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Query: UMLS:C0027819 (
neuroblastoma
)
27,800
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
1. Activation of protein kinase C (PKC) by phorbol esters or diacylglycerols has been shown to modulate a number of ionic currents carried by Ca2+, K+ and Cl-. Recently, it has been demonstrated that PKC may be activated by cis-fatty acids in the absence of either phospholipid or Ca2+. We wished to determine if this new class of PKC-activating compound would also modulate ionic currents. To this end we applied the whole-cell voltage-clamp technique to N1E-115
neuroblastoma
cells. 2. Analysis of families of currents evoked under voltage clamp by depolarizing steps from a holding potential of -85 mV during external application of 5 microM-oleate (a cis-fatty acid) showed a 36% reduction of the peak inward current with no shift in either the peak or the reversal potential of the current-voltage relation and no alteration of outward current. 3. External application of the cis-fatty acids oleate, linoleate and
linolenate
reversibly attenuated voltage-dependent Na+ current with approximate half-maximal dose values of 2, 3, and 10 microM respectively. Oleate was approximately 2 times more potent when applied internally (ED50 = 1 microM). Externally applied elaidate (a trans-isomer of oleate) and stearate (a saturated fatty acid) which do not activate PKC, had no effect. Since cis-fatty acids are known to fluidize membranes, as well as to activate PKC, we sought to dissociate these functions by applying compounds that fluidize membranes but do not activate PKC: methyloleate and lysophosphatidylcholine. Neither compound affected Na+ current when applied externally at concentrations of 1-50 microM. 4. In contrast to cis-fatty acids, three classical PKC activators, phorbol-12.13-dibutyrate (PDB), phorbol-12.13-diacetate (PDA), and 1.2-oleoylacetylglycerol (OAG) were found to have no effect on the voltage-dependent Na+ current when applied externally at 10 nM-1 microM (phorbol esters) or 1-150 microM (OAG) for incubation periods up to 1 h. 5. External application of the PKC inhibitors polymyxin B, H-7, sphingosine and staurosporine blocked the attenuation of the Na+ current by cis-fatty acid in a dose-dependent manner, with maximal inhibition occurring at doses of 50, 10, 200 and 0.1 microM, respectively. The cyclic nucleotide-dependent protein kinase inhibitor H-8 was much less effective in blocking the cis-fatty acid effect. Polymyxin B and staurosporine were more potent when applied internally. 6. Chronic (24 h) exposure to 1 microM phorbol-12-myristate-13-acetate (TPA) was employed to down-regulate PKC.(ABSTRACT TRUNCATED AT 400 WORDS)
...
PMID:cis-Fatty acids, which activate protein kinase C, attenuate Na+ and Ca2+ currents in mouse neuroblastoma cells. 255 78
Lipid peroxidation and basal adenylate cyclase activity have been examined in
neuroblastoma
cultured with a variety of exogenous fatty acids. Formation of cyclic AMP depended upon fatty acid type, with supplementation affecting activities in the order: linoleate greater than cis-vaccenate =
linolenate
greater than control (132.7, 72.6, 71.9 and 36.0 pmol cAMP formed/mg protein, respectively). Lipid peroxidation, measured by formation of malondialdehyde (MDA), also varied with fatty acid; however, there was little correlation between MDA production and basal cyclase activity. Inclusion of alpha-tocopherol in culture-medium blocked MDA formation without affecting cAMP accumulation. Fe2+-dependent induction of peroxidation was accompanied by a time-dependent inhibition of cyclase activity.
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PMID:Membrane fatty acids, lipid peroxidation and adenylate cyclase activity in cultured neural cells. 299 83
Neuroblastoma
x glioma cells NG108-15 were cultured in lipid-free medium supplemented with fatty acids of various chain length and unsaturation. Binding of 3H-labelled [DAla2]-[DLeu5]-enkephalin by membranes of cells grown in saturation fatty acids of different chain length was not significantly different from that of the control On the other hand, a proportional decrease of binding capacity with no change in residual receptor affinity was noticed when cells were cultured in medium containing fatty acids of increasing unsaturation. This decrease was time dependent and reached a maximum at about 48 h. Binding of [3H]dihydromorphine and [3H]naloxone was similarly affected. In contrast, when membranes of cells grown in normal medium were preincubated up to 3 h with unsaturated fatty acid and tested for opioid binding, no significant reduction was observed. Examination of the fatty acid composition of phospholipid from cells grown in
linolenate
indicated that a significant alteration of the acyl composition has occurred. To evaluate the underlying cause of this type of inhibition, the effect of linolenic acid on cell growth and protein synthesis was examined. When cells were cultured in 100 microM of this fatty acid, both growth and protein synthesis were retarded by 28% and 19%, respectively. Since opiate receptors are proteineous in nature, a reduction of protein synthesis may partially account for the loss of opioid binding activity. On the other hand, an increase of membrane fluidity is known to affect a number of cellular functions, including ligand-receptor recognition. Whether this can offer a satisfactory explanation for our observations remains to be established.
...
PMID:Reduction of opioid binding in neuroblastoma x glioma cells grown in medium containing unsaturated fatty acids. 628 29
As a first step in studying the effects of membrane lipid modification on complex cellular functions we have modified the membrane fatty acid composition of the
neuroblastoma
X glioma hybrid clone, NG108-15. These cultured cells were chosen because they exhibit many complex neuronal functions in vitro. Unsaturated fatty acids (oleate, linoleate,
linolenate
and arachidonate) were accumulated, metabolized and esterified by the cells. These unsaturated fatty acids stimulated cell growth, whereas saturated fatty acids were toxic to the cells. Changes as large as 40-fold in the ratio of monounsaturated/polyunsaturated fatty acids in the membrane phospholipids were produced by addition of fatty acids directly to serum-containing culture medium. As a result of the exposure of NG108-15 cells to unsaturated fatty acids the amount of phosphatidylethanolamine in the cells was increased by as much as 60%. Polyunsaturated fatty acids also caused a small decrease in the membrane cholesterol/phospholipid molar ratio. These experiments demonstrate that large changes in membrane fatty acid composition can be created in clonal cells capable of differentiated neuronal activities. Additional changes in membrane lipid composition also appear to be induced by these manipulations. The question of the importance of specific membrane lipid composition to neuronal cellular function now can be addressed.
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PMID:Membrane fatty acid modification of the neuroblastoma x glioma hybrid, NG108-15. 721 69
We investigated the ability of different hydroperoxides generated by lipoxygenase isozymes to induce programmed cell death (PCD) in human cells. Erythroleukemia K562 and
neuroblastoma
CHP100 cells were used, because they showed high basal activity of lipoxygenase. The hydroperoxides generated by 5-, 12-, or 15-lipoxygenases from linoleate,
linolenate
, or arachidonate, and the corresponding hydroxides, were able to induce PCD in both cell types, in a concentration- and time-dependent manner. After 24 h, K562 and CHP100 cells showed 2.5- to 3.5-fold more apoptotic bodies than the untreated controls. PCD elicited by lipoxygenase products was independent of intracellular glutathione concentration, and did not require mRNA transcription or protein synthesis. On the other hand, lipoxygenase products evoked an immediate and sustained rise in cytoplasmic calcium (within seconds), followed by mitochondrial uncoupling (within hours). Unlike the hydro(pero)xides, the terminal products of the arachidonate cascade (i.e., leukotrienes, prostaglandins and thromboxane) were not cytotoxic.
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PMID:Activation of different lipoxygenase isozymes induces apoptosis in human erythroleukemia and neuroblastoma cells. 1083 16
