Fiche publication
Date publication
mars 2026
Journal
Frontiers in toxicology
Auteurs
Membres identifiés du Cancéropôle Est :
Pr MONASSIER Laurent
Tous les auteurs :
Filaudeau E, Sabo AN, Lebert A, Monassier L, Kemmel V
Lien Pubmed
Résumé
E-cigarettes are often presented as a smoking cessation tool, less harmful than tobacco and are now a regular feature of everyday life. However, the fruity and sweet flavours are attractive to teenagers who can use them recreationnaly. The main risk of this phenomenon is becoming trapped in nicotine addiction. Although e-liquids, which combine nicotine, humectants and flavouring agents, seem to affect the pulmonary system and in particular the alveolar-capillary barrier (ACB), data on nicotine-free e-liquids remain scarce. The aim of this work is to study the toxicity of nicotine-free e-liquids/aerosols flavoured with berries (Strawberry, Raspberry, Blackberry, Blueberry) using two exposure methods. First, we validated an model of the ACB using epithelial NCI-H441 and endothelial EA.hy926 cells. Secondly, barrier integrity, production of oxidative species and cytotoxicity were assessed by transepithelial resistance (TER) measurement, MitoSOX® and LDH test, respectively, after exposure to two different methods: dilution of the e-liquid and aerosol trapping in the culture medium. Finally, a non-exhaustive analysis of the chemical compounds found in berry e-liquids was performed to identify potentially toxic compounds specific to certain flavours. The model mimicked phenotypically and functionally the ACB. The two exposure methods tested revealed significant differences in terms of e-liquid/aerosol toxicity on the ACB, probably due to variations in aromatic and degradation products. Flavours are not all equal in terms of cell toxicities, making it essential to chemically identify the compounds responsible for these different degrees of toxicity.
Mots clés
alveolar-capillary barrier, barrier integrity, berry flavours, e-cigarette, oxidative stress, trapped aerosol
Référence
Front Toxicol. 2026 03 11;8:1769275
