Exposure to engineered nanoparticles (NPs) and to ambient particles (PM) has increased significantly. During the last decades the application of nano-objects to daily-life goods and the emissions produced in highly urbanized cities have considerably augmented. As a consequence, the understanding of the possible effects of NPs and PM on human respiratory system and particularly on the air-blood barrier (ABB) has become of primary interest. The crosstalk between lung epithelial cells and underlying endothelial cells is indeed essential in determining the effects of inhaled particles. Here we report the effects of metal oxides NPs (CuO and TiO and of PM on an in vitro model of the ABB constituted by the type II epithelial cell line (NCI-H441) and the endothelial one (HPMEC-ST1.6R). The results demonstrate that apical exposure of alveolar cells induces significant modulation of proinflammatory proteins also in endothelial cells. © 2013 Rossella Bengalli et al.
Bengalli, R., Mantecca, P., Camatini, M., Gualtieri, M. (2013). Effect of nanoparticles and environmental particles on a cocultures model of the air-blood barrier. BIOMED RESEARCH INTERNATIONAL, 2013, 8 [10.1155/2013/801214].
Effect of nanoparticles and environmental particles on a cocultures model of the air-blood barrier
BENGALLI, ROSSELLA DANIELAPrimo
;MANTECCA, PARIDESecondo
;CAMATINI, MARINA CARLAPenultimo
;GUALTIERI, MAURIZIO
2013
Abstract
Exposure to engineered nanoparticles (NPs) and to ambient particles (PM) has increased significantly. During the last decades the application of nano-objects to daily-life goods and the emissions produced in highly urbanized cities have considerably augmented. As a consequence, the understanding of the possible effects of NPs and PM on human respiratory system and particularly on the air-blood barrier (ABB) has become of primary interest. The crosstalk between lung epithelial cells and underlying endothelial cells is indeed essential in determining the effects of inhaled particles. Here we report the effects of metal oxides NPs (CuO and TiO and of PM on an in vitro model of the ABB constituted by the type II epithelial cell line (NCI-H441) and the endothelial one (HPMEC-ST1.6R). The results demonstrate that apical exposure of alveolar cells induces significant modulation of proinflammatory proteins also in endothelial cells. © 2013 Rossella Bengalli et al.
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