Comparative Assessment of Acute Pulmonary Effects Induced by Heated Tobacco (IQOS) Aerosol Inhalation in a Murine Model

Abstract

Tobacco smoking remains a major global health concern, causing preventable deaths and economic strain. Although new tobacco products such as heat-no-burn (HnB) are safer alternatives to traditional cigarettes, research on their associated risks remains limited. This study aimed to investigate the effects of HnB smoke exposure on the lungs compared with traditional cigarettes and the combined use of HnB and cigarettes through experiments using a mouse model. We quantitatively analyzed changes in the levels of 92 blood plasma proteins using the proximity extension assay method and observed significant changes in their levels in mice exposed to different smoke conditions. Specifically, certain proteins increased in the HnB smoke-exposed group, including CCL20, CXCL1, and PDGF receptor, suggesting activation of the nicotine pathway. Comparative analysis with traditional cigarette smoke-exposed mice further highlighted similarities and differences in their protein expression profiles. This study contributes to a better understanding of the biological mechanisms underlying the harmful effects of alternative nicotine delivery systems and identifies potential biomarkers associated with the harmful effects of HnB smoke exposure. However, the precise impact of nicotine on the immune system may be influenced by various factors, necessitating further research.