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)

The adhesive interactions of circulating blood cells are tightly regulated, receptor-mediated events. To establish a model for studies on regulation of cell adhesion, we have examined the adhesive properties of the HD11 chick myeloblast cell line. Function-perturbing antibodies were used to show that integrins containing the beta 1 subunit mediate HD11 cell attachment to several distinct extracellular matrix proteins, specifically fibronectin, collagen, vitronectin, and fibrinogen. This is the first evidence that an integrin heterodimer in the beta 1 family functions as a receptor for fibrinogen. While the alpha v beta 1 heterodimer has been shown to function as a vitronectin receptor on some cells, this heterodimer could not be detected on HD11 cells. Instead, results suggest that the beta 1 subunit associates with different, unidentified alpha subunit(s) to form receptors for vitronectin and fibrinogen. Results using function-blocking antibodies also demonstrate that on these cells, additional receptors for vitronectin are formed by alpha v beta 3 and alpha v associated with an unidentified 100-kD beta subunit. The adhesive interactions of HD11 cells with these extracellular matrix ligands were shown to be regulated by lipopolysaccharide treatment, making the HD11 cell line attractive for studies of mechanisms regulating cell adhesion. In contrast to primary macrophage which rapidly exhibit enhanced adhesion to laminin and collagen upon activation, activated HD11 cells exhibited reduced adhesion to most extracellular matrix constituents.
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PMID:Adhesion of a chicken myeloblast cell line to fibrinogen and vitronectin through a beta 1-class integrin. 137 May

L-arginine-dependent production of reactive nitrogen intermediates (RNIs: nitric oxide, nitrite, and nitrate) by mammalian macrophages has been proposed to occur via an L-arginine oxidative deimination pathway and is known to be responsible for certain antineoplastic and antimicrobial effector functions. The present study represents the first examination of this pathway in a non-mammalian vertebrate. Because chickens, unlike mammals, lack a urea cycle and are incapable of de novo synthesis of L-arginine, the possible existence of an avian macrophage pathway for production of RNIs is questionable. We have defined conditions under which chicken macrophages are able to produce nitrite. Sephadex-elicited chicken peritoneal macrophages required a bacterial lipopolysaccharide (LPS from Escherichia coli) signal to produce nitrite during 24 hour cultures in the presence of L-arginine. As little as 5 ng/ml LPS resulted in significant nitrite production in culture. The relationship of nitrite production to both LPS and L-arginine levels was dose-dependent. D-arginine was unable to substitute for L-arginine but also produced no inhibitory effect. In contrast, L-NG-monomethyl arginine showed a significant inhibitory effect on nitrite production. A virus-transformed chicken macrophage cell line, HD11, also produced nitrite in a dose-dependent manner relative to both LPS and L-arginine concentration. Concentrations as low as 5 ng/ml LPS and 0.1 mM L-arginine resulted in significant nitrite production, while maximum levels of nitrite production were obtained using greater than or equal to 0.5 micrograms/ml LPS and greater than or equal to 0.4 mM L-arginine. These results indicate that chicken macrophages can produce RNIs. This production is dependent upon activation and is influenced by local L-arginine concentration. Moreover, because the chicken does not possess the ability to synthesize arginine and has an absolute nutritional requirement for this amino acid, the chicken represents a highly controllable system to examine the in vivo effects of L-arginine on macrophage-related immune functions.
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PMID:L-arginine-dependent production of a reactive nitrogen intermediate by macrophages of a uricotelic species. 205 46

The production of chicken myelomonocytic growth factor (cMGF) can be rapidly induced by bacterial lipopolysaccharide from the macrophage cell line HD11. Immunoprecipitation analysis of lipopolysaccharide-induced HD11 cells labeled with various radioactive precursors showed the secretion of a variety of cMGF forms. The precursor-product relationships of the different cMGF forms were studied by pulse-chase experiments, by long-term metabolic labeling in the presence or absence of glycosylation- and oligosaccharide-processing inhibitors, as well as by glycosidase treatment of immunoprecipitates. Our results show that the half-time for intracellular processing/secretion is less than 10 min, making cMGF one of the most rapidly processed proteins. The different forms of the factor are generated from a 24-kDa polypeptide precursor by co- and post-translational acquisition of one or two N-linked oligosaccharides and by O-linked glycosylation. In addition, a fraction of cMGF is modified by long chain, chondroitinase-sensitive, sulfated glycans. This modification is tunicamycin-sensitive, suggesting that the sulfated glycans are attached to N-linked rather than to O-linked oligosaccharides.
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PMID:Hematopoietic growth factor glycosylation. Multiple forms of chicken myelomonocytic growth factor. 327 26

HD11, a transformed avian macrophage cell line, and chicken peripheral blood leukocyte-derived macrophages (PBL-M phi) were stimulated with bacterial endotoxin lipopolysaccharide (LPS) or Eimeria tenella sporozoites and merozoites. The specific cytotoxicities of the culture supernatants against different target cell lines were measured, and the kinetics of tumor necrosis-like factor (TNF) production by HD11 and PBL-M phi were also measured. The results showed that HD11 and PBL-M phi secreted a TNF-like factor when stimulated with Eimeria parasites or LPS. A time- and dose-dependent TNF-like factors production by PBL-M phi was observed poststimulation with Eimeria parasites. Chicken TNF-like factor preferentially kills CHCC OU-2 cells, a fibroblast cell line of chicken origin, when compared to LM cells, a murine cell line used for mammalian TNF. This study indicates that chicken M phi produce a significant level of TNF-like factor following coccidial infection.
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PMID:Chicken tumor necrosis-like factor. I. In vitro production by macrophages stimulated with Eimeria tenella or bacterial lipopolysaccharide. 747 8

Macrophages respond to lipopolysaccharide (LPS) with the activation of various genes, including the lysozyme gene. Here, we show that the level of lysozyme mRNA increases following treatment of chicken myelomonocytic HD11 cells with LPS. By transient and stable transfection of the chloramphenicol acetyltransferase (CAT) gene controlled by regulatory elements of the lysozyme gene, we identified a subfragment of the -6.1 kilobase (kb) lysozyme enhancer that mediates the LPS-induced lysozyme expression. This subfragment contains two elements (D and E), each of which matches the highly degenerate consensus sequence of binding sites for C/EBP-like transcription factors. Furthermore, we found protein complexes to interact with elements D and E whose binding activity to elements D and E is LPS-inducible in myelomonocytic HD11 cells. Immunomobility shift assays show that NF-M, a myeloid-specific C/EBP beta-related transcription factor is an essential component of these protein complexes. Mutations of the C/EBP binding sites within D and E cause a reduction of basal activity and abolish LPS responsiveness of the -6.1 kb lysozyme enhancer. These results show that the -6.1 kb lysozyme enhancer, in addition to its role in cell type-specific expression, can mediate, by interacting with NF-M, LPS-induced expression of the lysozyme gene in chicken myelomonocytic cells.
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PMID:The far upstream chicken lysozyme enhancer at -6.1 kilobase, by interacting with NF-M, mediates lipopolysaccharide-induced expression of the chicken lysozyme gene in chicken myelomonocytic cells. 798 75

In an analysis of nitric oxide (.NO) production and toxicity, chicken macrophage-generated .NO inhibited mitochondrial activity in both .NO-producing macrophages themselves and lymphoid tumor targets. However, differences in targeting of mitochondrial toxicity were observed among these cells. Two chicken macrophage cell lines, HD11 and MQ-NCSU, produced .NO (measured as nitrite) dependent upon concentrations of L-arginine and bacterial endotoxin (lipopolysaccharide). Mitochondrial activity was negatively correlated with the amount of .NO produced. Using a modified MTT assay, .NO induced suppression in two mitochondrial complexes. Mitochondrial activity was significantly suppressed among HD11 cells receiving LPS alone (complex I, 63.0 +/- 5.5% suppression; complex II, 27.9 +/- 5.2%). In contrast, mitochondrial activities in samples receiving LPS plus inhibitor, NG-nitro-L-arginine methyl ester (NAME; 5 mM) or 2,4-diamino-6-hydroxypyrimidine (DAHP; 5 mM), were not significantly different from control values. When HD11 macrophages were cocultured with lymphoblastoid tumor targets, RECC-CU60 (T cell) or LSCC-RP9 (B cell), adding LPS (1 microgram/ml), tumor cell mitochondrial activity was significantly suppressed. In the generator macrophages, complex I was more suppressed than complex II, whereas in lymphoid targets no such difference was observed. These results indicate that .NO inhibits complex I and II mitochondrial activity but that differential targeting can occur among chicken leukocyte populations.
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PMID:Nitric oxide (.NO)-induced mitochondrial injury among chicken .NO-generating and target leukocytes. 802 70

The lysozyme gene is expressed at a low level in myeloblasts and is progressively activated to constitutively high expression in mature macrophages. The binding activity of the newly defined NF-kappa B/Rel family of transcription factors increases during the terminal differentiation of macrophages. In this study, I show that NF-kappa B/Rel-like proteins bind to the nuclear factor kappa B (kappa B)-like sequence of the lysozyme promoter. These binding activities were induced by treatment of HD11 cells with lipopolysaccharide. Immunomobility shift assays show that c-Rel is possibly a factor in the complexes that bind to the kappa B-like sequence lys kappa B. Binding activity to one of the protein complexes seems to be regulated by phosphorylation. In fact, overexpression of p65 and c-Rel stimulates expression of the chloramphenicol acetyltransferase gene controlled by the lysozyme promoter. Furthermore, co-transfection experiments reveal that the kappa B-like sequence within the lysozyme promoter mediates the transactivation by p65 and c-Rel. These results indicate that the p65 and c-Rel could be components of the protein complexes that bind to the kappa B-like sequence and this binding could contribute to the progressively activated expression of the lysozyme gene during the terminal differentiation of macrophages.
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PMID:Transcriptional activation of the chicken lysozyme gene by NF-kappa Bp65 (RelA) and c-Rel, but not by NF-kappa Bp50. 854 7

We have previously shown that macrophages from chickens infected with avian reovirus are primed to produce nitric oxide (NO) in response to T cell cytokines and bacterial lipopolysaccharide (LPS). We now show that NO exerts potent antireovirus effects. Reovirus replication was substantially reduced in a chicken macrophage cell line, HD11, induced to make NO by stimulation with LPS or conditioned medium from concanavalin A-stimulated spleen cells. The use of a competitive inhibitor of nitric oxide synthase, NG-monomethyl-L-arginine, reduced the antiviral effect of LPS-stimulated HD11 cells. Cytostatic effects were concurrent with the observed antiviral effects of NO. Among these cytostatic effects were reduction in DNA synthesis, protein synthesis, and mitochondrial metabolism. These results indicated that a potential consequence of macrophage priming following virus infection is the protection of cells against virus-induced replication and cytopathic effects, and this protection may be mediated by the cytostatic effects of NO on the host cell.
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PMID:An antiviral effect of nitric oxide: inhibition of reovirus replication. 879 Aug 84

We have examined the effects of repeated endotoxin administration in vivo and in vitro on the induction of nitric oxide synthase (NOS). In vivo, hepatic NOS activity and mRNA were increased markedly by the administration of Escherichia coli lipopolysaccharide (LPS). The change in hepatic NOS activity coincided with a marked accumulation of hepatic citrulline. Both enzyme activity and citrulline concentration returned to normal by 12 h after LPS administration. At this time, a subsequent administration of endotoxin caused no change in either NOS mRNA, NOS activity, or citrulline concentration, and thus an endotoxin-refractory state for nitric oxide (NO) synthesis was established. Normal sensitivity was reestablished by 24 h after the initial dose. In vitro studies using both a macrophage cell line (HD11) and primary macrophages indicated that LPS pretreatment caused cells in culture to become completely refractory to subsequent stimulation by LPS. Finally, we tested the hypothesis that NO may be involved in the development of the refractory state. Various inhibitors blocked the initial synthesis of NO by > 90% but failed to influence the development of the refractory state. Our study demonstrates both in vivo and in vitro that NO synthesis is completely blocked after repeated exposure to endotoxin by a mechanism that appears to be pretranslational. This model of early endotoxin tolerance may provide insight into the molecular mechanisms that regulate expression of the NOS gene.
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PMID:Inhibition of nitric oxide synthase gene expression in vivo and in vitro by repeated doses of endotoxin. 889 70

C/EBPbeta has been shown to mediate the lipopolysaccharide (LPS)-induced expression of the lysozyme gene through enhanced binding to the -6.1-kb lysozyme enhancer. In this study, we describe the LPS regulation of the C/EBPbeta gene in myelomonocytic HD11 cells. Northern analysis showed that the steady state level of C/EBPbeta mRNA increased in response to LPS. The half life of C/EBPbeta mRNA of about 1 h in HD11 cells was not affected by exposure to LPS. Nuclear run-on transcription experiments with isolated nuclei revealed that the rate of C/EBPbeta gene transcription was enhanced by LPS, demonstrating that the C/EBPbeta gene in HD11 cells was regulated at the transcriptional level in response to LPS. Furthermore, the LPS-induced binding activity of C/EBPbeta to the -6.1-kb lysozyme enhancer was dependent not only on protein synthesis, but also on transcription. Thus, these results suggested that the LPS-induced binding activity to the -6.1-kb lysozyme enhancer in HD11 cells was regulated by an enhanced transcription-dependent de novo synthesis of C/EBPbeta.
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PMID:Evidence for an enhanced transcription-dependent de novo synthesis of C/EBPbeta in the LPS activation of the chicken lysozyme gene. 906 Apr 61

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