UMLS:C0017638 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0017638 (glioma)
30,880 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The effects of chlorpromazine (CPZ), desmethylimipramine (DMI) and propranolol (PRO) on phospholipid metabolism in C6 glioma cells were studied by following the incorporation of 32Pi, [U-14C]glycerol, [2-3H]glycerol and [1-14C]oleate into lipids. The drugs produced a dose-dependent increase in the incorporation of 32Pi and [U-14C]glycerol, but not of [1-14C] oleate, into total phospholipids, that reached a plateau at 200 microM CPZ and 500 microM DMI and PRO. The three drugs shifted the incorporation of precursors from neutral [phosphatidylcholine (PC) and phosphatidylethanolamine (PE)] to acidic phospholipids [phosphatidic acid (PA), phosphatidylinositol (PI), phosphatidylglycerol, phosphatidylinositol-4-phosphate (PIP) and phosphatidylinositol-4,5-bisphosphate (PIP2)] in a dose-dependent, qualitatively similar manner. The incorporation of [2-3H]glycerol into diacylglycerol was also depressed markedly by CPZ. Addition of 1 mM 1,2-dioleoylglycerol, 1-oleoyl-2-acetylglycerol or oleate only partially reversed the decrease in PC labeling caused by CPZ. 12-O-Tetradecanoylphorbol-13-acetate counteracted this effect of CPZ completely but greatly increased PC labeling even in the absence of the drug. Polyphosphoinositides rapidly incorporated 32Pi at early times reaching a plateau in about 40 min. The labeling rate of PI was not parallel to that of PIP or PIP2 and continued to increase even after the polyphosphoinositides had reached a plateau. CPZ increased PI labeling much more than that of PIP and PIP2. These data suggest that cationic amphiphilic drugs may act by inhibiting CTP:phosphocholine cytidylyltransferase, thus decreasing incorporation of precursors into PC and PE; inhibiting PA phosphohydrolase with increased formation of phosphatidyl-CMP, the intermediate for the synthesis of acidic phospholipids; and stimulating the inositol exchange reaction, forming a pool of PI that is not available for PIP and PIP2 synthesis.
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PMID:Modifications of phospholipid metabolism induced by chlorpromazine, desmethylimipramine and propranolol in C6 glioma cells. 302 4

Four human cell lines derived from malignant gliomas were immunohistochemically examined for their content of estramustine-binding protein (EMBP). EMBP was detected in a large amount in all glioma cells during the entire cell cycle. EMBP has previously been demonstrated to be the major receptor protein in prostatic cancers for the cytostatic drug estramustine-phosphate (EMP). EMP caused a dose-dependent inhibition of exponentially growing cells by increasing the number of cells in G2/M stage of the cell cycle as monitored by flow cytofluorometry. The effect may be coupled to arrest of the glioma cells at metaphase. The presence of EMBP may suggest a selective binding and effect of EMP in glioma cells.
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PMID:Estramustine binding protein and anti-proliferative effect of estramustine in human glioma cell lines. 305 61

The effect of chemotherapy against glioma in mouse was evaluated by 31P NMR spectroscopy and flow cytometry. We found that administration of ACNU or tegafur at a dose less than LD50 resulted in the partial suppression of the ratio of inorganic phosphate (Pi)/phosphocreatine (PCr) and phosphomonoester (PME)/creatine phosphate (PCr) after 24 or 48 hr, although these ratios are usually increased together with growth of tumors. Flow cytometric analysis of glioma in vivo showed an accumulation in cells containing tetraploid DNA by G2M block 24-48 hr after treatment. However, the change occurred at a period slightly later than that of the Pi/PCr ratio. In contrast, histological change was noted at eight days after administration. Hence, it is concluded that in vivo 31P NMR spectroscopy can detect a change in metabolic pathways in tumors as early as 24-48 hr after the administration of chemotherapeutic agents.
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PMID:Early stage detection of chemotherapeutic effect on 203 GL glioma in mice as studied by P-31 NMR and flow cytometry. 314 36

In vivo 31P-magnetic resonance spectra (MRS) were obtained by the surface coil method from rat glioma, human glioblastoma, and human neuroblastoma inoculated subcutaneously in CD Fisher rats and hamsters, and the effects of chemotherapy, photoradiation therapy, and radiofrequency hyperthermia as well as 60Co-irradiation were evaluated by sequentially observing spectral changes. In the 31P-spectra of tumour tissue, the nucleoside triphosphate (NTP), phosphomonoesters (PME) peaks were high and the phosphocreatine peak was low compared to those of normal brain. When the antitumour agents were given and were effective, NTP peaks decreased, and inorganic phosphate increased remarkably within several hours after the treatment. 1H-magnetic resonance imaging (MRI) were also obtained in some cases. Necrotic regions was detected by the 1H-MRI as image changes which appeared later than those detected by MRS. It proved practical to monitor the effect of therapy by employing either 31P-MRS or 1H-MRI. However, the image changes which demonstrated the effect of the therapy used closely resembled those changes which occurred with the onset of necrosis in tumour tissue during tumour growth. Several problems for future application of these techniques to human brain tumours are also mentioned.
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PMID:The investigation of experimental brain tumours using 31P-MRS and 1H-MRI. 321 41

1. The role of inositol 1,4,5-trisphosphate (InsP3) and diacylglycerol (DAG) as possible mediators of the membrane current responses of NG108-15 neuroblastoma x glioma hybrid cells to bradykinin (BK, Brown & Higashida, 1988b) has been tested using intracellular ionophoresis of InsP3 and external application of phorbol dibutyrate (PDBu) and 1-oleoyl-2-acetylglycerol (OAG). 2. Intracellular ionophoresis of InsP3 into cells clamped at -30 to -50 mV produced (i) a transient outward current, (ii) a transient outward current followed by an inward current, or (iii) an inward current. All currents were accompanied by an increased input conductance. 3. The transient outward current reversed at between -80 and -90 mV. The reversal potential was shifted to more positive potentials on raising extracellular [K+], suggesting that it resulted from an increased K+ conductance. 4. The outward current was inhibited by apamin (0.4 microM) or d-tubocurarine (0.2-0.5 mM); these drugs also inhibit the outward current produced by BK or by intracellular Ca2+ injections (Brown & Higashida, 1988 a, b). The outward current was also slowly reduced in 0 mM [Ca2+] or 0.5 mM [Cd2+] plus 2 mM [Co2+] solution. 5. Ionophoretic injection of inositol 1,3,4-trisphosphate and inositol 1,3,4,5-tetrakisphosphate, guanosine trisphosphate or inorganic phosphate did not evoke an outward current but produced only an inward current with an increased conductance, reversing at between -10 and -20 mV. 6. Bath application of PDBu (10 nM-1 microM) or OAG (1-10 microM) produced an inward current with a fall in input conductance. The inward current was voltage dependent and was accompanied by an inhibition of the time-dependent current relaxations associated with activation or deactivation of the voltage-dependent K+ current, IM. 7. PDBu did not clearly reduce the Ca2+ current or the Ca2+-dependent K+ current recorded in these cells. During superfusion with PDBu, the outward current produced by intracellular ionophoresis of InsP3 was greatly enhanced. 8. The results support the view that the two membrane current responses to BK might both result from accelerated membrane phosphatidylinositide hydrolysis. One product, InsP3, releases Ca2+ and activates an apamin-curare-sensitive outward K+ current; this effect is imitated by intracellular InsP3 ionophoresis. The second product, DAG; activates protein kinase C to inhibit the voltage-dependent K+ current IM and generate an inward current; this effect is imitated by external application of PDBu or OAG.
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PMID:Inositol 1,4,5-trisphosphate and diacylglycerol mimic bradykinin effects on mouse neuroblastoma x rat glioma hybrid cells. 326 93

Application of acetylcholine (ACh) to C62B glioma cells results in a rapid release of inositol phosphates. Since this response is transient, we evaluated the possible role of protein kinase C (PKC) in its desensitization. Pretreatment with 100 nM phorbol 12,13-dibutyrate (PDBu) significantly inhibited ACh-induced accumulation of [3H]inositol mono-, bis-, and trisphosphates. However, interpretation of this result as proof of PKC involvement was complicated by the failure of 1,2-dioctanoylglycerol, 1,2-didecanoylglycerol, or 1-oleoyl-2-acetylglycerol pretreatments to mimic the phorbol ester effect. Further evidence against PKC involvement was obtained using the PKC inhibitor sphingosine; PDBu inhibition of inositol phosphate formation was not reversed by sphingosine pretreatments at concentrations which blocked ACh-stimulated PKC activation of inositol trisphosphate phosphatase activity. These results suggest that there may be phorbol effects not mediated by PKC.
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PMID:Differential effects of phorbol ester and diacylglycerols on inositol phosphate formation in C62B glioma cells. 347 84

Several aspects of the regulation of the pentose phosphate pathway were examined in cultured normal human cortical astrocytes and gliomas of pathological grades I-IV. The generation of radiolabeled CO2 from [1-14C]glucose by the oxidative arm of the pentose phosphate pathway is a saturable process and has a maximum flux rate of 8-9 nmol/hr/mg cell protein. The flux can be blocked by the glycolytic inhibitor iodoacetamide but is unaffected by agents which inhibit oxidative phosphorylation. The magnitude of the pentose phosphate flux is directly related to the glioma grade. Grade IV gliomas (glioblastoma) show a pentose phosphate flux rate of approximately 4% of the total glucose flux. The flux rate can be increased by pharmacological agents which decrease the NADPH/NADP+ ratio. Both the activity and the regulation of glioma glucose-6-phosphate dehydrogenase (G6PDH) are altered in high-grade gliomas. While the affinity constants for cofactors in whole homogenates were not significantly different in glioma or normal astrocyte homogenates, normal astrocytes have a lower Km for glucose-6-phosphate and a G6PDH activity which is 10-fold greater than that of gliomas. NADPH is a powerful regulator of G6PDH activity in the normal astrocytes and in gliomas. At a NADPH/NADP+ ratio of 7:1 the normal astrocyte G6PDH is entirely inhibited, while the glioma enzyme is only 70% inhibited even at a ratio of 20:1. Increased metabolic flux through the oxidative arm of the pentose phosphate pathway is apparently due to an altered form of G6PDH.
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PMID:Regulation of the pentose phosphate pathway in human astrocytes and gliomas. 350 33

In vivo phosphorus-31 magnetic resonance (MR) spectra were obtained by a surface coil method from rat glioma tissue inoculated subcutaneously in CD Fisher rats, and the effects of photoradiation therapy on tumors were evaluated by sequentially observing spectral changes. In the control group, the nucleoside triphosphate (NTP) and phosphomonoester peaks were large, the phosphocreatine peak was small, and the inorganic phosphate (Pi) peak was intermediate. In all eight cases in the group in which a dose of 10 mg/kg of hematoporphyrin derivatives (HpD) was given before photoirradiation, NTP peaks decreased, and the Pi peak increased remarkably within 1 hour after the 60-minute white-light irradiation. Spectral changes were observed before histologic changes were apparent. Histologic examinations 3 days after irradiation showed extensive necrosis in the tumor tissue. With preinjection of 5 mg/kg HpD, three of the eight cases showed spectrum changes after the irradiation. No spectrum changes were observed in the group with preinjection of 2.5 mg/kg. In vivo P-31 MR spectra measurements are useful not only to investigate the energy metabolism of tumor tissue in vivo but also to evaluate the effects of photoradiation therapy on tumors.
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PMID:Evaluation of the effects of photoradiation therapy on brain tumors with in vivo P-31 MR spectroscopy. 373 23

Positron emission computed tomographic (PECT) scanning studies have demonstrated that high grade gliomas exhibit increased 2-[18F]fluoro-2-deoxyglucose (18FDG) uptake compared to cerebral white matter and low grade gliomas. Hexokinase catalyzes the phosphorylation of glucose, as well as 18FDG and 2-deoxyglucose (2DG), thereby "trapping" these slowly metabolized analogues intracellularly. We hypothesize that a similar hexokinase-mediated uptake of glucose and glucose analogues occurs in vitro. Hexokinase activity was assayed in homogenates of tissue-cultured lines derived from high (IV) and low (II) grade gliomas and in fibroblasts derived from skin. With glucose as substrate, the maximal activity (Vmax) in the Grade IV lines was 200% of the activity found in the Grade II line, fibroblasts, and astrocytes; however, the Michaelis substrate affinity constant (Km) bore no relationship to tumor grade. With 2DG as substrate, the Vmax of all cell lines decreased, but the Grade IV lines still tended to have greater activity than the others. The Km values for 2DG were 5 times higher than those for glucose. Hexokinase is found in two subcellular compartments: an active form reversibly bound to mitochondria and a less active, cytosolic form. Up to 20% of the total hexokinase was found in the cytosol in all lines tested. High energy phosphate compounds (ATP, ADP, CTP, and others) displaced mitochondria-bound hexokinase, which increased the cytosolic form by 2-fold in the glioma lines, but fibroblast hexokinase distribution was unaffected. Our results suggest that: (a) high grade gliomas have increased hexokinase activity, which may explain the grade-related differences in 18FDG uptake observed by PECT scanning, and (b) human glioma hexokinases may be regulated by reversible subcellular compartmentation.
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PMID:Regulation of hexokinase in cultured gliomas. 387 50

The effects of chemotherapy on living tumor tissue in hamsters and rats were investigated by measuring the 31P nuclear magnetic resonance spectra using topical magnetic resonance. Human neuroblastoma, human glioblastoma, and rat glioma tumor cells were inoculated s.c. in the lumbar region of the animals. After the diameter of the tumors increased to 1.5 cm, in vivo 31P nuclear magnetic resonance spectra were measured selectively in the tumors with a TMR-32 spectrometer. Adenosine triphosphate, inorganic phosphate (Pi), phosphodiester, and phosphomonoester peaks were observed. The phosphocreatine peak was hardly detectable, adenosine triphosphate and phosphomonoester peaks were high, and tissue pH, calculated from the chemical shift of Pi, declined. Regardless of the tumor origin or the histological type, the spectral pattern of each neuroectodermal tumor was found to be essentially the same. After i.v. injection of a large dose of a chemotherapeutic agent, adenosine triphosphate peaks decreased and Pi increased gradually, resulting in a dominant Pi peak pattern after 6 to 12 hours. However, during the same period, there were no observable changes in the spectra of normal organs. These findings indicated that the drugs have a selective and direct action on the energy metabolism of tumor cells. With lower drug doses, no remarkable changes were seen in the spectrum. Measurement of in vivo 31P nuclear magnetic resonance spectra is valuable not only to investigate the energy metabolism in tumor tissue but also to evaluate the effects of chemotherapy.
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PMID:Measurements of in vivo 31P nuclear magnetic resonance spectra in neuroectodermal tumors for the evaluation of the effects of chemotherapy. 398 84

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