<i>In Vitro</i> Toxicity of Industrially Relevant Engineered Nanoparticles in Human Alveolar Epithelial Cells: Air–Liquid Interface <i>versus</i> Submerged Cultures
Maria João Bessa,
Fátima Brandão,
Paul H. B. Fokkens,
Daan L. A. C. Leseman,
A. John F. Boere,
Flemming R. Cassee,
Apostolos Salmatonidis,
Mar Viana,
Adriana Vulpoi,
Simion Simon,
Eliseo Monfort,
João Paulo Teixeira,
Sónia Fraga
Affiliations
Maria João Bessa
Department of Environmental Health, National Institute of Health Dr. Ricardo Jorge, 4000-053 Porto, Portugal
Fátima Brandão
Department of Environmental Health, National Institute of Health Dr. Ricardo Jorge, 4000-053 Porto, Portugal
Paul H. B. Fokkens
National Institute for Public Health and Environment (RIVM), 3721 Bilthoven, The Netherlands
Daan L. A. C. Leseman
National Institute for Public Health and Environment (RIVM), 3721 Bilthoven, The Netherlands
A. John F. Boere
National Institute for Public Health and Environment (RIVM), 3721 Bilthoven, The Netherlands
Flemming R. Cassee
National Institute for Public Health and Environment (RIVM), 3721 Bilthoven, The Netherlands
Apostolos Salmatonidis
Institute of Environmental Assessment and Water Research, Spanish Research Council (IDAEA-CSIC), 08034 Barcelona, Spain
Mar Viana
Institute of Environmental Assessment and Water Research, Spanish Research Council (IDAEA-CSIC), 08034 Barcelona, Spain
Adriana Vulpoi
Nanostructured Materials and Bio-Nano-Interfaces Center, Interdisciplinary Research Institute on Bio-Nano-Sciences, Babes-Bolyai University, 400271 Cluj-Napoca, Romania
Simion Simon
Nanostructured Materials and Bio-Nano-Interfaces Center, Interdisciplinary Research Institute on Bio-Nano-Sciences, Babes-Bolyai University, 400271 Cluj-Napoca, Romania
Eliseo Monfort
Institute of Ceramic Technology (ITC), Universitat Jaume I, 12006 Castellón, Spain
João Paulo Teixeira
Department of Environmental Health, National Institute of Health Dr. Ricardo Jorge, 4000-053 Porto, Portugal
Sónia Fraga
Department of Environmental Health, National Institute of Health Dr. Ricardo Jorge, 4000-053 Porto, Portugal
Diverse industries have already incorporated within their production processes engineered nanoparticles (ENP), increasing the potential risk of worker inhalation exposure. In vitro models have been widely used to investigate ENP toxicity. Air–liquid interface (ALI) cell cultures have been emerging as a valuable alternative to submerged cultures as they are more representative of the inhalation exposure to airborne nano-sized particles. We compared the in vitro toxicity of four ENP used as raw materials in the advanced ceramics sector in human alveolar epithelial-like cells cultured under submerged or ALI conditions. Submerged cultures were exposed to ENP liquid suspensions or to aerosolised ENP at ALI. Toxicity was assessed by determining LDH release, WST-1 metabolisation and DNA damage. Overall, cells were more sensitive to ENP cytotoxic effects when cultured and exposed under ALI. No significant cytotoxicity was observed after 24 h exposure to ENP liquid suspensions, although aerosolised ENP clearly affected cell viability and LDH release. In general, all ENP increased primary DNA damage regardless of the exposure mode, where an increase in DNA strand-breaks was only detected under submerged conditions. Our data show that at relevant occupational concentrations, the selected ENP exert mild toxicity to alveolar epithelial cells and exposure at ALI might be the most suitable choice when assessing ENP toxicity in respiratory models under realistic exposure conditions.
