Study shows smoking inhibits cancer-fighting proteins, increasing cancer risk, complicating treatment

Scientists at the Ontario Institute for Cancer Research (OICR) have conducted a recent study that reveals a concerning link between smoking and the inhibition of cancer-fighting proteins. The findings, which are published in the journal Science Advances, suggest that smoking not only increases the risk of developing cancer but also makes it more difficult to treat.

The research team, led by OICR investigator Dr. Jüri Reimand and University of Toronto PhD student Nina Adler, analyzed DNA samples from over 12,000 tumor samples across 18 different types of cancer. Their study found a significant correlation between tobacco smoking and harmful changes in DNA that prevent the formation of certain proteins that are vital for preventing abnormal cell growth.

The study revealed that these harmful changes in DNA, known as "stop-gain mutations," were particularly prevalent in genes called "tumor-suppressors," which play an essential role in inhibiting the growth of abnormal cells. According to Adler, without these tumor suppressors, abnormal cells can continue to grow unchecked, increasing the risk of developing cancer.

Using computational tools, the researchers also found a clear connection between lung cancer and the distinct genetic footprint that smoking leaves in DNA. Intriguingly, the amount of tobacco smoked was directly proportional to the frequency of these harmful mutations. This suggests that the more a person smokes, the more complex and difficult the cancer becomes to treat.

Dr. Reimand emphasized the damaging effects of tobacco smoking on DNA, stating that it compromises our long-term health by deactivating critical proteins that are the building blocks of our cells.

The study also identified other factors and processes that contribute to the development of stop-gain mutations, such as natural enzymes called APOBEC, which have been strongly associated with breast cancer and other cancer types. Unhealthy diet and alcohol consumption were suggested to have similar damaging effects on DNA, although further research is required to understand these mechanisms fully.

Adler stressed the importance of the study's findings in understanding the molecular-level impacts of smoking on cancer development. "While it is widely known that smoking can cause cancer, elucidating one of the molecular mechanisms through which this occurs is a significant step towards comprehending how our lifestyle choices influence cancer risk," she commented.

Dr. Laszlo Radvanyi, President of OICR, urged individuals to consider the implications of smoking on their well-being. "This study provides further evidence of the immense harm smoking inflicts upon our bodies and reinforces the fact that quitting smoking is always the right choice," he stated.