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)

To determine the regulatory mechanism of Leukotriene (LT) B4 synthesis by cytokines, we investigated the regulation of LTB4 generation by short-term (30 min) priming and long-term (15 h) enzyme-inducing actions of the four cytokines interleukin (IL)-3, IL-5, tumor necrosis factor alpha (TNF-alpha), and transforming growth factor alpha (TGF-alpha) in rat basophilic leukemia-1 (RBL-1) cells. Pretreatment of cells with IL-3 or IL-5 for 30 min increased A23187- (5x10(-9)M) stimulated synthesis of LTB4 by three to four times over control levels. However, IL-3 or IL-5 lacked this effect when stimulated with exogenous arachidonic acid A at 10(-4)M. TNF-alpha and TGF-alpha had no priming effect on LTB4 synthesis following stimulation with either A23187 (5x10(-9)M) or AA(10(-4)M). Stimulation with the calcium ionophore (A23187)(10(-5)M) or AA(10(-4)M) following 15-h exposure to these cytokines had no effect. These results suggest that IL-3 and IL-5 increase the production of LTB4 by priming the activity of phospholipase A2(PLA2) without inducing enzymes in the arachidonate 5-lipoxygenase pathway. Such a priming effect may be important in regulating the development of allergic and other diseases involving the inflammatory reaction.
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PMID:IL-3 and IL-5 enhance the production of LTB4 stimulated by calcium ionophore in rat basophilic leukemia cells. 764 64

A new technique, high-performance liquid chromatography with reductive mode electrochemical detection on a mercury drop (HPLC-EC), has been used for analyzing lipid hydroperoxide (LOOH) formation in photooxidatively stressed L1210 leukemia cells. Highly specific and sensitive for peroxides (detection limits < 0.5 pmol for cholesterol hydroperoxides and < 50 pmol for phospholipid hydroperoxides), this approach allows different classes of LOOH to be separated and determined in minimally damaged cells. L1210 cells in serum-containing growth medium were irradiated in the presence of merocyanine 540 (MC540), a lipophilic photosensitizing dye. Lipid extracts from cells exposed to a light fluence of 0.11 J/cm2 (which reduced clonally assessed survival by 30%) showed 12-15 well-defined peaks in HPLC-EC. None of these peaks was observed when cells were irradiated without MC540 or when dye/light-treated samples were reduced with triphenylphosphine prior to analysis. Three peaks of relatively low retention time (< 12 min) were assigned to the following species by virtue of comigration with authentic standards: 3 beta-hydroxy-5 alpha-cholest-6-ene-5-hydroperoxide (5 alpha-OOH), 3 beta-hydroxycholest-4-ene-6 beta-hydroperoxide (6 beta-OOH), and 3 beta-hydroxycholest-5-ene-7 alpha/7 beta-hydroperoxide (7 alpha/7 beta-OOH). Formation of 5 alpha-OOH and 6 beta-OOH (single oxygen adducts) was confirmed by subjecting [14C]cholesterol-labeled cells to relatively high levels of photooxidation and analyzing extracted lipids by HPLC with radiochemical detection. Material represented in a major peak at 18-22 min on HPLC-EC was isolated in relatively large amounts by semipreparative HPLC and shown to contain phospholipid hydroperoxides (predominantly phosphatidylcholine species, PCOOH) according to the following criteria: (i) decay of 18-22 min peak during Ca2+/phospholipase A2 treatment, with reciprocal appearance of fatty acid hydroperoxides; (ii) reduction of peroxide during treatment with reduced glutathione and phospholipid hydroperoxide glutathione peroxidase, but not glutathione peroxidase; and (iii) comigration with PCOOH standards in thin-layer chromatography. HPLC-EC analysis revealed quantifiable amounts of PCOOH and ChOOH at a light fluence that clonally inactivated < 10% of the cells, which allows for the possibility that photoperoxidative damage plays a causal role in cell killing.
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PMID:Characterization of lipid hydroperoxides generated by photodynamic treatment of leukemia cells. 796 65

We investigated inhibitory actions of dexamethasone (DEX) on retinoic acid (RA)-induced enhancement of leukotriene C4 (LTC4) synthesis in rat basophilic leukemia-1 (RBL-1) cells. Cultured cells were preincubated with RA for 16 h with or without DEX, and generation of LTC4 was measured by high performance liquid chromatography in cell-free and intact cell systems. RA (0.1 microgram/ml) significantly potentiated calcium ionophore-stimulated production of LTC4 synthesis. DEX inhibited the RA-induced enhancement of LTC4 synthesis by up to approximately 95% in intact cells when stimulated with calcium ionophore. RA-induced LTC4 synthase activity, which was determined by enzyme assay, was also inhibited by DEX by 65% in a cell-free system. This discrepancy of inhibition between the intact and cell-free systems was due to a partial inhibition of phospholipase A2 activity by DEX in the intact cells. These results indicate that the production of LTC4 is predominantly regulated at a level of LTC4 synthase. The induction of new LTC4 synthase activity by RA and inhibition of the RA-induced activity by DEX are important regulatory mechanisms of LTC4 synthesis.
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PMID:Inhibition by dexamethasone of retinoic acid-induced enhancement of leukotriene C4 synthesis in rat basophilic leukemia-1 cells. 801 38

In the absence of serum, growth of ML-1 human myeloblastic leukemia cells is induced by the insulin-like growth factor-1 (IGF1) together with transferrin (Tf), whereas monocytic differentiation is initiated by the transforming growth factor-beta (TGF-beta) in combination with Tf. Initiation of growth was followed by the rapid release of arachidonic acid (AA), hydroxyeicosatetraenoic acids (HETEs) and phospholipids into the culture medium. In contrast, induction of differentiation occurred without the release of these lipids beyond the level present in control. Inhibitors of enzymes involved in the formation of AA and of HETEs, including phospholipase A2 and lipoxygenases, caused interference with growth but not with differentiation, and an inhibitor of the cyclooxygenase path affected neither growth nor differentiation. These results indicate that the initiation of ML-1 cell growth but not of cell differentiation is dependent upon the increased formation of AA and its derivatives formed primarily via the lipoxygenase path.
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PMID:Differential effect of growth- and differentiation-inducing factors on the release of eicosanoids and phospholipids from ML-1 human myeloblastic leukemia cells. 811 43

A sphingomyelin (SM)-signaling cycle has been described in human leukemia-derived HL-60 cells (Okazaki, T., Bell, R.M., and Hannun, Y.A. (1989) J. Biol. Chem. 264, 19076-19080). Activation of the cycle by tumor necrosis factor alpha (TNF alpha) occurs rapidly, with peak levels of approximately 30% SM hydrolysis observed within 45-60 min. The mechanisms by which TNF alpha induces this SM turnover remain largely unexplored. In this study, arachidonic acid (AA) was investigated as a potential mediator of TNF alpha effects on SM turnover. In HL-60 cells, 30 nM TNF alpha stimulated the release of AA within 5-10 min. In turn, AA stimulated SM hydrolysis and concomitant ceramide generation within 20 min of addition to cells. Other fatty acids, notably oleate, mimicked the effects of AA on SM hydrolysis, but the methyl ester and alcohol analogs of fatty acids were inactive. Diacylglycerol, a candidate mediator of TNF alpha responses, AA activated a cytosolic sphingomyelinase dose dependently, with 10-100 microM AA including 3-4-fold activation, thus suggesting a direct effect of AA on sphingomyelinase. Melittin, a potent phospholipase A2 activator, induced SM hydrolysis at concentrations as low as 35 nM. However, unlike AA, melittin was unable to stimulate sphingomyelinase activation in an in vitro assay system. Finally, exogenous addition of AA also produced antiproliferative effects reminiscent of ceramide effects. Thus, a role for the phospholipase A2/AA pathway in mediating TNF alpha induction of the SM cycle is supported by multiple lines of evidence. These studies begin to elucidate a mechanism of TNF alpha signaling and identify a close relationship between glycerophospholipid and sphingolipid signaling. AA, therefore, may be pivotal to understanding the sphingomyelin-signaling cascade.
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PMID:Identification of arachidonic acid as a mediator of sphingomyelin hydrolysis in response to tumor necrosis factor alpha. 811 15

In our previous report (Shikano, M., Masuzawa, Y. and Yazawa, K. (1993) J. Immunol. 150, 3525-3533), we described that the enrichment of docosahexaenoic acid (DHA, 22:6(n - 3)) reduces both arachidonic acid (AA, 20:4(n - 6)) release and platelet-activating factor (PAF) synthesis in human eosinophilic leukemia cells, Eol-1. Since no DHA release was observed in response to Ca-ionophore stimulation, we presumed that the phospholipase A2 (PLA2) responsible for AA release and PAF synthesis can not hydrolyze the DHA moiety of phospholipids. In the present paper, we examined whether DHA-containing diacyl- and alkenylacylglycerophosphoethanolamine (DHA-diacylGPE and DHA-alkenylacyGPE) are susceptible to the action of AA-preferential 85 kDa cytosolic phospholipase A2 (cPLA2) from rabbit platelets in comparison with AA and eicosapentaenoic acid (EPA, 20:5(n - 3)) derivatives. When diacylGPE was used as a substrate, DHA release was almost negligible under the assay condition that allowed AA and EPA to be liberated at the rates of 4.3 mumol/min per mg protein and 2.5 mumol/min per mg protein, respectively. On the other hand, 14 kDa type II PLA2 hydrolyzed DHA-diacylGPE as well as AA-diacylGPE and EPA-diacylGPE. When DHA-diacylGPE and AA-diacylGPE were mixed at equimolar concentrations, DHA release by cPLA2 was not observed and AA release was reduced to 32% in the case without DHA-diacylGPE. This indicated that DHA-diacylGPE is a poor substrate but possesses the inhibitory activity for cPLA2. cPLA2 does not clearly discriminate between AA-alkenylacylGPE and AA-diacylGPE. As in the case using diacylGPE as a substrate, DHA-alkenylacylGPE was completely discriminated from AA-alkenylacylGPE by cPLA2. The roles of DHA and cPLA2 in the synthesis of lipid mediators will be discussed in relation to the new aspects of the substrate specificity of cPLA2 provided here.
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PMID:Complete discrimination of docosahexaenoate from arachidonate by 85 kDa cytosolic phospholipase A2 during the hydrolysis of diacyl- and alkenylacylglycerophosphoethanolamine. 818 Feb 47

Human eosinophilic leukemia (Eol-1) cells were examined for their ability to generate platelet-activating factor (1-O-alkyl-2-acetyl-sn-glycero-3-phosphocholine) (PAF) and the effect of supplementation of docosa-hexaenoic acid (C22:6n-3) (DHA) on the PAF synthesis was explored in relation to the fatty acid composition of phospholipids and the liberation of arachidonic acid (C20:4n-6 AA). Although undifferentiated cells did not produce PAF, the exposure of IFN-gamma differentiated Eol-1 to generate PAF in response to the Ca-ionophore. In addition, the IFN-gamma-treated cells acquired the ability to release free fatty acids, approximately 55% of which was found to be AA. When DHA was supplemented into the culture of Eol-1 for 24 h, PAF production decreased by 40 to 50% at concentrations of 3 to 10 microM. On the other hand, supplementation of 10 microM eicosapentaenoic acid (C20:5n-3) did not significantly decrease PAF production. With the supplementation of 10 microM DHA, DHA levels in phospholipid subclasses, including alkylacylglycerophosphocholine, were greatly increased with concurrent decreases in other unsaturated fatty acids. In these cells, the liberation of AA in response to an ionophore was decreased by 55%. Even when DHA was enriched in phospholipids, DHA release in response to ionophore stimulation was almost negligible, indicating that the DHA moiety of phospholipids is not susceptible to the action of phospholipase A2. Furthermore, DHA supplementation appeared to attenuate phospholipase A2 reaction by some unknown mechanism because the decrease in AA release was much more than that for the AA level in phospholipids. Acetyl-CoA:1-alkylGPC acetyltransferase activity of stimulated cell lysate was also reduced by DHA supplementation but the reduction was much less when compared with that of PAF synthesis or AA release. These results implicated that enrichment of DHA attenuates enzymic reactions for PAF synthesis, mainly the initial reaction catalyzed by AA-specific phospholipase, and thereby reduces PAF synthesis in Eol-1.
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PMID:Effect of docosahexaenoic acid on the generation of platelet-activating factor by eosinophilic leukemia cells, Eol-1. 846 86

Mast cells can release arachidonic acid (AA) metabolites as well as preformed mediators with IgE mediated stimulation, and these mediators are considered to play an important role in allergic reactions. The coincident release of preformed mediators and AA metabolites suggests that AA metabolism is related to mast cell degranulation. To clarify the relationship between mast cell degranulation and AA metabolism, the effects of various A cascade inhibitors on rat basophilic leukemia cell (RBL) mediator release induced by either anti-IgE or A23187 were examined. 5,8,11,14-eicosatetraynoic acid (ETYA) inhibited both PGD2 and LTC4/D4 generation, and partially inhibited serotonin release. Nordihydroguaiaretic acid (NDGA) caused complete inhibition of LTC4/D4 generation, and partial inhibition of PGD2 generation and serotonin release. The cyclooxygenase inhibitor, indomethacin, and the specific 5-lipoxygenase inhibitor, L-651,392 completely inhibited PGD2 and LTC4/D4 generation, respectively, without affecting release of other mediators. Both PGD2 and LTC4/D4 generation were abolished by the combination of indomethacin and L-651,392, however, serotonin release remained intact. HPLC analysis showed that no shift to other AA metabolites occurred after the treatment with these inhibitors. Mepacrine, a phospholipase A2 inhibitor, completely inhibited PGD2 and LTC4/D4 generation, as well as AA release itself, without affecting serotonin release. Therefore, neither AA metabolism nor AA release is necessary for RBL degranulation.
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PMID:Effects of inhibitors of arachidonic acid metabolism on serotonin release from rat basophilic leukemia cells. 850 Sep 85

Human THP-1 leukemia cells differentiate along the monocytic lineage following exposure to phorbol-12-myristate-13-acetate (PMA) or 1,25-dihydroxyvitamin D3 (VD3). In the monocytic cell line THP-1, PMA treatment resulted in a more differentiated phenotype than VD3, according to adherence, loss of proliferation, phagocytosis of latex beads, and expression of CD11b and CD14. Both differentiating substances induced similar effects in the release of superoxide anions (O2-). VD3-differentiated cells did not release prostaglandin E2 (PGE2), in contrast to PMA-differentiated cells, and in PMA-differentiated cells phospholipase A2 (PLA2) activity and expression was increase. Lipopolysaccharide (LPS)-stimulated tumor necrosis factor-alpha (TNF-alpha) release was higher in PMA-treated cells. PMA- but not VD3-differentiation resulted in a translocation of protein kinase C (PKC) isoenzymes to membrane fractions. Both differentiating agents up-regulated the expression of PKC isoenzymes. Whereas VD3 elevated mainly the expression of PKC-beta, PMA caused a strong increase in PKC-delta and a weak increase in PKC-alpha, PKC-epsilon, and PKC-zeta expression. These results indicate that phorbol ester and the active metabolite of vitamin D induce different signal pathways, which might result in different achievement of differentiation.
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PMID:Differences in the state of differentiation of THP-1 cells induced by phorbol ester and 1,25-dihydroxyvitamin D3. 861 4

The effects of honokiol, a diphenyl compound extracted from a Chinese herbal medicine, on leukotriene (LT) synthesis were evaluated in rat basophilic leukemia (RBL) cells. The production of LTC4 and LTB4 stimulated by the Ca2+ ionophore A23187 was measured in RBL-1 cells by high-performance liquid chromatography. Honokiol inhibited the production of LTC4 and LTB4 stimulated by A23187 in RBL-1 cells. Honokiol did not inhibit either phospholipase A2 activity, measured by the release of 3H-arachidonic acid (AA), or LTC4 synthase and LTA4 hydrolase activities, measured with LTA4-free acid as substrate. The synthesis of LTC4 and LTB4 from AA in RBL-1 cell lysates in the presence of Ca2+ was inhibited by honokiol. These results indicate that honokiol blocks LT synthesis by inhibiting 5-lipoxygenase activity. Honokiol also inhibited immunoglobulin E-mediated production of these LTs in RBL-2H3 cells, which was measured by a specific radioimmunoassay (RIA). These results suggest that honokiol may exhibit antiallergic actions by inhibiting LT synthesis in immediate-type hyperreactivity.
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PMID:Inhibition of leukotriene synthesis by honokiol in rat basophilic leukemia cells. 868 75


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