E-cig users develop some of the same cancer-related molecular changes as cigarette smokers
USC study in vapers, smokers suggests the devices aren’t as benign as many believe
If you think vaping is benign, think again.
A small USC study shows that e-cig users develop some of the same cancer-related molecular changes in oral tissue as cigarette smokers, adding to the growing concern that e-cigs aren’t a harmless alternative to smoking.
The research, published this week in the International Journal of Molecular Sciences, comes amid a mushrooming e-cig market and mounting public health worries. On a positive note, recent research found vaping is almost twice as effective as other nicotine replacement therapies in helping smokers quit.
But among adolescents, vaping now surpasses smoking, and there’s evidence that e-cig use leads to nicotine addiction and future smoking in teens.
“The existing data show that e-cig vapor is not merely ‘water vapor’ as some people believe,” said Ahmad Besaratinia, an associate professor at Keck School of Medicine of USC and the study’s senior author. “Although the concentrations of most carcinogenic compounds in e-cig products are much lower than those in cigarette smoke, there is no safe level of exposure to carcinogens.”
Besaratinia emphasized that the molecular changes seen in the study aren’t cancer, or even pre-cancer, but rather an early warning of a process that could potentially lead to cancer if unchecked.
The researchers looked at gene expression in oral cells collected from 42 e-cig users, 24 cigarette smokers and 27 people who didn’t smoke or vape. Gene expression is the process by which instructions in our DNA are converted into a functional product, such as a protein. Certain alterations in gene expression can lead to cancer.
They focused on oral epithelial cells, which line the mouth, because over 90 percent of smoking-related cancers originate in epithelial tissue, and oral cancer is associated with tobacco use.
Both smokers and vapers showed abnormal expression, or deregulation, in a large number of genes linked to cancer development. Twenty-six percent of the deregulated genes in e-cig users were identical to those found in smokers. Some deregulated genes found in e-cig users, but not in smokers, are nevertheless implicated in lung cancer, esophageal cancer, bladder cancer, ovarian cancer and leukemia.
Besaratinia and his team plan to replicate his findings in a larger group of subjects and explore the mechanisms that cause gene deregulation. He’s also launching another experiment in which smokers switch to e-cigs; he wants to see whether any changes in gene regulation occur after the switch.
“For the most part, the participants are as curious as we are to know whether these products are safe,” he said.
In addition to Besaratinia, the study’s other authors are first author Stella Tommasi, Andrew Caliri, Amanda Caceres, Debra Moreno, Meng Li, Yibu Chen and Kimberly Siegmund, all of USC.
The research was supported by grants from the National Institute of Dental and Craniofacial Research of the National Institutes of Health (1R01DE026043) and the University of California Tobacco-Related Disease Research Program (TRDRP-25IP-0001 and TRDRP-26IR-0015).
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