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: UMLS:C0023418 (leukemia)
93,477 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Interleukin-1 beta (IL-1 beta) induces leukemia inhibitor factor (LIF) expression in a number of cell types including non-neuronal cells of the sympathetic superior cervical ganglion (SCG). Upregulation of LIF by inflammatory cytokines is usually associated with injury response. We characterized the molecular mechanism of LIF mRNA regulation by IL-1 beta in explanted neonatal rat SCG and a Schwann cell line. IL-1 beta increases LIF mRNA levels by interacting with IL-1 receptors in SCG, since this induction could be diminished by inclusion of either soluble IL-1 receptors or IL-1 receptor antagonist. The antiinflammatory glucocorticoid dexamethasone also inhibits LIF mRNA induction by IL-1 beta. LIF mRNA encodes a 3' AU-rich mRNA stability control sequence, but IL-1 beta does not appear to regulate the decay of LIF mRNA by this mechanism. IL-1 beta does not raise LIF gene transcription rate in cultured SCG 6 or 24 h after addition of IL-1 beta as measured by nuclear run-on assays. LIF gene transcription is induced repidly and transiently in an immortalized Schwann cell line, returning to uninduced rates by 1 h after induction. These results suggest that the IL-1 beta induction of LIF gene expression is at least partially transcriptional, but that LIF mRNA increases to a greater extent than LIF transcription, suggesting the possibility of posttranscriptional regulation as well.
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PMID:Interleukin-1 beta increases leukemia inhibitory factor mRNA levels through transient stimulation of transcription rate. 891 77

The roles of interferons (IFNs) in apoptosis are not fully understood. In this study we show that in the U937 monoblastic leukemia cell line, pretreatment with IFN-gamma enhanced sensitivity to apoptosis triggered by gamma-irradiation or antitumor agents (etoposide or adriamycin), as well as by anti-Fas antibody. In addition, IFN-gamma caused an increased expression of the interleukin-1 beta-converting enzyme (Ice) gene, following strong induction of the interferon regulatory factor-1 (IRF-1) gene, the product of which is a transcriptional activator of the Ice gene. An inhibitor of ICE/Ced-3 family proteases, Z-Asp-CH2-DCB, blocked apoptosis in control cells as well as in IFN-gamma-pretreated cells. These results suggest that enhanced susceptibility of IFN-gamma-pretreated cells to apoptosis is mediated through the induction of Ice by IRF-1. This pathway is not affected by interleukin-1 beta (IL-1 beta) since neutralizing antibody against IL-1 beta failed to suppress the IFN-gamma-mediated enhancement of cell death, and IL-1 beta itself did not mimic the effect of IFN-gamma.
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PMID:Interferon-gamma induces Ice gene expression and enhances cellular susceptibility to apoptosis in the U937 leukemia cell line. 895 78

The generation of ceramides by the action of acidic and/or neutral sphingomyelinases has been implicated in many forms of apoptosis. We investigated whether exposure to ceramides is sufficient to induce apoptosis in human leukemia cells and, if so, what the characteristics of this form of apoptosis might be. Treatment of the acute lymphoblastic T-cell line CEM-C7H2 with short- and medium-chain ceramide analogs (C2-, C6-, and C8-ceramide) resulted in apoptosis, whereas the inactive C2-dihydroceramide had no effect on cell survival. Induction of apoptosis was relatively slow (approximately 40% after 24 h) and required high concentrations of ceramide analogs (40-100 microM). To investigate a possible involvement of interleukin 1-beta-converting enzyme (ICE) or ICE-related proteases, we treated CEM-C7H2 sublines constitutively expressing the vaccinia virus protease inhibitor crmA with ceramide analogs. Although such cells were completely resistant to apoptosis induced by antibodies to the Apo-1/Fas surface receptor (a form of apoptosis known to be inhibitable by CrmA), they were not protected from ceramide-induced cell death. In contrast, tetracycline-regulated overexpression of Bcl-2 protected CEM-C7H2 sublines stably transfected with corresponding constructs from ceramide-induced apoptosis. Thus, in these human leukemia cells, ceramides induce a relatively slow death response that can be prevented by Bcl-2, but is independent of CrmA-inhibitable proteases. These characteristics distinguish ceramide-induced from other forms of apoptosis, such as Apo-1/Fas-induced cell death where ceramide production has been causally implicated.
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PMID:Ceramides induce a form of apoptosis in human acute lymphoblastic leukemia cells that is inhibited by Bcl-2, but not by CrmA. 900 May 5

Normal peripheral blood mononuclear cells (PBMC responders) were cultured together with non-irradiated allogeneic PBMC (more than 95% leukaemia blasts) derived from patients with acute leukaemia (referred to as leukaemic PBMC stimulators). Cytokine secretion was determined as cytokine concentrations in supernatants. Both normal PBMC and enriched CD4+ and CD8+ T cells responded to allostimulation with interferon (IFN gamma) secretion. Interleukin-I (IL-1) receptor antagonist and IL-2-neutralizing antibodies decreased IFN gamma secretion. Exogenous IL-1 beta, IL-2 and IL-7 increased allostimulated IFN gamma secretion, whereas decreased levels were seen in the presence of IL-6, IL-10 and granulocyte-colony-stimulating factor (G-CSF). During allorecognition IFN gamma-neutralizing antibodies decreased acute myelogenous leukaemia (AML) blast secretion of G-CSF. We conclude that (i) both CD4+ and CD8+ T cells show allostimulated cytokine secretion in response to allogeneic stimulator cells containing a dominating population of native, cytokine-secreting leukaemia blasts, and (ii) IFN gamma released during this response can modulate the function of allogeneic AML blasts.
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PMID:Human T lymphocyte activation in the presence of acute myelogenous leukaemia blasts: studies of allostimulated interferon-gamma secretion. 902 4

The regulation of cytokine production by thymic epithelial cells (TEC) in the thymus is under coordinated and temporal control and is important for the development of T cells. Human TEC express TGF-beta R and epidermal growth factor (EGF) receptor, and produce TGF-beta 3 in vitro and in vivo. Furthermore, EGF has been shown to increase IL-1 alpha, IL-1 beta, IL-6 mRNA and protein levels in human TEC. Since EGF has been shown to modulate TGF-beta effector functions, we determined whether TGF-beta can modulate EGF-mediated increases in cytokine gene expression in human TEC. We established that a single TEC expresses both EGF receptor and TGF-beta R. TGF-beta plus EGF synergistically increased leukemia-inhibitory factor (LIF), additively increased IL-6, but had little effect on IL-1 alpha and IL-1 beta mRNA levels. In contrast, TGF-beta alone increased LIF and IL-6, had little effect on IL-1 alpha, and slightly decreased IL-1 beta mRNA levels. The increases in LIF and IL-6 mRNA levels by TGF-beta plus EGF correlate with the increases in LIF and IL-6 concentrations in TEC culture supernatants as detected by ELISA. We also determined the mechanism responsible for the increases in cytokine mRNA levels. TGF-beta plus EGF did not affect transcription of LIF and IL-6 genes; this suggests that the increases in the steady state levels of cytokine mRNA were mediated post-transcriptionally, most likely at the level of mRNA stability. Our data demonstrate that TGF-beta modulates TEC cytokine production. We speculate that TGF-beta produced in situ plays a role in thymocyte development by directly affecting thymocyte differentiation and by indirectly modulating TEC cytokine production.
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PMID:TGF-beta differentially modulates epidermal growth factor-mediated increases in leukemia-inhibitory factor, IL-6, IL-1 alpha, and IL-1 beta in human thymic epithelial cells. 905 4

A role for IgG molecules in the activation of human myelogenous leukemia cells was examined. When added to monoblastic (U937) leukemia cells, mouse (m)IgG1 produced a dose- and time-dependent inhibitory growth effect associated with the induction of morphological features characteristic of macrophage maturation, and enhanced surface expression of Mac-1/CD11b characteristic of monocyte development. A study of isotype dependency of mig indicated that the effect was specific for Ig molecules of the IgG1 and IgG2b subclasses, whereas IgG2a or IgM had no effect. In parallel to U937 cell maturation, a marked production of latent TGF-beta was observed in supernatants of leukemia cells cultured with mIgG1. Myeloblastic (HL-60) leukemia cell line similarly responded to mIgG1 or mIgG2b in induction of macrophage differentiation and in the absence of neutrophil differentiation. Human blood monocytes cultured in the presence of mIgG1, exhibited higher levels of IL-1 beta and IL-6 mRNAs associated with an increase in protein extracellular release, suggesting that the effect of mIgG1 on IL-1 beta and IL-6 production in human monocytes was mediated at both transcriptional and post-transcriptional levels. Monocyte activation by mIgG1 and mIgG2b was associated with increased cell surface expression of HLA-DR class II molecules. Human IgG1 (and to a lesser degree hIgG2), was also capable of inducing leukemia cell growth arrest and macrophage maturation whereas F(ab')2 fragments of mIgG1 were not as efficient as intact mIgG1 in blocking cell growth. Most importantly, mAbs reactive with Fc gamma RII (CD32-specific Abs 2E.1 and IV.3) blocked the effects of mIgG1 on leukemia cell proliferation. Taken together, these data indicate that binding of IgG1 molecules, possibly through Fc gamma RII, may generate an activation signal towards myelogenous leukemia cells and normal counterpart cells, ie monocytes, leading to induction of macrophage maturation and cytokine secretion.
Leukemia 1997 Apr
PMID:Induction of macrophagic differentiation and cytokine secretion by IgG1 molecules in human normal monocytes and myelogenous leukemia cells. 909 96

The secreted phospholipase A2 (sPLA2) is released from hepatoma cells after stimulation with interleukin 6 (IL-6), tumour necrosis factor alpha (TNF-alpha) and interleukin 1 beta (IL-1 beta), and is considered to act as acute phase protein. In the present study, the regulation of sPLA2 secretion by two other members of the IL-6 cytokine family, oncostatin M (OSM) and leukaemia inhibitory factor (LIF), and the corticosteroid dexamethasone were investigated. Only a marginal increase in sPLA2 activity in cell culture supernatants of HepG2 cells was observed upon stimulation for 24 h with LIF, whereas OSM increased the activity about 10-fold and proved to be even more effective than the combination of IL-6 and TNF-alpha, the best known stimuli so far. sPLA2 activity was synergistically enhanced by OSM plus TNF-alpha (15-fold) or IL-1 beta (20-fold). Changes in sPLA2 activity were reflected at mRNA levels. Cytokine induction of sPLA2 mRNA was comparable to the induction of haptoglobin mRNA. The effect of dexamethasone on the expression of both genes, in contrast, was different: cytokine-induced haptoglobin mRNA expression was enhanced, whereas sPLA2 mRNA expression was partially inhibited by dexamethasone resulting in decreased sPLA2 activity. The strong induction by OSM in HepG2 cells thus confirmed sPLA2 as acute phase protein, whereas the effect of dexamethasone was comparable to the one observed in other cell types.
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PMID:Glucocorticoids inhibit oncostatin M-induced phospholipase A2 gene expression in human hepatoma cells. 912 8

Adult T cell leukemia (ATL) cells show a mature helper-inducer T cell phenotype and are thought to secrete many kinds of cytokines in vivo, complicating the clinical features in these patients. In an attempt to specify the cytokines produced by ATL cells, we measured the cytokine concentration in the culture supernatants of three ATL cell lines, all of which were confirmed to be true peripheral blood ATL cell in origin. All these cell lines showed the same cytokine production profile, secreting IL1-alpha, IL1-beta, LD78(MIP-l alpha), TNF-alpha, IFN-gamma, and GM-CSF, but not secreting IL-1 alpha, IL-1 beta, IL-1 receptor antagonist (IL-1 Ra), IL-4, IFN-alpha, and G-CSF irrespective of the stimulatory agents used. Such limited cytokine production may indicate the specific origin of ATL cells within the helper-inducer T cell subtypes. Moreover, these results explain some of the unusual clinical features of ATL patients.
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PMID:Features of the cytokines secreted by adult T cell leukemia (ATL) cells. 917 9

Natural killer (NK) cells were shown to secrete differentially interleukins (IL), IL-1 alpha, IL-1 beta, IL-2, IL-8, interferon-gamma (IFN-gamma), tumour necrosis factor-alpha (TNF-alpha), granulocyte-macrophage colony-stimulating factor (GM-CSF), and leukaemia inhibitory factor (LIF) upon stimulation with optimal concentrations of chylomicrons (CM), very-low-density lipoprotein (VLDL), low-density lipoprotein (LDL), high-density lipoprotein (HDL) or acetyl-modified low-density lipoprotein (AcLDL). CM, VLDL, LDL and AcLDL induced LIF secretion which was absent in nonstimulated cells. CM, VLDL, and LDL did not affect IL-1 alpha secretion. CM stimulated IL-8 > TNF-alpha > IL-1 alpha > IL-2 = IFN-gamma, and decreased seventeen-fold GM-CSF secretion. VLDL stimulated IL-8 secretion > IL-1 alpha = IL-2 > IFN-gamma > TNF-alpha and decreased fivefold GM-CSF secretion. LDL stimulated IL-8 secretion > IL-1 alpha > IL-2 = IFN-gamma, it did not modify TNF-alpha and inhibited five hundred-fold GM-CSF secretion. HDL stimulated IL-2 secretion = IFN-gamma > IL-8, it decreased GM-CSF secretion > IL-1 alpha > IL-1 beta > TNF-alpha without affecting LIF. AcLDL stimulated IL-8 secretion > TNF-alpha > IL-1 alpha > IL-2 = IFN-gamma = IL-1 beta, and decreased GM-CSF secretion eightfold. When NK cells were primed with 10, 100 or 500 IU/ml of IL-2 before the addition of lipoproteins, a decrease in the secretion of cytokines was observed as compared with cells primed with IL-2 only. Differences in cytokine secretion were observed among the diverse type of lipoproteins used for cell stimulus. Thus, lipoproteins may condition NK cytokine secretion and cell activation.
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PMID:Secretion of cytokines by natural killer cells primed with interleukin-2 and stimulated with different lipoproteins. 917 5

An overwhelming body of evidence has shown that IL-1 beta is a major mediator of inflammatory disease (Tocci and Schmidt, 1996). The discovery of ICE, a unique processing enzyme involved in the production of active IL-1 beta, has provided a new approach to specifically block the production of this potent cytokine. Consequently, the discovery and development of inhibitors against the enzyme could hold great promise therapeutically. Potent inhibitors of the enzyme would be useful in the treatment of a number of important inflammatory diseases and potentially in the management of leukemia (Arend, 1993b; Estrov and Talpaz, 1996). A number of key questions must be answered before the therapeutic potential of such inhibitors can be realized. The development of a pharmaceutically acceptable cysteine proteinase inhibitor will almost certainly involve new chemical strategies gauged at safely inactivating the enzyme. For such inhibitors, it will be necessary to achieve selectivity for ICE from among the growing number of ICE family members while retaining potency. It will also be important to establish the level of inhibition of IL-1 beta required to achieve therapeutic efficacy. The studies comparing IL-1 beta- and ICE-deficient mice suggest that complete abrogation of IL-1 beta is required to achieve efficacy in models of inflammation. It is not known if this is the case in humans. Understanding the source of the residual IL-1 beta produced in ICE-deficient mice will be important in order to ascertain if a similar mechanism could generate active IL-1 beta in patients receiving if a ICE inhibitor. As for ICE itself, a number of formidable questions remain regarding its regulation and mechanism of activation. Answering these questions experimentally will present a major challenge due to the extremely low levels of enzyme present in cells. Studies on other family members may provide easier access to some of these questions and provide clues that can be applied to ICE. The components of the pathway involved in IL-1 trafficking and secretion are unknown, as are the mechanisms of ICE activation and regulation. Clearly other cellular proteins that have yet to be discovered will be involved in each of these processes, opening up new avenues of research in this field.
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PMID:Structure and function of interleukin-1 beta converting enzyme. 919 77


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