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)

Porcine interferon (POIFN)-alpha prepared in primed peripheral blood leukocyte cultures induced with Newcastle disease virus and POIFN-beta from PK-15 cell cultures induced with polyinosinic:polycytidylic acid were partially purified by precipitation with potassium thiocyanate and anion exchange chromatography. Mean purification factors in terms of units of POIFN per mg of protein, of 37 and 12 were obtained for POIFN-alpha and POIFN-beta respectively. In yield reduction assays in swine testis and pig kidney cell cultures, POIFN-alpha and POIFN-beta had greater antiviral activity against vesicular stomatitis virus than against transmissible gastroenteritis virus (TGEV). The antiviral effects were greater at higher concentrations of interferon (IFN), and when the IFN treatments were continued postinfection. Porcine interferon-beta showed greater antiviral activity against TGEV than POIFN-alpha, but this may have been partly due to cytotoxicity. There were no major differences in the antiviral activities of crude and partially purified IFN preparations. Both types of IFN showed antiviral activity against TGEV in yield reduction assays in porcine intestinal explant and intestinal epithelial cell cultures. Crude POIFN-beta was found to be rapidly cytotoxic, especially in porcine cells, and some fractions of partially purified POIFN-beta were also cytotoxic. The cytotoxicity of POIFN-beta was partially neutralized by antibodies against human IFN-beta, but human IFN-beta was not cytotoxic for porcine or bovine cells.
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PMID:Antiviral activity against transmissible gastroenteritis virus, and cytotoxicity, of natural porcine interferons alpha and beta. 165 3

The protein composition of a 12S polysomal globin messenger ribonucleoprotein (pmRNP) from rabbit reticulocytes was examined. The pmRNP was released from purified polysomes by puromycin treatment under run-off conditions of protein synthesis. The protein pattern of this pmRNP depends on the potassium ion concentration used during the run-off and the subsequent isolation. Several proteins show a salt-dependent association with the pmRNP while a few are constituents of the pmRNP at all salt concentrations tested. By cross-linking the pmRNP-derived proteins to [3H]methyl-labelled oxidized vesicular stomatitis virus (VSV) mRNA and by immunoblotting against anti-cap-binding protein (CBP I) antibodies, it is demonstrated that the association of the CBP I with the pmRNP depends on the ionic strength. At 65 mM KCl, CBP I shows low affinity for the pmRNP; at 140 mM KCl, the affinity of CBP I for the pmRNP is greatly enhanced. At this ionic strength, equimolar amounts of CBP I and mRNA are found in the pmRNP. At 500 mM KCl, the pmRNP is completely devoid of CBP I. In the non-translated free cytoplasmic mRNP (cmRNP) no CBP can be detected by either the cross-link or the immunoblot technique.
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PMID:Stoichiometric association of cap-binding protein I with translated polysomal globin mRNP. 378 Jun 72

McCombs, Robert M. (Baylor University College of Medicine, Houston, Tex.), Matilda Benyesh-Melnick, and Jean P. Brunschwig. Biophysical studies of vesicular stomatitis virus: J. Bacteriol. 91:803-812. 1966.-The infectivity and morphology of vesicular stomatitis virus (VSV) were studied after density gradient centrifugation in cesium chloride (CsCI), potassium tartrate (KT), and sucrose. Centrifugation in CsCl revealed two equally infectious bands corresponding to densities of 1.19 and 1.22 g/ml, and a third (density, 1.26 g/ml) band of low infectivity. Two bands (densities of 1.16 and 1.18 g/ml) were observed in the KT gradient, in which the lighter band contained most of the infectivity. Centrifugation in sucrose resulted in a single broad infectious band (density, 1.16 g/ml). The typical rod-shaped VSV particles were found mainly in the lighter bands obtained in CsCl (1.19 g/ml) and KT (1.16 g/ml) and in the single sucrose gradient band (1.16 g/ml). Bent particles equally as infectious as the rod-shaped particles were a constant finding in the CsCl preparations, and were observed mainly in the second band (density, 1.19 g). Numerous strands 15mmu wide were found in the third CsCl (density, 1.26 g/ml) and the second KT (1.18 g/ml) bands. Similar strands could be liberated from VSV particles after treatment with deoxycholate. Internal transverse striations were found to be a regular feature of VSV particles examined with the pseudoreplication negative-staining technique. For crude virus stocks, the physical particle-to-infectivity ratio ranged from 73 to 194. Several morphological similarities between VSV and myxoviruses were observed, including 10 mmu surface projections, pleomorphic morphological forms, and 15 mmu seemingly nucleoprotein strands.
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PMID:Biophysical studies of vesicular stomatitis virus. 428 89

We examined the effects of a eukaryotic mRNA cap binding protein (CBP) complex purified by cap analogue affinity chromatography [Edery, I., Humebelin, M., Darveau, A., Lee, K.A. W., Milburn, S., Hershey, J.W.B., Trachsel, H., & Sonenberg, N. (1983) J. Biol. Chem. 258, 11398 11403], on translation of several capped and naturally uncapped mRNAs in extracts prepared from poliovirus-infected or mock-infected HeLa cells. The CBP complex has activity that restores capped mRNA (globin, tobacco mosaic virus, and others) function in extracts from poliovirus-infected HeLa cells. Translation of two naturally uncapped RNAs (poliovirus and mengovirus RNAs), the translation of which is not restricted in extracts from poliovirus-infected cells, is also not stimulated by the CBP complex. Translation of several capped eukaryotic mRNAs (vesicular stomatitis virus, reovirus, and tobacco mosaic virus) in extracts from mock-infected cells is inhibited when the potassium ion concentration is increased. However, translation of capped AMV-4 RNA, which has negligible secondary structure at its 5' end, is resistant to this inhibition. Furthermore, the CBP complex reverses the high salt induced inhibition of translation of the former mRNAs. Since mRNA secondary structure is more stable at elevated salt concentrations, these data are consistent with a model in which the CBP complex has a role in melting mRNA secondary structure involving 5'-proximal sequences, to facilitate ribosome binding.
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PMID:Functional characterization of eukaryotic mRNA cap binding protein complex: effects on translation of capped and naturally uncapped RNAs. 608 73

Analysis of viral glycoprotein expression on surfaces of monensin-treated cells using a fluorescence-activated cell sorter (FACS) demonstrated that the sodium ionophore completely inhibited the appearance of the vesicular stomatitis virus (VSV) G protein on (Madin-Darby canine kidney) MDCK cell surfaces. In contrast, the expression of the influenza virus hemagglutinin (HA) glycoprotein on the surfaces of MDCK cells was observed to occur at high levels, and the time course of its appearance was not altered by the ionophore. Viral protein synthesis was not inhibited by monensin in either VSV- or influenza virus-infected cells. However, the electrophoretic mobilities of viral glycoproteins were altered, and analysis of pronase-derived glycopeptides by gel filtration indicated that the addition of sialic acid residues to the VSV G protein was impaired in monensin-treated cells. Reduced incorporation of fucose and galactose into influenza virus HA was observed in the presence of the ionophore, but the incompletely processed HA protein was cleaved, transported to the cell surface, and incorporated into budding virus particles. In contrast to the differential effects of monensin on VSV and influenza virus replication previously observed in monolayer cultures of MDCK cells, yields of both viruses were found to be significantly reduced by high concentrations of monensin in suspension cultures, indicating that cellular architecture may play a role in determining the sensitivity of virus replication to the drug. Nigericin, an ionophore that facilitates transport of potassium ions across membranes, blocked the replication of both influenza virus and VSV in MDCK cell monolayers, indicating that the ion specificity of ionophores influences their effect on the replication of enveloped viruses.
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PMID:Modulation of glycosylation and transport of viral membrane glycoproteins by a sodium ionophore. 630 67

Thallium poisoning is one of the most complex and serious toxicities known to man. The symptomatology of its toxicity is usually nonspecific due to the multi-organ involvement. The initial symptoms of thallium poisoning may include fever, gastrointestinal problems, delirium, convulsions and coma. Symptoms may appear rapidly, but more commonly the acute toxicity subsides to be replaced by a gradual development of mild gastrointestinal disturbances, polyneuritis, encephalopathy, tachycardia, skin eruptions, stomatitis, atrophic changes of the skin, nail changes (Mee's lines), and skin hyperesthesia (mainly in the soles of the feet and the tibia). Degenerative changes of the heart, liver and kidney, subarchanoid hemorrhage, bone marrow depression, and increased radiopacity of the liver may also occur. Development of psychotic behavior with hallucinations and dementia has also been reported. In humans the most characteristic sign of thallium toxicity is alopecia which usually appears in cases when death is delayed for 15-20 days. Other signs and symptoms may develop at any stage of toxicity. The current therapy for thallium poisoning is the use of prussian blue and potassium chloride. Potassium therapy is probably the single most effective agent in the treatment of thallium poisoning. Further research, however, is needed to find an optimal antidote for thallium.
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PMID:Thallium poisoning: a review. 633 55

5 patients with dermatitis or stomatitis related to the use of orthodontic appliances are described. All the patients were patch tested with the European standard series. One had a ++ reaction to potassium dichromate, one a ++ reaction to nickel, and the remaining 3 no positive patch tests. 3 of the patients had recurrent vesicular hand eczema, which flared after oral challenge with 1 of the metals used in their orthodontic appliances. 2 of these 3 patients had negative patch tests. The dermatitis of 4 of the 5 patients cleared completely upon the removal of their metal orthodontic appliances or their replacement with appliances made of acrylics.
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PMID:Stomatitis or systemically-induced contact dermatitis from metal wire in orthodontic materials. 803 45

Several red cell storage properties were evaluated following phototreatment with methylene blue (MB) under conditions that inactivated > or = 6 log10 of added vesicular stomatitis virus. Red cell 2,3 DPG levels were similar to untreated controls throughout conventional 42-day storage at 4 degrees C. Plasma hemoglobin levels were elevated approximately twofold in MB-phototreated samples, and morphology scores were 5 percent lower after 42-day storage. ATP levels declined 30 percent in phototreated samples and in a control sample containing MB and not exposed to light. Lipid peroxidation was not observed in treated or control cells, nor were differences observed in sodium dodecyl sulfate-polyacrylamide gel electrophoresis of ghost membranes derived from phototreated and control samples. Phototreated cells exhibited enhanced ion permeability; sodium and potassium levels approached equilibrium with the suspending medium within 4 to 7 days after treatment. Direct agglutination tests using rabbit anti-human IgG or rabbit anti-human serum albumin on MB-phototreated cells indicated that serum proteins had absorbed to the surface of treated red cells. Plasma depletion by washing red cells prior to phototreatment did not prevent protein binding upon subsequent addition of untreated autologous or group AB plasma. To a much smaller extent, phototreatment of plasma resulted in IgG association with untreated red cells. The addition of glutathione to red cell suspensions prevented IgG binding to phototreated red cells but did not prevent enhanced ion permeability. Taken together, these data suggest that the red cell surface is altered by virucidal MB phototreatment of vesicular stomatitis virus.
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PMID:Red cell alterations associated with virucidal methylene blue phototreatment. 838 Sep 45

Previous studies with methylene blue (MB) in red cell suspensions have demonstrated that extracellular, but not intracellular, virus can be readily photoinactivated. To test if the resistance of intracellular virus to inactivation is related to the permanent positive charge of the phenothiazine, a series of uncharged phenothiazine dyes, methylene violet (MV), monodemethylated MV and didemethylated MV, were studied. Values of the sensitivity of intracellular relative to extracellular vesicular stomatitis virus (VSV) inactivation for the three dyes (D10 extracellular/D10 intracellular) in buffer were 1.0, 0.60 and 0.33, respectively. In contrast, intracellular virus was resistant to inactivation with MB, with a D10 extracellular/D10 intracellular of 0.05 in buffer. Because virucidal activity of MV was inhibited by the presence of plasma, the red cells (30% hematocrit) were repeatedly washed prior to photoinactivation and storage. Under conditions where MB and MV inactivated approximately 5 log10 of extracellular VSV, intracellular VSV was inactivated by more than 4 log10 with MV compared to 0.88 log10 with MB. These phototreatment conditions did not significantly affect red cell morphology, extracellular pH, ATP or 2,3-diphosphoglycerol levels during 42 days of 1-6 degrees C storage. There was enhanced potassium efflux and hemolysis over values obtained from untreated control; the extent of change from controls was comparable for each phototreatment. These results indicate that the uncharged phenothiazine dye, MV, can inactivate both intracellular and extracellular virus yet exhibit similar in vitro red cell storage properties as MB phototreatment.
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PMID:Comparison of methylene blue and methylene violet for photoinactivation of intracellular and extracellular virus in red cell suspensions. 907 30

We have conducted Phase I study of a novel oral antitumor agent of fluorinated pyrimidines, S-1, in which tegafur (FT) is combined with two classes of modulator, 5-chloro-2,4-dihydroxypyridine (CDHP) and potassium oxonate (Oxo) at a molar ratio of FT:CDHP:Oxo = 1:0.4:1 as a multi-center study with 16 institutions nationwide. Two administration methods, once and twice daily administrations, were evaluated. As a result, MAD was determined as 150 mg/body/day approximately 200 mg/body/day and 75 mg/body x2/day approximately 100 mg/body x2/day, respectively. DLF was myelosuppression, mainly consisting of leukopenia in the two administrations. Most adverse reactions observed, including myelosuppression, disappeared by discontinuation of administration, and recovery was in about 2 weeks. Adverse reactions other than myelosuppression which induced the discontinuation were rash and vomiting. Other adverse reactions observed were anorexia, malaise, diarrhea and stomatitis. Diarrhea and stomatitis were mild (Grade 1), except those observed at a dose of 200 mg/body/day, and did not induce discontinuation of administration. Based on these findings and pharmacokinetic evaluation, the recommended dose and administration for Early Phase II studies were determined as twice daily administration of 75 mg/body for 28 consecutive days with 14 days rest (1 course).
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PMID:[Phase I study of S-1. S-1 Study Group]. 942 70


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