UNIPROT:P43026 - FACTA Search

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Query: UNIPROT:P43026 (lipopolysaccharide)
62,215 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Mice with graft versus host reaction (GVHR) show a decreased production of serum interferon and that produced by the bone marrow and spleen cells and blood leukocytes in vitro upon inoculation with Newcastle disease virus. Interferon induction with lipopolysaccharide of Flexner bacteria resulted in activation of production of serum interferon and that induced in spleen cell and blood leukocyte suspensions. Serum interferon production after administration of poly(I) . poly(C) was similar in mice with GVHR and controls.
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PMID:[Comparative study of interferon production in mice with the graft versus host reaction]. 3 29

Interferon production stimulated by the active substance (neutral fraction) of the capsular polysaccharide of Klebsiella pneumoniae (neutral CPS-K) in BCG-infected mice was compared with that by bacterial lipopolysaccharide (LPS). Prior infection with BCG increased the responsiveness of mice to the lethal effect of neutral CPS-K as well as to that of LPS. Associated with this, BCG-infected mice showed a markedly enhanced ability to produce interferon after stimulation not only by LPS but also by neutral CPS-K. In addition, a cytotoxic factor (cytotoxin) was found to be released in the serum of BCG-infected mice after injection of these inducers. The kinetics of production of interferon and cytotoxin stimulated by neutral CPS-K were very similar to those stimulated by LPS. The time pattern of cytotoxin production was not in parallel with that of interferon production. Interferon reached a peak 2 hr and cytotoxin 3 hr after injection with these inducers. Interferon and cytotoxin produced by neutral CPS-K showed essentially the same stabilities to heating at 56 C and to treatment at pH 2 respectively as those produced by LPS. Interferon was inactivated by heating at 56 C more rapidly than cytotoxin. Cytotoxin was inactivated by treatment at pH 2 for 24 hr, whereas interferon activity was well preserved after this treatment. These results suggest that both activities are the result of different substances.
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PMID:Interferon and cytotoxic factor (cytotoxin) released in the blood of mice infected with Mycobacterium bovis BCG. I. Enhanced production of interferon and appearance of cytotoxin stimulated by capsular polysaccharide of Klebsiella pneumoniae or bacterial lipopolysaccharide. 4 Nov 63

Bacterial lipopolysaccharide (LPS) induces interferons with different properties in mouse macrophages and B lymphocytes. Macrophage interferon is labile at 56 degrees C and is neutralized by anti-mouse fibroblast interferon at a dilution of 1:6,142. B cell interferon is more heat stable and is neutralized by the same antiserum only at a dilution of 1:276. Serum obtained early (1 h) after an intravenous injection of 100 mug of LPS resembled macrophage interferon, whereas serum obtained at later times resembled more and more B cell interferon. The diverse cellular origin of LPS-induced interferon may explain the broad hyporesponsiveness produced by LPS in animals.
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PMID:Cellular origin of interferon induced by bacterial lipopolysaccharide. 6 59

Murine interferons induced by viruses and by non viral substances such as lectins, tilorone, lipopolysaccharide and Brucella have been analysed by affinity chromatography on a column of Sepharose coupled to anti-bodies directed against viral interferon. B cell stimulants induced interferons which are antigenically related to viral interferon and T cell dependent mitogens induced an interferon species which appears to be antigenically and physicochemically different. Despite their antigenic differences, both kinds of interferon seem to follow similar pathways for the induction of the antiviral state (sensitivity to antimetabolites, and in vitro phosphorylation of a 67 000 MW protein).
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PMID:Some properties of interferons induced by stimulants of T and B lymphocytes. 8 Aug 30

Mouse myeloid leukemic cells which differ in their competence to be induced to differentiate by the normal macrophage- and granulocyte-inducing protein MGI have been used to study the relationship between type C RNA virus production and myeloid cell differentiation. Clones which can be induced by MGI to form Fc and C3 rosettes, to synthesize and secrete lysozyme and to differentiate to mature macrophages and granulocytes (MGI+D+) were induced by MGI to produce higher amounts of type C virus. Clones (MGI+D-) that were less inducible by MGI for Fc and C3 rosettes and lysozyme and were not induced to from mature cells were also less inducible higher virus production. In both types of clones, the increased virus production induced by MGI preceded the induction of rosettes and lysozyme. Clones that were not induced by MGI for rosettes or lysozyme (MGI-D-) showed little or no enhancement of virus production. MGI did not affect virus production in erythroleukemic cells, and erythropoietin did not affect virus production in the myeloid leukemic cells. Dexamethasone, lipopolysaccharide, dimethylsulfoxide and low concentrations of actinomycin D can induce some differentiation-associated properties in some of the clones. With these compounds, there was also a direct relationship between the enhancement of virus production and induction of differentiation-associated properties. Virus released from the three types of clones before or after treatment with MGI or dexamethasone was identified as N-tropic. The enhancement of virus production, as measured by reverse transcriptase activity, was accompanied by an increase in the amount of the viral protein p30, and interferon, which idd not inhibit the induction of differentiation in the myeloid leukemic cells, also did not prevent the increase in the amount of p30. After the early enhancement of virus production associated with the induction of differentiation, a shut-off of virus production occurred in the mature cells induced by MGI in MGI+D+ clones, whereas clones that did not differentiate to mature cells continued to produce virus. The results indicate that enhancement of virus production appears to be an early step in the induction of differentiation. Once induction has occurred, the lack of virus production in the mature cells suggest that a subsequent shut-off of virus production may be required for the completion of differentiation to mature cells. This relationship between cell differentiation and virus production suggests that type C virus has a regulatory role in myeloid cell differentiation.
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PMID:Co-regulation of type C RNA virus production and cell differentiation in myeloid leukemic cells. 8 97

Although it is generally admitted that Gram-positive bacteria cannot induce interferon, we were able to show that organisms and cell walls of Bacillis subtilis as well as components obtained through the extraction of endotoxins from Gram-negative bacteria can induce type II interferon. Moreover we have ascertained that those components have the same biological activity as the endotoxins, espcially with regard to their behaviour with B cells of lymphocytes, the results of pyrogen test, the incidence of cycloheximide and their function as inhibitors of bacteriophages. However, it has appeared that chemically they are quite different from the lipopolysaccharide of the Gram-negative bacteria: no lipid A could be detected.
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PMID:[Induction of interferon by Bacillus subtilis (author's transl)]. 10 36

Resistance against ascites tumor development and interferon-inducing activity were demonstrated in lipopolysaccharide derived from the protein-lipopolysaccharide complex obtained from an autolysate of Pseudomonas aeruginosa. Lipid A obtained from the lipopolysaccharide was sufficient to induce interferon in vitro but no antitumor activity was found if lipid A or the polysaccharide derived from lipopolysaccharide was injected into the animal. Chemical modification of the polysaccharide portion or deacylation of the lipopolysaccharide also diminished antitumor activity. In contrast, interferon was induced by these incomplete lipopolysaccharides. These results indicate that both the lipid A portion and covalently linked polysaccharide are necessary for the inhibition of ascites tumor development, whereas incomplete lipid A with amide-linked fatty acids is sufficient to induce interferon in vitro.
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PMID:Regions of the lipopolysaccharide of Pseudomonas aeruginosa essential for antitumor and interferon-inducing activities. 11 29

Mouse interferon preparations significantly suppress the in vivo antibody response to sheep red blood cells (SRBC), a thymus-dependent antigen, and to Salmonella typhimurium lipopolysaccharide (LPS), a thymus-independent antigen. It is also possible to effect the late responses of antigen sensitive "memory" cells observed during secondary immunization by administration of interferon prior to primary immunization. The immunosuppressive activity of interferon was time- and dose-dependent. Maximum suppression was produced when animals were given 1.5 times 10-5 units of interferon between 4 and 48 hr before antigenic stimulation. These findings suggested that interferon affects some early event(s) in the process of antibody synthesis which might be related to the general inhibitory effect of interferon on rapidly dividing cells and viral m-RNA translation. In addition, the use of nonadherent spleen cell cultures from interferon-treated mice, immunized in vitro with a thymus-independent antigen, indicated that in this situation the inhibitory effect of interferon was due to an action on B lymphocytes. A variety of soluble "suppressive" factors are secreted by T cells as a consequence of activation by mitogens or specific antigens in vitro. Since T cells are recognized as one of the sources of interferon, it is suggested that interferon should be investigated as a suppressor T cell-produced lymphokine which can regulate B cell expression.
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PMID:Mechanism of the suppressive effect of interferon on antibody synthesis in vivo. 16 63

The capsular polysaccharide of Klebsiella pneumoniae (CPS-K) type 1, Kasuya strain, induces interferon production in the blood of mice when injected intravenously. CPS-K resembles bacterial endotoxin (lipopolysaccharide) in the time pattern of interferon production, with peak levels 2h after injection. CPS-K on a weight basis exhibits a more potent interferon-inducing effect than lipopolysaccharide. The active substance responsible for the interferon-inducing activity of CPS-K is the neutral CPS-K antigen which is antigenically distinct from the O antigen and from acidic CPS-K (the type-specific capsular antigen). Neutral CPS-K from the Kasuya strain has been already found to exhibit a strong adjuvant effect on antibody responses to various antigens in mice. Preparations of neutral CPS-K from other strains of K. pneumoniae, of which adjuvant action is only very weak, exhibit interferon-inducing activity similar to the preparation from the Kasuya strain. Heterologous and homologous tolerance to re-induction of interferon is produced by a prior injection (one each) of LPS, neutral CPS-K, and acidic CPS-K. No simple correlation exists between the inducing and tolerogenic capabilities of these substances.
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PMID:Interferon production in mice by the capsular polysaccharide of Klebsiella pneumoniae. 16 21

An animal model of a sublethal infection, utilizing murine cytomegalovirus (MCMV), was developed to determine whether immunological factors could contribute to the establishment of a persistent viral infection. Adult female C3H mice inoculated intraperitoneally with 10(5) plaque-forming units of MCMV developed splenomegaly 5 to 12 days after infection. Virus replicated to peak titers (10(3) to 10(6) plaque-forming units per g of tissue) in liver, spleen, lung, kidney, and salivary gland tissue during the acute phase of the infection (3 to 12 days); it then decreased to undetectable levels in all tissues except salivary gland. Serum interferon was detected as early as 12 h after infection, peaked at 36 h (1,093 U/ml), and was undetectable by 4 days after infection. MCMV-infected animals were hyporeactive to interferon induction with New castle disease virus on days 5 to 9 of the infection. Splenic lymphocyte reactivity to phytohemagglutinin and lipopolysaccharide was normal early during the course of the infection, was suppressed during the acute phase of the infection, and had returned to normal by day 18. These data indicate that several parameters of host defense are transiently suppressed during the course of a MCMV infection. The capacity of cytomegaloviruses to alter host resistance may be one factor that contributes to the establishment of a persistent infection.
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PMID:Alteration of host defense mechanisms by murine cytomegalovirus infection. 20 66

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