Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0017638 (glioma)
 30,880 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Invasive astrocytomas were produced in mice by intracerebral injection of a cell line obtained from a spontaneous murine astrocytoma. These tumours grew in the cerebral hemispheres and, in many cases, extended through the needle hole in the skull to give rise to large extracranial tumours. On injection of the tracers, Evans' blue or horseradish peroxidase (HRP), into the femoral vein, differences were noted in the vascular permeability of the intracerebral and extracranial tumours; the latter alone being stained. Ultrastructurally, small amounts of HRP were localized on the luminal membranes of the vascular endothelium in intracerebral tumours, while in extracranial neoplasms, the tracer was present in the widened extracellular space and in the cytoplasm of macrophages and neoplastic cells. Accordingly, endothelial fenestrations, open junctions and irregular vessels with hypertrophic endothelia were seen exclusively in extracranial neoplasms. These anomalies in the vasculature of intracerebral and extracranial components of VMDk P 497 tumours may have important implications in chemotherapeutic studies using this glioma model.
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PMID:Vascular permeability in transplantable murine gliomas: morphological correlation with tracer studies. 244 63

Changes in capillary walls between human glial, non-glial and metastatic brain tumors were studied with conventional ultrathin section and freeze-fracture replica techniques. The following results were obtained. (1) In glial tumors, ultrathin section studies showed cell junctions of the capillaries were either short or elongate. Moreover, endothelial hyperplasia, surface infolding of endothelial cells, irregularity of the basal lamina and a large extravascular space were observed. Freeze-fracture replicas of capillary endothelium showed tight junctions as two to seven strands. In addition, pinocytotic vesicles had increased markedly and were an average of 25 per microns 2. Both ultrathin and freeze fracture studies showed that, in contrast to malignant gliomas, there were only slight changes in benign astrocytomas. (2) In non-glial tumors, ultrathin sections showed surface infoldings, increased vesicles, many fenestrations of endothelial cells, irregularity of basal lamina and enlarged perivascular space. Freeze-fracture replicas of vascular endothelium, showed that the average number of pinocytotic vesicles and fenestrations were 25 and 22 per microns 2, respectively. Moreover, the tight junction was composed of one or two strands which appeared to be a discontinuous array of particles. (3) In metastatic brain tumors, ultrathin studies showed capillary endothelia were proliferated, had marked infolding, and showed an increased number of pinocytotic vesicles and many fenestrations. Moreover, short and elongate intercellular junctions were presented but no open junction was detected. Finally the basal lamina lost its three-layered appearance and was irregular in width. Freeze-fracture replicas showed pinocytotic vesicles had increased and were 24 per microns 2 on average in four cases, but fenestrations and tight junctions could not be detected. The most fundamental feature of vessels in these three different kinds of tumors was whether they were fenestrated or not. Glial tumors were non-fenestrated, whereas non-glial and metastatic tumors were fenestrated.
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PMID:Ultrastructure of capillary walls in human brain tumors. 255 36

The genes for platelet-derived growth factor (PDGF) A chain, B chain/c-sis, and the PDGF receptor are expressed in human malignant glioma cell lines. In the present investigation we have studied the expression of these genes in biopsy specimens from human glioblastomas. Hyperplasia of the vascular endothelium is a prominent characteristic of human glioblastoma multiforme and simian sarcoma virus-induced gliomas in primates. RNA transfer blot analysis of biopsies from glioblastoma multiforme showed transcripts for PDGF A and B chains and the PDGF receptor. Tissue sections from this tumor examined by in situ hybridization techniques revealed that the proliferating vascular endothelial cells contained large quantities of mRNA for PDGF B chain/c-sis and its receptor and, to a lesser extent, for PDGF A chain. In contrast, the tumor cells expressed more mRNA for PDGF A chain than for PDGF B chain and PDGF receptor. The latter two were also expressed at higher levels in glioma cells than in glial cells of nontumorous human brain tissue. Thus, an autocrine stimulation by the PDGF B chain/c-sis product via its receptor, evoked by interaction with surrounding glioma cells, could be the mechanism behind the pathological proliferation of endothelial cells characteristically found in this type of malignancy.
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PMID:Endothelial cell hyperplasia in human glioblastoma: coexpression of mRNA for platelet-derived growth factor (PDGF) B chain and PDGF receptor suggests autocrine growth stimulation. 284 20

In order to elucidate mechanisms of contrast enhancement on computed tomography observed in non-glial tumors, tumors vessels were studied with conventional ultrathin section and freeze-fracture replica techniques. The materials were obtained from surgically removed specimens in 19 cases of tumors (6 of meningioma, 6 of hemangioblastoma, 5 of pituitary adenoma, and 2 of acoustic neurinoma). The following results were obtained. The common findings of these non-glial tumor vessels in ultrathin preparations were surface infoldings, increased pinocytotic vesticles and many fenestrations of endothelial cells, irregularity of basal laminae, and enlarged perivascular spaces. In freeze-fracture replicas of vascular endothelium, pinocytotic vesicles and fenestrations were 22 and 26 per micron2 on the average respectively. Tight junctions between endothelial cells were composed of one or two strands which appeared to be a discontinuous array of particles. As for the each non-glial tumor, menigiomas showed endothelial thickness and finger-like projections, variable lengths of tight junctions and marked enlargement of perivascular space which contained many collagen fibrils. Thinning of endothelium and many fenestrations were observed in hemangioblastomas, pituitary adenomas, and acoustic neurinomas. Fenestrations were most frequently observed in pituitary adenomas. The results indicate that extravasation of contrast material through fenestrations has an important role in marked contrast enhancement of non-glial tumors, in addition to the osmotic opening of tight junctions by contrast material. The irregular basal lamina and large perivascular space may also contribute to an increased extravasation of contrast material.
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PMID:[Ultrastructure of capillary permeability in human brain tumors. 3: Mechanisms of contrast enhancement in non-glial tumors]. 370 29

Cerebral edema, a major complication of tumors in the brain, is the result of an alteration in the blood-brain barrier (B-BB). The vascular ultrastructural changes that underlie edema formation have been described in a variety of tumors. Interendothelial junction abnormalities, fenestrations, and large numbers of tubulo-vesicular profiles in the tumor vascular endothelium have been presumed to represent permeability routes that permit the escape of serum constituents into the tumor, from where they flow into the surrounding brain. Descriptive studies do not provide information on the relative frequency of these presumptive permeability routes. In the study reported here we have quantified ultrastructural features associated with the B-BB in the vessels of an experimental glioma in rat. We found that approximately 60% of the tumor vessel profiles have junctional abnormalities and 30% have one or more fenestrations. The density of tubulo-vesicular profiles, however, was not increased. In addition, tumor vessel walls were thicker than normal vessels of the same caliber and the mitochondrial density was in the range of that for non-barrier vessels. Vessels in peritumoral regions were not altered in any of the parameters measured.
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PMID:A quantitative study of blood-brain barrier permeability ultrastructure in a new rat glioma model. 402 75

The morphological changes in the vascular endothelium caused by the administration of tumor necrosis factor-alpha (TNF-alpha) were studied in an experimental model of rat brain tumors. Wistar rats bearing implanted C6 glioma received human natural-type TNF-alpha (1.7 x 10(5) U/m2) through the carotid artery and were sacrificed 3 or 24 hours later. The endothelial cells of the tumor blood vessels, demonstrated by the immunoreaction to factor VIII-related antigen, were enlarged after TNF-alpha administration. Morphometry demonstrated that the nuclei of these endothelial cells were also increased in size. The endothelial cells in the brain remote to the tumor were not affected. An in vitro binding study demonstrated that TNF-alpha binding sites were distributed in the vascular endothelial cells within the tumor but not in the brain remote to the tumor. The selective effect of TNF-alpha on the tumor blood vessels in experimental brain tumors may be related to the selective distribution of the TNF-alpha binding site.
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PMID:Morphological effects of tumor necrosis factor-alpha on the blood vessels in rat experimental brain tumors. 874 70

A novel cationic delivery system composed of magnetic aminodextran microspheres (MADM) 1-2 microm in diameter was evaluated along with neutral magnetic dextran microspheres (MDM) for their ability to target intracerebral rat glioma-2 (RG-2) tumors in vivo. The tissue distribution of the microspheres was determined following intraarterial injection (25 mg/kg) over 2 min in male Fisher 344 rats bearing RG-2 tumors as well as normal animals with a magnetic field of 0 or 0.6 T applied to the brain for 30 min. Animals were sacrificed at 30 min or 6 h post-injection after which the microspheres were recovered from various tissues and analyzed for magnetite (Fe3O4) content by atomic absorption. Overall, administration of cationic MADM and neutral MDM particles in normal animals resulted in low brain tissue concentrations with the highest concentrations observed in lung and spleen tissue. In contrast, studies in brain tumor bearing animals resulted in cationic MADM particles concentrating in brain tumor at levels significantly higher than neutral MDM particles (p = 0.0111). Cationic particles were also retained in brain tissue over a longer period of time compared to neutral particles (p = 0.0161) with MADM tumor concentrations decreasing only 4% after 6h compared with a 32% decrease for MDM. Application of a magnetic field failed to produce any significant effect on tissue distribution due to high variability in these groups, but generally resulted in increased brain concentrations and decreased non-target tissue concentrations. TEM analysis of brain tissue sections in tumor animals also revealed differences in particle distribution with MADM particles observed in the interstitial space and MDM particles trapped in the vasculature. In summary, particle charge, state of the vascular endothelium and time significantly influenced particle distribution contributing to the ability of MADM to selectively target brain tumor and supports further investigation of magnetic cationic microspheres as a targeted drug delivery system for brain tumors.
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PMID:Enhanced brain tumor selectivity of cationic magnetic polysaccharide microspheres. 988 8

Small (10-20 nm) uncharged magnetic particles (SMP) were evaluated for their ability to target intracerebral rat glioma-2 (RG-2) tumors in vivo. In an effort to determine the influence of particle size on blood-tumor barrier uptake, the tissue distribution of the injected particles was evaluated following intraarterial injection (4 mg/kg SMP) in male Fisher 344 rats bearing RG-2 tumors with a magnetic field of 0 G or 6000 G applied to the brain for 30 min. Animals were sacrificed at 30 min or 6 h post-injection after which tissues were collected and analyzed for magnetite content. In the presence of a magnetic field, SMP localized in brain tumor tissue at levels of 41-48% dose/g tissue after 30 min and 6 h respectively, significantly greater than non-target tissues. In the absence of a magnetic field only 31-23% dose/g tissue was achieved for the same time points. Tumor targeting of the SMP for brain tumor was demonstrated by large target selectivity indexes (ts) of 2-21 for normal brain tissue, indicating a 2-21 fold increase in concentrations compared to normal brain. In comparison with larger (1 micron) diameter magnetic particles, SMP concentrated in brain tumor at significantly higher levels than magnetic neutral dextran (p = 0.0003) and cationic aminodextran (p = 0.0496) microspheres previously studied. TEM analysis of brain tissue revealed SMP in the interstitial space of tumors, but only in the vasculature of normal brain tissue. These results suggest that changes in the vascular endothelium of tumor tissue promote the selective uptake of SMP and provide a basis for the design of new small drug-loaded particles as targeted drug delivery systems for brain tumors.
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PMID:Distribution of small magnetic particles in brain tumor-bearing rats. 1022 29

The ensuing ultrastructural changes in tumor vascular endothelial cells following intra-arterial administration of tumor necrosis factor-alpha (TNFalpha) were studied in an experimental rat glioma model. C6 glioma cells were implanted in Wistar rats and then after 14 days, 5 x 10(3) U of human natural-type TNFalpha (1.7 x 10(5) U/m2) was administered through the carotid artery. The animals were sacrificed at 3 or 24 h after TNFalpha treatment. A detailed examination with transmission electron microscope revealed swelling of the tumor vascular endothelial cell nuclei and mitochondria with matrix densities at 3 h. At 24 h, these cells demonstrated the presence of high amplitude mitochondrial swelling or the violent blebbing characteristic of damaged mitochondria; the cytoplasm was swollen enormously and there were dissolution of cytoplasmic organelles and rupture of the plasma membrane. The observed findings were typical of cell necrosis and confirms yet another mechanism by which TNFalpha exerts its anti-tumor effects, that is, necrotizing effects on tumor vascular endothelium. The information appears to be important in the context of clinical application of intra-arterial TNFalpha in the treatment of malignant gliomas.
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PMID:Ultrastructural changes of the vascular endothelium after intra-arterial administration of tumor necrosis factor-alpha (TNFalpha) in rat gliomas. 1089 67

EMMPRIN (extracellular matrix metalloproteinase inducer), also called CD147, basigin or M6 in the human, is a member of the immunoglobulin superfamily that is present on the surface of tumor cells and stimulates adjacent fibroblasts to produce matrix metalloproteinases (MMPs). In our study, we investigated expression of EMMPRIN in human normal brain and gliomas, since mouse basigin and chicken HT7, the species homologues of human EMMPRIN, are associated with neuronal interactions and normal blood-brain barrier function, respectively. EMMPRIN expression was detected in all samples of non-neoplastic brain and glioma tissues examined. However, expression levels of EMMPRIN mRNA and protein were significantly higher in gliomas than in non-neoplastic brain. Moreover, levels of mRNA expression and immunohistochemical staining correlated with tumor progression in gliomas: They were highest in the most malignant form of glioma, glioblastoma multiforme, followed by anaplastic astrocytoma and then low-grade astrocytoma. Also, immunolocalization revealed quite different distributions in non-neoplastic brain and glioma: EMMPRIN was demonstrated only in vascular endothelium in non-neoplastic regions of the brain, whereas it was present in tumor cells but not in proliferating blood vessels in malignant gliomas. These data indicate that an MMP inducer molecule EMMPRIN is differently expressed in human normal brain and gliomas and could be associated with astrocytoma progression. Possible mechanisms whereby glioma cell EMMPRIN could influence tumor progression will be discussed.
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PMID:Expression of emmprin (CD147), a cell surface inducer of matrix metalloproteinases, in normal human brain and gliomas. 1096 35


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