Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0017636 (glioblastoma)
 18,345 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The combined effects of x-irradiation and 1-(4-amino-2-methyl-5-pyrimidinyl)methyl-3-(2-chloro-ethyl)-3-nitrosourea (ACNU) on multicellular glioblastoma A-7 spheroids were analyzed by means of cell survival and dose-response curves. The actual dose-response curve for small spheroids was almost identical to that estimated from the cell survival curve. It was strongly suggested that a small number of radiation-resistant cells, which were not detected in the cell survival curve, were present in large spheroids with central necrosis. The enhancing effect of ACNU was greater with large spheroids than with monolayer cells or small spheroids. A possible explanation for this is that ACNU is higher effective against the few radiation-resistant cells that may be present in larger spheroids.
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PMID:Effects of X-irradiation alone and in combination with ACNU on human glioblastoma cells in vitro. 169 44

Human glioblastoma A-7 (GB A-7) cells can apparently recover from potentially lethal X-irradiation. The authors, using a colony-forming assay, studied the influence of pretreatment with 1-(4-amino-2-methyl-5-pyrimidinyl) methyl-3-(2-chloroethyl)-3-nitrosourea hydrochloride (ACNU) on the effectiveness of X-irradiation against GB A-7 cells grown in monolayers and as multicellular spheroids. Pre-exposure to ACNU inhibited the recovery of irradiated GB A-7 cells. In monolayer cells, the combination treatment was most effective when ACNU was applied 2 to 8 hours prior to irradiation, and the larger the X-ray dose, the more potent the effect. ACNU pretreatment was more effective against large spheroids (enhancement ratio 1.86) than against small ones (1.34). Large spheroids showed necrosis, whereas small ones did not. Isobolographic analysis disclosed that the effect of combining X-irradiation and ACNU is within an additive envelope at the surviving fraction of 10(-2), while supra-additive at the surviving fraction of 10(-3). These results suggest that the potency of X-irradiation is augmented by ACNU pretreatment through an interactive mechanism. Further, suppression of recovery from X-ray induced potentially lethal damage was influenced by the presence of necrosis.
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PMID:[Enhancement of the effect of X-irradiation against cultured human glioblastoma cells by pretreatment with ACNU]. 248 84

Human tumor cells such as melanoma or glioblastoma are intrinsically radioresistant on an average than cells of more common tumors in radiotherapy such as squamous cell carcinoma or adenocarcinoma. Mean inactivation dose (D) for glioblastoma A-7 cells was 3.1 Gy for cells growing exponentially, but was 4.3 Gy for cells grown in large spheroids with hypoxic cells and PLD recovery. The D for cells of squamous cell carcinoma was about 2.1 Gy. This indicates that local control of the radioresistant tumors may be achieved if a drug showing an enhancement ratio of about 2.0. Data on our experiments with others in the literature indicate that drugs which selectively sensitize hypoxic cells and inhibit PLD recovery may be useful to increase the therapeutic ratio. Experimental evidence on a nitrosourea, ACNU has been presented for such mechanisms of the action. Multivariate analysis with Cox's model on malignant gliomas of 209 patients indicated that a significant increase in the survival time was obtained in the radiotherapy combined with ACNU.
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PMID:[Biological basis for combined radio-chemotherapy in radioresistant tumors]. 319 20

The cellular content of mutant p53 and hsp72 proteins following gamma-ray irradiation, UV irradiation, and heat treatment was studied in A-7 cells, a human glioblastoma cell line. A-7 was found to contain a mutant p53 gene in which the arginine codon at position 175 was substituted by a histidine codon. Although the p53 gene was mutant, the phenotype of the p53 protein appeared wild-type since the cellular content of the p53 protein was limited under normal culturing conditions. The quantity of mutant p53 and hsp72 proteins in A-7 was increased by heat treatment as well as gamma-ray and UV irradiation. Furthermore, the mutant p53 protein was coimmunoprecipitated with anti-hsp72/hsc73 antibody. Additionally, hsp72 and hsc73 were coimmunoprecipitated with anti-p53 antibody. These results suggest that in A-7, p53 protein accumulation may be caused as a result of response to stressors, such as gamma-ray, UV and heat and that mutant p53 protein and hsp72/hsc73 may manage biological functions cooperatively after gamma-ray, UV and also heat treatments.
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PMID:Accumulation of mutant p53 and hsp72 by heat treatment, and their association in a human glioblastoma cell line. 759 17

We investigated the accumulation of p53 proteins after heat stress and their association with HSP72/HSC73 using four human glioblastoma cell lines. Human glioblastoma cell lines U-87MG and A-172 exhibited no mutation in the region between the 2nd and 11th exons of the p53 gene, whereas A-7 and T98G had mutations in exon 5 and exon 7 of the p53 gene, respectively. In U-87MG and A-172, the levels of wild-type p53 protein were slightly increased by heat stress. Levels of mutant p53 protein were apparently increased by heat stress in A-7, but not in T98G. Furthermore, wild-type p53 proteins in both U-87MG and A-172 co-immunoprecipitated with anti-HSP72/HSC73 antibody and HSP72 and HSC73 in them co-immunoprecipitated with anti-p53 antibody as did the mutant p53 proteins. These findings suggest that p53 proteins accumulated by heat stress are associated with HSP72 and HSC73.
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PMID:p53 proteins accumulated by heat stress associate with heat shock proteins HSP72/HSC73 in human glioblastoma cell lines. 795 68