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Query: UMLS:C0017638 (
glioma
)
30,880
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
11C-methyl-L-
methionine
(C-11
Met
)PET, CT and MR imaging were performed in eleven patients with malignant brain tumors before and after RT to evaluate the usefulness of positron emission tomography (PET) in monitoring tumor response to radiotherapy (RT). The subjects included five cases of intracranial malignant lymphoma (ICML) and six cases of
glioma
. C-11
Met
uptake by the tumor (T) and the contralateral gray matter (NT) was calculated on the PET images. The mean T/NT ratio of the ICMLs and gliomas changed from 2.33 and 1.87, respectively, before RT to 1.31 and 1.58, respectively, after RT.No significant difference was found between the T/NT ratios before and after RT in either the ICMLs or the gliomas (t-test). We tentatively defined the minimum T/NT ratio, 1.2, as the threshold between tumor and nontumor regions. Tumors with a ratio of 1.2 or more were imaged as "hot" (MET) and coincided with CT or MR image lesions which were visualized as contrast-enhancing (CE) and low-density (LD) or high-intensity (HI). The relationships between PET, CT and MRI lesions were classified as follows: Type I (MET < or = CE), Type II [CE < MET < LD (HI)], Type III [LD(HI) < or = MET]. MET lesions extending regionally ( > 1 cm) beyond the respective CT or MR image lesions were designated "MET-extension" and LD (HI) lesions protruding ( > 1 cm) beyond the MET lesions were recorded as "LD (HI)-extension" on the integrated images. The type II pattern of the MET areas in all five cases of ICML before RT had changed to Type I in one case, Type III in one case and Type II in three cases, after RT, while the two Type II patterns and four Type III patterns of the gliomas had converted to four Type II and two Type III patterns. These findings indicate that gliomas tend to invade into areas of peritumoral edema more than ICMLs. There were two ICML MET-extension sites in the cortex before RT, as opposed to two in the cortex, one in the basal ganglia, one in the thalamus, and one in the corpus callosum among the gliomas. On follow-up CT or MR images MET-extension (75%) had converted to a CE or LD (HI) region. Four ICML LD (HI)-extension sites before RT were found in periventricular white matter, versus one in the cortex and three in the white matter among the gliomas. LD (HI)-extension appeared to represent vascular edema because it decreased or diminished after completion of therapy. Sequential analysis of integrated C-11
Met
PET, CT and MR images is useful in detecting the extent of tumor infiltration by ICMLs and gliomas, particularly at an early stage, and for evaluating the effect of RT in the treatment of both.
...
PMID:[Sequential analysis of the integrated images of PET, CT and MR in malignant brain tumors before and after radiotherapy]. 867 4
We investigated whether 2-[18F]-fluoro-2-deoxy-d-glucose (FDG) and carbon-11
methionine
are suitable tracers to monitor the effects of therapy for low-grade gliomas. Ten patients with low-grade
glioma
without previous treatment were studied with FDG positron emission tomography. Additionally, l-[methyl-11C]
methionine
uptake was measured in five subjects before and 1 year after computerized tomography (CT)-guided stereotactic and computer-assisted implantation of iodine-125 seeds. All scans were 3D-matched to CT, isodose volumes were determined, and changes in glucose metabolism and
methionine
uptake were evaluated in tumour and brain tissue as a function of radiation dose. After 1 year glucose metabolism was not significantly altered up to a radiation dose of 300 Gy, whereas
methionine
uptake showed a significant dose-dependent decrease. Higher rates of decline were found in tumours with high basal
methionine
incorporation activity before therapy. These data suggest that measurement of
methionine
uptake is more suitable than measurement of FDG uptake for monitoring therapeutic effects in low-grade gliomas.
...
PMID:Glucose consumption and methionine uptake in low-grade gliomas after iodine-125 brachytherapy. 869 67
A 57-yr-old woman suffering from light movement disorder of the left arm and hand was referred for 18F-Dopa PET. The PET study not only proved asymmetrically reduced dopamine uptake in the putamen (influx constant Ki right 0.0064/min, left 0.0086) but also revealed pathologically increased 18F-Dopa accumulation in the right frontal lobe. Further PET examinations demonstrated increased 11C-
methionine
uptake and low glucose metabolism in this right frontal region. MRI and 1H-MRSI showed a heterogeneous lesion with reduced N-acetyl-aspartate and increased choline and lactate, suggesting a mixed, low-grade
glioma
. In 15O-water studies, during intentional movements of one hand the respective motor areas were identified, indicating asymmetries due to the mass occupying lesion. The tumor could be removed in open surgery, thus sparing the motor areas; a mild postoperative motor deficit resolved to the presurgical state. Histology confirmed the diagnosis of a grade 2 oligo-astrocytoma. This case impressively demonstrates that 18F-Dopa can be used as an amino acid tracer for brain tumor detection in addition to its established application to assess aromatic acid decarboxylase activity.
...
PMID:F-Dopa as an amino acid tracer to detect brain tumors. 896 94
These studies evaluated the efficacy of sequential pretreatment with L-amino acid oxidase (LOX) and LOX antiserum in the modulation of melphalan activity against intracranial
glioma
in athymic nude mice. LOX produced statistically significant (P < 0.01) depletion of the large neutral amino acids isoleucine, leucine,
methionine
, phenylalanine, tyrosine, and valine in murine plasma at doses of 100 and 200 micrograms administered intravenously. Polyclonal anti-LOX antibody was successfully produced in mice, rabbits, and goats subsequent to immunization with LOX. Staphylococcal protein A-purified rabbit anti-LOX serum inhibited approximately 50% of LOX activity in vitro relative to control samples. This antiserum was used in vivo to inactivate LOX after it had depleted the large neutral amino acids, thereby preventing LOX-mediated catabolism of melphalan. Inoculation of three mice with rabbit anti-LOX serum after the treatment with LOX (100 micrograms) reduced LOX activity by 100%, 89%, and 100% at 6 h compared with reductions of 80%, 59%, and 52% over the same period in animals receiving LOX alone. In three separate studies using groups of eight to ten mice bearing intracranial human
glioma
xenografts, pretreatment with LOX followed by anti-LOX serum increased the antitumor activity of melphalan as compared with treatments with melphalan plus LOX, melphalan plus anti-LOX serum, or melphalan alone.
...
PMID:L-amino acid oxidase (LOX) modulation of melphalan activity against intracranial glioma. 899 17
Growth of numerous malignant tumors depends on an exogenous
methionine
(
MET
) supply, while endogenously synthesized
MET
supports normal cell proliferation. Because an antitumor effect should be obtained by aggravating the altered
MET
metabolism in gliomas,
MET
dependency of human xenografted gliomas was evaluated and a therapeutic approach using
MET
deprivation or
MET
analogs to induce
MET
starvation was applied. In vitro proliferation inhibition of
glioma
cell lines by
MET
deprivation and two
MET
analogs, ethionine (ETH) and trifluoromethylhomocysteine (TFH), was measured. Proliferation of 7 human
glioma
cell lines tested was inhibited in
MET
-free medium, and was poorly or not reversed by homocysteine (HCY). ETH or TFH (concentration range: 0.005-2 mg/ml) inhibited proliferation of all cell lines tested.
MET
analog-induced inhibition was abolished by
MET
and enhanced by HCY. Cell-cycle alterations due to
MET
deprivation were optimally assessed after 30 h of culture and bromodeoxyuridine incorporation. In
MET
- medium, cells were arrested in the G1-phase. ETH induced a dramatic accumulation of cells in the G2-phase. ATP contents were reduced by
MET
analogs only in HCY+ medium, suggesting complementary effects of
MET
analogs and HCY. Human
glioma
bearing nude mice were fed an amino acid-substituted
MET
- HCY-supplemented diet (
MET
-HCY+) and/or treated with
MET
analogs, injected intraperitoneally daily. Using two human xenografted tumors derived from gliomas, antitumor effects were obtained by subjecting tumor-bearing nude mice to
MET
starvation. TG-1-MA was more sensitive to
MET
depletion (40% of growth inhibition, P < 0.10) than TG-8-OZ (no growth inhibition). Antitumor effects of a
MET
-HCY+ diet and 200 mg/kg of ETH were potentiated when co-administered to
glioma
-bearing mice (77% GI, P < 0.025 and 67%, P < 0.0057 to TG-1-MA and TG-8-OZ respectively). A dose-response effect with no toxicity was obtained when the ETH dose was increased 10 fold. Potentiation of the effects of ETH and a
MET
-free diet indicates that they probably act on the same pathway but not the same target. In conclusion, experimentally induced
MET
deprivation and
MET
-analog treatment retarded the growth of human gliomas. Combination of
MET
-analog therapy with
MET
substitution by HCY enhanced their respective effects.
...
PMID:Methionine deprivation and methionine analogs inhibit cell proliferation and growth of human xenografted gliomas. 906 Oct 49
DNA amplification is a common mechanism invoked by many human tumors to elicit overexpression of genes whose products are involved in drug resistance or cell proliferation. Although amplified regions in tumor DNA may exceed several megabases in size, segments of amplicons with a high probability of containing gene sequences may be amenable to detection by restriction landmark genomic scanning (RLGS), a high-resolution DNA analysis that separates labeled NotI fragments in two dimensions. Here, we tested this by applying RLGS to matched samples of
glioma
and normal brain DNA and found tumor-specific amplification of the gene encoding cyclin-dependent kinase 6 (CDK6), an observation not previously reported in human tumors. The CDK6 gene has been localized to chromosome 7q21-22, but in the gliomas studied here, it was not coamplified with either the syntenic
MET
(7q31) or epidermal growth factor receptor (7p11-p12) genes, suggesting that this may be part of a novel amplicon in gliomas. We then corroborated this finding by identifying both amplification-associated and amplification-independent increases in CDK6 protein levels in gliomas relative to matched normal brain samples. These data implicate the CDK6 gene in genomic amplification and illustrate the potential of RLGS for the more general identification and cloning of novel genes that are amplified in human cancer.
...
PMID:Cyclin-dependent kinase 6 (CDK6) amplification in human gliomas identified using two-dimensional separation of genomic DNA. 910 8
Transfection of human fibroblast growth factor 9 (FGF-9) cDNA into mouse BALB/c 3T3 clone A31 cells led to morphological transformation of the cells and foci formation 4 weeks later. Isolated transformants had a higher saturation density than parental A31 cells, could grow in soft agar, and secreted FGF-9 into the culture supernatant. The introduction of FGF-9 N33 cDNA, which encodes a truncated protein that has 33 N-terminal amino acids deleted and has the same mitogenic potency as FGF-9, failed to lead to foci formation. Although FGF-9 is a secretory protein, it does not have a typical secretory signal sequence, and the secreted protein retains the full sequence coded in the cDNA except for the initiating
methionine
. The produced FGF-9 N33 was not secreted and remained within the cell. It is possible that FGF-9 has an uncleavable signal sequence within the first 33 N-terminal amino acids. All of the phenotypes acquired by transformation could be arrested by treatment with a neutralizing anti-human FGF-9 monoclonal antibody (MAb) 150-59. Additionally, transformants formed tumors in nude mice. Injection of MAb 150-59 suppressed tumor formation in nude mice and caused existing tumors to regress. Our results suggest that the cellular transformation mediated by FG F-9 is produced by autocrine stimulation. We have detected FGF-9 production in the human tumor cell lines
glioma
NMC-G1, from which FGF-9 was originally purified, and stomach carcinoma AZ-521. The growth of NMC-G1 was not affected by MAb 150-59, but that of AZ-521 was arrested by MAb 150-59 in the presence of heparin. Moreover, the growth of the AZ-521 cell tumor in nude mice could be partially arrested by antibody treatment. The possibility of a participation of FGF-9 in the formation of human tumors is suggested.
...
PMID:Autocrine transformation by fibroblast growth factor 9 (FGF-9) and its possible participation in human oncogenesis. 913 82
We compared the metabolic response of a
methionine
(Met)-dependent (P60) human
glioma
cell line with that of a Met-independent variant (P60H) when cultured in a homocysteine (Hcy) medium and exposed to N2O. In Hcy medium (without Met), remethylation of Hcy in P60H cells was enhanced and supported growth, whereas remethylation was low in P60 cells, which failed to thrive under these conditions. Both cell types seemed to contain adequate amounts of folates and total cobalamin (Cbl). P60 cells showed increased total and methylcobalamin (CH3Cbl) content after the shift to a Hcy medium, but the high, stable level of CH3Cbl detected in P60H cells was not attained. Further metabolic differences were induced by N2O exposure, which markedly reduced Met-synthase activity in cell-free extracts in both cell lines and completely blocked intact-cell Hcy remethylation in P60, whereas Hcy remethylation was only partly inhibited in P60H cells cultured in Met medium. The residual Hcy remethylation in P60H cells may be related to only a moderate depletion of CH3Cbl. The resulting high CH3Cbl level relative to Met-synthase activity during N2O exposure was even higher in Hcy medium. These findings in P60H cells probably reflect increased provision of Cbl to support Hcy remethylation under metabolic strain. The inability of P60 to furnish CH3Cbl to the enzyme may explain both the Met-dependent phenotype and the increased sensitivity of Hcy remethylation to N2O exposure in these cells.
...
PMID:Response of the methionine synthase system to short-term culture with homocysteine and nitrous oxide and its relation to methionine dependence. 921 37
The induction of glutamine starvation has been suggested as a potential target for antitumoral treatment using inhibitors of amidotransferase, an enzyme which mediates the conversion of glutamate to glutamine. Using multicellular aggregates from tumor cell lines, the effect of treatment with a suggested glutamine antagonist, 6-diazo-5-axo-L-norleucine (DON), was investigated. As indicators of treatment response, three different parameters were measured: aggregate size, uptake of 14C-
methionine
and secretion of Chromogranin A. Of six cell types evaluated (carcinoid,
glioma
, neuroblastoma pancreas and bladder cancer), the largest inhibition of 14Cmethionine uptake, amounting to 60%, was found in the carcinoid cell line BON. In this cell line the maximum effect was reached already at 10 microM concentration. DON induced marked growth inhibition in the BON aggregates which lasted 3-4 weeks after which regrowth started. During this period the secretion of chromogranin and
methionine
uptake was also inhibited. These studies suggest that the neuroendocrine cell line BON is especially vulnerable to treatment by DON and show that strong inhibitory effects are found at concentrations lower than that achieved in patient blood in previous clinical trials.
...
PMID:Effect of 6-diazo-5-oxo-L-norleucine (DON) on human carcinoid tumor cell aggregates. 925 48
Heterogeneity in drug sensitivity must, in part, account for the relative lack of success with single agent chemotherapy for glioblastoma multiforme (GBM). In order to develop in vitro model systems to investigate this, clones derived from the VM spontaneous murine astrocytoma have been characterised with regard to drug sensitivity. Six clonal cell lines have been tested for sensitivity to a panel of cytotoxic drugs using an intermediate duration 35S-
methionine
uptake assay. These lines have previously been extensively characterised with regard to morphological, antigenic, kinetic, tumourigenic potential in syngeneic animals and chromosomal properties and display considerable heterogeneity. The present study indicates that heterogeneity extends to sensitivity to all classes of cytotoxic drugs. The greatest difference in sensitivity between the clones was seen in response to cell cycle-specific drugs like the Vinca alkaloids (14-fold and 20-fold for vincristine (VCR) and vindesine (VIND) respectively), while the nitrosoureas, CCNU and BCNU displayed a smaller fold difference in sensitivity (4.3 and 3.6-fold difference respectively). All the clones were considerably more resistant to the adriamycin (ADM), cis-platinum (C-PLAT) and the Vinca alkaloids than the parental cell line although the difference in sensitivity between the clones and parental cell line were less marked for the nitrosoureas and procarbazine (PCB). It has also been possible to examine the relationship between drug sensitivity and the phenotypic and genotypic properties of these clonal cell lines. There is a relationship between chromosome number and sensitivity of a wide variety of cytotoxic drugs including the nitrosoureas, Vinca alkaloids, PCB, C-PLAT, BLEO but not ADR or 5-FU. Clones with small numbers of chromosomes were more resistant than clones with gross polyploidy. Similarly, sensitivity to Vinca alkaloids and ADM, but not other classes of drugs, was greatest in cells with numerous cytoplasmic processes and which did not express large amounts of cell surface fibronectin. Preliminary experiments have been conducted on reconstituting clonal mixtures of cells with different sensitivity to Vinca alkaloids and results from these studies indicate that the drug resistance phenotype is dominant, with clonal mixtures of sensitive and resistant cell adopting the sensitivity of the more resistant partner. These cell lines should prove to be useful models for examining the cell biological basis of drug resistance in
glioma
and may lead to the identification and exploitation of novel cellular targets in new therapies for GBM.
...
PMID:Heterogeneity of chemosensitivity in six clonal cell lines derived from a spontaneous murine astrocytoma and its relationship to genotypic and phenotypic characteristics. 925 17
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