Drinking alcohol could lead to permanent genetic damage to stem sells which could increase cancer risk.
British scientists used chromosome analysis and DNA sequencing in mice to examine the genetic damage caused by acetaldehyde, a harmful chemical produced when the body processes alcohol.
Their findings offered more detail about how alcohol increases the risk of developing 7 types of cancer, including common forms such as breast and bowel cancer. It also showed how the body seeks to defend against the damage alcohol can do.
"Some cancers develop due to DNA damage in stem cells. While some damage occurs by chance, our findings suggest that drinking alcohol can increase the risk of this damage," said Ketan Patel, a professor at the Medical Research Council Laboratory of Molecular Biology, who co-led the study.
In the latest study, published in the journal Nature, Patel's team gave diluted alcohol to mice and then analysed the effect on the animals' DNA. They found that acetaldehyde can break and damage DNA within blood stem cells, permanently altering the DNA sequences within these cells.
This is important, Patel said, because when healthy stem cells become faulty, they can give rise to cancerous cells.