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Query: UMLS:C0017638 (
glioma
)
30,880
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
To elucidate the reasons for glycolytic deviation commonly found in brain tumors, hexokinase (HK) activity, mitochondria-HK binding, oxidative phosphorylation and mitochondrial ultrastructure were studied in 4 human xenografted gliomas.
Lactate
/pyruvate ratios were increased 3-4 fold and HK activity was of 2-4 fold lower than that of normal rat brain tissue, used as the control. The mitochondria-bound HK (mHK) fraction varied considerably and represented 9 to 69% of the total HK of that normal rat brain. The respiratory activity of
glioma
mitochondria, assessed by polarography and spectrophotometry, was within the normal range. However, the mitochondrial content of gliomas was lower than in the rat brain tissue, as revealed by the markedly decreased, activities of two unrelated mitochondrial enzymes, cytochrome c oxidase and citrate synthase in
glioma
homogenates. Electron microscopical studies confirmed the reduced number of mitochondria in 3 out of the 4 gliomas. Profound alterations of mitochondrial ultrastructure, namely of cristae and matrix densities, were observed in the 4 gliomas. The intercrista space was wider in all gliomas and the crista area was larger in 3 out of the 4 gliomas than in normal rat brain. Finally, the outer membrane of
glioma
mitochondria interacted intimately and extensively with the rough endoplasmic reticulum (RER) and/or nuclear membrane. These results suggest that, because of the very low content of normally functioning mitochondria, gliomas shift their energy metabolism towards a high-level glycolysis to generate their cellular ATP supply, probably through RER-mitochondria interactions and transformation-dependent redistribution of particulate HK from non-mitochondrial to mitochondrial receptors.
...
PMID:Gliomas are driven by glycolysis: putative roles of hexokinase, oxidative phosphorylation and mitochondrial ultrastructure. 921 43
Seventeen brain tumors were measured by 1H-CSI (chemical shift imaging) in a 1.5 T clinical magnetic resonance scanner. The metabolic peaks obtained were evaluated by two methods. One method was to obtain the percentage of each metabolite relative to the combined choline, creatine and NAA peak areas, and the other method was to obtain a ratio of the tumor to contralateral brain. The percentage of choline (%Cho) and choline ratio increased, and the %NAA and NAA ratio decreased in the gliomas and malignant tumors. In relation to grading, %Cho increased but the choline ratio did not. We believed the reason for this was that there were many foci of microscopic necrosis in the
glioma
grade IV. Free lipids were observed in most of the high grade gliomas and in a malignant tumor.
Lactate
increased in higher grade tumors. Meningiomas showed the highest %Cho. Statistical differences between the grades of
glioma
were not detected because many tumors had heterogeneous tissue. One resolution to this problem was metabolite mapping. Mapping of the percentage of metabolites was suitable because it described the regional metabolic changes and the resulting signal to noise ratio was better than that achieved by other methods of evaluation.
...
PMID:Evaluation of metabolic heterogeneity in brain tumors using 1H-chemical shift imaging method. 925 Nov 12
Systemic interferon-beta-Ib (IFN-beta-Ib) reduces the frequency of clinical exacerbations and the number of magnetic resonance imaging (MRI)-defined lesions in patients with relapsing-remitting MS. The basis for this clinical effect is not understood. While IFN-beta-Ib has been demonstrated to have antiproliferative and immunomodulatory effects on the systemic immune system, its actions on neural cells could also contribute to its therapeutic efficacy. In this study, we have examined possible immune and non-immune effects of IFN-beta-Ib on CNS-derived primary human cells. With respect to immune-related effects, application of IFN-beta-Ib did not decrease basal expression of HLA-DR on astrocytes or microglia, and it reduced the IFN-gamma-enhanced HLA-DR expression on adult human astrocytes only at high concentrations (1000 IU ml-1); IFN-beta-Ib at all concentrations tested did not reduce the IFN-gamma-enhanced HLA-DR expression by fetal astrocytes or adult microglial cells. In contrast, but in correspondence with the literature, the IFN-gamma-enhanced HLA-DR expression on a
glioma
cell line was attenuated by IFN-beta-Ib in a dose-dependent manner. With respect to non-immune effects, the number of adult human oligodendrocytes and their state of morphological differentiation were not affected by IFN-beta-Ib. Proliferation of the mitotically active fetal human astrocytes, however, was reduced by IFN-beta-Ib treatment.
Lactate
dehydrogenase assays revealed that IFN-beta-Ib was not toxic to neural cells, including adult oligodendrocytes and fetal human neurons. We conclude that IFN-beta-Ib lacks efficacy in down-regulating HLA-DR expression by primary human neural cells and that regulation of MHC class II antigens is unlikely to be a mechanism for its beneficial effect in MS. Finally, the lack of toxicity of IFN-beta-Ib on human neural cells is important for a drug that will probably be used widely.
...
PMID:Immune and non-immune actions of interferon-beta-Ib on primary human neural cells. 934 64
Elevated tissue lactate concentrations typically found in tumors can be measured by in vivo nuclear magnetic resonance (NMR) spectroscopy. In this study, lactate turnover in rat C6
glioma
was determined from in vivo 1H NMR measurements of [3-13C]lactate buildup during steady-state hyperglycemia with [1-13C]glucose. With this tumor model, a narrow range of values was observed for the first-order rate constant that describes lactate efflux, k2 = 0.043 +/- 0.007 (n = 12) SD min-1. For individual animals, the standard error in k2 was small (< 18%), which indicated that the NMR data fit the kinetic model well.
Lactate
measurements before and after infusing [1-13C]glucose showed that the majority of the tumor lactate pool was metabolically active. Signals from 13C-labeled glutamate in tumors were at least 10-fold smaller than the [3-13C]lactate signal, whereas spectra of the contralateral hemispheres revealed the expected labeling of [4-13C]glutamate, as well as [2-13C] and [3-13C]glutamate, which indicates that label cycled through the tricarboxylic acid cycle in the brain tissue. Lack of significant 13C labeling of glutamate was consistent with low respiratory metabolism in this
glioma
. It is concluded that lactate in rat C6
glioma
is actively turning over and that the kinetics of lactate efflux can be quantified noninvasively by 1H NMR detection of 13C label. This noninvasive NMR approach may offer a valuable tool to help evaluate tumor growth and metabolic responsiveness to therapies.
...
PMID:Lactate turnover in rat glioma measured by in vivo nuclear magnetic resonance spectroscopy. 982 16
The current study determined the extracellular content of glutamate, 10 additional amino acids, lactate, glucose and some antioxidants in a rodent model of malignant
glioma
, its peritumoral space and the adjacent cortex. RG2 tumors were induced in the right frontal cortex of Fischer-344 rats (n = 10) by a standardized procedure to obtain a maximum sagittal tumor width of 3-4 mm diameter. After confirmation of tumor growth and localization by contrast enhanced MRI three microdialysis probes were implanted simultaneously in the cortex: at the tumor implantation site (tumor), 2 mm caudally, brain around tumor (BAT) and 4 mm caudally (cortex) to the site of implantation. Dialysate concentrations of glutamate were increased 3.9-fold in tumor and 2-fold in BAT compared with cortex. Glycine was elevated 11.4-fold in tumor and 2.6-fold in BAT.
Lactate
was increased 1.7-fold in tumor, 1.2-fold in BAT. Levels of glucose, ascorbic acid and uric acid were not significantly different in tumor, BAT and cortex. The increased dialysate levels of glutamate and glycine in the peritumoral space may contribute to impaired neuronal function and epileptiform activity associated with this tumor type in humans.
...
PMID:Extracellular glutamate and other metabolites in and around RG2 rat glioma: an intracerebral microdialysis study. 1093 95
The value of extracellular pH (pH(e)) in tumors is an important factor in prognosisand choice of therapy. We demonstrate here that pH(e) can be mappedin vivo in a rat brain
glioma
by (1)H magnetic resonance spectroscopic imaging (SI) of the pH buffer (+/-)2-imidazole-1-yl-3-ethoxycarbonylpropionic acid (IEPA). (1)H SI also allowed us to map metabolites, and, to better understand the determinants of pH(e), we compared maps of pH(e), metabolites, and the distribution of the contrast agent gadolinium1,4,7,10-tetraazacyclododecane-N,N',N",N"'-tetraaceticacid (Gd-DOTA). C6 cells injected in caudate nuclei of four Wistar rats gave rise to gliomas of approximately 10 mm in diameter. Three mmols of IEPA were injected in the right jugular vein from t = 0 to t = 60 min. From t = 50 min to t = 90 min, spin-echo (1)H SI was performed with an echo time of 40 ms in a 2.5-mm slice including the
glioma
(nominal voxel size, 2.2 microl). IEPA resonances were detected only within the
glioma
and were intense enough for pH(e) to be calculated from the chemical shift of the H2 resonance in almost all voxels of the
glioma
. (1)H spectroscopic images with an echo time of 136 ms were then acquired to map metabolites: lactate, choline-containing compounds (tCho), phosphocreatine/creatine, and N-acetylaspartate. Finally, T(1)-weighted imaging after injection of a bolus of Gd-DOTA gave a map indicative of extravasation. On average, the gradient of pH(e) (measured where sufficient IEPA was present) from the center to the periphery was not statistically significant. Mean pH(e) was calculated for each of the four gliomas, and the average was 7.084 +/- 0.017 (+/- SE; n = 4 rats), which is acid with respect to pH(e) of normal tissue. After normalization of spectra to their water peak, voxel-by-voxel comparisons of peak areas showed that N-acetylaspartate, a marker of neurons, correlated negatively with IEPA (P < 0.0001) and lactate (P < 0.05), as expected of a
glioma
surrounded by normal tissue. tCho (which may indicate proliferation) correlated positively with pH(e) (P < 0.0001).
Lactate
correlated positively with tCho (P < 0.0001), phosphocreatine/creatine (P < 0.001), and Gd-DOTA (P < 0.0001). Although lactate is exported from cells in association with protons, within the gliomas, no evidence was observed that pH(e) was significantly lower where lactate concentration was higher. These results suggest that lactate is produced mainly in viable, well-perfused, tumoral tissue from which proton equivalents are rapidly cleared.
...
PMID:Mapping extracellular pH in rat brain gliomas in vivo by 1H magnetic resonance spectroscopic imaging: comparison with maps of metabolites. 1152 50
Glioma
-bearing rats were infused intravenously with a solution containing either [3-(13)C]lactate or both glucose and [3-(13)C]lactate for 20 min or 1 hr. Perchloric acid extracts of healthy and tumoral brain tissues were prepared and analyzed by (13)C- and (1)H-observed (13)C-edited nuclear magnetic resonance (NMR) spectroscopy to determine (13)C-label incorporation into brain tissue and
glioma
metabolites. Moreover, (13)C enrichments in blood lactate and glucose were determined from (1)H-NMR spectra. In the nontumoral tissue, (13)C labeling of amino acids indicated that [3-(13)C]lactate entered the brain and was metabolized. There was no labeling difference between the contralateral and the ipsilateral hemispheres.
Lactate
metabolism appeared more specifically neuronal, in agreement with our previous results obtained with normal rat brain (Bouzier et al. [2000] J. Neurochem. 75:480-486). In the
glioma
tissue, comparison of Ala C3, Glu C4, and Gln C4 labeling indicated that the contributions of blood glutamine and tricarboxylic acid (TCA) cycle to glutamate labeling were about 80% and 20%, respectively, after 1 hr of [3-(13)C]lactate infusion. In contrast, these contributions were about 10% and 90%, respectively, when [1-(13)C]glucose was infused in the absence of lactate. This indicated a major effect of the exogenous lactate on
glioma
metabolism, which may be due to the following process: The high blood lactate level might hinder the drain of glycolytic lactate produced inside the
glioma
and thus generate a change in redox potential such that the tumor cells are unable to restore it with oxidative phosphorylation. Thereafter, the high NADH level might inhibit glycolysis and the TCA cycle, and glutamine could become the major carbon source for glutamate labeling.
...
PMID:Effect of exogenous lactate on rat glioma metabolism. 1155 Feb 22
The metabolism of [1-13C] glucose was followed in C6 rat
glioma
cells immobilized on a gel thread and in perchloric extracts of the same cells in culture. The results showed that the main metabolite of [1-13C] glucose is [3-13C] lactate. The effects of hypoxia were followed in the perchloric acid extracts of C6 cells. In normoxic conditions, the main metabolites produced by the cells were [3-'3C] lactate, [3-13C] alanine, [2-13C], [3-13C] and [4-13C] glutamate.
Lactate
newly synthesized from glucose appeared to be exported in the perfusion medium when living cells were immobilized in gel threads made of extracellular matrix. After 5 h of hypoxia, the lactate labelling measured in PCA cell extracts was increased that of glutamate decreased and the appearance of a spectral line at 66.01 ppm, identified as [1-13C] glycerol-3-phosphate, was observed. The data suggest that the synthesis of glycerol-3-phosphate in these cells might represent a sign of hypoxia.
...
PMID:Metabolism of [1-13C] glucose in extracts and in immobilized rat glioma C6 cell cultures: effects of hypoxia. 1265 45
Lactate
(
Lac
) and mobile lipids (Lip), which are present in rat gliomas, are difficult to map because their 1H resonances overlap in the 1.3 ppm region. 2D J-resolved spectroscopy enables proper separation of the two resonance lines. To obtain high-spatial-resolution mapping of
Lac
and Lip resonances within a reasonable experiment time, we coupled 2D J-resolved spectroscopy with a fast spectroscopic imaging (SI) method, based on an out-and-in spiral k-space description. The method was applied to a rat
glioma
at 7 T, and
Lac
and Lip maps were reconstructed. The duration of SI (2D spatial, 2D spectral) was 64 min for a theoretical in-plane resolution of 1 x 1 mm, and a slice thickness of 2 mm (voxel size 8.2 microl, taking into account the point-spread function (PSF)).
...
PMID:2D J-resolved spiral spectroscopic imaging at 7 T: application to mobile lipid mapping in a rat glioma. 1533 87
Advanced MRI techniques, such as MR spectroscopy, diffusion and perfusion MR imaging can give important in vivo physiological and metabolic information, complementing morphologic findings from conventional MRI in the clinical setting. Combining perfusion MRI and MR spectroscopy can help in patients with brain masses in who the pre-operative differential diagnosis is unclear. This review demonstrates the use of dynamic, susceptibility weighted, contrast-enhanced MR imaging (DSC MRI) and magnetic resonance spectroscopic imaging (MRSI) to distinguish surgical from non-surgical lesions in the brain. There is overlap in the MRI appearance of many enhancing and ring-enhancing lesions such as gliomas, metastases, inflammatory lesions, demyelinating lesions, subacute ischemia, abscess and some AIDS related lesions. We review examples of histopathologically confirmed high-grade
glioma
, a middle cerebral artery territory infarct, a tumefactive demyelinating lesion and a metastasis for which conventional MR imaging (MRI) was non-specific and potentially misleading and demonstrate how DSC MRI and MRSI features were used to increase the specificity of neurodiagnosis. At several institutions, many patients routinely undergo MRI as well as MRSI and DSC MRI. Cerebral blood flow (CBF), mean transit time (MTT), and relative cerebral blood volume (rCBV) measurements are obtained from regions of maximal perfusion as determined from perfusion color overlay maps. Metabolite levels and ratios are determined for Choline (Cho), N-Acetyl Aspartate (NAA),
Lactate
and Lipids (LL). Metabolite levels are obtained by measuring the peak heights of each metabolite and the ratios are obtained from these measurements for Cho/Cr, Cho/NAA and NAA/Cr. Neurosurgical intervention carries substantial morbidity, mortality, financial and potential emotional cost to the patient and family. Making a pre-operative diagnosis allows the neurosurgeon to be confident in the choice of treatment plan for the patient and allays considerable patient anxiety. The utility of combining clinical findings with multi-parametric information from perfusion and spectroscopic MR imaging in differentiating surgical lesions from those which do not require surgical intervention is discussed.
...
PMID:Differentiating surgical from non-surgical lesions using perfusion MR imaging and proton MR spectroscopic imaging. 1556 Jul 13
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