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)

Meningeal gliomatosis (MG), pathologically, is caused by the diffuse dissemination or infiltration of glioma cells in the subarachnoid space, for which an effective, systematic treatment has not been contrived. Although, in the case of malignant leptomeningeal tumor, in general, intrathecal chemotherapy with such anticancer drugs as methotrexate and cytosine arabinoside (Ara-C) has been applied, the effect of this kind of treatment is limited, especially on MG. Therefore, the development of a new type of treatment is urgently needed. According to recent reports, neocarzinostatin (NCS) has been disclosed to have a strong cytocidal effect on glioma cells instead of injuring normal glia cells, and the intrathecal injection of NCS is suggested to be effective on MG. In order to evaluate the efficacy of intrathecal treatment with NCS on MG, a rat MG model using C 6 glioma cells has been produced and intrathecal chemotherapy with NCS was performed on this MG model. In MG rats which were treated intrathecally with NCS (1 microgram/kg) 1 day after tumor inoculation, the survival time was significantly prolonged by this treatment, where % ILS was 52.1%. Furthermore, it was more significantly prolonged with 10 micrograms/kg NCS, where 108.5% of % ILS was obtained. Contrary to these effects, this prolongation of the survival time of MG rats by the treatment with NCS showed a tendency to decrease in MG rats treated with NCS 3 days after tumor inoculation. No chemotherapeutic effect was observed in MG rats treated with even 100 micrograms/kg NCS 5 days after tumor inoculation. In conclusion, intrathecal chemotherapy with a low dose of NCS was proved to be effective in the early stages of MG.
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PMID:[Treatment of a rat meningeal gliomatosis model with neocarzinostatin]. 296 Mar 32

Reserpine was shown to enhance the cytotoxicity of ACNU in both C6 and C6/ACNU rat glioma cells in vitro and also to enhance the chemotherapeutic effect of ACNU in C6/ACNU-bearing rats (C6/ACNU meningeal gliomatosis rats), in which ACNU resistance could be partially overcome by reserpine. When reserpine was added to the culture at a concentration of 10 microM, the IC50 of ACNU for C6/ACNU cells decreased to the level of that for C6 cells. Intracellular uptake of ACNU in C6/ACNU cells increased and the efflux from the cells decreased when 20 microM reserpine was added to the culture. In in vivo experiments, combined ACNU (1 mg/kg) and reserpine (250 micrograms/kg) therapy by intrathecal injection of these drugs improved % ILS (increased life span) with statistical significance compared with that after treatment with ACNU alone. The probable explanation of the enhanced cytotoxic-effect of ACNU in ACNU-resistant glioma cells presented in in vitro and in vivo is increased intracellular ACNU concentration resulting from inhibition of the efflux of ACNU from the resistant cells.
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PMID:[Overcoming of ACNU resistance in a subline of rat glioma in vitro and in vivo by reserpine]. 345 96

A nitrosourea derivative, ACNU (nimustine hydrochloride), is often used in the chemotherapy of brain tumors and shows considerable efficacy, since it crosses the blood-brain barrier (B.B.B.). This drug is also considered to be useful for intrathecal treatment of meningeal gliomatosis (MG) because of its short half-life in the blood or cerebrospinal fluid (CSF) and its strong cytotoxicity for glioma cells. In order to evaluate the efficacy of intrathecal therapy of MG with ACNU, MG models, which were produced by intracisternal inoculation of rat C6 glioma, were treated with intrathecal or intravenous administration of ACNU. When intrathecally administered 1 day or 3 days after tumor inoculation, ACNU (1 mg/kg) significantly prolonged the survival time of MG rats, where ILS was 35.7 to 42.9% and 24.1 to 25.0%, respectively. In MG rats which were treated intrathecally with ACNU (1 mg/kg) 5 days after tumor inoculation or intravenously with ACNU (15 mg/kg), ACNU failed to prolong survival time compared with the controls. It might therefore be suggested that intrathecal chemotherapy with a low dose of ACNU is effective in the early stages of MG, in which intravenous treatment with a high dose of ACNU is ineffective.
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PMID:[Intrathecal ACNU for the treatment of a meningeal gliomatosis model]. 346 57

Diffusely infiltrating gliomas are the most common type of primary intracranial neoplasm in humans. One of the major obstacles to the effective treatment of these tumors is their highly infiltrative growth. However, mechanisms controlling their migration and proliferation are poorly understood. Glioma cells resemble neural progenitors, and we hypothesize that gliomas recapitulate the capacity of migration and proliferation of progenitors that takes place during brain development. Based on recent evidence implicating cytoplasmic dynein and its regulatory proteins in neural progenitor migration and division, we conducted immunohistochemical evaluation of surgically resected human glioma samples for the presence and distribution of these proteins. We examined expression of LIS1, the gene responsible for type I lissencephaly, cytoplasmic dynein and the dynein- and LIS1-interacting factors dynactin, NudE/NudEL and NudC, which play significant roles in neural progenitor cell behavior. We found that each of these proteins is expressed in all histological types and grades of human neuroectodermal tumors examined. Immunohistochemical analysis revealed that the levels of expression varied from cell to cell within each tumor, ranging from very high to undetectable. This stands in contrast to the low levels of diffuse staining seen in non-neoplastic brain tissue. Of particular interest, we noted tumor cells infiltrating the white matter and tumor cells undergoing cell division amongst the cells with notably high expression levels. These findings are compatible with the idea that LIS1 and its interacting proteins play a role in glioma migration and proliferation analogous to their role during brain development.
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PMID:Expression patterns of LIS1, dynein and their interaction partners dynactin, NudE, NudEL and NudC in human gliomas suggest roles in invasion and proliferation. 1722 Dec 5