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)

Malignant human gliomas are the most common forms of primary tumors in the central nerve system. Due to their location and invasive nature, treatment so far has been mainly palliative. Thus, understanding the molecular detail of tumor transformation and progression is crucial for developing effective therapeutic strategy for this fetal tumor. Among the genetic alternations found in these tumors, p53 inactivation and PDGF/PDGFR activation represent the early events, and the loss of chromosome 10 and gene amplification and rearrangement of EGFR represent the late events. Studies with both glioma cell lines and primary tumor tissues have strongly suggested that TGF-alpha and EGFR function as an important autocrine loop in supporting proliferation of human glioma, especially in high grade glioma, since elevated TGF-alpha expression is also found in these high grade tumors. Furthermore, down regulation of the expression of TGF-alpha by antisense constructs has been shown to inhibit several types of human tumor cell growth including glioma. Other means of therapeutic approaches using this autocrine loop as a target also include the use of monoclonal antibodies and their cytotoxic conjugated. Considerable understanding of the EGFR-mediated signal transduction pathways has become available recently, which including GRB2/mSOS1 mediated MAP kinase activation; JAK/STATs pathway; PLC-gamma pathway. However, much work still needs to be done before a specific component of these pathways can be applied for effective control of tumor growth in the clinic.
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PMID:The autocrine loop of TGF-alpha/EGFR and brain tumors. 944 27

There have been impressive surgical, radiotherapeutic, and chemotherapeutic advances in treating cancer. However, the outlook for patients with malignant brain tumors is still dismal. Gene therapy offers hope of replacing defective genes, amplifying the immune response to cancer, and sensitizing tumor cells to systemic therapies (suicide gene therapy). The insertion of the thymidine kinase gene from herpes virus (HSV-TK) into glioma cells can sensitize them to intravenous ganciclovir. Pivotal to the HSV-TK strategy is the "bystander effect," which results in a larger number of tumor cells being killed than those that have been genetically altered. The presence of gap junctions between tumor cells and immunocompetence are required experimentally to observe the "bystander effect." At present, clinical trials using suicide gene therapy in newly diagnosed and recurrent gliomas are underway. Suicide gene therapy faces many challenges in neuro-oncology until p53 gene replacement and immunomodulatory strategies become feasible.
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PMID:Gene therapy for pediatric brain tumors. 944 25

p21WAF1/CIP1 is a downstream mediator of p53 and mediates growth arrest by inhibiting the action of G1 cyclin-dependent kinases. Since cellular differentiation is frequently characterized by G1 arrest, we examined whether p21WAF1/CIP1 overexpression would induce growth suppression and differentiation in p53-defective human glioma cells. Overexpression of p21WAF1/CIP1 resulted in an accumulation of cells in G1, altered morphology, growth arrest and cell differentiation. The extent of cell differentiation correlated with the level of p21WAF1/CIP1 as well as of proliferating cell nuclear antigen, cyclin E, and cdk 2, which associates with p21WAF1/CIP1. Our data suggest that gene transfer of p21WAF1/CIP1 may arrest glioma cell growth in vivo by committing malignant glioma cells to a pathway of terminal differentiation.
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PMID:Overexpression of p21WAF1/CIP1 induces cell differentiation and growth inhibition in a human glioma cell line. 946 69

The anti-tumour alkaloid taxol shows strong cytotoxic and antiproliferative activity in two human malignant glioma cell lines, T98G and LN-229. CD95 (Fas/APO-1) ligand is a novel cytotoxic cytokine of the tumour necrosis factor (TNF) family that exerts prominent antiglioma activity. At clinically relevant taxol concentrations of 5-100 nM, taxol and CD95 ligand showed significant synergistic cytotoxicity and growth inhibition. High concentrations of taxol induced G/M cell cycle arrest in both cell lines. The synergy of taxol and CD95 ligand was independent of cell cycle effects of taxol as synergy was achieved at much lower taxol concentrations than G2/M arrest and as cell cycle effects of taxol were unaffected by co-exposure to CD95 ligand. Similarly, high concentrations of taxol were required to induce p53 activity in the p53 wild-type cell line LN-229. This effect was not modulated by CD95 ligand, suggesting that synergy is also independent of p53 activation. However, taxol induced a mobility shift of the bcl-2 protein on immunoblot analysis, indicative of bcl-2 phosphorylation. Bcl-2 phosphorylation on serine was confirmed by immunoprecipitation and phosphoserine immunoblot analysis. Considering (1) that phosphorylation of bcl-2 interferes with its heterodimerization with bax and (2) the inhibition of CD95-mediated apoptosis by bcl-2, we propose that taxol sensitizes malignant glioma cells to CD95 ligand by increasing the functional bax/bcl-2 rheostat in favour of bax and thus cell death.
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PMID:Taxol-mediated augmentation of CD95 ligand-induced apoptosis of human malignant glioma cells: association with bcl-2 phosphorylation but neither activation of p53 nor G2/M cell cycle arrest. 947 35

Median survival of human malignant glioma patients is less than one year even with cytoreductive surgery and postoperative radiotherapy. Adjuvant chemotherapy has been rather ineffective. Here, we studied the potentiation by L-buthionine-[S,R]-sulfoximine (BSO), a glutathione-depleting agent, of anticancer drug actions on two human malignant glioma cell lines, LN-229 and T98G. LN-229 has wild-type p53 status, T98G is mutant for p53. Glutathione levels were depleted by BSO with similar kinetics in both cell lines. Only LN-229 cells were growth-inhibited by BSO. BSO had minor effects on the toxicity of doxorubicin, ACNU (1-[(4-amino-2-methyl-5-pyrimidinyl)methyl]-3-(2-chloroethyl)-3-nitrosou rea, nimustine) and vincristine. BSO failed to alter teniposide or cytarabine toxicity. BSO induced prominent sensitization to the alkylating agent, treosulfan, in both cell lines, as assessed by viability assays, in situ DNA end labeling and quantitative DNA fragmentation. Treosulfan is thought to mediate toxicity via formation of reactive epoxides. In the absence of BSO, treosulfan had little acute cytotoxic and moderate antiproliferative effects. Synergistic glioma cell cytotoxicity induced by treosulfan and BSO was not associated with reactive oxygen species formation. Ectopic expression of bcl-2 did not alter basal glutathione levels but attenuated glutathione depletion induced by BSO. Bcl-2 provided only moderate protection from synergistic induction of glioma cell death by treosulfan and BSO. Glutathione depletion may play a role in BSO-mediated chemosensitization, but other mechanisms are probably involved as well. BSO may be a useful agent for glioma cell sensitization to specific chemotherapeutic drugs such as treosulfan.
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PMID:Potentiation of treosulfan toxicity by the glutathione-depleting agent buthionine sulfoximine in human malignant glioma cells: the role of bcl-2. 948 2

This review examines the apparently paradoxical conversion of transforming growth factor beta's (TGFbeta) regulatory role as a growth inhibitor among normal glial cells to that of a progression factor among glioblastomas (GM). In vitro, TGFbeta functions as an autocrine growth inhibitor of near-diploid gliomas of any grade. In contrast, hyperdiploid glioblastoma multiforme (HD-GM) cultures proliferate in response to TGFbeta, which is mediated by induction of platelet-derived growth factor B chain (PDGF-BB). The dominant hypothesis of TGFbeta's pathogenetic association with malignant transformation has been predicated upon acquisition of resistance to its growth inhibitory effects. However, the lack of obvious correlation with TGFbeta receptor (TbetaR) expression (or loss) between the HD-GM and the TGFbeta-inhibited GM cultures suggests the existence of intrinsically opposed regulatory mechanisms influenced by TGFbeta. The mechanism of conversion might be explained either by the loss of a putative tumor suppressor gene (TSG) which mediates TGFbeta's inhibition of growth or by enhancement of an active oncogenic pathway among the HD-GM. The frequency of mutations within glioma-associated TSG, such as TP53 and RB, suggests that defects in TGFbeta's inhibitory signaling pathway may have analogous effects in the progression to HD-GM, and TGFbeta's conversion to a mitogen. Alternative sites of inactivation which might explain the loss of TGFbeta's inhibitory effect include inactivating mutation/loss of the TbetaR type II, alterations in post-receptor signal transmission or the cyclin/cyclin dependent kinase system which regulates the phosphorylation of pRB. Loss or inactivation of a glial TSG with a consequent failure of inhibition appears to allow TGFbeta's other constitutive effects, such as induction of c-sis, to become functionally dominant. Mechanistically, TGFbeta's conversion from autocrine inhibitor to mitogen promotes 'clonal dominance' by conferring a Darwinian advantage to the hyperdiploid subpopulations through qualitative and quantitative differences in its modulation of PDGF-A and c-sis, with concomitant paracrine inhibition of competing, near-diploid elements.
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PMID:The role of transforming growth factor beta in glioma progression. 952 12

Teniposide (VM26) enhanced the anti-glioma activity of the cytotoxic cytokine, CD95 ligand. Synergy was observed at concentrations of teniposide that were insufficient for cleavable DNA topoisomerase II complex formation. CD95 ligand did not modulate the formation or removal of such complexes after teniposide treatment. These processes were also unaffected by ectopic expression of bcl-2. Teniposide enhanced CD95 expression in a glioma cell line with wild-type p53 (LN-229) but not in two p53 mutant cell lines (T98G, LN-308). Forced expression of a transdominant negative p53 mutant prevented the teniposide induced augmentation of CD95 expression in LN-229 cells but did not prevent the synergy of CD95 ligand and teniposide. Teniposide did not alter CD95 ligand expression, and forced expression of CD95 did not modulate sensitivity to VM26. Thus, teniposide-induced DNA lesions and alterations in CD95 or CD95 ligand are not necessary for teniposide-induced sensitization of human malignant glioma cells to CD95-mediated apoptosis.
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PMID:Synergy of CD95 ligand and teniposide: no role of cleavable complex formation and enhanced CD95 expression. 954 55

p53 immunoreactivity and humoral immune response to p53 were examined in 14 patients with malignant glioma, including 4 patients with leptomeningeal glioma cell dissemination. Twelve patients expressed p53 protein within the tumour tissue. p53 antibodies were detected in the serum in 2 of 14 patients but never in the cerebrospinal fluid (CSF). Soluble p53 protein was detected neither in serum nor in CSF of the glioma patients. CSF levels of the immunosuppressive cytokine, transforming growth factor (TGF)-beta, were elevated in the glioma patients, including those with a humoral response to p53. These preliminary findings raise the possibility of systemic humoral immune responses to antigens, including mutant p53, expressed by glioma cells in the central nervous system.
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PMID:Humoral immune response to p53 in malignant glioma. 955 48

Malignant gliomas are rather refractory to current therapeutic approaches including surgery, radiotherapy, chemotherapy and immunotherapy. Acquired alterations in the pathways required for apoptotic cell death are thought to be responsible to the failure of glioma to respond to therapy. Here we have examined the expression of several proteins involved in the susceptibility to apoptosis in 20 human gliomas, including the BCL-2 family proteins BCL-2, BCL-X, BAX and MCL-1, as well as p53 and RB. Most gliomas expressed several BCL-2 family proteins. There was good correlation between expression of the functional antagonists, BCL-2/BCL-X and BAX, suggesting that changes in the BCL-2+BCL-X/BAX ratio are not responsible for the differential response of glioma patients to chemotherapy. The immunochemistry data were also analysed in regard to response to therapy and clinical outcome. All patients had cytoreductive surgery and received radiotherapy and nitrosourea-based adjuvant chemotherapy. There was no prominent association of outcome with the expression patterns of p53, RB, BCL-2, BCL-X or BAX. We find, however, that expression of the MCL-1 protein is associated with early tumour recurrence and shorter survival in this group of glioma patients. This preliminary observation will have to be confirmed in a larger independent sample of glioma patients.
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PMID:BCL-2 family protein expression in human malignant glioma: a clinical-pathological correlative study. 956 25

A population-based series of incident cases of malignant glioma were analyzed for mutations in the tumor suppressor gene p53. Exons 4-8 were screened using PCR-single-strand conformation analysis and confirmed through direct sequencing. Of 62 tumors analyzed, 12 (19%) contained mutations in p53: one 18-bp duplication in exon 5, five point mutations in exon 4, three point mutations in exon 7, two point mutations in exon 8, and a splice-site mutation at the exon 6/intron 7 boundary. In contrast to previous studies of malignant glioma, the prevalence of transversion mutations (56%) was higher than transition mutations (33%). A large proportion of transversion mutations occurred in exon 4, a region that is not routinely screened in gliomas. We present here an improved method for screening exon 4 (and other GC-rich regions) of p53 using PCR-single-strand conformation analysis. The high frequency of transversion mutations suggests a role for exogenous carcinogens in the etiology of malignant glioma.
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PMID:p53 mutations in malignant gliomas. 956 85

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