electrophoresis and nonequilibrium pH gradient electrophoresis. Coreversion of these properties and the temperature-sensitive phenotype was observed in a spontaneous revertant. On the basis of these results, the M gene was assigned to the C complementation group. Intracellular nucleocapsids could not be isolated from New Jersey serotype infections by procedures developed for Indiana serotype infections. Therefore, in order to assess the ability of New Jersey ts mutants to accumulate nucleocapsids at the restrictive temperature, a procedure for their isolation was developed. Hypertranscription was observed in C1-infected cells incubated at the restrictive temperature, but was not accompanied by proportionate increases in intracellular viral nucleocapsids or protein synthesis. The G and N proteins of the temperature-sensitive mutant D1, the sole representative of the D complementation group, were electrophoretic variants. The relative yield of intracellular D1 N protein was lower at the restrictive than at the permissive temperature, and the D1 L protein was thermolabile. No intracellular viral nucleocapsids were detected in D1 infected cells incubated at the restrictive temperature; however, more 40 S and less message-sized RNA were synthesized at the restrictive than at the permissive temperature. These results suggested functional defects in both the N protein and polymerase of D1.
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PMID:Structural and functional characterization of the RNA-positive complementation groups, C and D, of the New Jersey serotype of vesicular stomatitis virus: assignment of the M gene to the C complementation group. 632 May 36

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