UMLS:C0017638 - FACTA Search

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

Platelet-derived growth factor (PDGF) is a basic protein of relative molecular mass 30,000 (Mr 30K) composed of two polypeptide chains, designated PDGF A and PDGF B. The B-chain is encoded by the c-sis gene, the cellular counterpart of the simian sarcoma virus transforming gene v-sis. The PDGF A-chain cDNA clones recently isolated and sequenced from a transformed human clonal glioma cell line represent at least two alternatively spliced transcript species differing by 69 base pairs at the C-terminus. Here we demonstrate that the normal human umbilical vein endothelial cell (EC) A chain precursor lacks the 15 carboxy-terminal, highly basic amino acids encoded by the larger tumour cell cDNA. Surprisingly, culture media from monkey kidney cells (COS) transfected with the endothelial cDNA clone contained much less mitogenic activity than media from cells transfected with the longer tumour cell-derived A-chain cDNA. This functional difference appeared to be due to inefficient assembly or secretion of the recombinant endothelial-type growth factor. This suggests that some transformed cells may use alternative RNA splicing to modify normal growth factors and by so doing increase the efficiency of mitogen assembly or secretion.
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PMID:Alternative RNA splicing affects function of encoded platelet-derived growth factor A chain. 361 64

Several human normal and neoplastic cell lines were screened for production of PDGF receptor competing activity. Conditioned medium from two sarcomas and one glioma blocked 125I-PDGF binding to human foreskin fibroblasts in a dose-dependent manner. In each case this effect was abolished when the conditioned medium was pretreated with PDGF-antiserum, indicating that the receptor competing activity was immunologically related to PDGF. Direct evidence for de novo synthesis of a PDGF-like component in the cultures was afforded by 35S-cysteine labeling of the three cell lines, followed by immunoprecipitation with PDGF antiserum. This resulted in the specific precipitation of a 31,000 molecular weight labeled protein, which upon reduction was split into two polypeptides of molecular weights 17,000 and 16,500. The significance of these findings in view of the recently discovered structure homology between PDGF and the transforming gene product of simian sarcoma virus, p28sis, is discussed.
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PMID:Synthesis of a PDGF-like growth factor in human glioma and sarcoma cells suggests the expression of the cellular homologue to the transforming protein of simian sarcoma virus. 631 46

A human clonal glioma cell line, U-343 MGa Cl 2, cultured under serum-free conditions, was found to release a factor that competed with 125I-labeled platelet-derived growth factor (125I-PDGF) for binding to human foreskin fibroblasts. The concentration of competing activity in conditioned medium was equal to 20-30 ng of PDGF per ml. The PDGF receptor competing activity had an elution position on Sephadex G-200 close to that of tracer PDGF. The same fractions in the chromatogram also contained growth-promoting activity and material active in a PDGF radioimmunoassay. Incubation of partially purified, 125I-labeled glioma factor with fibroblasts, or rabbit anti-PDGF serum, led to the selective binding of a component with an estimated Mr of 31,000, as shown by NaDodSO4/gel electrophoresis under nonreducing conditions. After reduction this component migrated as a Mr 18,000 protein. Thus, the behavior in NaDodSO4/gel electrophoresis was similar to that of PDGF. Furthermore, incubation of partially purified glioma factor with immobilized PDGF antibodies markedly decreased the amount of PDGF receptor competing activity remaining in the supernatant. These results suggest that the factor produced by glioma cells has structural, immunological, and functional resemblance to PDGF. We previously reported that a human osteosarcoma cell line produces a PDGF-like molecule with growth-promoting activity. Taken together with the recent finding that PDGF is homologous to the transforming gene product of simian sarcoma virus, our present data give additional support for the idea that an autocrine activation of the PDGF receptor may be operational in the growth of human tumors of mesenchymal or glial origin.
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PMID:A glioma-derived analog to platelet-derived growth factor: demonstration of receptor competing activity and immunological crossreactivity. 632 78

GM1, GD1a, and GT1b inhibit both PDGF-stimulated and serum-stimulated DNA synthesis in Swiss 3T3 cells and the human glioma cell line U-1242 MG in a dose-dependent manner. The ganglioside inhibitory effect is counteracted in a dose-responsive fashion by serum such that ganglioside-induced inhibition is essentially abolished in 10% serum. Because of the potentially important role that gangliosides play in growth regulation of human gliomas, this phenomenon was studied in detail using U-1242 MG cells. Stimulation of DNA synthesis by low doses of serum in U-1242 MG cells is inhibited in a dose-responsive fashion by ganglioside GM1. However, serum itself counteracts the inhibitory effect of ganglioside in a dose responsive way. Kinetic analyses demonstrate that GM1 competes with some components of serum for sites on U-1242 MG cells (Kb of GM1 = 12.5 microM). On the other hand, GM1, GD1a, and GT1b stimulate DNA synthesis in quiescent U-1242 MG cells in both sparse and confluent conditions, indicating that ganglioside-stimulated DNA synthesis is dependent on the phase of cellular growth rather than cellular density. This growth stimulatory effect of gangliosides is more potent on quiescent, confluent cells than quiescent, sparse cells. These results demonstrate that exogenously added gangliosides can have opposite (bimodal) effects on progression of human glioma cells through the cell cycle depending upon the growth phase of the cells.
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PMID:Gangliosides have a bimodal effect on DNA synthesis in U-1242 MG human glioma cells. 747 80

The proteolipid protein (PLP) gene codes for the major central nervous system myelin protein. We have studied the effects of different agents on the expression of the PLP gene in C6 glioma cells. Retinoic acid (RA), but not dexamethasone, estradiol, insulin, growth hormone, or vitamin D3, had a drastic effect, increasing 10-20-fold the level of PLP mRNA. Concomitantly, RA also induced the appearance of the corresponding immunoreactive protein. The increase in PLP RNA level showed a slow kinetics and was blocked by cycloheximide, suggesting a posttranscriptional regulation by RA. Nuclear run-on assays confirmed that the rate of PLP gene transcription was unchanged by RA. In contrast, we found that retinoic acid augmented PLP mRNA stability, causing a substantial increase in its half-life. RA action was independent of cell density, serum, or PDGF but was partially inhibited by bFGF. On the other hand, thyroid hormone caused a moderate increase in PLP mRNA levels in C6 cells but only when the low numbers of thyroid receptors in these cells were increased by retrovirally mediated expression of an exogenous c-erbA/TR alpha-1 gene. Our results indicate that RA specifically up-regulates PLP expression in glioma C6 cells at a posttranscriptional level by increasing PLP RNA half-life.
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PMID:Retinoic acid posttranscriptionally up-regulates proteolipid protein gene expression in C6 glioma cells. 750 83

Trapidil is a PDGF antagonist that can inhibit the proliferation of the PDGF-producing glioma cells, U251MG. As the mechanism of growth-regulation by trapidil remains unclear, we studied its effect on the growth of U251MG cells. We performed a cell cycle analysis and examined the intracellular transduction pathway and oncogene expression in serum-stimulated glioma cells with or without trapidil. After the serum starvation for 3 days, glioma cell proliferation was stimulated by the addition of serum. Cell cycle analysis showed that cell cycle perturbations induced by trapidil included a decreased transition rate from G0-G1 to S phase, suggesting that some metabolic event is required for progress through the G0-G1 phase and that this event is sensitive to trapidil. Internal signal transduction mechanisms are central in the molecular control of cell growth. One such regulator is the protein kinase C(PKC) system and the c-fos gene is likely to be a direct target of intracellular signal transduction pathways. Therefore, we hypothesize that the intracellular PKC activity and c-fos expression of the trapidil-treated cells are suppressed. We posit that trapidil affects the intracellular signal transduction pathway PKC activity and c-fos expression in cells stimulated with serum containing growth factors.
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PMID:The mechanism of growth-regulation of glioma cells by trapidil. 767 82

The blood-brain barrier GLUT1 glucose transporter is localized in brain to the capillary endothelium, which makes up the blood-brain barrier (BBB) in vivo. However, its expression is markedly downregulated in cultured bovine brain capillary endothelium (ECL cells), possibly due to the absence of brain-derived or astrocyte trophic factors in the tissue culture medium. To examine this hypothesis, we studied the effect of a bovine brain homogenate (BBH), and conditioned media and plasma membranes obtained from the rat C6 glioma cell line, on the abundance of the GLUT1 transcript in ECL cells. BBH induced a significant increase in the abundance of both GLUT1 and actin mRNAs, and this effect was dose and time dependent. The increase in the GLUT1 mRNA levels correlated with an increase in the transcriptional rate of this gene measured by nuclear run-on experiments. C6 conditioned media and C6 plasma membranes had no effect on the abundance of either GLUT1 or actin mRNA. To determine whether known growth factors cause BBH-like induction of GLUT1 and actin mRNAs, a series of growth factors was also tested. EGF and PDGF had no effect on the levels of these mRNAs. Basic FGF had a moderate effect and TNF alpha partially mimicked the effect of BBH on both GLUT1 and actin transcripts. The present data suggests that brain-derived trophic factors present in BBH stimulate BBB-GLUT1 glucose transporter gene expression in ECL cells through a transcriptional mechanism. Although this effect was partially mimicked by TNF alpha, C6 cell membranes or C6 conditioned media were unable to induce changes in the abundance of GLUT1 mRNA. Therefore, BBH may be a useful model to study the characterization of soluble brain-derived trophic factors involved in the induction of BBB-GLUT1 gene expression.
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PMID:Enhanced expression of the blood-brain barrier GLUT1 glucose transporter gene by brain-derived factors. 801 84

We have studied, at the mRNA level, the influence of various defined growth conditions on the expression of TGF-alpha, PDGF-BB, EGF-R, PDGF-R alpha, and PDGF-R beta in five different glioma cell lines (D-37MG, D-54MG, D-263MG, GaMG, and U-251MG). RNA isolated from logarithmically growing, confluent monolayer cells or multicellular spheroids was analyzed. Northern blot experiments show that with a few exceptions, specific mRNA steady-state levels were considerably higher in cells grown in a three-dimensional organization relative to cells in the logarithmic growth phase.
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PMID:Three-dimensional growth of glial cell lines affects growth factor and growth factor receptor mRNA levels. 808 46

We have shown that several human malignant glioma cell lines are stimulated by bacterial lipopolysaccharide (E. coli 0111:B4, 1 microgram/ml) to produce a high molecular weight (> 200 kD) growth activity for BALB 3T3, clone A31 cells. This glioma-derived growth factor (GDGF-2) acts like a 'competence' factor. Malignant glioma cell line D-54 MG constitutively produced GDGF-2, which we have partially characterized from serum-free conditioned culture medium. GDGF-2 is resistant to heat (100 degrees C, 5 min), acidic (pH 2, 2 hr) or reducing (0.5 M 2 ME, 30 min) conditions as well as exposure to RNases; however, it is sensitive to > 4 freeze-thaw cycles, alkaline (pH 11, 2 hr) conditions or pre-treatment with proteolytic enzymes. GDGF-2 had a pl of 6.8 determined by preparative isoelectric focusing, bound to DEAE, with elution at 35 and 185 mM NaCl and at 43% acetonitrile from a C4 reversed phase column. GDGF-2 activity was not neutralized by antibodies to TGF alpha, TGF beta, PDGF, VEGF or TNF alpha indicating that it is not immunochemically related to these growth factors. However GDGF-2 co-chromatographed on Superose 12 HPLC (250 x 9 mm; 5% isopropanol, 6 mM CHAPS in PBS) with a substance that suppressed growth of mink lung epithelial cells (Mv1Lu), but not BALB 3T3 cells, and could be neutralized by anti-TGF beta antibodies. GDGF-2 activity eluted from heparin columns in 0.6 M NaCl; thus, it is not a heparin binding growth factor. D-54 MG cell line produced alpha 2-macroglobulin (alpha 2M), which is known to bind TGF beta; however, immunoprecipitation of alpha 2M did not deplete TGF beta or GDGF-2 activity. Further, neither GDGF-2 or TGF beta can be dissociated into lower molecular weight active components by chromatography in high salt (2 M NaCl) or 2-ME (0.5 M). GDGF-2 may be a novel autocrine or paracrine mitogen, stimulating mitotic division or interfering with normal cell growth regulation.
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PMID:Partial characterization of glioma-derived growth factor 2: a novel mitogenic activity from human cell line D-54 MG. 814 64

The effects of regional heterogeneity on the accuracy of histological grading of gliomas are well known, but little has been reported about its implications for other diagnostic modalities. This study investigated the relationships of regional heterogeneity in tumor proliferative activity, measured by Ki-67 labeling indices (LI), and histological grades for 16 regionally sampled glioma resections. There was a strong correlation between histological grades and Ki-67 LI in individual regions (p < 0.001), and both methods demonstrated comparable heterogeneity. Heterogeneity increased with tumor grade, probably as an expression of the increased genetic instability that accompanies tumor progression. Similarly, regions with comparable proliferative activity tended to cluster, paralleling clonal expansion. Thus, both histological grading and Ki-67 LI are subject to heterogeneity-induced sampling errors that limit their diagnostic accuracy, particularly in small biopsies. However, fewer grading errors occurred when using both methods together than when using either method alone, suggesting that the use of multiple techniques may reduce the adverse effects of regional heterogeneity on diagnostic accuracy. Regional heterogeneity appears to be a ubiquitous feature of gliomas: it also has been reported in karyotype, p53 oncogene mutations, and PDGF and EGFR expression. The effects of regional heterogeneity on new methods for studying gliomas need to be considered.
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PMID:Regional heterogeneity in the proliferative activity of human gliomas as measured by the Ki-67 labeling index. 822 80

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