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)

Tumor necrosis factor-alpha (TNF-alpha), produced predominantly by activated monocytes/macrophages, inhibits leukemic cell growth and may contribute to a graft-versus-leukemia effect after marrow transplantation. We examined the recombinant cytokines interferon (IFN)-alpha, IFN-gamma, granulocyte- macrophage colony-stimulating factor (GM-CSF), and macrophage colony-stimulating factor (M-CSF), alone or in combination, for their ability to induce monocytes from normal donors and patients after marrow grafting to express TNF-alpha mRNA and secrete TNF-alpha bioactivity. Monocytes were isolated from peripheral blood by Percoll separation of E-rosette-negative cells, and cultured with cytokines under non-adherent, endotoxin-free conditions. TNF-alpha transcripts were undetectable in freshly isolated monocytes from normal donors. Only the combination of IFN-gamma/GM-CSF was consistently capable of inducing substantial TNF-alpha mRNA transcript levels and protein secretion. Levels of TNF-alpha transcripts induced by IFN-gamma/GM-CSF were maintained for at least 36 h, in contrast to lipopolysaccharide (LPS) stimulation which caused TNF-alpha mRNA levels to peak after 2 h and decline rapidly thereafter. IFN-gamma/GM-CSF was also capable of inducing a prolonged (at least 48 h) secretion of TNF-alpha bioactivity. In contrast, greater than 80% of the total TNF-alpha bioactivity secreted by LPS-stimulated monocytes was secreted in the first 8 h. When monocytes were incubated with IFN-gamma alone ('priming'), washed and then exposed to GM-CSF, both TNF-alpha mRNA expression and TNF-alpha protein production occurred.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Regulation of tumor necrosis factor-alpha production and gene expression in monocytes. 161 21

We examined the responsiveness of two factor-dependent macrophage cell lines, BDM-1 and its subclone, BDM-1W3, to bacterial lipopolysaccharide (LPS), interferon-gamma (IFN-gamma), and tumor necrosis factor-alpha (TNF-alpha) for their growth. LPS inhibited the M-CSF-dependent proliferation of BDM-1 cells but it had no effect on the proliferation of BDM-1W3 cells. LPS promoted DNA synthesis and supported the cell viability in the absence of CSFs in BDM-1 and BDM-1W3 cells, suggesting that the intracellular signals are transduced from the interaction of LPS with LPS-binding sites in BDM-1W3 cells as well as in BDM-1 cells. IFN-gamma inhibited the proliferation of BDM-1 and BDM-1W3 cells. However, BDM-1 cells were more susceptible to the inhibitory effect of IFN-gamma than BDM-1W3 cells. In contrast to LPS and IFN-gamma, TNF-alpha did not inhibit the proliferation of BDM-1 and BDM-1W3 cells. These cell lines should be useful for studying the regulatory mechanisms in CSF-dependent macrophage proliferation.
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PMID:Differential effects of bacterial lipopolysaccharide and interferon-gamma on proliferation of two factor-dependent macrophage cell lines. 164 63

Macrophages are uniquely responsive to bacterial lipopolysaccharide (LPS) for activation of a number of host defense functions and production of bioactive mediators. One potentially important mediator produced by LPS-stimulated macrophages is interferon (IFN-alpha/beta). In contrast to murine observations, we have observed that freshly isolated human monocytes, purified by counter-current centrifugal elutriation, do not produce interferon in response to LPS. This is not due to a lack of response to LPS, as assessed by the induction of other monokines, or to an incapacity for IFN production, since IFN was inducible by poly-I,C treatment of monocytes in the absence of any other exogenous stimulus. However, human monocytes can be primed for the production of IFN in response to LPS if they are cultured in the presence of either granulocyte-macrophage colony stimulating factor (GM-CSF) or interferon-gamma (IFN-gamma). The IFN secreted is of the alpha subtype. Monocytes primed with GM-CSF or IFN-gamma also maintained LPS responses for production of tumor necrosis factor-alpha (TNF-alpha) and interleukin-1 beta (IL-1). M-CSF did not prime monocytes for LPS-induced IFN production, although it did enhance production of TNF-alpha and promoted monocyte survival. Northern analysis indicated that the induction of IFN-alpha by LPS was regulated primarily at the mRNA level. The highly regulated production of IFN-alpha by monocytes/macrophages has important implications for autocrine action of interferons in the activation and differentiation of these cells.
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PMID:Regulation of interferon production by human monocytes: requirements for priming for lipopolysaccharide-induced production. 164 41

The regulatory mechanisms which control the wide array of cellular responses to transforming growth factor beta (TGF beta) are not understood. This report presents evidence that down-regulation of TGF beta receptors on human monocytes may be one mechanism by which the effects of TGF beta are regulated. Treatment of monocytes with interferon gamma (IFN gamma) and lipopolysaccharide for 18 h reduced monocyte receptor number (approximately 400/cell) in a dose-dependent fashion by 89 and 78%, respectively, as determined by 125I-TGF beta binding. Incubation with other cytokines (granulocyte-macrophage colony-stimulating factor, macrophage colony-stimulating factor-1, interleukin-1, tumor necrosis factor alpha) did not alter the amount of TGF beta bound. The decrease in 125I-TGF beta binding could not be attributed to competition for receptor sites by secreted TGF beta. Instead, the decline in binding was due to a loss of type I TGF beta receptors, the subtype primarily expressed by monocytes, with no decrease in receptor affinity. Lipopolysaccharide-induced receptor loss was rapid (1-4 h), in contrast to the prolonged (12 h) decline induced by IFN gamma. Loss of receptors was accompanied by a diminished ability of the cells to respond to TGF beta with an induction of TNF alpha mRNA. Thus, this monocyte system is the first example of a heterologous agent causing the down-regulation of TGF beta receptors with a concomitant decline in a TGF beta-stimulated function.
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PMID:Modulation of monocyte type I transforming growth factor-beta receptors by inflammatory stimuli. 165 92

The colony-stimulating factors (CSF) belong to a group of proteins which regulate blood cell production. Human monocytes allowed to adhere express high levels of M-CSF transcripts and secreted protein at 24 h in the presence but not in the absence of indomethacin (Indo), an inhibitor of prostaglandin E (PGE) production. When induced with lipopolysaccharide (LPS), adherent monocytes express M-CSF, G-CSF, and GM-CSF transcripts and secrete these proteins and TNF. M-CSF and GM-CSF messages increase in LPS-induced monocytes by the addition of Indo, while G-CSF mRNA appears to decrease. Exogenous addition of PGE-2 to LPS-induced monocytes down-modulates the expression of M-CSF and GM-CSF transcripts. G-CSF message is elevated, suggesting an alternate pathway to G-CSF regulation. PGE-2 inhibits the secretion of CSFs and TNF. In contrast, LPS-induced monocytes held 24 h in nonadherent culture express G- and GM-CSF but not M-CSF. Monocytes that are adhered for 24 h and then treated with LPS for an additional 24 h express only M-CSF message and secrete M-CSF and TNF. PGE-2 added with LPS during the 24-48 h induction blocks M-CSF and TNF production, but appears to enhance M-CSF message expression, in contrast to its effect on 0 h inductions. These results suggest that adherence alone induces M-CSF gene expression, but low levels of PGE or other arachidonic acid metabolites limit this expression. Other events in 1 d-cultured monocytes block the ability to induce G-CSF and GM-CSF expression with LPS, and block the suppressive effect of PGE-2 on M-CSF expression at the RNA level.
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PMID:Differential expression of M-CSF, G-CSF, and GM-CSF by human monocytes. 168 60

Interleukin-3 (IL-3)-dependent mouse myeloid 32DC13 cells differentiate to neutrophils in response to granulocyte colony-stimulating factor (G-CSF). Introduction of the human c-fms gene, which encodes the receptor for CSF-1, into 32DC13 cells gave rise to variants that were able to proliferate in medium containing either murine IL-3 or human recombinant CSF-1, but were unable to differentiate to granulocytes in response to G-CSF. Unlike parental 32CD13 cells, CSF-1-responsive derivatives expressed nonspecific esterase when grown in CSF-1, but did not exhibit many other morphologic, immunologic, or functional properties of mononuclear phagocyte differentiation, or express murine CSF-1 receptors. Accelerated turnover of the human CSF-1 receptor was observed in response to CSF-1 and phorbol esters, but not after stimulation with IL-3 or bacterial lipopolysaccharide. Although both CSF-1 and IL-3 induced tyrosine phosphorylation of heterologous substrates in the dually responsive cells, differences in the patterns of substrate phosphorylation were observed in response to the two hematopoietins. We conclude that expression of the human CSF-1 receptor in 32DC13 cells not only induces CSF-1 responsiveness, but alters its phenotype in a way that prohibits granulocyte differentiation.
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PMID:Human colony-stimulating factor 1 (CSF-1) receptor confers CSF-1 responsiveness to interleukin-3-dependent 32DC13 mouse myeloid cells and abrogates differentiation in response to granulocyte CSF. 169 32

We have previously shown that the antiviral state of explanted mouse peritoneal macrophages (PM) decays during in vitro culture and that this decay is much more rapid in Lpsd PM than it is in Lpsn PM. Moreover, Lpsn PM can transfer the antiviral state to other cells, whereas Lpsd PM cannot. In vitro treatment of Lpsn PM with different agents [i.e., bacterial lipopolysaccharide (LPS), interferon (IFN)-gamma, tumour necrosis factor (TNF)-alpha, macrophage colony-stimulating factor (M-CSF) and antibody to Mac-1 antigen] induced an antiviral state to vesicular stomatitis virus (VSV) which was inhibited by antibodies to IFN-beta. Treatment of Lpsn PM with LPS or IFN-gamma resulted in greater accumulation of IFN-beta mRNA, whereas no change in the barely detectable levels of IFN-alpha mRNA was observed. Marked accumulation of IFN-beta mRNA was also observed in PM after TNF-alpha treatment. M-CSF and IFN-gamma (but not LPS) also induced an IFN-mediated antiviral state in Lpsd PM. Low levels of spontaneous transcription of IFN-beta mRNA were detected in nuclei from Lpsd PM. Treatment of Lpsd PM with IFN-gamma for 3 h resulted in the accumulation of IFN-beta mRNA without any concomitant increase in the transcription of the IFN-beta gene, as determined by run-on transcription assays with isolated nuclei. The addition of as little as I international unit/ml of IFN-gamma to PM resulted in a 100-fold inhibition of VSV yield. As antibodies to IFN-alpha/beta inhibited only a portion of the IFN-gamma-induced antiviral state, such an antiviral state might reflect the synergism between IFN-gamma and endogenous IFN-beta. In fact, the addition of low doses of both IFN-gamma and IFN-beta to either Lpsn or Lpsd PM resulted in synergistic antiviral effects. In vivo treatment of Lpsd mice with granulocyte-macrophage (GM)-CSF, M-CSF, IFN-gamma or Newcastle disease virus rendered peritoneal cells capable of transferring an antiviral state. These results indicate that (i) various stimuli can induce IFN-beta production by PM, (ii) Lpsd PM spontaneously transcribe low levels of IFN-beta mRNA, even though they cannot transfer an antiviral state, (iii) different stimuli, but not LPS, induce a normal IFN response in Lpsd PM, (iv) IFN-gamma increases the accumulation of IFN-beta mRNA in Lpsd PM by post-transcriptional mechanisms and (v) IFN-gamma may act synergistically with endogenous IFN-beta in inducing a potent antiviral state to VSV in PM.
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PMID:Effects of different biological response modifiers on interferon expression in bacterial lipopolysaccharide (LPS)-responsive and LPS-hyporesponsive mouse peritoneal macrophages. 170 75

The versatility and importance of macrophages in host defense and homeostasis have long been recognized. Anatomically, macrophages isolated from various tissues manifest extreme differences in shape, in metabolic and functional activities, and in the expression of macrophage-specific markers. To determine the mechanisms responsible for generating macrophage heterogeneity, we have employed the reverse transcription-polymerase chain reaction to molecularly phenotype colonies of bone marrow-derived macrophages during differentiation in vitro. By utilizing this method, results have revealed a hierarchal expression of macrophage-associated genes. Tumor necrosis factor alpha was expressed in all colonies analyzed suggesting an important role for this molecule during macrophage differentiation. Predominant colony phenotypes observed were unique for (i) the period of differentiation and (ii) the growth factor with which they were derived (either colony-stimulating factor 1 or granulocyte-macrophage colony-stimulating factor). Exogenous stimulation of the cultures with either bacterial lipopolysaccharide or interferon-gamma led to predictable phenotypic transitions. These results suggest that macrophage heterogeneity is generated through differentiation-related mechanisms and that generated macrophage phenotypes are then maintained by systemic environmental constraints.
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PMID:Macrophage heterogeneity occurs through a developmental mechanism. 170 15

Tumor necrosis factor alpha, granulocyte colony-stimulating factor, granulocyte/macrophage colony-stimulating factor, and formyl peptide were each found to cause a twofold increase in expression of CD14 on the surface of polymorphonuclear leukocytes (PMN). Upregulation of CD14 was complete by 20 min and thus appeared to result from expression of preformed stores of protein. The CD14 on the surface of PMN was shown to serve two biological functions. It bound particles coated with complexes of lipopolysaccharide (LPS) and LPS binding protein (LBP). This binding activity was enhanced by agonists that upregulated CD14 expression and may serve in the clearance of Gram-negative bacteria opsonized with LBP. Interaction of CD14 with LPS in the presence of LBP or serum also caused a dramatic, transient increase in the adhesive activity of CR3 (CD11b/CD18) on PMN. Enhanced activity of CR3 and other members of the CD11/CD18 family underlies many of the known physiological responses of PMN to LPS and may be a central feature of the in vivo responses of PMN to endotoxin.
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PMID:Activation of the adhesive capacity of CR3 on neutrophils by endotoxin: dependence on lipopolysaccharide binding protein and CD14. 170 13

We examined the effects of bacterial lipopolysaccharide and several recombinant human cytokines (tumor necrosis factor alpha and granulocyte-, macrophage-, and granulocyte-macrophage colony-stimulating factors) on the expression of the genes for the phagocyte cytochrome b, an essential component of the superoxide-generating oxidase. In vitro treatment with lipopolysaccharide, tumor necrosis factor alpha, or macrophage- or granulocyte-macrophage colony-stimulating factors increased the levels of transcripts for the cytochrome b heavy chain (gp91phox) 9- to 22-fold and transcripts for the light chain (p22phox) 2- to 5-fold in cultured human monocyte-derived macrophages. The same agents, except for macrophage colony-stimulating factor, induced the expression of the cytochrome b heavy chain gene 2- to 12-fold and light chain gene 2- to 6-fold in human granulocytes. The expression of the cytochrome b heavy and light chain genes was coordinated in both macrophages and neutrophils with regard to stimulus specificity and dose-response pattern. The time course for induction of the two genes was parallel in both cell types for all stimuli. The macrophage response to lipopolysaccharide occurred at least in part at the transcriptional level. These results show that a variety of physiological regulators modulate the coordinated expression of the cytochrome b genes.
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PMID:In vitro regulation of human phagocyte cytochrome b heavy and light chain gene expression by bacterial lipopolysaccharide and recombinant human cytokines. 171 8

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