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Abstract
BackgroundGenetic instability is known as a cause of oncogenesis. Though Rad18 is reported to function in a post replication mismatch repair system, the relation between the status of Rad18 and human tumorigenesis has not been described so far.MethodsMutation analysis of 34 human cancer cell lines and 32 non small cell lung cancer (NSCLC) tissues were performed by RT-PCR SSCP. Expression level of Rad18 was measured by real time RT-PCR. Stable transfectant was constructed for in vitro study.ResultsNo mutation was found in both cancer cell lines and NSCLC tissues. A single nucleotide polymorphism (SNP) at codon 302 was detected in 51.5% of the cell lines and 62.5% of NSCLC tissues. Interestingly, Rad18 was homozygously deleted in a pulmonary adenocarcinoma cell line PC3. Furthermore, there was no difference in the expression level of wild type Rad18 and Rad18 with SNP. The growth, cell morphology, sensitivity to anti-cancer drugs and in vitro DNA repair activity between wild type Rad18 and Rad18 with SNP revealed to have no difference in vitro.ConclusionThough the frequency of SNP was tended to be higher in NSCLC patients than healthy volunteers (57.7%), as the difference was not significant, we have concluded that there is no relation between Rad18 SNP and lung cancer development.
Highlights
Genetic instability is known as a cause of oncogenesis
Direct sequence of the abnormal band revealed that all 17 cell lines carried a single nucleotide polymorphism (SNP) at the second letter of codon 302 (51.5%) and there were no other mutation
In vitro study of Rad18 polymorphism Though there was no Rad18 mutation in human cancer cell line and non small cell lung cancer (NSCLC) tissue examined except PC3, as Rad18 functions as post-replication repair system, we have examined whether there is any difference between wild type Rad18 and Rad18 SNP in vitro
Summary
Genetic instability is known as a cause of oncogenesis. Though Rad is reported to function in a post replication mismatch repair system, the relation between the status of Rad and human tumorigenesis has not been described so far. Endogenous and environmental factors such as ultraviolet, ionizing radiation, and numerous genotoxic chemicals can cause DNA damage. These DNA lesions can be repaired by various repair mechanisms [1]. Some unrepaired DNA lesions can remain at replication because of limited capacity of DNA repair systems. In the yeast Saccharomyces cerevisiae, genes belonging to the Rad epistasis group play an important role in the PRR pathway [5]. In this pathway, Rad and Rad are the most important genes. The status of Rad in human cancers is still unknown
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