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

Gliomas exhibit diffuse infiltration into the normal brain parenchyma, and the tumor cells often show morphological features similar to reactive glia cells, making it difficult to discriminate tumor cells from other neural cell populations both in vitro and in vivo. Several methods have therefore been developed in order to observe migrating tumor cells in experimental tumor models. These include labeling of tumor cells with vital dyes as well as by using genetic markers. Despite the fact that these malignancies are highly invasive in the brain, they rarely metastazise out of the central nervous system (CNS). The dissemination of tumor cells is probably mediated both by passive cell displacement and by active cell migration. Tumor cells may be displaced within the brain by the passive flow of cerebrospinal fluid (CSF) within the perivascular space and along ventricular linings. Tumor growth and invasion occur in a micromillieu that is regulated both by cancer cells and normal cells. The biological attributes of invasion and cell migration include cell adhesion to extracellular matrix components, cell locomotion, and the ability to create space into which to move. This process is characterized by the degradation and turnover of ECM components, which implies the production of specific proteases and inhibitors. Tumor progression is also influenced by numerous growth factors which may stimulate the malignant cells both by paracrine and autocrine mechanisms. Tumor growth requires the persistent formation of new blood vessels and the induction of angiogenesis is most likely occurring during early stages of tumor development. This process is regulated both by several inducers and inhibitors of endothelial cell proliferation and migration.
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PMID:Brain tumor cell invasion, anatomical and biological considerations. 942 45

Recurrence of malignant glioma following radiotherapy most commonly occurs in close proximity to the original contrast enhancing CT/MRI tumor volume. For this reason current radiation planning favors focal radiotherapy fields designed to cover the preoperative tumor contrast enhancing volume +/- surrounding edema with a 2-4 centimetre margin. Two patients with bifrontal malignant gliomas treated with such radiotherapy fields experienced out of field tumor progression while on treatment. Posterior extension along the corpus callosum, not evident on pretreatment imaging, was hypothesized as the cause of the geographic miss. The literature documenting recurrence patterns of malignant glioma following radiotherapy support focal field radiotherapy fields for most patients with malignant glioma. Reporting bias may exist in the literature, however, due to the whole brain radiotherapy used in older series reporting recurrence patterns and exclusion of patients with bihemispheric or more locally extensive tumors in more modern series. Tumor location and pattern of growth at presentation may be important factors in predicting patterns of spread and relapse after radiotherapy.
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PMID:Bihemispheric malignant glioma: one size does not fit all. 954 61

Nerve growth factor (NGF) acts as an anti-mitogenic factor in C6-2B glioma cells stably expressing TrkA (C6trk+). To study the effect of TrkA on cell growth in vivo, we grafted mock and C6trk+ cells into the striatum of ACI nude rats. Thy 1.1 and p75NTR immunohistochemistry revealed that wild type C6-2B cells formed a tumor mass in the striatum by 14 days. In contrast, C6trk+ transplanted rats did not show the presence of a significant tumor mass until 71 days. Analysis of this tumor showed that expression of TrkA was retained, but the synthesis of NGF was abolished. Our data encourage the speculation that expression of TrkA in glioblastoma in vivo will attenuate tumor progression.
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PMID:TrkA receptors delay C6-2B glioma cell growth in rat striatum. 960 49

Telomerase is a ribonucleoprotein that synthesizes tandem arrays of the hexameric DNA sequence TTAGGG at chromosome termini using its RNA component as a template. As most normal cells lack telomerase activity, a progressive shortening of chromosome length occurs with each cell division because of incomplete DNA replication. Cell senescence ensues when a critical telomere length is reached, but importantly, senescence bypass and life span extension occur in normal cells transfected with functional telomerase activity. Almost 90% of all tumors express telomerase activity, implying that telomerase is an important determinant in tumor progression and cell immortalization. However, the exact role and regulation of the individual components of the telomerase complex are not fully understood and would benefit from the availability of specific inhibitors. In this study, we investigated the potential use of chemically stabilized, catalytic RNA molecules (hammerhead ribozymes) to inhibit telomerase activity by cleaving the RNA component in a sequence-specific manner. Catalytically competent (active) hammerhead ribozymes containing 2'-O-methyl ribonucleotides for enhanced biologic stability and designed to be complementary to the RNA component of human telomerase exhibited dose-dependent inhibition of telomerase activity in human glioma U87-MG cell lysates with an IC50 of around 0.4 microM. Catalytically incompetent (inactive) ribozymes or mismatched ribozymes with reduced hybridization capability to telomerase RNA did not inhibit telomerase activity, as detected by a PCR-based telomeric repeat amplification protocol (TRAP) assay. In vitro cleavage reactions using short substrates and RT-PCR analyses of the full-length RNA substrate in U87-MG cell lysates confirmed a sequence-specific catalytic cleavage of the targeted RNA component of telomerase. Exogenously administrable, synthetic ribozymes may have important uses in further understanding the role and regulation of this ribonucleoprotein in normal and diseased tissues as well as in the potential therapy of telomerase-positive tumors.
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PMID:Synthetic 2'-O-methyl-modified hammerhead ribozymes targeted to the RNA component of telomerase as sequence-specific inhibitors of telomerase activity. 974 68

The histologic determination of the degree of tissue anaplasia and grade of malignancy of gliomas is based upon qualitative histological features (nuclear pleomorphism, mitoses, endothelial proliferation, tumor necrosis). This grading approach is influenced by the subjective interpretation of the pathologist, especially concerning the weighting of criteria (scant, moderate, pronounced). An observer-independent approach seems to be feasible by abandoning the concept of parameter weighting in favor of an binary approach noting only the presence or absence of these structure parameters. This grading procedure is recognized in the revised WHO classification of brain tumors for common type astrocytomas (Ste. Anne-Mayo System, SAMS). Our results indicate that a similar approach is also suitable for grading purposes of oligodendrogliomas and mixed gliomas. Our recent investigations on glioma grading showed, both for astrocytomas and oligodendrogliomas, that a two-tiered grading scheme distinguishing only "low-grade" and "high grade" cases was prognostically relevant. For all glioma entities the onset of tumor angiogenesis with endothelial proliferation and contrast enhancement in CT and MRI seems to be the key criterion indicating irreversible tumor progression to the "high" malignancy grade.
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PMID:[Grading of astrocytomas and oligodendrogliomas]. 974 10

Loss of chromosomes is a recurrent event in cancer. Chromosome-10 losses occur with tumor progression and characterize advanced gliomas. This chromosome carries many genes involved in glucose metabolism. Hexokinase (HK) gene is located on chromosome-10. Hexokinase enzymatic activity is decreased in glioblastomas. Hexokinase enables glucose entry into glycolysis and is critical for these highly glycolytic tumors. These enzyme is either free in the cytosol or bound to the mitochondrial outer membrane. Disturbance of HK binding to mitochondria by lonidamine led to inhibition of cells and xenografted-glioma growth. Hexokinase bind to a mitochondrial porin which involved peripheral benzodiazepine receptors. Inhibition of HK and peripheral benzodiazepine receptors by lonidamine and diazepam led to synergistic antitumoral activity in xenografted gliomas. Co-inhibition of these two receptors will lead to a decrease in glycolysis, often elevated in these tumors, without modifying energetic metabolism of normal cells.
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PMID:[Targeting the gene of glucose metabolism for the treatment of advanced gliomas]. 975 69

The primary objective of this study was to evaluate the antitumor effects of recombinant vaccinia virus-p53 (rVV-p53) in combination with radiation therapy against the C6 rat glioma, a p53 deficient tumor that is relatively radioresistant. VV-LIVP, the parental virus (Lister strain), was used as a control. Localized treatment of subcutaneous C6 tumors in athymic mice with either rVV-p53 or VV-LIVP together with tumor irradiation resulted in low tumor incidence and significantly slower tumor progression compared to the agents given as single modalities. Assays of blood and spleen indicated that immune system activation may account, at least partly, for the enhance tumor inhibition seen with combined treatment. No overt signs of treatment-related toxicity were noted.
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PMID:Evaluation of radiation effects against C6 glioma in combination with vaccinia virus-p53 gene therapy. 977 5

We and others have reported that human malignant gliomas demonstrate intratumor heterogeneity in which many regions may be benign; however, the presence of regions of increased malignancy in these same tumors is generally indicative of poor patient prognosis. These data suggested that tumor progression may be a local phenomenon, resulting in regions that progress to a more malignant type prior to the progression of the entire tumor. Implicit in this premise is the idea that molecular markers of tumor progression may be detectable prior to histological evidence of progression. This report details analyses performed on a primary and recurrent tumor obtained from the same patient in which the primary tumor was of a higher histological grade than the recurrent tumor. Results of molecular, cytogenetic, flow cytometric, and histological analyses of the primary tumor were indicative of a grade 4 glioblastoma multiforme. Standard cytogenetic and flow cytometric analyses demonstrated that the cells were near-diploid with a stem line population of 46,XX normal G-banded karyotypes. In contrast, tissue resected from the recurrent tumor 5 months later was histologically less malignant; however, the molecular, cytogenetic, and flow cytometric analyses of this sample demonstrated the presence of specific genetic abnormalities typically found in more malignant tumors. These data demonstrate that specific molecular and/or genetic changes leading to tumor progression may become detectable in a glioma prior to the appearance of histological features of a higher grade tumor.
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PMID:Biological and molecular analysis of a low-grade recurrence of a glioblastoma multiforme. 981 6

Long-term control of high-grade brain tumors is rarely achieved with current therapeutic regimens. In this study a new plasmid-based human tumor necrosis factor-alpha (TNF-alpha) expression vector was synthesized (pGL1-TNF-alpha) and evaluated together with radiation in the aggressive, rapidly growing C6 rat glioma model. pGL1-TNF-alpha was successfully transfected into C6 cells in vitro using a cationic polyamine method. Expression was detected up to 7 days and averaged 0.4 ng of TNF-alpha in the culture medium from 1x10(5) cells. The expressed protein was biologically functional, as evidenced by growth inhibition of L929, a TNF-alpha-susceptible cell line. Using fluorescence-labeled monoclonal antibodies and laser scanning cytometry, we confirmed that both the P55 and P75 receptors for TNF-alpha were present on the C6 cell membrane. However, the receptors were present at low density and P55 was expressed more than the P75 receptor. These findings were in contrast to results obtained with TNF-alpha-susceptible L929 cells. Tests in athymic mice showed that pGL1-TNF-alpha administered intratumorally 16-18 h before radiation (each modality given three times) significantly inhibited C6 tumor progression (P<0.05). This effect was more than additive, because pGL1-TNF-alpha alone did not slow tumor growth and radiation alone had little effect on tumor growth. These results indicate that pGL1-TNF-alpha has potential to augment the antitumor effects of radiation against a tumor type that is virtually incurable.
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PMID:Evaluation of pGL1-TNF-alpha therapy in combination with radiation. 1006 72

Malignant gliomas of astrocytic origin are good candidates for gene therapy because they have proven incurable with conventional treatments. Although mutation or inactivation of the p53 tumor suppressor gene occurs at early stages in gliomas and is associated with tumor progression, many tumors including high-grade glioblastoma multiforme carry a functionally intact p53 gene. To evaluate the effectiveness of p53-based therapy in glioma cells that contain endogenous wild-type p53, a clinically relevant model of malignant human glioma was established in athymic nu/nu mice. Intracerebral, rapidly growing tumors were produced by stereotactic injection of the human U87 MG glioma cell line that had been genetically modified for tracking purposes to express the Escherichia coli lacZ gene encoding beta-galactosidase. Overexpression of the p53 gene by adenovirus-mediated delivery into the tumor mass resulted in rapid cell death with the eradication of beta-galactosidase-expressing glioma cells through apoptosis. In long-term experiments, the survival of mice treated with the p53 adenoviral recombinant was significantly longer than that of mice that had received control adenoviral recombinant. During the observation period of 1 year, a complete cure was achieved in 27% of animals after a single injection of p53 adenoviral recombinant, and 38% of the animals were tumor free in the group receiving multiple injections of p53 adenoviral recombinant into a larger tumor mass. These experiments demonstrate that overexpression of p53 in gliomas, even in the presence of endogenous functional wildtype p53, leads to efficient elimination of tumor cells. These results point to the potential therapeutic usefulness of this approach for all astrocytic brain tumors.
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PMID:Intracerebral adenovirus-mediated p53 tumor suppressor gene therapy for experimental human glioma. 1010 Jul 17


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