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Pulmonary surfactant augments cytotoxicity of silica nanoparticles: Studies on an in vitro air–blood barrier model

 
: Kasper, Jennifer Y.; Feiden, Lisa; Hermanns, Maria I.; Bantz, Christoph; Maskos, Michael; Unger, Ronald E.; Kirkpatrick, C. James

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Postprint (PDF; )

Beilstein Journal of Nanotechnology 6 (2015), pp.517-528
ISSN: 2190-4286
English
Journal Article, Electronic Publication
Fraunhofer ICT-IMM ()
airblood barrier; cytotoxicity; inflammatory response; pulmonary surfactant; silica nanoparticles

Abstract
The air–blood barrier is a very thin membrane of about 2.2 µm thickness and therefore represents an ideal portal of entry for nanoparticles to be used therapeutically in a regenerative medicine strategy. Until now, numerous studies using cellular airway models have been conducted in vitro in order to investigate the potential hazard of NPs. However, in most in vitro studies a crucial alveolar component has been neglected. Before aspirated NPs encounter the cellular air–blood barrier, they impinge on the alveolar surfactant layer (10–20 nm in thickness) that lines the entire alveolar surface. Thus, a prior interaction of NPs with pulmonary surfactant components will occur. In the present study we explored the impact of pulmonary surfactant on the cytotoxic potential of amorphous silica nanoparticles (aSNPs) using in vitro mono- and complex coculture models of the air–blood barrier. Furthermore, different surface functionalisations (plain-unmodified, amino, carboxylate) of the aSNPs were compared in order to study the impact of chemical surface properties on aSNP cytotoxicity in combination with lung surfactant. The alveolar epithelial cell line A549 was used in mono- and in coculture with the microvascular cell line ISO-HAS-1 in the form of different cytotoxicity assays (viability, membrane integrity, inflammatory responses such as IL-8 release). At a distinct concentration (100 µg/mL) aSNP–plain displayed the highest cytotoxicity and IL-8 release in monocultures of A549. aSNP–NH2 caused a slight toxic effect, whereas aSNP–COOH did not exhibit any cytotoxicity. In combination with lung surfactant, aSNP–plain revealed an increased cytotoxicity in monocultures of A549, aSNP–NH2 caused a slightly augmented toxic effect, whereas aSNP–COOH did not show any toxic alterations. A549 in coculture did not show any decreased toxicity (membrane integrity) for aSNP–plain in combination with lung surfactant. However, a significant augmented IL-8 release was observed, but no alterations in combination with lung surfactant. The augmented aSNP toxicity with surfactant in monocultures appears to depend on the chemical surface properties of the aSNPs. Reactive silanol groups seem to play a crucial role for an augmented toxicity of aSNPs. The A549 cells in the coculture seem to be more robust towards aSNPs, which might be a result of a higher differentiation and polarization state due the longer culture period.

: http://publica.fraunhofer.de/documents/N-332438.html