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)

We have investigated the importance of cell-surface serine- and/or threonine-linked oligosaccharide adhesion molecules synthesized by the Golgi enzyme core 2 beta-1,6-N-acetylglucosaminyltransferase (C2GlcNAcT) in mediating eosinophil trafficking to the lung in studies utilizing C2GlcNAcT-I-deficient mice. The number of bronchoalveolar eosinophils, the number of lung eosinophils, and airway responsiveness to methacholine were not significantly different in C2GlcNAcT-I-deficient compared with wild-type mice sensitized and challenged by inhalation with ovalbumin. C2GlcNAcT-I-deficient mice do not demonstrate defects in neutrophil trafficking to the lung in response to lipopolysaccharide (LPS). In contrast, ragweed-sensitized C2GlcNAcT-I-deficient mice exhibit significantly reduced eosinophil trafficking to the peritoneal cavity in response to ragweed peritoneal challenge. C2GlcNAcT-I-deficient mice also have significantly reduced neutrophil trafficking to the peritoneal cavity in response to LPS challenge. Overall, these studies demonstrate an important role for serine/threonine-linked oligosaccharides synthesized by the Golgi enzyme C2GlcNAcT-I in eosinophil and neutrophil trafficking to the peritoneum but not for eosinophil or neutrophil trafficking to the lung.
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PMID:Core 2 oligosaccharides mediate eosinophil and neutrophil peritoneal but not lung recruitment. 1179 30

A number of inflammatory cytokines and growth factors promote monocyte survival; however, the biochemical events stimulated by these factors are poorly defined. We previously showed that the monocyte survival factor macrophage colony-stimulating factor (M-CSF) activated monocyte survival through a PI 3-kinase-dependent pathway resulting in the phosphorylation of Akt and the suppression of the activation of caspase-3. Because other cytokines and bacterial cell wall products also induce monocyte survival, we hypothesized that these factors may also suppress caspase-3 and caspase-9 activation and activate Akt in human monocytes. To test this hypothesis, we found that interleukin (IL)-1beta, tumor necrosis factor (TNF)-alpha, lipopolysaccharide (LPS), granulocyte macrophage-colony-stimulating factor (GM-CSF), and IL-18 appeared to suppress DNA fragmentation, caspase-9, and caspase-3 activation in human monocytes. Moreover, these stimuli appeared to induce the serine and threonine phosphorylation of Akt, which was reduced by the PI 3-kinase inhibitor LY294002. Using in vitro kinase assays, M-CSF appeared to induce more Akt activity than did the other survival factors. Treatment of monocytes with either LY294002 or wortmannin resulted in caspase-3 activation in the presence of these survival factors. These results suggest that monocyte survival factors may suppress DNA fragmentation, caspase-9, and caspase-3 activation in a PI 3-kinase-dependent manner, perhaps through the activation of Akt.
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PMID:Monocyte survival factors induce Akt activation and suppress caspase-3. 1180 74

When macrophage (like the RAW264.7 cell line) was stimulated with lipopolysaccharide (LPS), factors that bind specifically to the LPS responsive element (LRE) of murine Rantes gene appeared in the nucleus. An electrophoretic mobility shift assay (EMSA) detected 2 specific bands, designated as S (slow) and M (middle). The S band appeared within 15 min of LPS stimulation, and reached its highest intensity within 2 h. The M band was present in unstimulated cells, but after stimulation its intensity increased and reached its highest intensity also in about 2 h. Significantly, in LPS hyporesponsive 10-9 macrophage like cells, the S band was absent. The M band was present in equal amounts in stimulated and unstimulated cells. The results suggest that the S band was induced by LPS stimulation. In the nuclear extract, the native molecular weight of the S band-forming factor was approximately 270 kDa, and that of the M bands-forming factor was approximately 140 kDa. U.V. cross linking studies consistently showed at least 2 different polypeptides of approximate molecular mass of 70 kDa, both in the S band-forming factor (complex) and the M band-forming factor (complex). In the nuclear extracts of both the LPS stimulated and unstimulated cells, we detected a factor with approximate molecular mass of 120 kDa that could convert the S band-forming complex to the M band-forming complex. This factor, designated as a converting factor, is a protein phosphatase since its activity was blocked by okadaic acid, an inhibitor of Ser/Thr protein phosphatase. Also, purified protein phosphatase type 1 (PP-1) could convert the S band-forming complex to the M band-forming complex.
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PMID:Characterization of lipopolysaccharide responsive proteins that binds to the 5'-flanking regions of mouse Rantes. 1191 80

The endogenous opioid system has been found to be involved in fever caused by pyrogens. Recent work in our laboratory has demonstrated that the mu-opioid receptor is involved in interleukin-1beta (IL-1beta)- and in lipopolysaccharide (LPS)-induced fevers. In the present study, we have investigated the role of the mu-opioid receptor in the preoptic anterior hypothalamus (POAH) in fever induced by interleukin-6 (IL-6). Following stereotaxic implantation of a guide cannula into the POAH for microinjection, radio transmitters to monitor body temperature (Tb) continuously were inserted intraperitoneally. Adult male Sprague-Dawley rats were microinjected with 0.5 microg of the selective mu-opioid receptor antagonist, cyclic D-phe-Cys-Try-D-Trp-Arg-Thr-Pen-Thr-NH2 (CTAP), into the POAH. Thirty min later, IL-6 (100 ng) was injected into the POAH. CTAP significantly blocked the IL-6 fever. CTAP alone had no effect on Tb during the 390-min recording period. These data indicate that mu-opioid receptors within the POAH mediate IL-6 fever and add to the increasing evidence that the opioid system is involved in the pathogenesis of fever in rats.
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PMID:Effect of a mu-opioid receptor-selective antagonist on interleukin-6 fever. 1200 6

The tumor necrosis factor alpha ( TNF alpha) gene from the marine fish, gilthead seabream (Sparus aurata L.), has been isolated by RT-PCR using degenerate primers designed against vertebrate TNF alpha conserved motifs and subsequent rapid amplification of cDNA ends (RACE). The TNF alpha cDNA consists of a 142 bp 5' untranslated region (5'UTR), a single open reading frame of 762 bp, which could code for a 253 amino acid protein, and a 476-bp 3'UTR. The protein sequence deduced from seabream TNF alpha gene shows a high degree of homology with the Japanese flounder TNF alpha (65.6% identity and 78.9% similarity) and, more important, it is more homologous to mammalian TNF alphas (41.1-48.6% similarity) than to TNF betas (36.0-43.5% similarity). The prediction of a transmembrane domain between residues 37 and 54 of seabream TNF alpha and the presence of a conserved Thr-Leu sequence, which is associated with cleavage of the mouse TNF alpha molecule, suggest that seabream TNF alpha exists in two forms, a membrane-bound and a soluble form. RT-PCR shows that the seabream TNF alpha messenger was widely and constitutively accumulated. Lastly, stimuli known to up-regulate seabream IL-1 beta, lipopolysaccharide and lymphocyte-derived macrophage-activating factor, failed to up-regulate TNF alpha in cultured macrophages. The putative role of three AU-rich endotoxin-responsive motifs (AREs) of seabream TNF alpha mRNA, found within two phylogenetically conserved protein binding regions, is discussed.
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PMID:Molecular cloning and expression analysis of tumor necrosis factor alpha from a marine fish reveal its constitutive expression and ubiquitous nature. 1207 49

We examined the in vivo effect of lipopolysaccharide (LPS) on Sp1 (promoter-selective transcription factor 1) DNA binding activity and studied the mechanisms involved in mouse lungs. The Sp1 DNA complex displayed a major band composed of Sp1, Sp2, and Sp3 trimer and a minor band composed of Sp3 homodimer. Compared with control, nuclear proteins from lungs challenged with LPS for 60, 90, 120, 150, 180, and 240 min, respectively, showed a markedly reduced Sp1 binding activity. Down-regulation of Sp1 binding activity was accompanied by a reduced expression of two Sp1-dependent genes (endothelial nitric oxide synthase and cyclooxygenase-1). Immunoprecipitation-Western blot experiments demonstrated that LPS dephosphorylated Sp1 protein at serine and threonine residues but not at the tyrosine residue. Dephosphorylation of Sp1 protein in vitro significantly reduced Sp1 DNA binding activity. Deglycosylation of Sp1 protein also reduced Sp1 binding activity. However, LPS did not cause Sp1 deglycosylation. LPS markedly reduced nuclear Sp1 protein level but had no significant effect on Sp1 mRNA abundance and on Sp1 protein nuclear translocation. Both Sp1 protein dephosphorylation and Sp1 protein degradation are temporally correlated to the reduced Sp1 binding activity. Our results demonstrate that challenge of mice with LPS in vivo down-regulates Sp1 DNA binding activity through promoting Sp1 protein dephosphorylation and degradation.
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PMID:Lipopolysaccharide down-regulates Sp1 binding activity by promoting Sp1 protein dephosphorylation and degradation. 1208 57

Secreted proteins of Mycobacterium tuberculosis are major targets of the specific immunity in tuberculosis and constitute promising candidates for the development of more efficient vaccines and diagnostic tests. We show here that M. tuberculosis-specific antigen 10 (MTSA-10, originally designated CFP-10) can bind to the surface of mouse J774 macrophage-like cells and stimulate the secretion of the proinflammatory cytokine tumor necrosis factor alpha (TNF-alpha). MTSA-10 also synergized with gamma interferon (IFN-gamma) for the induction of the microbicidal free radical nitric oxide (NO) in J774 cells, as well as in bone marrow-derived and peritoneal macrophages. On the other hand, pretreatment of J774 cells with MTSA-10 markedly reduced NO but not TNF-alpha or interleukin 10 (IL-10) release upon subsequent stimulation with lipopolysaccharide or the cell lysate of M. tuberculosis. The presence of IFN-gamma during stimulation with M. tuberculosis lysate antagonized the desensitizing effect of MTSA-10 pretreatment on macrophage NO production. The activation of protein tyrosine kinases (PTK) and the serine/threonine kinases p38 MAPK and ERK was apparently required for MTSA-10 induction of TNF-alpha and NO release, as revealed by specific kinase inhibitors. However, only p38 MAPK activity, not PTK or ERK activity, was partly responsible for MTSA-10-mediated macrophage desensitization. The modulation of macrophage function by MTSA-10 suggests a novel mechanism for its involvement in immunopathogenesis of tuberculosis and might have implications for the prevention, diagnosis, and therapy of this disease.
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PMID:Effect of Mycobacterium tuberculosis-specific 10-kilodalton antigen on macrophage release of tumor necrosis factor alpha and nitric oxide. 1243 25

The ubiquitously expressed latent interferon regulatory factor (IRF) 3 transcription factor is activated in response to virus infection by phosphorylation events that target a cluster of Ser/Thr residues, (382)GGASSLENTVDLHISNSHPLSLTSDQY(408) at the C-terminal end of the protein. To delineate the minimal phosphoacceptor sites required for IRF-3 activation, several point mutations were generated and tested for transactivation potential and cAMP-response element-binding protein-binding protein/p300 coactivator association. Expression of the IRF-3 S396D mutant alone was sufficient to induce type I IFN beta, IFNalpha1, RANTES, and the interferon-stimulated gene 561 promoters. Using SDS-PAGE and immunoblotting with a novel phosphospecific antibody, we show for the first time that, in vivo, IRF-3 is phosphorylated on Ser(396) following Sendai virus infection, expression of viral nucleocapsid, and double-stranded RNA treatment. These results demonstrate that Ser(396) within the C-terminal Ser/Thr cluster is targeted in vivo for phosphorylation following virus infection and plays an essential role in IRF-3 activation. The inability of the phosphospecific antibody to detect Ser(396) phosphorylation in lipopolysaccharide-treated cells suggests that other major pathways may be involved in IRF-3 activation following Toll-like receptor 4 stimulation.
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PMID:Identification of the minimal phosphoacceptor site required for in vivo activation of interferon regulatory factor 3 in response to virus and double-stranded RNA. 1252 42

Toll-like receptors (TLRs) and members of the proinflammatory interleukin 1 receptor (IL-1R) family are dependent on the presence of MyD88 for efficient signal transduction. The bipartite nature of MyD88 (N-terminal death domain [DD] and COOH-terminal Toll/IL-1 receptor [TIR] domain) allows it to link the TIR domain of IL-1R/TLR with the DD of the Ser/Thr kinase termed IL-1R-associated kinase (IRAK)-1. This triggers IRAK-1 phosphorylation and in turn the activation of multiple signaling cascades such as activation of the transcription factor nuclear factor (NF)-kappaB. In contrast, expression of MyD88 short (MyD88s), an alternatively spliced form of MyD88 that lacks only the short intermediate domain separating the DD and TIR domains, leads to a shutdown of IL-1/lipopolysaccharide-induced NF-kappaB activation. Here, we provide the molecular explanation for this difference. MyD88 but not MyD88s strongly interacts with IRAK-4, a newly identified kinase essential for IL-1R/TLR signaling. In the presence of MyD88s, IRAK-1 is not phosphorylated and neither activates NF-kappaB nor is ubiquitinated. Thus, MyD88s acts as a negative regulator of IL-1R/TLR/MyD88-triggered signals, leading to a transcriptionally controlled negative regulation of innate immune responses.
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PMID:Inhibition of interleukin 1 receptor/Toll-like receptor signaling through the alternatively spliced, short form of MyD88 is due to its failure to recruit IRAK-4. 1253 65

Mattacin is a nonribosomally synthesized, decapeptide antibiotic produced by Paenibacillus kobensis M. The producing strain was isolated from a soil/manure sample and identified using 16 S rRNA sequence homology along with chemical and morphological characterization. An efficient production and isolation procedure was developed to afford pure mattacin. Structure elucidation using a combination of chemical degradation, multidimensional NMR studies (COSY, HMBC, HMQC, ROESY), and mass spectrometric (MALDI MS/MS) analyses showed that mattacin is identical to polymyxin M, an uncommon antibiotic reported previously in certain Bacillus species by Russian investigators. Mattacin (polymyxin M) is cyclic and possesses an amide linkage between the C-terminal threonine and the side chain amino group of the diaminobutyric acid residue at position 4. It contains an (S)-6-methyloctanoic acid moiety attached as an amide at the N-terminal amino group, one D-leucine, six L-alpha,gamma-diaminobutyric acid, and three L-threonine residues. Transfer NOE experiments on the conformational preferences of mattacin when bound to lipid A and microcalorimetry studies on binding to lipopolysaccharide showed that its behavior was very similar to that observed in previous studies of polymyxin B (a commercial antibiotic), suggesting an identical mechanism of action. It was capable of inhibiting the growth of a wide variety of Gram-positive and Gram-negative bacteria, including several human and plant pathogens with activity comparable with purified polymyxin B. The biosynthesis of mattacin was also examined briefly using transpositional mutagenesis by which 10 production mutants were obtained, revealing a set of genes involved in production.
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PMID:Isolation, structural characterization, and properties of mattacin (polymyxin M), a cyclic peptide antibiotic produced by Paenibacillus kobensis M. 1256 4

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