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)

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

The infiltration of monocytes into the vascular wall and their transformation into lipid-laden foam cells characterizes early atherogenesis. Macrophages are also present in more advanced human atherosclerotic plaques and can produce many mediators that may contribute to lesion formation and progression. Macrophage colony-stimulating factor (MCSF) enhances the proliferation and differentiation of monocyte progenitors and is required for the survival and activation of mature monocytes and macrophages. The authors therefore examined the expression of the MCSF gene in cultured human vascular endothelial (EC) and smooth muscle cells (SMC) as well as in atheromatous lesions from rabbits and humans. Growth arrested EC and SMC contain a low level of MCSF mRNA. Bacterial lipopolysaccharide (LPS), recombinant human interleukin-1 alpha (IL-1 alpha) or tumor necrosis factor alpha (TNF alpha) induced MCSF mRNA accumulation in a concentration-dependent manner in both EC and SMC. These stimuli induced large increases in MCSF mRNA with peak induction between 4-8 hours after treatment. LPS, IL-1 alpha, and TNF alpha stimulated EC and SMC also showed increased fluorescent antibody staining for MCSF protein and released immunoreactive MCSF in a time-dependent manner. In contrast, phorbol 12-myristate 13-acetate (PMA) was a less potent inducer of MCSF gene expression and iron-oxidized low-density lipoproteins (ox-LDL) did not increase consistently MCSF mRNA or the synthesis and secretion of immunoreactive protein. Northern analysis of mRNA isolated from the atheromatous aorta of rabbits fed a 1% cholesterol diet for 10 weeks showed elevated MCSF mRNA compared with controls. Immunostaining of atheromatous arterial lesions of rabbits demonstrated MCSF protein in association with intimal SMC as well as macrophages. Furthermore, polymerase chain reaction (PCR) analysis of MCSF mRNA in human atheromata showed higher levels than found in nonatherosclerotic arteries and veins. Since the authors found no mRNA for the MCSF receptor, c-fms, in cultured EC or SMC macrophages are likely the primary target for MCSF within atheromatous vessels. The authors therefore investigated the effects of MCSF on monocyte functions related to foam cell development. Treatment of cultured human monocytes with recombinant human MCSF (10(3) U/ml, 72 hr) led to the accumulation of mRNA for the acetyl-LDL (scavenger) receptor and apolipoprotein E (apo E). These studies establish that vascular EC and SMC produce substantial MCSF in response to a variety of stimuli. The local production of MCSF during atherogenesis may contribute to macrophage survival and proliferation or activate specific macrophage functions such as expression of the scavenger receptor and secretion of apo E.
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PMID:Macrophage colony-stimulating factor gene expression in vascular cells and in experimental and human atherosclerosis. 173 24

The concentration of the macrophage-specific colony-stimulating factor (CSF-1) and the numbers of bone marrow and spleen cells with specific receptors for that factor have been investigated in a number of mouse strains under normal conditions and after infection with the facultative intracellular bacterium Listeria monocytogenes. The CSF-1 concentration in serum and tissue was markedly elevated in infected mice, the degree of stimulation reflecting the dose of L. monocytogenes. The CSF-1 titer did not correlate with genetic resistance or susceptibility of the mice to L. monocytogenes. In contrast to the effect of lipopolysaccharide, Listeria infection was able to increase the level of CSF-1 in the lipopolysaccharide nonresponder strain C3H/HeJ. In line with earlier findings on colony-forming cells, cells bearing receptors for CSF-1 in uninfected susceptible BALB/cJ mice were only half those in resistant C57BL/6J mice. After infection the majority of these cells disappeared from the bone marrow and spleen cells of both resistant and susceptible mice. The number of CSF-1 receptor-bearing cells in the normal bone marrow may determine the degree of resistance to L. monocytogenes.
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PMID:Macrophage production during murine listeriosis: colony-stimulating factor 1 (CSF-1) and CSF-1-binding cells in genetically resistant and susceptible mice. 326 88

Expression of the c-fos, c-myc, and c-fms proto-oncogenes has been studied in thioglycollate-elicited murine peritoneal macrophages after exposure to lipopolysaccharide (LPS). After incubation with LPS (20 ng/ml), a transient and rapid induction of the expression of c-fos and c-myc oncogenes could be observed, whereas the RNA levels for c-fms were not affected. Treatment with lipid A, the active moiety of the LPS molecule, increased the c-fos and c-myc expression to a comparable degree. Similar induction of c-fos and c-myc was observed after treatment with phorbol myristate acetate, suggesting that this effect of LPS on murine macrophages might be mediated through stimulation of protein kinase C. Under similar experimental conditions, LPS treatment of macrophages did not trigger DNA synthesis. Treatment with LPS blocked DNA synthesis in macrophages treated with L cell-conditioned medium containing colony-stimulating factor. Thus changes in c-fos and c-myc expression may be elements in the complex series of biochemical events that contribute to macrophage activation and are not necessarily related to induction or priming for cellular proliferation.
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PMID:Treatment of murine peritoneal macrophages with bacterial lipopolysaccharide alters expression of c-fos and c-myc oncogenes. 376 May 71

The ability of the mononuclear phagocyte-specific colony-stimulating factor, CSF-1, to down-regulate its receptor on peritoneal exudate macrophages (PEM) was examined. Because of the essentially irreversible binding of CSF-1 to its receptor at 2 degrees C, unoccupied cell surface receptors could be measured by rapidly cooling PEM to 2 degrees C and determining the amount of 125I-CSF-1 bound at this temperature. On incubation with 125I-CSF-1 at 37 degrees C more receptors were lost than could be accounted for by 125I-CSF-1 binding. This receptor loss, apparently caused by CSF-1 itself, was shown to be due in large part to the presence of contaminating lipopolysaccharide (LPS), which at 10 ng/ml was by itself able to cause complete loss of the CSF-1 receptors. LPS also induced loss of the insulin receptor by PEM. LPS did not cause apparent CSF-1 receptor loss by binding to the receptor or by stimulating the release of CSF-1 or substances which compete for the binding of 125I-CSF-1 to the receptor. However, LPS did stimulate release of factors by LPS responsive (C3H/HeN) PEM which caused CSF-1 receptor loss by LPS non-responsive (C3H/HeJ) PEM. In the absence of LPS induced effects, incubation of 125I-CSF-1 with PEM at 37 degrees C resulted in down-regulation of the CSF-1 receptors. The number of CSF-1 receptor sites down-regulated corresponded to the number of CSF-1 molecules that were cell-associated plus the number that were intracellularly degraded and released.
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PMID:Modulation of receptors for the colony-stimulating factor, CSF-1, by bacterial lipopolysaccharide and CSF-1. 609 75

In this study we have examined the expression and modulation of the human granulocyte colony-stimulating factor (G-CSF) receptor (R) in immature and differentiated myeloid cells using a 125I labelled human G-CSF analogue (TG50). Equilibrium binding data revealed a single affinity class of receptor on all cell types expressing G-CSFR (KD 235-606 pM) with neutrophils expressing 2883 +/- 672 Rs/cell. Rapid internalization of surface receptor-bound ligand at 37 degrees C was detected in both immature cells (U937) and neutrophils with > 70% of specifically bound ligand internalized within 5 min. Concentration-response data showed that the level of occupancy of neutrophil G-CSFRs by ligand at 37 degrees C was approximately 5-fold greater than predicted by equilibrium binding data and correlated closely with concentration-response data for biological activity. Re-expression of G-CSFRs following down-regulation by internalization was not detected. Down-regulation of the neutrophil G-CSFR by several agents including granulocyte-macrophage colony-stimulating factor (GM-CSF), tumour necrosis factor (TNF), lipopolysaccharide (LPS), f-met-leu-phe (fMLP), phorbol ester (TPA) and C5a was observed at 37 degrees C but not at 4 degrees C. In contrast, G-CSFRs on immature myeloid cells were significantly down-regulated by TPA only. Differentiation of myeloid leukaemic cell line HL-60 with DMSO, a frequently used model of granulocytic differentiation, was associated with a significant reduction in G-CSFR expression (11 +/- 5% of control) whereas treatment with retinoic acid led to increased G-CSFR expression (161 +/- 3%).
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PMID:Expression and dynamic modulation of the human granulocyte colony-stimulating factor receptor in immature and differentiated myeloid cells. 750 64

The expression of cytokine genes for interleukin-1 (IL-1) (alpha and beta) and tumour necrosis factor-alpha (TNF-alpha), along with the proto-oncogenes c-fos, c-fms and c-myc, was examined by nuclear run-off and Northern blot analysis during in vitro differentiation of colony-stimulating factor type-1 (CSF-1)-derived bone marrow macrophages (BMDM). Constitutive transcription of c-myc was maximal on day 3 and decreased with differentiation. Constitutive transcription of c-fms and c-fos was similar at all times examined. In contrast, the steady-state mRNA levels were maximal on day 5 for c-myc and day 7 for c-fms and c-fos. Thirty minutes after endotoxin (lipopolysaccharide; LPS) stimulation, there was a rapid increase in run-off transcription rates for c-myc in day 3-day 9 BMDM, with maximal levels observed in day 7 BMDM. c-fms transcription was maximally induced within 1 hr by LPS in day 3 and day 5 BMDM. LPS induced transcription of c-fos to equivalent levels in day 3-day 9 BMDM. LPS stimulation augmented steady-state mRNA levels for c-myc, c-fms and c-fos. Maximal induction of c-myc was observed in day 3 BMDM. c-fos and c-fms were both maximally induced in day 5 and day 7 BMDM. Interferon-gamma (IFN-gamma) had no effect on transcription of the proto-oncogenes examined. In contrast to the proto-oncogenes, peak levels of run-off transcription for IL-1 alpha and IL-1 beta genes were observed 1-2 hr after LPS stimulation for day 3, day 5 and day 7 BMDM. The kinetics of LPS-induced steady-state mRNA accumulation of IL-1 alpha and IL-1 beta were similar to the kinetics of run-off transcription. Constitutive transcription of TNF-alpha was observed on all days of differentiation. LPS and IFN-gamma both enhanced run-off transcription of the TNF-alpha gene; however, LPS had a more pronounced effect. The kinetics of induction of TNF-alpha transcription paralleled the kinetics of steady-state TNF-alpha mRNA accumulation. IFN-gamma resulted in secretion of TNF-alpha in day 5, day 7, and day 9 BMDM after 4-8 hr of stimulation. Day 3 BMDM had little, if any, secreted TNF-alpha activity.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Endotoxin and interferon-gamma differentially regulate the transcriptional levels of proto-oncogenes and cytokine genes during the differentiation of colony-stimulating factor type-1-derived macrophages. 764 23

Macrophages (M phi)3 function by a two-step process that includes priming (induction of cytokine and enzyme mRNA) and activation (production of effector molecules). The initial steps in M phi priming involve the expression of certain proto-oncogenes that regulate expression of other genes. Because tumor growth primes M phi to produce several suppressor monokines, we determined if cancer induced M phi expression of these proto-oncogenes. Unstimulated peritoneal M phi from tumor-bearing hosts (TBH) constitutively expressed the proto-oncogenes c-fms, c-fos, c-myc, and c-myb, whereas normal host (NH) M phi had little or no expression of these proto-oncogenes. When M phi were given a 24-h adherence priming stimulus, NH M phi expressed c-fms and c-fos at levels equivalent to TBH M phi constitutive expression. Adherence had little or no effect on c-fms and c-fos expression in TBH M phi or on NH and TBH M phi c-myc expression. c-myb expression was not induced in NH M phi during adherence and was strongly decreased in TBH M phi. Activation with a 1-h lipopolysaccharide-treatment increased NH and TBH M phi expression of c-fms, c-fos, and c-myc, with higher expression of these proto-oncogenes in TBH M phi. Activation failed to induce c-myb expression in NH M phi and completely inhibited expression in TBH M phi. Because c-fms, c-fos, and c-myc are normally expressed early during M phi activation, our results suggest that tumor growth primes M phi by inducing expression of these proto-oncogenes. c-myb is expressed in immature M phi and is downregulated during M phi activation. These observations explain why NH M phi expression of c-myb was not induced and are consistent with reports that suggest TBH M phi have not reached full developmental maturity. The induction of M phi proto-oncogene expression during cancer may put M phi in a primed state, which leads to earlier and stronger production of adverse suppressor and cytotoxic molecules.
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PMID:Macrophage priming and activation during fibrosarcoma growth: expression of c-myb, c-myc, c-fos, and c-fms. 785 63

The process of tumorigenesis is frequently associated with resistance to growth inhibition by physiological regulators of normal cells. Murine macrophage-like cell lines BAC1.2F5, RAW264, J774.1A and PU5/1.8 were resistant to growth inhibition by bacterial lipopolysaccharide (LPS) and pertussis toxin, agents that blocked growth of primary bone marrow-derived macrophages (BMDM) in the presence of macrophage colony-stimulating factor (CSF-1). The resistance of the CSF-1-dependent cell line BAC1.2F5 to growth inhibition by pertussis toxin argues against the possibility that pertussis toxin-sensitive G proteins are essential for the pathway of growth stimulation by CSF-1. Conversely, these data add further weight to the argument that LPS mediates some of its biological activities by mimicking the action of pertussis toxin and inhibiting G protein function. The resistance of cell lines to LPS and pertussis toxin was not correlated with any alteration in the expression of mRNA encoding any of three pertussis-toxin sensitive G protein alpha subunits. The pattern of G protein expression was consistent between primary cells and tumour cells, suggesting that this is a differentiation marker. In particular, Gi alpha 2 mRNA was expressed at remarkably high levels in all of the cells. The specificity of LPS resistance was investigated by studying down-regulation of CSF-1 binding and induction of protooncogene c-fos and tumour necrosis factor (TNF) mRNA. BAC1.2F5 cells were LPS-resistant in each of these assays. In CSF-1 binding, RAW264 and J774.1A responded in the same way as bone marrow-derived macrophages but required higher doses of LPS, whereas c-fos and TNF mRNA were induced in these cells at concentrations that did not inhibit growth. In PU5/1.8 cells, CSF-1 binding was already very low and was not further down-regulated, but c-fos and TNF mRNA was inducible by LPS. By contrast to primary macrophages, the cell lines did not respond to LPS with down-regulation of c-fms mRNA, which encodes the CSF-1 receptor. Hence, the resistance of macrophage-like tumour cells to LPS and pertussis toxin was specific to the pathways controlling growth, and was correlated with altered regulation of the CSF-1 receptor.
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PMID:The resistance of macrophage-like tumour cell lines to growth inhibition by lipopolysaccharide and pertussis toxin. 821 90

The RAW264 murine macrophage cell line was used as a model to examine the role of the tat and nef gene products in the transcription regulation of the human immunodeficiency virus type 1 (HIV-1) long terminal repeat (LTR) in macrophages. Contrary to claims that the activity of the HIV-1 LTR responds poorly in rodent cells to trans activation by the viral tat gene product, cotransfection of RAW264 cells with a tat expression plasmid in transient transfection assays caused a > 20-fold increase in reporter gene expression that was inhibited by mutations in the TAR region. RAW264 cells stably transfected with the tat plasmid displayed similarly elevated HIV-1 LTR-driven reporter gene activity. By contrast to previous reports indicating a negative role for nef in HIV transcription, cotransfection of RAW264 cells with a nef expression plasmid trans activated the HIV-1 LTR driving either a chloramphenicol acetyltransferase or a luciferase reporter gene. The action of nef was specific to the LTR, as expression of nef had no effect on the activity of the simian virus 40, c-fms, urokinase plasminogen activator, or type 5 acid phosphatase promoter. trans-activating activity was also manifested by a frameshift mutant expressing only the first 35 amino acids of the protein. The effects of nef were multiplicative with those of tat gene product and occurred even in the presence of bacterial lipopolysaccharide, which itself activated LTR-directed transcription. Examination of the effects of selected mutations in the LTR revealed that neither the kappa B sites in the direct repeat enhancer nor the TAR region was required as a cis-acting element in nef action. The action of nef was not species restricted; it was able to trans activate in the human monocyte-like cell line Mono Mac 6. The presence of a nef expression cassette in a neomycin phosphotransferase gene expression plasmid greatly reduced the number of G418-resistant colonies generated in stable transfection of RAW264 cells, and many of the colonies that were formed exhibited very slow growth. The frameshift mutant was also active in reducing colony generation. Given the absence of any effect of the frameshift mutation on nef function, its actions on macrophage growth and HIV transcription are discussed in terms of the role of the N-terminal 30 amino acids and of stable secondary structures in the mRNA.
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PMID:Effects of the tat and nef gene products of human immunodeficiency virus type 1 (HIV-1) on transcription controlled by the HIV-1 long terminal repeat and on cell growth in macrophages. 823 Apr 18

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