Abstract

Background: We reported that permeability of cultured microvascular endothelial cells is increased by incubation in e-cigarette (e-cig) users’ serum relative to that from smokers or non-users. It is unclear whether this is a direct effect of aerosol chemicals that reach the circulation, or an indirect response mediated by the e-cig users’ pulmonary epithelium. Hypothesis: Vaping increases microvascular endothelial permeability indirectly by signaling from alveolar epithelium. Methods: E-cig aerosol condensates were derived from e-liquids with and without nicotine (12 mg/mL free base), each containing menthol, vanillin, ethyl maltol, or cinnamaldehyde (2 mg/mL). Cell permeability was measured in human lung microvascular endothelial cells (HMVEC-Ls) using electric cell-substrate impedance sensing. Human Type II lung alveolar epithelial cells (ATII) were grown in serum-free air-liquid interface and exposed to e-cig aerosols with 0, 18, or 36 mg/mL nicotine (free base and salt), or air, 1 h/day for 3 days in an exposure chamber inside a CO 2 incubator. Results: Incubation of HMVEC-Ls with 0.3% v/v e-cig aerosol condensates from most e-liquids, with and without nicotine, decreased cell permeability (in contrast to the increased permeability that we reported from incubation with e-cig user serum). The exception was menthol + nicotine, which increased permeability (but reduced viability). When HMVEC-Ls were instead incubated with supernatant collected from ATII cells after exposure to e-cig aerosols, permeability was increased when supernatants were from exposure to aerosol with 36 mg/ml nicotine salt, but not 36 or 18 mg/mL freebase nicotine. Supernatants from similarly exposed ATII cells contained higher levels of the proinflammatory proteins MCP-1, IL-8, GROα, and MIP-1β when aerosol contained 36 mg/mL freebase nicotine (3/6 wells) or nicotine salt (5/6), but not 18 mg/ml nicotine (0/6). Conclusion: HVMEC-L permeability was not directly increased by e-cig aerosol condensate, but was increased by supernatant of alveolar epithelial cells exposed to high-nicotine aerosol, potentially mediated by elevated ATII cytokine production, indicating a potential indirect mechanism by which vaping increases pulmonary microvascular permeability.

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