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:C0017638 (glioma)
30,880 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

A trypsin-degradable nerve growth factor (NGF) receptor associated with the phospholipid component of the surface membrane has been detected on F98 anaplastic glioma cells. NGF also bound to the nucleus of F98 cells. Bound NGF was not displaceable by insulin, cytochrome C, growth hormone, or bovine serum albumin. Specific binding of NGF occurred with a Kd of 8.79 X 10(-12) M as determined by Scatchard analysis with approximately 34,000 receptors per cell. Specific NGF binding was also evident to C6 rat glioma cells and IMR-32 human neuroblastoma cells, but not to 3T3 mouse fibroblasts. These observations coupled with previous findings suggest that the NGF receptor may be a marker found on cells of neural derivation. As little as 1 ng/ml NGF caused an increase in the adhesiveness of F98 cells to culture flasks. Increased adhesiveness could be observed in as little as 5 min and was apparent for at least 45 min. At 25 min in NGF-containing medium, 24 +/- 3% of the cells adhered to the flasks compared to 13 +/- 1% of control cells. The NGF-induced increase in adhesiveness was not duplicated by epidermal growth factor, insulin, cytochrome c, bovine serum albumin, dibutyryl cyclic AMP, or sodium butyrate. Oxidized NGF blocked the effect of native NGF, but had little or no adhesion-promoting activity itself. Pretreatment of the cells with NGF was also effective in promoting adhesion, even though nerve growth factor was not added to the binding medium. The effect of this pretreatment was reversible; when NGF-pretreated cells were grown in medium without supplemental NGF, the adhesiveness of the cells returned to control levels or lower.
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PMID:Increased adhesion response of anaplastic glioma cells to nerve growth factor and the presence of specific receptors. 631 24

A number of cytochrome P450s are targets for compounds that are clinically used or under clinical evaluation for treatment of patients with mycotic infections, such as dermatophytosis, superficial and systemic candidiasis, cryptococcosis and aspergillosis, with skin diseases, such as psoriasis or ichthyosis, and other retinoid-sensitive malignancies, e.g., neuro-ectodermal glioma. Some of the P450 inhibitors are candidates for the treatment of hirsutism or prostate cancer, others are potent inhibitors of the P450 isomerase involved in the synthesis of thromboxane A2, a potent platelet aggregation inducer and vasoconstrictor.
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PMID:P450 inhibitors of use in medical treatment: focus on mechanisms of action. 749 62

Quantity and distribution of transgene-expressing tumor cells are central issues in cancer gene therapy. These are critical for the efficiency of tumor killing and for the bystander effect. In an attempt to combine the advantages of a potent bioactivating "suicide" gene with a marker gene for living cells, cDNA encoding cytochrome CYP4B1 was fused to the green fluorescent protein (GFP) cDNA. The resulting chimeric fusion protein, 4B1EGFP, was expressed in rodent and human glioma cell lines in culture. The ability of this recombinant enzyme to destroy tumor cells by converting the prodrug 4-ipomeanol (4-IM) into alkylating metabolites was evaluated in comparison with the cytotoxicity of the native CYP4B1 enzyme. The most sensitive 4B1EGFP-expressing glioma cell clone had a LD50 of 0.75 microgram/ml for 4-IM, as compared to a 4-IM LD50 of 0.5 microgram/ml in glioma cells expressing the native CYP4B1. A strong bystander effect mediated by cell-to-cell contact was present in the 4B1EGFP clones, allowing for more than 50% bystander kill at a ratio of expressing to non-expressing cells of 1:100. A herpes-simplex amplicon (pHSVPrPUC delta Hind) was constructed with the 4B1EGFP fusion protein, and recombinant helper-free HSV particles were packaged in Vero cells. Fisher 344 rats were inoculated with 4 x 10(5) 9L tumor cells to produce epidural tumor. Recombinant HSV particles were injected into the tumor at a dose of 1 x 10(7) pfu. Tumor was resected in living anesthetized animals 24, 48, and 72 hours after virus injection, and cryostat sections were evaluated by fluorescent microscopy. HSV-mediated delivery of the fusion protein to tumor cells was successfully demonstrated. In conclusion, the chimeric fusion protein 4B1EGFP retains essentially all features of the native CYP4B1 enzyme, and, moreover, offers advantages in terms of gene transfer visualization, which may lead to improvement of gene transfer strategies.
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PMID:A chimeric fusion protein of cytochrome CYP4B1 and green fluorescent protein for detection of pro-drug activating gene delivery and for gene therapy in malignant glioma. 1002 2

Recently, we showed that the major species of beta-naphthoflavone-inducible rat liver mitochondrial P450MT2 consists of N-terminal truncated microsomal P4501A1 (+33/1A1) and that the truncated enzyme exhibits different substrate specificity as compared with intact P4501A1. The results of the present study show that P450MT2 targeted to COS cell mitochondria by transient transfection of P4501A1 cDNA is localized inside the mitochondrial inner membrane in a membrane-extrinsic orientation. Co-expression with wild type P4501A1 and adrenodoxin (Adx) cDNAs resulted in 5-7-fold higher erythromycin N-demethylation (ERND) in the mitochondrial fraction but minimal changes in the microsomal fraction of transfected cells. Erythromycin, a potent inhibitor of bacterial and mitochondrial protein synthesis, caused 8-12-fold higher accumulation of CYP1A1 mRNA, preferential accumulation of P450MT2, and 5-6-fold higher ERND activity in the mitochondrial compartment of rat C6 glioma cells. Consistent with the increased mitochondrial ERND activity, co-expression with P4501A1 and Adx in COS cells rendered complete protection against erythromycin-mediated mitochondrial translation inhibition. Mutations that specifically affect the mitochondrial targeting of P4501A1 also abolished protection against mitochondrial translation inhibition. These results for the first time suggest a physiological function for the xenobiotic inducible cytochrome P4501A1 against drug-mediated mitochondrial toxicity.
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PMID:Physiological role of the N-terminal processed P4501A1 targeted to mitochondria in erythromycin metabolism and reversal of erythromycin-mediated inhibition of mitochondrial protein synthesis. 1003 57

The biochemical and molecular characteristics of cytochrome P4501A1 targeted to rat brain mitochondria was studied to determine the generality of the targeting mechanism previously described for mitochondrial cytochrome P450MT2 (P450MT2) from rat liver. In rat brain and C6 glioma cells chronically exposed to beta-naphoflavone (BNF), P450MT2 content reached 50 and 95% of the total cellular pool, respectively. P450MT2 from 10 days of BNF-treated rat brain was purified to over 85% purity using hydrophobic chromatography followed by adrenodoxin affinity binding. Purified brain P450MT2 consisted of two distinct molecular species with NH(2) termini identical to liver mitochondrial forms. These results confirm the specificity of endoprotease-processing sites. The purified P450MT2 showed a preference for adrenodoxin + adrenodoxin reductase electron donor system and exhibited high erythromycin N-demethylation activity. Brain mitoplasts from 10-day BNF-treated rats and also purified P450MT2 exhibited high N-demethylation activities for a number of neuroactive drugs, including trycyclic anti-depressants, anti-convulsants, and opiates. At 10 days of BNF treatment, the mitochondrial metabolism of these neuroactive drugs represented about 85% of the total tissue activity. These results provide new insights on the role of P450MT2 in modulating the pharmacological potencies of different neuroactive drugs in chronically exposed individuals.
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PMID:Accumulation of mitochondrial P450MT2, NH(2)-terminal truncated cytochrome P4501A1 in rat brain during chronic treatment with beta-naphthoflavone. A role in the metabolism of neuroactive drugs. 1091 93

In peripheral steroidogenic tissues, dehydroepiandrosterone (D) is formed from pregnenolone (P) by the microsomal cytochrome P450c17 enzyme. Although some steroidogenic P450s have been found in brain tissue, no enzyme has been shown to possess P450c17 activity. We recently demonstrated the presence of an alternative, Fe(2+)-dependent pathway responsible for D formation from alternative precursors in rat glioma cells. We and others could not find P450c17 mRNA and protein in rat brain, but demonstrate herein the presence of Fe(2+)-dependent alternative pathway for D formation in rat brain cortex microsomes. Using primary cultures of differentiating rat glial cells, we observed that P450c17 mRNA and protein were present in O-2A oligodendrocyte precursors and mature oligodendrocytes. In the presence of P, O-2A and mature oligodendrocytes formed D. Addition of Fe(2+) together with submaximal concentrations of P increased D formation by these cells. Treatment of oligodendrocytes with the P450c17 inhibitor SU 10603 in the presence or absence of P failed to inhibit D production. These data suggest that D formation in oligodendrocytes occurs independently of the P450c17 protein present in the cells. In isolated type I astrocytes we did not find neither P450c17 mRNA nor protein. These cells responded to Fe(2+) by producing D and addition of P together with Fe(2+) further increased D synthesis. SU 10603 failed to inhibit D formation by astrocytes. Taken together these results suggest that in differentiating rat brain oligodendrocytes and astrocytes D is formed via a P450c17-independent and oxidative stress-dependent alternative pathway.
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PMID:Pathways of dehydroepiandrosterone formation in rat brain glia. 1122 34

Tissue factor pathway inhibitor-2 (TFPI-2) is a 32 kDa serine protease inhibitor found at high levels in extracellular matrix. Recombinant human TFPI-2 has recently been shown to be a strong inhibitor of trypsin, plasmin, plasma kallikrein, and factor XIa amidolytic activity. Earlier studies in our laboratory showed that the expression of TFPI-2 is lost during tumor progression in human gliomas. We stably transfected this protease inhibitor in multiform glioblastoma cell line (SNB-19) and in low-grade glioma cell line (Hs683) in sense and antisense orientation respectively. This confirmed that the upregulation/down-regulation of TFPI-2 plays a significant role in the invasive behavior of human gliomas both in vitro and in vivo models. Collectively, these results suggested an idea to determine whether TFPI-2 is necessary for cell survival and inhibition of tumor formation in nude mice, due to apoptosis of intracerebrally injected SNB-19 cells. In the present study we determined p-ERK levels and found that they are decreased in TFPI-2 over-expressed clones (SNB-19) and increased in TFPI-2 down-regulated clones (Hs683). We also checked the levels of BAX/BCl-2, caspases (for e.g., 9, 7, 3, 8), PARP, cytochrome-c and Apaf-1. Moreover, the increase of apoptosis in vitro is associated with increased and decreased expression of apoptotic protein BAX in sense clones (SNB-19) and antisense clones (Hs683) respectively, when compared to controls and vice versa with Bcl-2 the anti-apoptotic protein. Caspases (9, 7 and 3), cytochrome-c, Apaf-1 and PARP levels are increased in SNB-19 and decreased in Hs683. Caspase 8 was not expressed in either cell line. Caspases 9 and 3 activity assay revealed higher activity in sense clones (SNB-19) but lesser in antisense clones (Hs683) compared to controls. This is the first report of TFPI-2 playing a novel role in cell survival in human gliomas.
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PMID:A novel role of tissue factor pathway inhibitor-2 in apoptosis of malignant human gliomas. 1149 41

Large doses of acetaminophen (APAP) could cause oxidative stress and tissue damage through production of reactive oxygen/nitrogen (ROS/RNS) species and quinone metabolites of APAP. Although ROS/RNS are known to modify DNA, the effect of APAP on DNA modifications has not been studied systematically. In this study, we investigate whether large doses of APAP can modify the nuclear DNA in C6 glioma cells used as a model system, because these cells contain cytochrome p450-related enzymes responsible for APAP metabolism and subsequent toxicity (Geng and Strobel, 1995). Our results revealed that APAP produced ROS and significantly elevated the 8-oxo- deoxyguanosine (8-oxodG) levels in the nucleus of C6 glioma cells in a time and concentration dependent manner. APAP significantly reduced the 8- oxodG incision activity in the nucleus by decreasing the activity and content of a DNA repair enzyme, Ogg1. These results indicate that APAP in large doses can increase the 8-oxodG level partly through significant reduction of Ogg1 DNA repair enzyme.
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PMID:Acetoaminophen-induced accumulation of 8-oxodeoxyguanosine through reduction of Ogg1 DNA repair enzyme in C6 glioma cells. 1503 74

Human Tid-1 (hTid-1) is a DnaJ chaperone protein with homology to the Drosophila tumor suppressor Tid56. We report the first case of a tumor-associated mutation at the human TID1 locus, which was identified in the SF767 glioma cell line giving rise to aberrantly high levels of a hTid-1(L) mutant variant. In this study, we set out to determine whether this change in hTid-1 status influences the response of glioma cells to adenoviral (Ad)-mediated delivery of the two major isoforms of TID1, hTid-1(L) and hTid-1(S). Ad-hTid-1(S) induced apoptosis in hTid-1 mutant SF767 cells, while causing growth arrest in wild-type hTid-1-expressing U373 and U87 cells. By contrast, Ad-hTid-1(L) infection had no apparent effect on glioma cell growth. The apoptosis induced by hTid-1(S) was accompanied by mitochondrial cytochrome C release and caspase activation and blocked by stable overexpression of Bcl-X(L). Our findings suggest that the status of hTid-1 in gliomas may contribute to their susceptibility to cell death triggers.
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PMID:Identification of a hTid-1 mutation which sensitizes gliomas to apoptosis. 1558 40

The oxazaphosphorines cyclophosphamide (CP) and ifosfamide (IF) are alkylating agents that require bioactivation via cytochrome (CYP) P450 isoenzymes including CYP2C9 enzymes. The present study investigated CYP2C9 in regard to its allelic variants in 23 tumor samples (10 breast tumors, 1 breast tumor cell line, 5 brain tumors, 7 glioma cell lines) with restriction fragment length polymorphism polymerase chain reaction (RFLP-PCR). The mutant alleles of CYP2C9 were residue 144 (Arg (*1)/Cys (*2)), residue 358 (Tyr/Cys), residue 359 (Ile/Leu (*3)) and residue 417 (Gly/Asp). The frequencies of the CYP2C9*1, CYP2C9*2 and CYP2C9*3 alleles in the cancer samples examined were found to be 0.848, 0.152 and 0.043, respectively. No sample revealed a mutation at residue 358 or 417. Comparing breast with brain tumors, brain tumors seemed to reveal a higher incidence of heterozygotes (5/12 compared to 2/11) at residue 144 and, with regard to residue 359, a lower incidence of heterozygotes (0/12 compared to 2/11). In summary, our data indicate that in tumor material, as in healthy material, the same allelic variants of CYP2C9 occur. Compared to healthy tissue, tumor material seemed to reveal a higher incidence of the *2 allele, but a significant difference could not be established. Our results show that brain and breast tumor samples appeared to differ in their frequency of heterozygotes at residues 144 and 359. This might also have an impact on intratumoral oxazaphosphorine metabolism.
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PMID:CYP2C9 polymorphisms in human tumors. 1647 10


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