Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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

The murine resistance gene Lsh/Ity/Bcg regulates activation of macrophages for tumour necrosis factor-alpha (TNF-alpha)-dependent production of nitric oxide mediating antimicrobial activity against Leishmania, Salmonella and Mycobacterium. As Lsh is differentially expressed in macrophages from different tissue sites, experiments were performed to determine whether interaction with extracellular matrix (ECM) proteins would influence the macrophage TNF-alpha response. Plating of bone marrow-derived macrophages onto purified fibrinogen or fibronectin-rich L929 cell-derived matrices, but not onto mannan, was itself sufficient to stimulate TNF-alpha release, with significantly higher levels released from congenic B10.L-Lshr compared to C57BL/10ScSn (Lshs) macrophages. Only macrophages plated onto fibrinogen also released measurable levels of nitrites, again higher in Lshr compared to Lshs macrophages. Addition of interferon-gamma (IFN-gamma), but not bacterial lipopolysaccharide or mycobacterial lipoarabinomannan, as a second signal enhanced the TNF-alpha and nitrite responses of macrophages plated onto fibrinogen, particularly in the Lshr macrophages. Interaction with fibrinogen and fibronectin also primed macrophages for an enhanced TNF-alpha response to leishmanial parasites, but this was only translated into enhanced nitrite responses in the presence of IFN-gamma. In these experiments, Lshr macrophages remained superior in their TNF-alpha responses throughout, but to a degree which reflected the magnitude of the difference observed on ECM alone. Hence, the specificity for the enhanced TNF-alpha responses of Lshr macrophages lay in their interaction with fibrinogen and fibronectin ECM, while a differential nitrite response was only observed with fibrinogen and/or IFN-gamma. The results are discussed in relation to the possible function of the recently cloned candidate gene Nramp, which has structural identity to eukaryote transporters and an N-terminal cytoplasmic proline/serine-rich putative SH3 binding domain.
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PMID:Interaction with extracellular matrix proteins influences Lsh/Ity/Bcg (candidate Nramp) gene regulation of macrophage priming/activation for tumour necrosis factor-alpha and nitrite release. 804 93

Macrophages from mice bearing large D1-DMBA-3 mammary tumors have a decreased capacity to kill tumor targets. This effect is due to an impaired ability to produce nitric oxide (NO) in response to lipopolysaccharide (LPS) stimulation. Here we report that the DA-3 tumor cell line, derived from the in vivo adenocarcinoma D1-DMBA-3, produces a factor that inhibits both NO production/release and cytotoxicity of LPS-activated peritoneal exudate macrophages (PEM). However, other complex macrophage functions such as phagocytosis, superoxide production, mitochondrial dehydrogenase activity, and synthesis of proteins were not reduced by this factor. The NO inhibitor has been found to be lipid in nature. Lipid extracts from DA-3 cell culture supernatants were purified by repeated silica gel column chromatography. The active molecule was unambiguously characterized as phosphatidyl serine (PS) by fast atom bombardment tandem mass spectrometry. Preliminary results indicate a lack of induced NO synthase (iNOS) activity in the lysates of LPS-activated PEM pretreated with PS. The ubiquity of PS in the inner leaflet of biological membranes and its NO inhibitory property, suggest that this phospholipid may be one of the long elusive molecules responsible for regulating physiological levels of NO in the host and hence preventing cellular dysfunction and/or tissue damage. Furthermore, the possible overexpression and shedding of PS by DA-3 tumor cells may represent a novel mechanism to impair macrophage cytotoxicity, a host function that contributes to the protection against developing neoplasms.
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PMID:Isolation of a nitric oxide inhibitor from mammary tumor cells and its characterization as phosphatidyl serine. 806 42

Endotoxemia, in man, has been associated with an autooxidative reduction in the bioavailability of polymorphonuclear leukocyte receptors. The location and mechanisms of this phenomena have remained unclear; we investigated the effects of lipopolysaccharide (LPS) on intracellular Fc gamma receptor expression. Polymorphonuclear leukocytes (PMN) were incubated with LPS (10 ng/ml), permeabilized with saponin, followed by measurement of CD64, CD32w, and CD16 (Fc gamma RI, II, III) using 125I-monoclonal antibodies directed against these receptors. Exposure of permeabilized PMN to LPS significantly reduced intracellular Fc gamma receptor expression. PMN isolated from patients with chronic granulomatous disease or myeloperoxidase-specific deficiency did not exhibit this effect. Furthermore, specific inhibitors of components of the PMN oxidative burst (NaN3, 10 mM; L-alanine 30 mM) prevented the LPS-induced oxidative reduction in receptor expression. NADPH oxidase inhibition with diphenyleneiodonium also blocked the effect of LPS on intracellular Fc gamma receptor expression. The effects of LPS on intracellular PMN Fc gamma receptors were reproduced with monophosphoryl lipid A but required a 10 times greater concentration than LPS. Preadherence of PMN on fibronectin or arginine-glycine-aspartate-serine (RGDS), but not laminin, prevented the LPS-induced reduction in oxidative receptor expression. The effects of fibronectin/RGDS were blocked by actinomycin D and cycloheximide. Cross-linkage of intracellular Fc gamma receptors prior to exposure to LPS also prevented the LPS-induced oxidative reduction in receptor expression. These results demonstrate that an important pathophysiologic property of LPS is to induce an intracellular oxidative-derived reduction in Fc gamma receptor expression and that the biologically relevant proteins fibronectin and RGDS ameliorate this effect.
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PMID:Regulation of intracellular polymorphonuclear leukocyte Fc receptors by lipopolysaccharide. 806 31

Secretory leukocyte inhibitor (SLPI) is a potent inhibitor of serine proteinases, but sensitive to oxidative inactivation due to a methionine residue in the active centre of the inhibitor. We compared the potency of an oxidation-resistant mutant of recombinant SLPI with native recombinant SLPI in lipopolysaccharide (LPS)-induced emphysema in the hamster. Application of this oxidation-resistant mutant reduced the induced emphysema by 70 and 85% in two separate series of experiments. In contrast, an equal amount of native rSLPI resulted in significantly lower inhibition, 30 and 23%, respectively (P = 0.002). To demonstrate the effect of oxygen radicals upon a single LPS instillation in the lungs, we measured anti-neutrophil elastase activity in lung lavage fluid at 10 and 24 h after the instillation of a mixture of LPS and native rSLPI. We found that residual native rSLPI was only 70 and 55% active, respectively. The rSLPI-mutant remained 93% active in a similar experiment. The native and mutant inhibitor showed equal potency against proteinases in a granule extract of hamster neutrophils. We conclude that the replacement of methionine by leucine in the inhibitory centre of rSLPI results in a decreased sensitivity to oxidative inactivation and that this alone is sufficient to explain the greater efficiency of the rSLPI-mutant in reducing the extent of LPS-induced emphysema.
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PMID:Potency of an oxidation-resistant mutant of secretory leukocyte proteinase inhibitor in lipopolysaccharide-induced emphysema in hamsters. 809 18

Tumour necrosis factor (TNF) is synthesized initially as a membrane-bound precursor which is then cleaved to yield soluble, mature protein. The 26,000 MW TNF precursor isolated from the lysate of activated RAW 264.7 (mouse macrophage) cells by immunoprecipitation was used to identify pro-TNF cleavage enzyme in the same cells. A significant amount of mature protein was formed in samples containing Nonidet P-40 (NP-40)-lysed cells, whereas sonicated cells showed negligible activity. Most of the cleavage activity in macrophages was localized in the membrane/particulate fraction and remained largely insoluble after sonication or treatment with 2 mM EDTA/1 M NaCl, indicating that the enzyme is associated with the membrane/particulate fraction. The crude cleavage activity in membrane/particulate was partially inhibited by a spectrum of serine, cysteine and aspartate proteinase inhibitors, whereas secretion of TNF from activated macrophages was inhibited exclusively by serine and serine/cysteine proteinase inhibitors. This result suggested that, among heterogenous pro-TNF cleavage activities, the enzyme responsible for the processing of TNF is a serine proteinase. Pro-TNF cleavage activity was present in non-stimulated macrophages and decreased significantly 8 hr after lipopolysaccharide (LPS) stimulation, suggesting that it is negatively regulated after an initial burst of TNF synthesis.
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PMID:Pro-tumour necrosis factor cleavage enzyme in macrophage membrane/particulate. 824 55

Vascular damage, initiated by host inflammatory cells, is a component of the pathophysiology of many acute and chronic inflammatory disorders. Neutrophil-mediated tissue damage is mediated primarily by proteinases, particularly elastase and cathepsin G. In this study we have identified endothelial binding of two key serine proteinase inhibitors (serpins), alpha 1-antitrypsin, the inhibitor of elastase, and alpha 1-antichymotrypsin, the inhibitor of cathepsin G. These serpins are shed from the endothelium into the supernatant when neutrophils adherent to the endothelium are activated. Endothelium activated by lipopolysaccharide (LPS) augments this process. Serpin-proteinase complexes activate neutrophils and induce further cytokine release, thereby amplifying inflammatory processes. Strategies aimed at preventing endothelial serpin depletion may help minimize vascular damage during inflammation.
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PMID:Endothelial serpins--protectors of the vasculature? 830 2

The two apparent form of the endotoxin-sensitive Factor C which were found to exist in the amoebocytes of horseshoe crabs have been separately purified to homogeneity from the lysate of the South-East Asian species, Carcinoscorpius rotundicauda. Both forms are serine proteinase zymogens having an apparent molecular mass of 132 kDa. By reducing SDS-PAGE, one was shown to consist of a single polypeptide while the other has a heavy chain (80 kDa) and a light chain (52 kDa) bridged by disulfide linkage(s). Both zymogen forms have endotoxin (lipopolysaccharide) receptors to which endotoxin binds to activate their catalytic sites. However, single-chain Factor C appears to have higher-affinity endotoxin-binding sites which are competitively but reversibly occupied by DMSO when the latter was added during its purification. Another salient difference between the two forms of Factor C is exhibited in their manner of activation by endotoxin. While double-chain Factor C appears similar to that of Tachypleus tridentatus, single-chain Factor C did not undergo any proteolytic cleavage upon activation. This conformational transition of zymogen activation suggests an alternative reversible pathway of endotoxin activation for the single-chain Factor C.
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PMID:Two forms of factor C from the amoebocytes of Carcinoscorpius rotundicauda: purification and characterisation. 837 18

epsilon receptor modulating protein (epsilon RMP) was identified and purified in our previous studies as a murine T cell-derived soluble 17-kDa chymotryptic serine protease which suppresses avidity of binding between IgE and CD23 (low affinity Fc receptor for IgE) without decreasing the quantitative expression of the CD23 molecule. Some, but not all, of the other known soluble serine proteases showed epsilon RMP-like CD23-modulating activities. Further studies indicated that epsilon RMP exists not only as a soluble protein but also as a 36-kDa T-cell surface form. Both soluble and membrane-bound epsilon RMP can induce purified splenic B cells to secrete IgE in the presence of IL-4 even without lipopolysaccharide (LPS). In this study, therefore, we have tested effects of several known serine proteases on Ig production in vitro and have found that: (i) coculture of splenic B cells in the presence of LPS and IL-4 with serine proteases which have epsilon RMP-like substrate specificity, such as kallikrein and alpha-chymotrypsin, results in a significant increase of IgG1 and a slight increase of IgE secretion at low concentrations, and significant suppression at high concentrations in an isotype-selective manner; and (ii) the effects of these proteases are blocked by phenylmethylsulfonyl fluoride but not by indomethacin, suggesting that serine protease activity but not prostaglandin E2 is involved. The biological significance of the possible involvement of serine proteases on Ig class switching is discussed.
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PMID:Biphasic effect of kallikrein on IgE and IgG1 syntheses by LPS/IL-4-stimulated B cells. 842 28

Two different approaches to identify the gene encoding the phosphoglucosamine mutase in Escherichia coli were used: (i) the purification to near homogeneity of this enzyme from a wild type strain and the determination of its N-terminal amino acid sequence; (ii) the search in data bases of an E. coli protein of unknown function showing sequence similarities with other hexosephosphate mutase activities. Both investigations revealed the same open reading frame named yhbF located within the leuU-dacB region at 69.5 min on the chromosome (Dallas, W. S., Dev, I. K., and Ray, P. H. (1993) J. Bacteriol. 175, 7743-7744). The predicted 445-residue protein with a calculated mass of 47.5 kDa contained in particular a short region GIVISASHNP with high similarity to the putative active site of hexosephosphate mutases. In vitro assays showed that the overexpression of this gene in E. coli cells led to a significant overproduction (from 15- to 50-fold) of phosphoglucosamine mutase activity. A hexose 1,6-diphosphate-dependent phosphorylation of the enzyme, which probably involves the serine residue at position 102, is apparently required for its catalytic action. As expected, the inactivation of this gene, which is essential for bacterial growth, led to the progressive depletion of the pools of precursors located downstream from glucosamine 1-phosphate in the pathway for peptidoglycan synthesis. This was followed by various alterations of cell shape and finally cells were lysed when their peptidoglycan content decreased to a critical value corresponding to about 60% of its normal level. The gene for this enzyme, which is essential for peptidoglycan and lipopolysaccharide biosyntheses, has been designated glmM.
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PMID:Characterization of the essential gene glmM encoding phosphoglucosamine mutase in Escherichia coli. 855 May 80

Monocytes freshly isolated from human blood produced large amounts of superoxide when triggered by phorbol ester. After monocytes were cultured for 18-24 hr in endotoxin-free, non-adherent conditions, they produced low amounts of superoxide. Addition of lipopolysaccharide (LPS), interferon-gamma (IFN-gamma), tumour necrosis factor-alpha (TNF-alpha), or platelet-activating factor (PAF) at the beginning of culture 'primed' the monocytes, causing them to maintain a high superoxide response for at least 96 hr. Also, in response to LPS, monocytes secreted TNF-alpha. The ability of LPS, IFN-gamma, TNF-alpha or PAF to maintain the high superoxide response was blocked by addition of inhibitors of serine proteases, either 4-(2-aminoethyl)-benzenesulphonyl fluoride (AEBSF) or 3,4-dichloroisocoumarin. AEBSF was most effective at 200 microns, and required 6 hr for maximum effect. AEBSF did not affect phorbol-triggered superoxide release by unprimed monocytes. AEBSF did not affect cell viability, nor did it interfere with the TNF-alpha secretion in response to LPS. An analogue of AEBSF that lacked ability to inhibit proteases did not affect monocyte responses. 3,4-Dichloroisocoumarin blocked priming at a low concentration, 1 microM. We conclude that activity of a monocyte serine protease is required to maintain the high superoxide response in monocytes primed with LPS, IFN-gamma, TNF-alpha, or PAF.
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PMID:Serine protease inhibitors block priming of monocytes for enhanced release of superoxide. 856 31


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