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)

A growth-inhibitory (GI) factor, that specifically inhibits the growth of mouse monocytic leukemia cells, was found in conditioned medium of mouse lung tissue, but not in that of mouse brain, heart, liver, or kidney tissue. Conditioned medium of spleen or bone marrow cells had low GI activity. Pulmonary macrophages were as active as peritoneal and bone-marrow-derived macrophages in production of the GI activity. The GI factor inhibited the growth of murine monocytic leukemia cell lines Mm-A and J774.1, but scarcely inhibited the growth of other mouse cell lines, such as a myeloblastic leukemia cell line (M1), a Friend erythroleukemia cell line (745A) and a mammary carcinoma cell line (FM3A). It had no significant effect on the growth of human monocytic leukemia cell lines U937 and THP-1 or on the HL-60 promyelocytic leukemia cell line. These results suggest that the GI factor produced by mouse lung tissue preferentially inhibits the growth of mouse monocytic cells. The GI factor was found to be a proteinaceous substance with a molecular mass of 25 kDa. On chromatofocusing, the GI activity was eluted with Polybuffer 96/acetic acid at pH 7.2-7.5. The GI activity was not significantly decreased by heat treatment at 56 degrees C for 30 min or acid treatment (0.01 M HCl, 14 h), but the GI activity in glycosidase-treated conditioned medium of lung tissue was lost on heat treatment. The GI activity could not be neutralized with anti-(interferon alpha + beta) antibody. The activity was produced constitutively by lung tissues and its production was not stimulated appreciably by lipopolysaccharide, lectin, or poly(I).poly(C). The GI factor appears to be a cytokine unrelated to known cytokines such as tumor necrosis factor, interleukin-1, transforming growth factor beta, and interferons. These results suggest that the GI factor may be involved in negative feedback regulation of macrophage production in steady-state conditions in the lungs.
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PMID:Normal mouse lung tissue produces a growth-inhibitory factor(s) preferential for mouse monocytic leukemia cells. 248 Aug 47

On stimulation with lipopolysaccharide (LPS), normal human macrophages (M phi) and endothelial cells (EC) produced factors which inhibited interleukin 2 (IL-2)-dependent lymphocyte proliferation and PHA plus interleukin 1 (IL-1)-dependent mouse thymocyte proliferation but not IL-1-dependent human fibroblast proliferation, suggesting that they were inhibitors of the IL-2 response. In addition, these factors inhibited the production of IL-2 by normal human peripheral blood mononuclear cells (PBMC). The factors also inhibited PBMC proliferation in response to PHA and concanavalin (Con A) but did not inhibit the proliferation of EC, U937 cells, or Epstein-Barr virus-transformed B cells. On Sephadex G200 gel filtration, the inhibitory factors from both M phi and EC were detected almost entirely in a 130- to 150-kDa fraction, but active material was also detected in a 15- to 20-kDa fraction. On isoelectric chromatofocusing of the 130- to 150-kDa fraction, inhibitory activity was associated with fractions eluted at three isoelectric points, pH 7.0, 5.4, and 4.8. The isoelectric fractions isolated from M phi and EC showed similar patterns of inhibition. When 130- to 150-kDa fractions from Sephadex G200 of the M phi and EC supernatants were treated with an antibody against a macrophage-derived suppressor factor produced by the human monocytic leukemia cell line THP-1, the activity of both fractions was neutralized. The above findings suggest that normal M phi and EC secrete an identical or closely related inhibitor of IL-2 synthesis and IL-2 response, and this inhibitor regulates these IL-2-related functions by a suppressive action on the T lymphocyte.
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PMID:T cell inhibitor secreted by macrophages and endothelial cells. 267 71

The in vitro effect of short-term culture as well as the effect of retinol (ROH), retinoic acid (RA), muramyl dipeptide [( Abu']MDP), lipopolysaccharide (LPS), and gamma interferon (IFN-gamma) on the induction of the purine metabolic enzymes, adenosine deaminase (ADA), purine nucleoside phosphorylase (PNP), and 5'nucleotidase (5NT) in human peripheral blood monocytes (HPBM) was examined. HPBM isolated by centrifugal elutriation were cultured for up to 96 h. Following an initial time lag of 24 h, mean ADA activity from seven separate experiments as measured in nmoles/10(6) cells/h increased from a baseline of 31.3 +/- 9.3 to 57.8 +/- 16.4 (P less than 0.005) at 72 h and to 72 +/- 21.5 (P less than .025) by 96 h. 5NT activity increased from a baseline of 2.2 +/- 0.9 to a maximum of 44 +/- 10.1 by 72 h and then declined to 29 +/- 18 (P less than 0.005) by 96 h, while no significant change in PNP activity was observed. HPBM incubated for 3 d with optimal concentrations of LPS, RA, and IFN-gamma had increases in ADA and 5NT activity ranging from three- to 10-fold compared to HPBM cultured in media alone, whereas no effect was observed with ROH and [Abu']MDP. RA, but not ROH, significantly enhanced ADA activity in a monocytic leukemia cell (THP-1) line. Addition of RA or the tumor promoter, phorbol 12-myristic 13-acetate (PMA), to HPBM or THP-1 cells resulted in significant increases in 5NT activity with opposite effects on ADA activity. These findings suggest that the biological mechanisms associated with differentiation in normal and malignant monocytes seem to be related and that the sequence and degree to which the various differentiation agents induce the enzyme elevations are also related to the mechanisms of activation/differentiation.
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PMID:Induction of adenosine deaminase and 5' nucleotidase activity in cultured human blood monocytes and monocytic leukemia (THP-1) cells by differentiating agents. 284 22

Human interleukin 1 (IL-1) was produced under serum-free conditions by stimulating a human monocytic leukemia cell line (THP-1) with silica or lipopolysaccharide (LPS). The IL-1 from THP-1 cells has a molecular weight of 12,000-20,000, consistent with the low-molecular-weight form of IL-1 from human peripheral blood monocytes. Further characterization by isoelectrofocusing showed one major peak of activity at pI 7 for the THP-1 cell-derived IL-1. In contrast, the low-molecular-weight form of IL-1 from human monocytes has two major species, pI 5 and pI 7. This cloned THP-1 cell line produces levels of IL-1 activity comparable to those obtainable from peripheral blood monocytes. Thus THP-1 cells can serve as a valuable source of relatively homogeneous human IL-1 for further purification and molecular characterization of its role in regulating immune functions.
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PMID:Interleukin 1 production by a human acute monocytic leukemia cell line. 630 15

When human alveolar macrophages (AM) obtained by lavage of the lungs of healthy donors were incubated in medium with or without lipopolysaccharide (LPS) they released a factor(s) with tumor cell killing activity. This tumor cytolytic and/or cytotoxic factor(s) (TCF) was assayed by measuring its effect in inhibiting target cell growth. TCF activity was not observed in the supernatant from cultures of LPS-treated hematopoietic malignant cell lines (monocytic leukemia, B-cell leukemia and T-cell leukemia cell lines). Human TCF was significantly cytotoxic to 13 of 15 solid-tumor cell lines tested and to 7 of 9 hematopoietic malignant cell lines, but not to two different normal, nontumorigenic cell lines. TCF-rich supernatants contained low levels of interferon (IFN) activity that were not significantly cytotoxic to A-375 melanoma cells. Human TCF and IFN-alpha or IFN-beta had additive cytotoxic effects. These data suggest that human TCF released by activated human AM may be of potential use in the treatment of malignant disseminated diseases.
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PMID:In vitro cytotoxicity to various human tumor cell lines of a tumor cytotoxic factor(s) produced by human alveolar macrophages. 643 93

Carboxylic esterases are widely distributed in hematopoietic cells. Monocytes express the esterase isoenzyme (termed 'monocyte-specific esterase', MSE) that can be inhibited by NaF in the alpha-naphthyl acetate cytochemical staining. We examined the expression of MSE in normal cells and primary and cultured leukemia-lymphoma cells. The MSE protein was demonstrated by isoelectric focusing (IEF); MSE mRNA expression was investigated by Northern blotting and reverse transcriptase-polymerase chain reaction (RT-PCR). The following samples were positive for MSE protein and Northern mRNA expression: 20/24 monocytic, 4/32 myeloid, and 1/20 erythroid-megakaryocytic leukemia cell lines, but none of the 112 lymphoid leukemia or lymphoma cell lines; of the normal purified cell populations only the monocytes were positive whereas, T, B cells, and granulocytes were negative; of primary acute (myelo) monocytic leukemia cells (CD14-positive, FAB M4/M5 morphology) 14/20 were Northern mRNA and 11/14 IEF protein positive. RT-PCR revealed MSE expression in 29/49 Northern-negative lymphoid leukemia-lymphoma cell lines. The RT-PCR signals in monocytic cell lines were on average 50-fold stronger than the mostly weak trace expression in lymphoid specimens. On treatment with various biomodulators, only all-trans retinoic acid significantly upregulated MSE message and protein levels but could not induce new MSE expression in several leukemia cell lines; lipopolysaccharide and interferon-gamma increased MSE expression in normal monocytes. Analysis of DNA methylation with sensitive restriction enzymes showed no apparent regulation of gene expression by differential methylation; the MSE gene is evolutionarily conserved among mammalian species; the half-life of the human MSE transcripts was about 5-6 h. The extent of MSE expression varied greatly among different monocytic leukemia samples. However, the MSE overexpression in a significant number of specimens was not associated with gene amplification, gross structural rearrangements or point mutations within the cDNA region. Taken together, the results suggest that MSE expression is not absolutely specific for, but strongly associated with cells of the monocytic lineage; MSE is either not expressed at all or expressed at much lower levels in cells from other lineages. The biological significance, if any, of rare MSE messages in lymphoid cells detectable only by the hypersensitive RT-PCR remains unclear. Further studies on the regulation of this gene and on the physiological function of the enzyme will no doubt be informative with respect to its striking overexpression in some malignant cells and to a possible role in the pathobiology of monocytic leukemias.
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PMID:Characterization of the monocyte-specific esterase (MSE) gene. 809 31

Certain phosphatidic/plasmanic/plasmenic acid (PA) species function as lipid intermediates in cell activation and may function directly as intracellular signaling molecules. PA can also be dephosphorylated to 1,2-diradyl-sn-glycerol by phosphatidate phosphohydrolase. Treatment of various cell types, including murine P388 monocytic leukemia cells, with bacterial lipopolysaccharide rapidly stimulates large increases in PA and PA-derived diradylglycerol. Pentoxifylline, 1-(5-oxohexyl)-3,7-dimethylxanthine, inhibits lipopolysaccharide-stimulated formation of PA in P388 cells at high concentrations (IC50 = 500 microM). Lisofylline [1-(5R-hydroxyhexyl)-3,7-dimethylxanthine] is a unique metabolite of pentoxifylline in humans and is > 800-fold more active as an inhibitor of PA formation than pentoxifylline (IC50 = 0.6 microM). Lisofylline does not inhibit lipopolysaccharide-induced activation of phosphatidylinositol-specific phospholipase C and generation of phosphatidylinositol-derived diradylglycerol. Lisofylline but not pentoxifylline protects BALB/c mice from endotoxin lethality when administered 4 hr after lipopolysaccharide. This protective effect is independent of either agent's effect on suppression of plasma tumor necrosis factor alpha. These data suggest that inhibitors of PA formation may have significant clinical potential in the treatment of sepsis and septic shock.
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PMID:Protection from endotoxic shock in mice by pharmacologic inhibition of phosphatidic acid. 817 Oct 2

Chlorpromazine (CPZ) has been previously shown to protect against endotoxin [lipopolysaccharide (LPS)] lethality and inhibit the release of tumour necrosis factor in vivo. We investigated at the cellular level whether this was due to direct inhibition of tumour necrosis factor-alpha (TNF-alpha) synthesis, using LPS-stimulated THP-1 human monocytic leukemia cells. We also studied the effect of CPZ on human TNF-alpha action by assessing TNF-alpha cytotoxicity on mouse fibrosarcoma L929 cells. CPZ (1-100 microM) inhibited TNF-alpha production in THP-1 cells in a dose dependent manner by a maximum of 80%. This effect was comparable to that of two well-known inhibitory drugs, dexamethasone and cyclicAMP. Inhibition was also evident at the mRNA level. On the other hand CPZ (10-25 microM) also inhibited TNF-alpha activity: in fact it reduced the cytotoxicity of TNF-alpha on L929 cells (EC50 was increased four times) and could provide protection even as a post-treatment. CPZ inhibited TNF-induced apoptosis in L929 cells, as detected by analysis of nuclear morphology. However, since we showed that apoptosis was very limited, and was not the main mode of cell death in our conditions, this could not explain the overall protection. Since CPZ did not interfere with either the oligomerization state of TNF-alpha or its receptor binding, our data suggest that it reduced cytotoxicity by inhibiting some steps in the TNF-alpha signalling pathways.
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PMID:Chlorpromazine inhibits tumour necrosis factor synthesis and cytotoxicity in vitro. 855 79

1. Metal salts can inhibit cell activity through direct toxicity to critical cellular molecules and structures. On the other hand, they can also change cell behaviour by inducing specific genes (including genes encoding members of the metallothionein [MT] gene family). Therefore, transition metals may affect cell functions either by acting as a toxin, or by transmitting or influencing signals controlling gene expression. 2. To explore the latter possibility, we measured the ability of low, non-toxic metal pretreatment to alter immune cell behaviour. We previously found that pretreatment of human monocytes with zinc induces metallothionein gene expression and alters their capacity to undergo a bacterial lipopolysaccharide-induced respiratory burst. We showed here that cadmium and mercury salts, at concentrations that exert no discernible toxicity, inhibit activation of human monocytic leukemia (THP-1) cells. CdCl2 1 microM, ZnCl2 20-40 microM or HgCl2 2 microM pretreatment for 20 h induced MT-2 mRNA and total MT protein accumulation and had no effect on proliferation potential or metabolic activity, but significantly inhibited the ability of subsequent lipopolysaccharide treatment to induce the oxidative burst, increased adhesion to plastic, and MT-2 and interleukin-1 beta (IL-1 beta) mRNA accumulation. 3. The phenomenon of metal-induced suppression of monocyte activation, at metal concentrations that have no effect on cell viability, has important implications for assessment of acceptable levels of human exposure to cadmium, zinc and mercury.
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PMID:Effect of non-toxic mercury, zinc or cadmium pretreatment on the capacity of human monocytes to undergo lipopolysaccharide-induced activation. 913 84

(+/-)-3-[4-(2-Dimethylamino-1-methylethoxy)phenyl]-1H-pyrazolo[3, 4-b]pyridine-1-acetic acid (Y-25510) stimulated the mRNA expression for interleukin-1 beta (IL-1 beta), and enhanced the expression induced by lipopolysaccharide (LPS) in cultured human peripheral blood mononuclear cells (PBMC) and THP-1 cells, a cell-line derived from human monocytic leukemia. Y-25510 also stimulated the mRNA expression for IL-6 in both types of the cells, however, the stimulation required the presence of LPS. In THP-1 cells, the stimulation of IL-1 beta mRNA expression by Y-25510 was suppressed by cycloheximide, an inhibitor of protein synthesis. This phenomenon indicates that the stimulation requires de norv protein synthesis. In contrast, the stimulation of mRNA expression for IL-6 by Y-25510 was not suppressed by cycloheximide but suppressed by N alpha-p-tosyl-L-phenylalanine chloromethyl ketone (TPCK), an inhibitor of nuclear transcription factor-kappa B (NF-kappa B) activation, in the presence of LPS, suggesting that the stimulation requires NF-kappa activation. These results demonstrate that Y-25510 stimulates the mRNA expression for IL-1 beta and IL-6 by different mechanisms. Dexamethasone suppressed the LPS-induced expression of mRNA for IL-1 beta and IL-6 in THP-1 cells, whereas the drug never suppressed the mRNA expression for these cytokines in the presence of Y-25510. The result indicates that Y-25510 stimulates the mRNA expression for IL-1 beta and IL-6 by different mechanisms from those of LPS.
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PMID:(+/-)-3-[4-(2-dimethylamino-1-methylethoxy)-phenyl]-1H-pyrazolo[3,4- B]pyridine-1-acetic acid (Y-25510) stimulates production of IL-1 beta and IL-6 at the level of messenger RNA expression in cultured human monocytes. 917 15


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