Abstract
We constructed and analyzed the whole transcriptome in leukocytes of healthy adult vapers (with/without a history of smoking), ‘exclusive’ cigarette smokers, and controls (non-users of any tobacco products). Furthermore, we performed single-gene validation of expression data, and biochemical validation of vaping/smoking status by plasma cotinine measurement. Computational modeling, combining primary analysis (age- and sex-adjusted limmaVoom) and sensitivity analysis (cumulative e-liquid- and pack-year modeling), revealed that ‘current’ vaping, but not ‘past’ smoking, is significantly associated with gene dysregulation in vapers. Comparative analysis of the gene networks and canonical pathways dysregulated in vapers and smokers showed strikingly similar patterns in the two groups, although the extent of transcriptomic changes was more pronounced in smokers than vapers. Of significance is the preferential targeting of mitochondrial genes in both vapers and smokers, concurrent with impaired functional networks, which drive mitochondrial DNA-related disorders. Equally significant is the dysregulation of immune response genes in vapers and smokers, modulated by upstream cytokines, including members of the interleukin and interferon family, which play a crucial role in inflammation. Our findings accord with the growing evidence on the central role of mitochondria as signaling organelles involved in immunity and inflammatory response, which are fundamental to disease development.
Highlights
We constructed and analyzed the whole transcriptome in leukocytes of healthy adult vapers, ‘exclusive’ cigarette smokers, and controls
To evaluate the influence of vaping vs. smoking on global gene expression, we used the limmaVoom with quality weights framework[19] to detect differential expression of genes in leukocytes of current vapers and smokers as compared to controls, while adjusting for age and sex as covariates
We have compared the biological consequences of e-cig use and cigarette smoking by constructing and analyzing the whole transcriptome in leukocytes of healthy adult vapers, exclusive cigarette smokers, and control nonsmokers non-vapers
Summary
We constructed and analyzed the whole transcriptome in leukocytes of healthy adult vapers (with/ without a history of smoking), ‘exclusive’ cigarette smokers, and controls (non-users of any tobacco products). The reduced concentrations of these chemicals in e-cig vapor are consistent with the fact that e-cigs, unlike conventional cigarettes, do not ‘burn’ tobacco to produce inhalable materials[2,7,8]. This has led to the perception that e-cig use/vaping is safe or less-harmful than cigarette smoking[9,10]. The existing literature on the ‘potential’ health risks of vaping is often criticized by the fact that study subjects in many reports consist of adult e-cig users with current or past smoking habits, i.e., dual users or vapers ex-smokers, respectively[4]. The present study aims to disentangle the biological effects of vaping in adult e-cig users while accounting for smoking as a potential confounder
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