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)

Surgery, radiotherapy, chemotherapy and immunotherapy represent the combined therapeutic approach to malignant brain tumors. Surgery plays an important role in the treatment of malignant gliomas to ensure a correct diagnosis and to make room within the confines of the skull. Surgery must provide low mortality, low morbidity and at the same time, the most thorough removal possible of the tumor, while respecting the normal brain tissue surrounding the tumor. However, if treatment is limited to surgery alone, only modest results are obtained. The median survival is, in fact, 17 weeks. Radiotherapy for malignant gliomas has been used for 40 years now, but only recently has it been clearly demonstrated that doses lower than 50 Gy "whole brain" are insufficient, as is localized radiation therapy. The addition of radiotherapy (60 Gy whole brain) increases median survival to 37 weeks. The most promising approach to brain tumor therapy in the last decade is chemotherapy. Chemotherapy must take into account drug delivery problems related to the blood brain barrier, the pharmacodynamics of the brain and the cell kinetics of malignant glioma. Many chemotherapeutic substances have been employed in the treatment of brain tumors, but in particular, the nitrosoureas seem to provide the best results. Infact, the addition of BCNU to surgery and radiotherapy produces a median survival of 51 weeks. The immunotherapy of malignant gliomas has been attempted as active specific and non-specific immunotherapy, adoptive and restorative immunotherapy but, until now, the results have been disappointing. The present situation and the potential of combined therapy in the treatment of brain tumors are discussed.
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PMID:Therapeutic strategy for central nervous system tumors: present status, criticism and potential. 652 44

Taxol is a novel antitumor agent with demonstrated efficacy against ovarian, breast, and non-small cell lung cancers in Phase II clinical trials, but which has been shown not to cross the blood-brain barrier. To adapt taxol as a therapy for brain tumors, we have incorporated it into a biodegradable polyanhydride matrix for intracranial implantation and evaluated this formulation in a rat model of malignant glioma. Fischer 344 rats bearing intracranial 9L glioma tumors were treated with 10 mg poly[bis(p-carboxyphenoxy)propane-sebacic acid] (20:80) copolymer discs, containing 20-40% taxol by weight, 5 days after tumor implantation. The taxol-loaded polymers doubled (38 days, 40% taxol loading, P < 0.02) to tripled (61.5 days, 20% taxol loading, P < 0.001) the median survival of rats bearing tumor relative to control rats (19.5 days). Drug loadings of 20-40% taxol by weight released intact taxol for up to 1000 h in vitro. In rats followed up to 30 days postimplant, the polymer maintained a taxol concentration of 75-125 ng taxol/mg brain tissue (100-150 microM taxol) within a 1-3-mm radius of the disc. At points more distant from the disc (up to 8 mm away, the size limit of the rat brain), the polymer maintained a taxol concentration of greater than 4 ng taxol/mg brain tissue (5 microM). We conclude that taxol shows promise as a therapy for malignant glioma when delivered interstitially from a biodegradable polymer.
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PMID:Interstitial taxol delivered from a biodegradable polymer implant against experimental malignant glioma. 790 20

To determine if neurosteroids (steroids synthesized in the brain) are produced by enzymes found in steroidogenic tissues, we determined if mRNA for five steroidogenic enzymes could be detected in brain tissues or cultured cells. We detected mRNAs for adrenodoxin, P450scc (cholesterol side-chain cleavage enzyme) and P450c11 beta (11 beta-hydroxylase) but not for P450c17 (17 alpha-hydroxylase/17,20 lyase) or P450c11AS (aldosterone synthase) in rat brains and cultures of rat glial cells. P450scc mRNA abundance in brain or primary glial cultures was approximately 0.01% of that found in the adrenal, but more P450scc mRNA was detected in C6 glial cells. Both P450scc and P450c11 beta mRNAs were most abundant in the cortex, but there were region-specific differences for both mRNAs, and sex-specific differences for P450c11 beta mRNA. P450scc mRNA was equally abundant in mixed glial cultures containing both astrocytes and oligodendrocytes as in astrocyte-enriched cultures, and P450scc immunoreactivity co-localized with GFAP immunoreactivity in cultured astrocytes. P450c11 beta mRNA was not detected in the mixed primary glial cultures for the C6 glioma cell line that synthesize P450scc mRNA, suggesting that glial cells do not synthesize P450c11 beta mRNA. Thus some of the same enzymes involved in steroidogenesis in classic endocrine tissues are found in a cell-specific and region-specific fashion in the brain. Neurosteroids may be derivatives of known classic steroids, and/or may function through non-classic steroid hormone receptors, such as GABAA, N-methyl-D-aspartate, and corticosterone receptors.
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PMID:Neurosteroid biosynthesis: genes for adrenal steroidogenic enzymes are expressed in the brain. 811 31

Meta-tetrahydroxyphenylchlorin (m-THPC) and 5-aminolaevulinic acid (5-ALA) are two second-generation photosensitizers which are currently under investigation for photodynamic therapy (PDT) and photodynamic diagnosis (PDD). So far, the experience with these photosensitizers for use within brain tumours is limited. We examined the distribution and retention of 14C-labelled m-THPC and [14C]5-ALA in the rat C6 glioma brain tumour model. After intraperitoneal injection of m-THPC (71,909 d.p.m. microl(-1); 0.16 mg ml(-1) m-THPC; 0.3 mg kg(-1)), the following activities were found after 36 h: brain tumour 223,664 d.p.m. g(-1), brain contralateral to the tumour side 2567 d.p.m. g(-1), liver 369,959 d.p.m. g(-1) and skin 55,197 d.p.m. g(-1); 100,000 d.p.m. corresponding to 0.22 microg of m-THPC. After 7 days, the concentration of m-THPC decreased to 76,277 d.p.m. g(-1) in tumour and 635 d.p.m. g(-1) in brain. The radioactivity after intravenous administration of [14C]5-ALA (23,079 d.p.m. microl(-1); 40 mg ml(-1); 120 mg kg(-1)) increased within 15 min (59,634 d.p.m. g(-1) in tumour, 17,427 d.p.m. g(-1) in brain); after 8 h only a small amount (3653 d.p.m. g(-1) in tumour) remained. Brain adjacent to the tumour was also found to have a higher uptake of 5-ALA. This study provides basic information for the use of m-THPC and 5-ALA in brain tumours. Because of the different pharmacokinetic and toxicological profile, we recommend m-THPC for PDT and 5-ALA for PDD. Clinical trials now have to prove the superior phototoxic properties of these second-generation photosensitizers.
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PMID:Uptake and kinetics of 14C-labelled meta-tetrahydroxyphenylchlorin and 5-aminolaevulinic acid in the C6 rat glioma model. 974 91

Fifty-eight skin biopsies and three primary internal tumors from patients affected by the rare hereditary disease xeroderma pigmentosum (XP) were studied by an improved PCR-single strand conformation polymorphism analysis to detect the mutations of the tumor suppressor gene p53. The results from cutaneous XP tumors, including 27 squamous cell carcinomas and 6 basal cell carcinomas, show a very high level (86%) of p53 mutations. The analysis of mutations found in XP skin cancers according to the complementation group of the patients shows that tandem CC-->TT transitions are a characteristic of XP-C patients with a frequency much higher in their skin tumors (85%) compared with tumors in XP patients who do not belong to group C (33%). In all XP-C biopsies, mutations were due to replication of unrepaired DNA lesions on the nontranscribed strand of the p53 gene, substantiating the preferential repair in vivo of the transcribed strand of this gene in human tissues. For the first time, we were able to analyze three primary internal tumors (a neuroendocrine tumor of the thyroid, a gastric adenocarcinoma, and a glioma of the brain) of young XP children. All of them contained one mutation on the p53 gene, which were different from the ones found in the XP skin tumors and could have resulted from unrepaired lesions caused by oxidative damage.
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PMID:p53 mutations in skin and internal tumors of xeroderma pigmentosum patients belonging to the complementation group C. 976 70

Vascular endothelial growth factor (VEGF) is an angiogenic growth factor that also induces vascular permeability and macrophage migration. VEGF expression is weak in normal adult brain, but is strongly upregulated in glioma cells and reactive astrocytes, suggesting that chronic overexpression of VEGF in the brain contributes to blood-brain barrier (BBB) breakdown. We examined the effects of chronic VEGF overexposure on the integrity of the BBB using the following approaches: 1) continuous intracerebral infusion of VEGF via miniosmotic pump; and 2) intracerebral injection of an adenoviral vector encoding the VEGF165 gene (AdCMV.VEGF). After 6 days both treatments produced approximately 10-fold breakdown of the BBB (as measured by transport of 14C-aminoisobutyric acid (AIB) from blood into brain) compared with the respective controls (albumin infusion or AdCMV.beta gal virus). BBB disruption in AdCMV.VEGF-treated brains was accompanied by a severe inflammatory response not observed in brains receiving AdCMV.beta gal or VEGF protein infusion, indicating that neither VEGF nor viral particles alone were responsible for the inflammatory response. However, injection of AdCMV.beta gal followed by VEGF infusion to the same site also elicited inflammation. Chronic overexposure of normal brain to VEGF also increased intercellular adhesion molecule-1 (ICAM-1) and major histocompatibility complex (MHC) class I and II expression. Although VEGF itself is not inflammatory, VEGF may modulate immune responses in the central nervous system (CNS) by opening the BBB, altering the immunoprivileged status of the brain, and allowing contact between normally sequestered CNS antigens and blood-borne immune mediators.
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PMID:Vascular endothelial growth factor (VEGF) modulates vascular permeability and inflammation in rat brain. 1037 52

The up-regulation of cyclooxygenase 2 (COX-2) expression is a frequent occurrence in a variety of different tumors. In this study, COX-2 protein expression was investigated in 50 glioma and 3 normal brain specimens by immunohistochemistry. Expression of COX-2 protein was observed in all normal brain and glioma specimens by immunohistochemistry, regardless of histological grade. The immunoreactive score was significantly higher in high-grade glioma than low-grade glioma and normal brain specimens. For a subset of these tumors (nine gliomas and three normal brain), Western blot analysis was also performed. COX-2 protein was detected in all specimens by Western blot analysis. The effect of the specific COX-2 inhibitor NS-398 on monolayer cell cultures and three-dimensional glioma spheroids was investigated using U-87MG and U-251MG human glioblastoma cell lines. The proliferation rate was assessed in monolayer cultures. In addition, a growth assay, a migration assay, an apoptosis assay, and a tumor invasion assay were performed in a three-dimensional spheroid culture system. NS-398 was able to reduce the proliferation of monolayer cell cultures, as well as the growth of spheroids and tumor cell migration, in a dose-dependent manner. There was also a moderate increase in the number of apoptotic cells in the treated spheroids. NS-398 did not have an inhibitory effect on tumor invasion in the coculture spheroid system. Our study provides evidence that COX-2 is up-regulated in the majority of high-grade gliomas and that a potential role of COX-2 inhibitors as an adjuvant therapy for brain tumors may exist.
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PMID:Expression of cyclooxygenase 2 (COX-2) in human glioma and in vitro inhibition by a specific COX-2 inhibitor, NS-398. 1098 8

Quantitative imaging of glucose metabolism of human brain tumors with PET utilizes 2-[(18)F]-fluorodeoxy-D-glucose (FDG) and a conversion factor called the lumped constant (LC), which relates the metabolic rate of FDG to glucose. Since tumors have greater uptake of FDG than would be predicted by the metabolism of native glucose, the characteristic of tumors that governs the uptake of FDG must be part of the LC. The LC is chiefly determined by the phosphorylation ratio (PR), which is comprised of the kinetic parameters (Km and Vmax) of hexokinase (HK) for glucose as well as for FDG (LC proportional to (Km(glc) x Vmax(FDG))/(Km(FDG) x Vmax(glc)). The value of the LC has been estimated from imaging studies, but not validated in vitro from HK kinetic parameters. In this study we measured the kinetic constants of bovine and 36B-10 rat glioma HK I (predominant in normal brain) and 36B-10 glioma HK II (increased in brain tumors) for the hexose substrates glucose, 2-deoxy-D-glucose (2DG) and FDG. Our principal results show that the KmGlc < KmFDG << Km2DG and that PR2DG < PRFDG. The FDG LC calculated from our kinetic parameters for normal brain, possessing predominantly HK I, would be higher than the normal brain LC predicted from animal studies using 2DG or human PET studies using FDG or 2DG. These results also suggest that a shift from HK I to HK II, which has been observed to increase in brain tumors, would have little effect on the value of the tumor LC.
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PMID:Kinetic characterization of hexokinase isoenzymes from glioma cells: implications for FDG imaging of human brain tumors. 1129 20

Treatment of ST1 rat glioma cells with glucocorticoid hormones leads to complete reversion of their transformed phenotype and loss of their tumorigenic potential. In order to study the molecular basis of the anti-tumor activity of these hormones, we isolated glucocorticoid-regulated cDNA sequences associated with ST1 cells' phenotypic reversion, using suppression subtractive hybridization (SSH). DNA sequencing of the subtracted cDNA pool, cloned into the pBluescript vector, revealed three widely expressed, well known negative growth regulators, namely, thrombospondin 1, cyclin G and tyrosine phosphatase CL100, as primary targets of glucocorticoid hormones. Additionally, a gene recently described in human brain, NRP/B (nuclear restricted protein in brain) that associates with p110Rb in induction of neuronal differentiation and a new truncated transcript of the tenascin-X gene family, are also shown to be up-regulated by glucocorticoids. The products of these genes are strong candidates to be important players in glucocorticoids anti-tumor activity.
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PMID:Isolation and characterization of genes associated with the anti-tumor activity of glucocorticoids. 1239 65

Following its cloning through an homology-based method from a rat striatal library, the calcium-sensing receptor (CaR) has been localized in the brains of adult and developing rats by immunocytochemistry and in situ hybridization with CaR-specific antibodies and cDNA probes, respectively. The receptor resides in numerous regions of the brain at widely varying levels. The highest levels are present within the subfornical organ (SFO) and the olfactory bulbs. Substantial levels of expression are also evident within the hippocampus, striatum, cingulate cortex, cerebellum, ependymal zones of the cerebral ventricles, and perivascular nerves around cerebral arteries. There are abundant levels of CaR expression within the SFO, an important hypothalamic thirst center, suggesting that it participates in the central control of systemic fluid and electrolyte balance. Therefore, while mineral ion homeostasis is not often considered to have central regulatory elements (i.e. in the brain), there are perhaps more complex relationships than recognized previously among the system governing mineral ion homeostasis and other homeostatic systems known to exhibit prominent neuroendocrine elements (i.e. water homeostasis). Furthermore, the expression of the CaR in all three types of glial cells indicates potential roles in the maintenance of local ionic homeostasis as well as in disease processes such as glioma.
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PMID:Calcium-sensing receptor in the brain. 1520 Jan 49

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