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)

Amino acid transport in mouse peritoneal macrophages is mediated by several membrane carriers with different substrate specificity and sensitivity to environmental stimuli. We reported previously that transport activities of cystine and arginine in the macrophages were induced markedly by low concentrations of bacterial lipopolysaccharide (LPS). It is known that a variety of macrophage functions are affected by ambient oxygen tension. In this study, we have investigated the effects of oxygen on the induction of amino acid transport activity by LPS and found that the induction of cystine, but not arginine, transport activity was dependent on the ambient oxygen tension. When the macrophages were cultured with 2% O(2) in the presence of 1 ng/ml LPS, induction of cystine transport activity was reduced by approximately 70% compared with cells cultured under normoxic conditions. In macrophages, transport of cystine is mediated by a Na(+)-independent anionic amino acid transporter named system x(c)(-). System x(c)(-) is composed of two protein components, xCT and 4F2hc, and the expression of xCT was closely correlated with system x(c)(-) activity. A putative NF-kappaB binding site was found in the 5'-flanking region of the xCT gene, but the enhanced expression of xCT by LPS and oxygen was not mediated by NF-kappaB binding. An increase in intracellular GSH in macrophages paralleled induction of xCT, but not gamma-glutamylcysteine synthetase. These results suggest the importance of system x(c)(-) in antioxidant defense in macrophages exposed to LPS and oxidative stress.
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PMID:Effect of oxygen on induction of the cystine transporter by bacterial lipopolysaccharide in mouse peritoneal macrophages. 1113 24

Antibody class switch recombination (CSR) occurs after antigen activation of B cells. CSR is directed to specific heavy chain isotypes by cytokines and B cell activators that induce transcription from the unrearranged, or germline (GL), C(H) region genes. Transforming growth factor (TGF)-beta1 is essential for switch recombination to IgA due to its ability to induce transcription from GL Ig alpha genes. It has been shown that the promoters which regulate transcription of mouse and human GL alpha RNAs contain a TGF-beta1-responsive element that binds Smad and core binding factor (CBFalpha)/AML/PEBPalpha/RUNX: They also contain other elements which bind the transcription factors CREB, BSAP and Ets family proteins. In this manuscript we demonstrate that two tandem Ets sites in the mouse GL alpha promoter bind the transcription factors Elf-1 and PU.1, and that the 3' site is essential for expression of a luciferase reporter gene driven by the GL alpha promoter. Binding of Elf-1 to the GL alpha promoter is inducible by lipopolysaccharide in nuclear extracts from splenic B cells. An NF-kappaB site is identified, although it does not contribute to expression of the promoter in reporter gene assays. Since CSR to IgA is greatly reduced in NF-kappaB/p50-deficient mice, these data support the hypothesis that NF-kappaB has roles in switching in addition to regulation of GL transcription. Finally, we demonstrate that nocodazole, which disrupts microtubules that sequester Smad proteins in the cytoplasm, stimulates transcription from the GL alpha promoter.
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PMID:Roles of Ets proteins, NF-kappa B and nocodazole in regulating induction of transcription of mouse germline Ig alpha RNA by transforming growth factor-beta 1. 1136

Human umbilical vein endothelial cells transport arginine through two Na(+)-independent systems. System y(+)L is insensitive to N-ethylmaleimide (NEM), inhibited by L-leucine in the presence of Na(+), and referable to the expression of SLC7A6/y(+)LAT2, SLC7A7/y(+)LAT1, and SLC3A2/4F2hc. System y(+) is referable to the expression of SLC7A1/CAT1 and SLC7A2/CAT2B. Tumor necrosis factor-alpha (TNF-alpha) and bacterial lipopolysaccharide induce a transient stimulation of arginine influx and efflux through system y(+). Increased expression of SLC7A2/CAT2B is detectable from 3 h of treatment, while SLC7A1 expression is inhibited at later times of incubation. System y(+)L activity and expression remain unaltered. Nitric oxide synthase type 2 mRNA is not detected in the absence or presence of TNF-alpha, while the latter condition lowers nitric oxide synthase type 3 expression at the mRNA and the protein level. Nitrite accumulation is comparable in cytokine-treated and control cells up to 48 h of treatment. It is concluded that modulation of endothelial arginine transport by TNF-alpha or lipopolysaccharide occurs exclusively through changes in CAT2B and CAT1 expression and is dissociated from stimulation of nitric oxide production.
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PMID:Two-way arginine transport in human endothelial cells: TNF-alpha stimulation is restricted to system y(+). 1174 6

B7-H2, which is expressed constitutively on B cells and binds the inducible costimulator (ICOS) on antigen-activated T cells, is a member of the B7 family of costimulatory ligands. We have inactivated B7-H2 in the mouse. B7-H2-/- mice generate normal populations of B and T cells in their various lymphoid organs but have lower basal levels of heavy chain class-switched antibodies in their sera. These mice are able to mount normal immune responses to both type I and type II T-cell-independent antigens. However, their pattern of responses to a T-cell-dependent antigen is altered, with greatly reduced production of antigen-specific heavy chain class-switched antibodies, the levels of which could not be elevated even with repeated immunizations. This suggests a critical role for B7-H2 in the recall phases of the immune response. Germinal center formation is also impaired in the mutant mice. While B cells from the mutant mice could response normally to anti-IgM, anti-CD40, and lipopolysaccharide stimulation, the production of T-helper-type II cytokines such as interleukin-4 (IL-4) and IL-10 by primed CD4+ T cells from mutant mice were reduced. This indicated that the defects in humoral responses and germinal center formation in B7-H2-deficient mice are due to the lack of T-cell-mediated help to the B cells. Hence, B7-H2 on B cells is important for recruiting T-cell help via its interaction with ICOS and plays a critical role in costimulating humoral immune responses.
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PMID:Impaired germinal center formation and recall T-cell-dependent immune responses in mice lacking the costimulatory ligand B7-H2. 1271 10

Transcriptional regulation of the Ig heavy chain gene involves several regulatory elements, including the 3'alpha enhancer, which is composed of four distinct regulatory domains. DNA binding sites for several transcription factors, including B cell-specific activator protein, nuclear factor for immunoglobulin kappa chain in B cells, and octamer have been identified within the 3'alpha enhancer domains and are believed to be important in regulating 3'alpha enhancer activity. We have identified an additional DNA binding motif, the dioxin-responsive element (DRE), which can contribute to 3'alpha enhancer regulation. 2,3,7,8-Tetrachlorodibenzo-p-dioxin (TCDD), a known disrupter of B cell differentiation (i.e., decreased plasma cell formation, inhibition of micro heavy chain expression, and suppression of IgM secretion), induces binding of the aryl hydrocarbon receptor (AhR) nuclear complex to DREs. TCDD also induces AhR binding to the hypersensitive (hs)4 domain of the 3'alpha enhancer. Interestingly, TCDD enhances LPS-induced activation of the hs4 domain but profoundly inhibits LPS-induced activation of the complete 3'alpha enhancer. Furthermore, site-directed mutational analysis demonstrated that a DRE and kappaB element in the hs4 domain is modulated by TCDD in lipopolysaccharide-activated B cells. We propose that the AhR is a novel transcriptional regulator of the 3'alpha enhancer, which can mediate, at least in part, the effects of TCDD on the 3'alpha enhancer and its domains, putatively contributing to a marked suppression of IgM production.
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PMID:2,3,7,8-tetrachlorodibenzo-p-dioxin, an exogenous modulator of the 3'alpha immunoglobulin heavy chain enhancer in the CH12.LX mouse cell line. 1471 3

Up to 30% of patients with hemophilia A given therapeutic factor VIII (fVIII) can make inhibitory antibodies, the majority of which are reactive with its C2 and A2 domains. We have previously demonstrated that antigen-specific tolerance to several antigens can be induced by lipopolysaccharide (LPS)-activated B-cell blasts transduced with immunoglobulin (IgG)-antigen fusion constructs. To apply this system to hemophilia A inhibitor formation, we created retroviral vectors expressing fVIII amino acids S2173-Y2332 (C2 domain) and S373-R740 (A2 domain) in frame with an IgG heavy chain backbone. These vectors were transduced into B-cell blasts to induce tolerance in both naive and fVIII-primed hemophilic (E16 fVIII(-/-)) mice. Thus, treatment of E16 fVIII(-/-) mice with B cells expressing fVIII C2 and A2 domains led to tolerance in terms of specific humoral response (including inhibitory antibody titers) and cellular responses to fVIII and its C2 or A2 domains. Moreover, a significant reduction in immune responses to fVIII could be achieved in immunized hemophilic mice with existing anti-fVIII titers. This hyporesponsive state persisted for at least 2 months and withstood additional challenge with fVIII. Further experiments, in which mice were treated with a depleting monoclonal anti-CD25, suggested that a regulatory T cell may be required for the tolerogenic effect of transduced B cells. These findings demonstrate that B-cell presentation of fVIII domains on an Ig backbone specifically prevents or decreases existing antibodies in hemophilia A mice.
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PMID:Induction of tolerance to factor VIII inhibitors by gene therapy with immunodominant A2 and C2 domains presented by B cells as Ig fusion proteins. 1576 92

Our previous studies indicated that antigen-specific tolerance could be achieved by the injection of LPS-activated B-cell blasts that were retrovirally gene-transferred with an IgG-antigen fusion construct. This system was shown to be effective for tolerance induction with a variety of inserted antigens ranging in size from a single peptide to a large multi-epitope protein in a variety of mouse strains. Moreover, it was shown to be effective in four animal models for human disease. To optimize the existing protocol, establish the role of the IgG H chain scaffold, and provide baseline for potential clinical applications, we examined the effects of different B-cell activators, including lipopolysaccharide (LPS), anti-CD40, CpG oligodeoxynucleotide (CpG-ODN), and anti-IgM plus IL-4, on B-cell proliferation, GFP transduction efficiency, and tolerance induction in vivo. The results show that all activators except CpG-ODN have similar effects on retroviral gene transfer and peptide-IgG-induced tolerance. Furthermore, dose-response analyses showed that T-cell tolerance could be induced with 10(5) peptide-IgG LPS B-cell blasts, but that 10(6) transduced B-cells were needed for humoral unresponsiveness. Transduced anti-IgM-induced blasts were tolerogenic at 10(6) cells, but no dose of transduced CpG blasts was tolerogenic. Finally, to examine the role of IgG scaffold, a retroviral construct encoding lambda repressor p1-102 and signal peptide of murine IgG heavy chain was engineered to allow secretion of the p1-102 domain in the same manner as that of p1-102-IgG fusion protein. The results demonstrate that not only is IgG scaffold important in tolerance induction and maintenance of the long-lasting immune hyporesponsiveness, but assembly of the IgG heterodimer may be required for the efficacy of this system.
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PMID:Tolerance induction via a B-cell delivered gene therapy-based protocol: optimization and role of the Ig scaffold. 1609 95

The objective of this study was to identify single nucleotide polymorphisms (SNPs) within four functionally related immune response genes in the horse, and to develop genotyping techniques that could be useful for future genomic studies of horse infectious and allergic diseases. The genes analysed were: the lipopolysaccharide (LPS) receptor gene CD14, the toll-like receptor 4 gene TLR4, the gene Cepsilon encoding the IgE heavy chain molecule and the gene FcepsilonR1 alpha coding for the alpha subunit of the IgE receptor molecule. Horse-specific primers amplifying selected gene regions were designed and SNPs were searched by selective resequencing and/or by PCR-SSCP (polymerase chain reaction-sequence specific conformational polymorphism) or PCR-RFLP (PCR-restriction fragment length polymorphism). Gene expression was analysed by RT-PCR (reverse transcriptase-PCR) of all four genes examined. For CD14, the cDNA sequence was determined and a novel sequence of the 5'UTR region was identified. The protein-coding sequence was identical to that previously deposited in GenBank. 5'UTR, intronic and both synonymous and non-synonymous exonic SNPs were identified. Three SNPs were found in the CD14 gene, four in the TLR4 gene; two SNPs were identified in the Cepsilon gene, and one SNP was found in the FcepsilonR1 alpha gene. PCR-RFLP was developed for genotyping eight of the SNPs identified. The RT-PCR assay showed that all the SNPs reported here are parts of expressed genes. The results showed that important immunity-related genes in horses are polymorphic and that even non-synonymous SNPs with potential functional impact may occur. The methods developed for genotyping and haplotyping the SNPs identified represent, along with markers described previously, a potentially useful tool for genomic analysis of the function and role of these genes in immunity and in mechanisms of disease.
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PMID:Single nucleotide polymorphisms in four functionally related immune response genes in the horse: CD14,TLR4, Cepsilon, andFcepsilon R1 alpha. 1616 94

CD14, a 55kDa lipopolysaccharide binding glycoprotein, is a key element in both LPS-mediated activation of cells and endotoxin detoxification. A gene fragment containing residues 1-348 of the human LPS receptor CD14, representing the extracellular form of the molecule, was fused to the CH(2)-CH(3) portion of the human IgG heavy chain or to a 6x His tag and transfected into CHO cells. Stable cell lines of each were grown to produce recombinant protein in unsupplemented serum free media and CD14His was purified by ion-exchange chromatography. After passive immobilization onto a carbon surface both forms of the CD14 fusion proteins bound LPS-biotin in a dose-dependent manner in an electrochemiluminescent assay. Binding was inhibited by the anti-CD14 antibody S39 as well as by unlabeled LPS. This report describes an efficient method of purifying CD14 and a novel assay to detect bioactive lipopolysaccharide.
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PMID:Purification of soluble CD14 fusion proteins and use in an electrochemiluminescent assay for lipopolysaccharide binding. 1686 Oct 2

Because some batch-to-batch variation in the preparation of rough lipopolysaccharide (RLPS) from Brucella ovis has been experienced, several protocols were tested to establish the most reliable method for detection of antibody in indirect enzyme immunoassay. An early version of the assay gave a performance index (PI=sum of optimum percent sensitivity and percent specificity, determined by receiver operator characteristic analysis) of 198.6. This assay used RLPS from B. ovis as the antigen and a monoclonal antibody specific for bovine IgG(1) heavy chain-enzyme conjugate for detection. This was not repeatable using other batches of antigen. Newer versions of the assay generally had decreased sensitivity values, giving PIs of 193. Use of a recombinant protein A/G-enzyme conjugate did not improve the PI (PI=190), giving reduced specificity and higher sensitivity. The final version used B. abortus RB51 RLPS as the antigen and protein A/G-enzyme conjugate for detection, giving a PI of 197. Because of the batch uniformity of the B. abortus RB51 RLPS and the versatility of the protein A/G-enzyme conjugate, the latter version appears to be the most useful for diagnostic serology.
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PMID:Detection of ovine antibody to Brucella ovis by indirect enzyme immunoassay. 1761 70

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