Inflammation caused by Yersinia pseudotuberculosis increases the

Inflammation caused by Yersinia pseudotuberculosis increases the uptake of 100 nm carboxyl polystyrene particles in cell monolayers and in intestinal biopsies (Ragnarsson et al., 2008). In contrast to that, in the in vitro study by Leonhard et al. (2010) no influence on the translocation of the polystyrene

particles was MDV3100 observed. Since in the in vitro studies lipopolysaccharide and not intact bacteria were used, effects by the living bacteria on cells, mucus production and/or viscosity may account for the observed differences. The assessment of penetration and biological effects of ingested NMs presents many problems because it is very complex. Inter-individual differences in the composition, pH and thickness of the mucus layer, in the gastrointestinal flora and in gastrointestinal passage time complicate in vivo experiments. In the study of Loeschner et al. (2011) on organ distribution

of 60 nm Ag nanoparticles great inter-individual variations were noticed although all animals were fed the same diet. Also Bortezomib nmr differences in the diet are important. For in vivo testing, rodents also may not be ideal models. Although men and rodents are omnivorous, function (e.g., region for absorption of food) and morphology of the gastrointestinal tract (e.g., absence of gall bladder in rats) show considerable differences between rodents and humans (Kararli, 1995). Apart from permeating themselves, NMs may have permeation enhancing properties for other substances. This phenomenon

termed as ‘Trojan horse’ effect, was first identified for metal nanoparticles. Whereas plasma membranes restrict the cellular access for metal ions like silver cations, silver nanoparticles were readily internalized and intracellular silver concentrations were much higher than for silver ions (Navarro et al., 2008). Studies for uptake and toxicity should, therefore, include AgNO3 for silver nanoparticles (Trojan horse effect) or bulk material. Other important effects are linked to the tendency of NMs to absorb macromolecules. By adsorption of organic compounds also unintended molecules (undigested and unmetabolized compounds) may be absorbed by the gastrointestinal tract. On the other hand adsorption to NMs may also prevent the uptake of necessary molecules (Alkhamis et al., 2009). Absorption may also be altered by a changed metabolization through by enterocytes. Polystyrene and silver particles have been shown to inhibit the activity of cytochrome P450 enzymes (Fröhlich et al., 2010 and Lamb et al., 2010). To obtain more information about penetration of the orogastrointestinal barriers and subsequent biological effects physiologically relevant in vitro models should be used, which enable the controlled variation of the most important parameters involved. Particle properties should be recorded in mucus of different pH and the extent of binding to proteins and other macromolecules should be studied.

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