ScienceDaily (June 27, 2008) — People who have never smoked but whose cells cannot efficiently repair environmental insults to DNA are at higher risk of developing lung cancer than those with effective genomic repair capability, according to researchers from the Department of Epidemiology at The University of Texas M. D. Anderson Cancer Center.In the June issue of Cancer Epidemiology, Biomarkers and Prevention, a journal of the American Association for Cancer Research, the researchers say that, overall, nonsmokers with suboptimal DNA repair capacity (DRC) are almost twice as likely to develop lung cancer, compared with nonsmokers with normal DRC. Study participants with the lowest ability to repair their DNA had a more than a threefold increased risk, compared with individuals with efficient DRC.
Secondhand smoke exposure is another established risk factor; in participants with inefficient DRC who also reported such exposure, the risk of lung cancer was almost fourfold.
Although the research team has not pinpointed the gene or genes that cause suboptimal DRC, their data suggest that the trait is heritable to some degree. Notably they found that first-degree relatives of those with lowest DRC were 2.5 times more likely to develop lung cancer than were first-degree relatives of people with efficient DRC.
"Our findings demonstrate that suboptimal DNA repair capacity together with secondhand smoke exposure are strong lung cancer risk factors in lifetime never smokers," Gorlova said.
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