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Query: UMLS:C0017638 (
glioma
)
30,880
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
The induction and repair of DNA double-strand breaks were studied in cells of two isogenic human malignant
glioma
cell lines which vary in their SF2 values by a factor of approximately 30. M059J cells are radiosensitive (SF2 = 0.02) and lack the
p350
component of DNA-dependent protein kinase (DNA-PK); M059K cells are radioresistant (SF2 = 0.64) and express normal levels of DNA-PK. Zero integrated field gel electrophoresis and alkaline sucrose gradient experiments indicated that equivalent numbers of DNA lesions were produced by ionizing radiation in M059J and M059K cells. To compare the capacity of both lines to repair sublethal damage, the split-dose recovery experiment after exposure to equitoxic doses of radiation was carried out. Significant sublethal damage repair was shown for M059K cells, with a 5.8-fold increase in relative survival peaking at 4 h, whereas M059J cells showed little repair activity. Electrophoresis studies indicated that more double-strand breaks were repaired by 30 min in M059K cells than in M059J cells. These results suggest that deficient DNA repair processes may be a major determinant of radiosensitivity in M059J cells.
...
PMID:Radiation-induced DNA damage and repair in cells of a radiosensitive human malignant glioma cell line. 749 72
The radiosensitive rodent mutant cell line xrs-5 is defective in DNA double-strand break repair and lacks the Ku component of the DNA-activated protein kinase, DNA-PK. Here radiosensitive human cell lines were analyzed for DNA-PK activity and for the presence of related proteins. The radiosensitive human malignant
glioma
M059J cell line was found to be defective in DNA double-strand break repair, but fails to express the
p350
subunit of DNA-PK. These results suggest that DNA-PK kinase activity is involved in DNA double-strand break repair.
...
PMID:Absence of p350 subunit of DNA-activated protein kinase from a radiosensitive human cell line. 785 2
DNA repair genes play a major role in maintaining genomic stability through different repair pathways that are mediated by cell cycle control genes such as p53. We found previously that
glioma
patients were susceptible to gamma-ray-induced chromosomal breaks, which may be influenced by genetic variation in genes involved in DNA strand breaks, such as XRCC1 in single-strand break repair, XRCC3 and RAD51 in homologous recombination repair, and
XRCC7
in nonhomologous end joining double-strand break repair. Therefore, we tested the hypothesis that genetic polymorphisms in XRCC1, XRCC3, RAD51,
XRCC7
, and p53 were associated with risk of
glioma
in 309 patients with newly diagnosed
glioma
and 342 cancer-free control participants frequency matched on age (+/- 5 years), sex, and self-reported ethnicity. We did not find any statistically significant differences in the distributions of XRCC1 Arg399Gln, XRCC3 Thr241Met, RAD51 G135C, and P53 Arg72Pro polymorphisms between the cases and the controls. However, the
XRCC7
G6721T variant T allele and TT genotype were more common in the cases (0.668 and 43.4%, respectively) than in the controls (0.613 and 38.9%, respectively), and the differences were statistically significant (P = 0.045 and 0.040, respectively). The adjusted odds ratios were 1.78 (95% confidence interval, 1.08-2.94) and 1.86 (95% confidence interval, 1.12-3.09) for the GT heterozygotes and TT homozygotes, respectively. The combined T variant genotype (GT+TT) was associated with a 1.82-fold increased risk of
glioma
(95% confidence interval, 1.13-2.93). These results suggest that the T allele may be a risk allele, and this
XRCC7
polymorphism may be a marker for the susceptibility to
glioma
. Larger studies are needed to confirm our findings and unravel the underlying mechanisms.
...
PMID:Polymorphisms of DNA repair genes and risk of glioma. 1531 91
Ionizing radiation is known to cause DNA damage, including single-strand and double-strand DNA breaks (DSBs), and the unrepair of DNA damage, particularly DSBs, may cause chromosome aberrations. Although the etiology of gliomas remains unclear, exposure to ionizing radiation has been identified as the only established risk factor. We hypothesized that polymorphisms of candidate genes involved in the DSBs repair pathway may contribute to susceptibility to
glioma
. We used a haplotype-based approach to investigate the role of 22 tagging single-nucleotide polymorphisms (tSNPs) of XRCC5, XRCC6 and
XRCC7
in 771
glioma
patients and 752 healthy controls. Odds ratios (ORs) and 95% confidence intervals (CIs) were calculated by the unconditional logistic regression, haplotypes were inferred by the HAPLO.STAT program and gene-gene interactions were evaluated by the multifactor dimensionality reduction method. We found that, in the single-locus analysis,
glioma
risk was statistically significantly associated with three XRCC5 tSNPs (SNP1 rs828704, SNP6 rs3770502 and SNP7 rs9288516, P = 0.005, 0.042 and 0.003, respectively), one XRCC6 tSNP (SNP4 rs6519265, P = 0.044) but none of XPCC7 tSNPs. Haplotype-based association analysis revealed that gliomas risk was statistically significantly associated with one protective XRCC5 haplotype "CAGTT," accounting for a 40% reduction (OR = 0.60, 95% CI = 0.43-0.85) in
glioma
risk, and some positive gene-gene interactions were also evident. In conclusion, genetic variants of the genes involved in the DSB repair pathway may play a role in the etiology of
glioma
.
...
PMID:Tagging SNPs in non-homologous end-joining pathway genes and risk of glioma. 1738 9
The association between the rs7003908 (T>G) polymorphism in the
XRCC7
gene and the risk of cancers had been widely studied; however, the results were inconsistent. The objective of the current study was to investigate the association between the rs7003908 polymorphism in the
XRCC7
gene and the risk of cancers by meta-analysis. We searched PubMed, EMbase, CNKI and Wanfang databases; the last search was performed on January 10th, 2014. Statistical analysis was performed using the Revman4.2 and STATA10.0 softwares. A total of 3,684 cancer cases and 5,232 controls from 11 case-control studies were included for data analysis. In the dominant model analysis, the results suggested a lack of association between the polymorphism and the risk of cancers: OR 1.01, 95% CI 0.83-1.16, P = 0.70. In the subgroup analysis by ethnicity, no significant association was found either for Asians or Caucasians. In the subgroup analysis by cancer types, significant association was found for prostate cancer, but not for bladder cancer, breast cancer and
glioma
. In summary, the current meta-analysis confirmed that the rs7003908 polymorphism in the
XRCC7
gene might be a risk factor for prostate cancer. In the future, more studies are needed to validate these results.
...
PMID:The rs7003908 (T>G) polymorphism in the XRCC7 gene and the risk of cancers. 2453 66
