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)

Tenascin expression was evaluated in 21 human glioma cell lines and in normal adult tissue extracts by Western and Northern blotting. The cell lines differed in their relative expression of tenascin in the cell-associated and supernatant compartments. Glioma cell line tenascin production was not uniformly stimulated by changes in fetal bovine serum concentration in the growth media. In most glioma cell lines and normal tissue extracts, reducing Western blots and Northern blots revealed two tenascin species, respectively: a major 340 kDa polypeptide and a 9 kb RNA transcript accompanied by a less intense 250 kDa polypeptide and 7 kDa RNA species. In U-87 MG and in normal adult kidney extracts, however, the 250 kDa band and 7 kb transcript were more prominent. Quantitation of tenascin in the glioma lines revealed variable levels that were significantly higher than those in the tissue extracts.
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PMID:Tenascin expression in human glioma cell lines and normal tissues. 137 Sep 58

C6 rat glioma cells incubated in serum-free medium with D-[14C]glucosamine secrete, on stimulation with nerve growth factor (NGF) or monosialogangliosides (MSGs), several glycoproteins (Gps), the most prominent of which are a 270-, 220-, and 69-kDa Gp. Several growth factors, hormones, phorbol ester, and disialo- and trisialogangliosides did not stimulate secretion. Western blot analysis of the conditioned medium from C6 cells stimulated with NGF or MSG identified one distinct band of approximately 220 kDa for fibronectin and J1/tenascin, which comigrated. Antiserum to NGF prevented NGF-stimulated release and also blocked MSG-evoked release. The 220-kDa band was labeled after pulse labeling with [35S]methionine in the presence of NGF, and by a 15-min chase period radioactively labeled J1/tenascin could be immunoprecipitated. Tunicamycin drastically inhibited almost completely release of the 220-kDa Gp labeled by D-[14C]glucosamine or [35S]methionine. These results extend the range of neurotrophic properties attributed to NGF to cells of glial origin and suggest that NGF regulates secretion of extracellular matrix proteins. MSG stimulation of fibronectin and J1/tenascin secretion may be mediated by NGF or an NGF-like molecule also secreted by the C6 glioma cells.
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PMID:Nerve growth factor mediates monosialoganglioside-induced release of fibronectin and J1/tenascin from C6 glioma cells. 170 27

Three new human medulloblastoma (MB) cell lines (D384 Med, D425 Med, and D458 Med) and their transplantable xenografts were examined for antigenic expression with antibodies against neuroectodermal antigens, cytoskeletal proteins, neuroendocrine markers, glioma-associated antigens, tenascin, human lymphocyte antigen molecules, epidermal growth factor receptor, and T-cell antigen by indirect immunofluorescence, avidin-biotin complex peroxidase immunohistochemistry, and immunoblot methods. We found that each of the three cell lines expressed vimentin; low-, middle-, and high-molecular-weight neurofilament proteins; and the synaptic vesicle membrane glycoprotein synaptophysin. Each of the cell lines also reacted with antibodies against neural cell adhesion molecules, but none of them were positive for antibodies against glial fibrillary acidic protein, keratin, microtubule-associated protein tau and microtubule-associated protein 2, human lymphocyte antigen-DR, epidermal growth factor receptor, and T-cell antigen. Immunoreactivities with anti-tenascin and anti-glioma-associated antibodies were variable in these cell lines. Anti-human lymphocyte antigen-A,B and anti-beta 2-microglobulin antibodies reacted with xenografts of D384 Med and D425 Med and were weakly positive for a small population of D384 Med cultured cells. In summary, the detection of neurofilament proteins and synaptophysin and the absence of glial fibrillary acidic protein provide strong evidence for a neuronal phenotype of D384 Med, D425 Med, and D458 Med.
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PMID:Differentiation characteristics of newly established medulloblastoma cell lines (D384 Med, D425 Med, and D458 Med) and their transplantable xenografts. 190 13

Ten patients with intracranial malignancies were studied by radioimmunoscintigraphy with I-131 BC-2 MoAb. Sensitivity and specificity of radioimmunoimaging were determined and compared with the results obtained with computed X-ray tomography and magnetic resonance imaging. BC-2 MoAb is a murine IgG1 anti-tenascin, which is not expressed by adult normal brain and has been found in large amount in gliomas and/or cerebral metastases, as well as other human tumors. Gamma-camera images obtained at 1 to 4 days exhibited increasing uptake of BC-2 in eight tumors, with varying degrees of contrast with the surrounding normal brain. Two lesions resulted negative to RIS: a meningioma and an oligodendroglioma. Specific tumor uptake of I-131 BC-2 was determined, by external gamma imaging, and ranged from 0.002 up to 0.007 percent of injected dose. Nonspecific uptake in the tumor was determined injecting 99m-Tc-FO23C5 (an isotype-matched control IgG1) in four patients and it was lower than 0.0001% ID. I-131 BC-2 tumor/nontumor ratios, measured using the geometric mean on digital images, ranged from 3 to 7.5:1. This study demonstrates that the tumor uptake of BC-2 in patients with glioma was due to specific processes.
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PMID:Human gliomas radioimmunoimaging with 131-I BC-2 murine IgG: preliminary report. 209 14

Non-i.v. delivery of radiolabeled monoclonal antibodies (MAbs) has been shown to increase tumor uptake and decrease dose to normal tissues. In this study, we have examined the potential advantage of intracarotid (i.c.) versus i.v. administration for the delivery of an intact MAb and a F(ab')2 fragment to tumor in patients with gliomas. Three patients received 10-50 mg of 81C6 IgG2b, a MAb reactive with the glioma-associated extracellular matrix antigen tenascin, and three received 5-20 mg of the F(ab')2 fragment of Mel-14, which is reactive with gliomas and melanomas. Paired-injection protocols, in which one-half of the MAb was labeled with 131I and administered by i.c. injection, and one-half was labeled with 125I and simultaneously administered by i.v. injection, were used. For both 81C6 IgG2b and Mel-14 (Fab')2, no differences in blood clearance half-times or urinary excretion rates of radioiodine were observed between i.c.- and i.v.-administered activity. Analysis of biopsy samples revealed i.c.:i.v. uptake ratios of 1.02 +/- 0.04, 0.95 +/- 0.03, and 1.03 +/- 0.05 for the accumulation of 81C6 IgG2b in temporalis muscle, normal brain, and glioma, respectively. Similarly, the i.c.:i.v. uptake ratios for Mel-14 F(ab')2 in these tissues were 0.98 +/- 0.04 (SD), 1.00 +/- 0.05, and 1.04 +/- 0.05. When the differences in percentage of injected dose/g uptake after i.c. and i.v. administration were compared, no statistically significant advantage for i.c. delivery was seen (P = 0.22-0.61). These data indicate that i.c. administration of MAb 81C6 IgG2b and Mel-14 F(ab')2 fragments offers no delivery advantage to offset the small but finite risk involved in cannulation and injection of the internal carotid artery.
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PMID:Monoclonal antibody and F(ab')2 fragment delivery to tumor in patients with glioma: comparison of intracarotid and intravenous administration. 216 52

The development of Mabs, particularly those reactive with primary brain tumors but not with normal brain, provides a potential means of delivering therapeutic agents selectively to human malignant gliomas. Mab 81C6, an IgG2b immunoglobulin, which defines an epitope of the glioma-associated extracellular matrix protein tenascin, has been shown to bind to human glioma cell lines, glioma xenografts in nude mice, and primary human gliomas, but not to normal adult or fetal brain. To test the therapeutic potential of this Mab for targeted delivery of isotopes, nude mice bearing progressively growing s.c. xenografts of D-54 MG, a human glioma cell line, were given injections via the tail vein of either buffer, unlabeled 81C6, 131I-labeled 81C6, or 131I-labeled 45.6, a nonspecific control Mab of the same isotype. Specific activities of the Mab range from 6.0 to 15.5 mCi/mg with protein doses from 7.6 to 167 micrograms. The doses given by injection per animal for labeled 81C6 were 50, 250, 500, and 1000 mu Ci and 500 and 1000 mu Ci for 45.6. Tumor response was measured by growth delay in reaching 1000 or 5000 mm3 tumor volumes using the Wilcoxon rank sum test, and by comparing the proportion of tumors that had regression in volume after treatment using the Fisher exact test. Statistically significant growth delays at 1000 mm3 were noted in 1 of 3 experiments with 500 mu Ci 81C6 (P less than 0.001) and 2 of 3 for 1000 mu Ci 81C6 (P = 0.001 and less than 0.001). At 5000 mm3, statistically significant growth delays were seen with radiolabeled 81C6 in 2 of 2 experiments at 250 mu Ci (P = 0.01 and 0.02), 4 of 4 at 500 mu Ci (P = 0.03-less than 0.001), and 2 of 2 at 1000 mu Ci (P = less than or equal to 0.001) and with radiolabeled 45.6 in 1 of 1 at 1000 mu Ci (P = 0.01). The percentage of animals with tumor regression progressively increased with increasing doses of isotope. For radiolabeled 45.6, there were 0 of 10 regressors at 500 and 1 of 10 at 1000 mu Ci. For radiolabeled 81C6, there were 0 of 6 regressors at 50 mu Ci, 1 of 16 (6%) at 250 mu Ci, 7 of 38 (18%) at 500, and 15 of 28 (54%) at 1000 mu Ci. Statistically significant tumor regression was seen only at doses of 500 and 1000 mu Ci of 131I-81C6.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Therapeutic efficacy of antiglioma mesenchymal extracellular matrix 131I-radiolabeled murine monoclonal antibody in a human glioma xenograft model. 244 47

Lack of tumor specificity renders current modalities for treating malignant glioma ineffective. The administration of 131I-labeled monoclonal antibody (Mab) 81C6, which reacts with the glioma-associated extracellular matrix antigen, tenascin, to nude mice carrying s.c. human glioma xenografts has resulted in significant tumor growth delay and tumor regression. In this study, we evaluated the therapeutic efficacy of 131I-labeled 81C6 in athymic rats bearing intracranial human glioma xenografts, a more appropriate model for human gliomas. Mab 81C6, an IgG2b immunoglobulin, and an isotype-matched control Mab, 45.6, were labeled at 12.5-23.6 mCi/mg with chloramine-T. The Mabs were given i.v. at 1.25 and 2.5 mCi/animal for 131I-labeled 81C6, and 1.25 mCi for 131I-labeled 45.6 control. Therapeutic response was evaluated by survival prolongation using Wilcoxon rank sum analysis. Three experiments were done. No significant survival prolongation was found in the trial in which the average tumor size at the time of Mab administration was 60 +/- 14 mm3, two-thirds the size which causes animal death. In experiment 2, Mab was given at 16 +/- 14 mm3 average intracranial tumor volume. Statistically significant (P less than or equal to 0.005) survival prolongation was found for animals treated with 2.5 mCi 131I-labeled 81C6. In that experiment, male animals with intracranial xenografts had significantly shorter survival than females (P less than or equal to 0.005). When only female animals were used in the analysis, the 1.25-mCi 81C6 group also was found to have longer survival benefit (P less than or equal to 0.01). In the third experiment, only female animals were used and the tumor size at the initiation of treatment was 20 +/- 9 mm3. Highly significant survival prolongation again was found in both 1.25 (P = 0.001) and 2.5 mCi (P less than 0.001) 131I-labeled 81C6 groups. The estimated dose to intracranial tumors from 1.25 mCi of 131I-labeled Mab was 1585 rads for 81C6 and 168 rads for 45.6. Dose to other organs from 81C6 and 45.6 was similar, ranging between 31 rads to the brain and 734 rads to the bone marrow. However, normocellularity was observed in most marrow tissue examined microscopically. Three animals receiving the low dose (1.25 mCi 81C6) survived for more than 71 days with apparent cures. In conclusion, intracranial human glioma xenografts were treated successfully with 131I-labeled 81C6 but not control Mab.
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PMID:Treatment of intracranial human glioma xenografts with 131I-labeled anti-tenascin monoclonal antibody 81C6. 245 14

Tenascin is an extracellular matrix glycoprotein expressed in association with mesenchymal-epithelial interactions during development and in the neovasculature and stroma of undifferentiated tumors. This selective expression of tenascin indicates a specific role in cell matrix interactions. We now show that tenascin can support the adhesion of a variety of cell types, including various human tumor cells, normal fibroblasts, and endothelial cells, all of which can attach to a substrate coated with tenascin. Detailed studies on the mechanism of the tenascin-promoted cell attachment were carried out with the human glioma cell line U251MG. The attachment of these cells and others to tenascin were inhibited specifically by peptides containing the RGD cell attachment signal. Affinity chromatography procedures similar to those that have been used to isolate other adhesion receptors yielded a heterodimeric cell surface protein which bound to a tenascin affinity matrix in an RGD-dependent fashion. One of the subunits of this putative tenascin receptor comigrates with the beta subunit of the fibronectin receptor in SDS-PAGE and cross reacts with antibodies prepared against the fibronectin receptor in immunoblotting. These results identify the tenascin receptor as a member of the fibronectin receptor family within the integrin superfamily of receptors. The cell attachment response on tenascin is distinctly different from that seen on fibronectin, suggesting that cell adhesion and motility may be modulated at those sites where tenascin is expressed in the extracellular matrix.
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PMID:Tenascin mediates cell attachment through an RGD-dependent receptor. 246 38

We previously have reported that radioiodinated anti-tenascin monoclonal antibody 81C6 exhibits therapeutic potential against both s.c. and intracranial human glioma xenografts in athymic mice and rats. Herein we report the selective tumor localization of 131I-labeled 81C6 in patients with gliomas and other intracranial malignancies. Nine patients were simultaneously administered 5-50 mg of 131I-labeled 81C6 and 1-2 mg of 125I-labeled 45.6, an isotype-matched control monoclonal antibody. The blood clearance half-time for 81C6, normalized to that of 45.6 in the same patient, appeared to decrease with 81C6 protein dose. Gamma camera images obtained at 1 to 3 days exhibited increased uptake of 131I in regions corresponding to tumor with varying degrees of contrast to surrounding normal brain. Biopsy specimens of tumor and normal brain were obtained and analyzed histologically for tumor content. The average uptake of 81C6 in tumor ranged from 0.6 to 4.3 x 10(-3)% of the injected dose per gram. In patients receiving 20-50 mg of 81C6, the average tumor-to-normal-brain ratio was 25:1 with ratios as high as 200:1 seen in some samples. Localization indices were calculated by normalizing the uptake of 81C6 per gram tumor to the uptake of 81C6 per gram blood and dividing by the same ratio for 45.6 control monoclonal antibody. Localization indices for muscle and brain were about 1, in contrast to up to five for tumor. These studies demonstrate that the tumor uptake of 131I-labeled 81C6 in patients with gliomas and other intracranial malignancies is due to specific processes.
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PMID:Pharmacokinetics and tumor localization of 131I-labeled anti-tenascin monoclonal antibody 81C6 in patients with gliomas and other intracranial malignancies. 246 37

Tenascin/hexabrachion is a large glycoprotein of the extracellular matrix. Previous reports have demonstrated that tenascin is associated with epithelial-mesenchymal interfaces during embryogenesis and is prominent in the matrix of many tumors. However, the distribution of tenascin is more restricted in adult tissues. We have found tenascin to be present in normal human skin in a distribution distinct from other matrix proteins. Immunohistochemical studies showed staining of the papillary dermis immediately beneath the basal lamina. Examination of skin that had been split within the lamina lucida of the basement membrane suggested a localization of tenascin beneath the lamina lucida. In addition, there was finely localized staining within the walls of blood vessels and in the smooth muscle bundles of the arrectori pilorem. Very prominent staining was seen around the cuboidal cells that formed the basal layer of sweat gland ducts. The sweat glands themselves did not stain. The distribution of tenascin in the papillary dermis was studied at high resolution by immunoelectron microscopy. Staining was concentrated in small amorphous patches scattered amongst the collagen fibers beneath the basal lamina. These patches were not associated with cell structures, collagen, or elastic fibers. Tenascin could be partially extracted from the papillary dermis by urea, guanidine hydrochloride, or high pH solution. The extracted protein showed a 320-kD subunit similar to that purified from fibroblast or glioma cell cultures. We have developed a sensitive ELISA assay that can quantitate tenascin at concentrations as low as 5 ng/ml. Tests on extracts of the papillary dermis showed tenascin constituted about 0.02-0.05% of the protein extracted.
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PMID:Tenascin/hexabrachion in human skin: biochemical identification and localization by light and electron microscopy. 247 9


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