Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0017636 (glioblastoma)
 18,345 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The synthesis of C2 and factor B, the key components of complement system, is performed by various kinds of cells and is also up-regulated by interferon-gamma (IFN-gamma). By using human fibroblasts, human glioblastoma cell line A172 and monocytes, we investigated the signal-transduction mechanism for IFN-gamma-induced synthesis of C2 and factor B. The C2 and factor B synthesis induced by IFN-gamma in all three cell types was inhibited by a protein kinase C (PKC) inhibitor, 1-(5-isoquinolinyl-sulphonyl)-2-methylpiperazine (H-7). The depletion of PKC in these cell types after treatment with phorbol 12-myristate 13-acetate (PMA) resulted in inhibition of IFN-gamma-induced C2 production. In addition, IFN-gamma treatment elicited a decrease in cytoplasmic PKC in A172 cells, indicating that PKC is activated by IFN-gamma. These results suggest that PKC is crucial for IFN-gamma-induced C2 and factor B synthesis. Northern-blot analysis showed that the effects at H-7 were at least partly mediated by modulation of C2 and factor B mRNA abundance in A172 cells. Since treatment of fibroblasts and A172 cells with IFN-gamma had no effect on intracellular Ca2+ concentration, and since neither EGTA nor nifedipine inhibited C2 or factor B synthesis induced by IFN-gamma, we concluded that intracellular Ca2+ mobilization was not involved in the effect of IFN-gamma. In addition, genistein, herbimycin A and N-(6-aminohexyl)-5-chloro-1-naphthalene-sulphonamide (W-7) had no inhibitory effect on IFN-gamma-mediated action in any of the three cell types, which suggests that IFN-gamma acts independently of tyrosine kinases and calmodulin-dependent protein kinases.
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PMID:Role of protein kinase C activation in synthesis of complement components C2 and factor B in interferon-gamma-stimulated human fibroblasts, glioblastoma cell line A172 and monocytes. 783 55

To investigate the role of protein kinase C (PKC) in the growth of astrocytic brain tumors, human glioblastoma cell line U-87 was stably transfected with the antisense complementary deoxyribonucleic acid encoding PKC alpha. The effect of selectively down-regulating the alpha isoform on other PKC isoforms, as well as serum-dependent proliferation and in vivo tumorigenicity, was determined. U-87 cells expressed high levels of PKC alpha and lesser amounts of the gamma, epsilon, and zeta isoforms, and a similar PKC isoform pattern was observed in two other human glioblastoma cell lines. Expression of the antisense PKC alpha complementary deoxyribonucleic acid resulted in no detectable PKC alpha by immunoblotting and a 95% reduction in total Ca2+/phospholipid-dependent PKC activity. U-87 cells expressing antisense PKC alpha exhibited an increase in doubling time in vitro, less serum-dependent growth, and reduced sensitivity to a selective PKC inhibitor, Ro 31-8220. The transplantation of U-87 cells expressing antisense PKC alpha into nude mice resulted in no tumor formation. These observations suggest that the inhibition of PKC alpha may be an important chemotherapeutic target for arresting the growth of glioblastomas.
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PMID:Antisense expression of protein kinase C alpha inhibits the growth and tumorigenicity of human glioblastoma cells. 783 40

We attempted to determine whether calcium channel blockers (CCBs) enhance the anti-tumour activity of cis-diamminedichloroplatinum (cisplatin) against both cisplatin-sensitive human glioblastoma U87 MG cells and cisplatin-resistant U87-MG-CR cells, the latter of which we developed for resistance to cisplatin. Nifedipine, a dihydropyridine class CCB, significantly enhanced the anti-tumour effect of cisplatin on these two cell types in vitro and in vivo. Our findings also indicated that, in the absence of normal extracellular Ca2+ nifedipine was capable of enhancing the cytotoxicity of cisplatin. In addition, this anti-tumour activity was partially inhibited by actinomycin D and cycloheximide, suggesting that it is possibly dependent upon new RNA and protein synthesis. Interestingly, ultrastructural analysis, DNA fragmentation assay and cell cycle analysis demonstrated that synergism between cisplatin and nifedipine results in apoptosis (programmed cell death) at a relatively low concentration of cisplatin, which when tested alone did not induce apoptosis. Furthermore, we demonstrated that nuclei from these cells lack a Ca(2+)-dependent endonuclease that degrade chromatin in the linker region between nucleosomes. In conclusion, our studies suggest that the non-cytotoxic agent nifedipine is able to synergistically enhance the anti-tumour effects of cisplatin on U87-MG and U87-MG-CR cells lacking a Ca(2+)-dependent endonuclease and subsequently to induce apoptosis via interaction of nifedipine with an as yet uncharacterised functional site other than a calcium channel on target cells.
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PMID:Combination therapy with cisplatin and nifedipine induces apoptosis in cisplatin-sensitive and cisplatin-resistant human glioblastoma cells. 784 Oct 41

The authors found that multidrug-resistant human glioblastoma GB-1 cells demonstrated significantly more resistance to cisplatin than did nondrug-resistant human glioblastoma U87-MG cells (p < 0.1). They therefore attempted to determine whether calcium channel blockers enhance the antitumor activity of cisplatin against GB-1 cells. Nifedipine, a dihydropyridine calcium channel blocker, significantly enhanced the antitumor effect of cisplatin on GB-1 cells (p < 0.05). In the absence of normal extracellular Ca++, nifedipine enhanced the cytotoxicity of cisplatin. In addition, the antitumor activity of combined cisplatin and nifedipine was inhibited both by actinomycin D and cycloheximide, suggesting that such activity is dependent upon new RNA and protein synthesis. Surprisingly, DNA fragmentation assay demonstrated that synergism between cisplatin and nifedipine resulted in apoptosis (programmed cell death) at a relatively low concentration of cisplatin, which when tested alone did not induce apoptosis. In addition, it was demonstrated that nuclei from GB-1 cells lacked a Ca(++)-dependent endonuclease that degrades chromatin into nucleosomes and that calcium ionophore A 23187 did not decrease the viability of GB-1 cells. The above findings suggest the hypothesis that the noncytotoxic agent nifedipine synergistically enhances the antitumor effect of cisplatin on multidrug-resistant GB-1 cells lacking Ca(++)-dependent endonuclease, and subsequently induces apoptosis via its interaction with an as yet uncharacterized functional site other than the calcium channel on GB-1 cells.
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PMID:Combination therapy with cisplatin and nifedipine inducing apoptosis in multidrug-resistant human glioblastoma cells. 786 Dec 26

L-Proline transport in C6 glioblastoma cells takes place mainly via a saturable Na(+)-dependent mechanism. The uptake process can be discriminated into two components, system A and system ASC. A minor proportion of L-proline transport is carried out by the ASC system, which appears to be constitutively expressed by the cell, but most is by system A which shows adaptive responses to amino acid deprivation and sensitivity to N-methyl-alpha-aminoisobutyric acid. The transport system is inhibited by proline derivatives, such as methyl and benzyl esters, and also hydroxyproline, and is stereospecific. Incubation of glioblastoma cells with phorbol 12-myristate 13-acetate led to concentration- and time-dependent decreases in L-proline transport. This effect could be mimicked by exogenous phospholipase C. Proline transport is significantly stimulated in the presence of Ca(2+)-mobilization agents and strongly inhibited in the absence of Ca2+. The present data suggest a complex regulation of L-proline transport by different kinases in glioblastoma cells.
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PMID:Characteristics and regulation of proline transport in cultured glioblastoma cells. 794 91

In vitro, when using low concentrations of ferritin (ng/ml) or CaCl2 (micrograms/ml), multiplication of a human, 1,3-bis-(2-chloroethyl)-1-nitrosourea (BCNU)-resistant glioblastoma cell line (U251) is enhanced 1.5 to 2 times more actively than multiplication of a normal astrocyte line (CRL 1656). Ferritin and Ca2+ ions exhibit a marked effect on DNA isolated from these cells: glioblastoma DNA relaxation is strongly increased (as evidenced by increased 260 nm ultraviolet absorbance), being from 5 to 6 times that of astrocyte DNA, which remains only slightly affected. Under identical experimental conditions, Zn2+ and gallium ions selectively inhibit glioblastoma cell multiplication but at the same concentrations do not inhibit astrocyte multiplication. Ultraviolet absorbance measurements demonstrate that both of these agents condense relaxed glioblastoma DNA in vitro. Zn2+ or gallium ions added to culture medium containing stimulatory concentrations of ferritin or Ca2+ ions selectively and strongly inhibit enhancement of glioblastoma cell multiplication by these mitogens while not affecting normal multiplication of astrocytes.
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PMID:Differential effects of ferritin, calcium, zinc, and gallic acid on in vitro proliferation of human glioblastoma cells and normal astrocytes. 814 3

The receptor for neuromedin B (NMB-R), a mammalian bombesin-related peptide, is widely distributed in the central nervous system and gastrointestinal tract. While it is known that this receptor is coupled to phospholipase C, like many other phospholipase C-activating receptors, little is known about regulation of the NMB-R subsequent to agonist stimulation. We studied both native NMB-R on C-6 rat glioblastoma cells and wild type NMB-R cloned from rat esophageal muscle which was stably transfected into Balb/3T3 fibroblasts. Both cell types rapidly increased [3H]inositol phosphates and [Ca2+]i in response to 1 microM NMB, whereas preincubation with 3 nM NMB for 3 h markedly attenuated the ability of 1 microM NMB, but not 1 microM endothelin-1, to alter either cell type's biological activity. Prolonged exposure to 3 nM NMB caused a rapid decrease in the number of NMB-R, with the maximal receptor down-regulation seen at 24 h due to NMB-R internalization. After maximal down-regulation, removal of agonist resulted in a rapid restoration of NMB-R to the cell surface of both cell types. NMB-R recovery at 6 h was blocked by monensin, an inhibitor of receptor recycling, but was not affected by cycloheximide, a protein synthesis inhibitor. Resensitization to agonist paralleled the recovery of NMB-R in both cell types, and resensitization likewise was blocked by monensin. Our data demonstrate that the NMB-R undergoes rapid homologous desensitization consequent to agonist stimulation, which is mediated by receptor down-regulation and which, in turn, is regulated by internalization. During resensitization, NMB-R reappearance on the cell surface membrane is independent of protein synthesis and is due to a recycling from an intracellular site.
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PMID:Desensitization of neuromedin B receptors (NMB-R) on native and NMB-R-transfected cells involves down-regulation and internalization. 816 69

Ciglitazone is the prototype of the thiazolidinedione class of compounds currently being developed for the treatment of insulin resistance and non-insulin-dependent diabetes. The effects of thiazolidinediones on blood pressure and cell calcium metabolism are not well defined. In the obese Zucker rat, a widely studied model of insulin resistance associated with mild hypertension, we investigated the effects of ciglitazone on plasma insulin levels and mean arterial pressure. We also evaluated the effects of ciglitazone on the changes in cytosolic calcium induced by platelet-derived growth factor in A172 human glioblastoma cells and rat A10 vascular smooth muscle cells. Oral administration of ciglitazone, approximately 45 mg/kg per day for 4 weeks, induced significant reductions in plasma insulin levels (p < 0.001) and blood pressure (p < 0.05). Ciglitazone was also found to significantly attenuate the capacity of platelet-derived growth factor BB homodimer to induce sustained increases in intracellular free calcium. These findings suggest that thiazolidinediones may offer a novel pharmacological approach to the treatment of hypertension, and raise the possibility that these compounds may affect blood pressure not only by affecting insulin metabolism but also by modifying the cell calcium response to pressor agents, growth factors, or both.
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PMID:Effects of ciglitazone on blood pressure and intracellular calcium metabolism. 850 86

According to differences in mobility on SDS-polyacrylamide gel electrophoresis, calpastatins (inhibitor proteins of the calcium-dependent proteinase calpain) are classified into the tissue type (100-120 kDa) and the erythrocyte type (70 kDa), which lacks the amino-terminal domains (domains L and 1). We investigated the molecular diversity of calpastatin in human hematopoietic cells by Western-blot analysis and by the reverse-transcription-polymerase-chain reaction method. While the mononuclear and polymorphonuclear cells in peripheral blood showed the tissue type (110 and 114 kDa), a cell line of erythroid cells (JK-1) showed both the tissue type (110 kDa) and the erythrocyte type (70 kDa) at approximately equal ratios. When the lysate of JK-1 cells was incubated in the presence of ATP, the 110-kDa form was degraded much faster than the 70-kDa form. In human erythrocytes, the 110-kDa form was identified as the tissue type by an antibody recognizing domain L, and this form was also present in addition to the predominant 70-kDA form. JK-1 cells, as well as nucleated cells in peripheral blood, contained calpastatin mRNA with exon-3-deleted. Glioblastoma and fibroblast cell lines expressed the nondeleted calpastatin mRNA in addition to the deletion type, and they showed bands corresponding to 117 kDa as well as 110 and 114 kDa. The 117-kDa band was detectable by an anti-exon 3 peptide antibody. These results suggest that diversity among the tissue type calpastatins is caused by both alternative splicing and post-translational processing whereas the apparent conversion from the tissue type to the erythrocyte type is caused by proteolytic processing.
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PMID:Molecular diversity of calpastatin in human erythroid cells. 851 20

Calcium signaling in non-excitable cells is the consequence of calcium release from intracellular stores, at times followed by entry of extracellular calcium through the plasma membrane. To study whether entry of calcium depends upon the level of saturation of intracellular stores, we measured calcium channel opening in the plasma membrane of single confluent A172 glioblastoma cells stimulated with platelet derived growth factor (PDGF) and/or bradykinin (BK). We monitored the entry of extracellular calcium by measuring manganese quenching of Indo-1 fluorescence. PDGF raised intracellular calcium concentration ([Ca2+]i) after a dose-dependent delay (tdel) and then opened calcium channels after a dose-independent delay (tch). At higher doses (> 3 nM), BK increased [Ca2+]i after a tdel approximately 0 s, and tch decreased inversely with both dose and peak [Ca2+]i. Experiments with thapsigargin (TG), BK, and PDGF indicated that BK and PDGF share intracellular Ca2+ pools that are sensitive to TG. When these stores were depleted by treatment with BK and intracellular BAPTA, tdel did not change, but tch fell to almost 0 s in PDGF stimulated cells, indicating that depletion of calcium stores affects calcium channel opening in the plasma membrane. Our data support the capacitative model for calcium channel opening and the steady-state model describing quantal Ca2+ release from intracellular stores.
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PMID:Depletion of intracellular calcium stores facilitates the influx of extracellular calcium in platelet derived growth factor stimulated A172 glioblastoma cells. 872 4


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