Other studies showed that 14 nm latex particles, which were slightly negatively charged, cross the distal colon mucus gel layer within 2 min and 415 nm larges ones in 30 min, whereas 1 μm larges ones did not cross (Szentkuri, 1997). Non-biodegradable latex particles can rapidly permeate human mucus when they are coated with PEG. Surprisingly, 200 nm particles crossed the mucin layer faster than <100 nm NMs (Wang et al., 2007b). These findings suggest that the surface charge plays a crucial role in the transport rates of nanoparticles through a mucus layer. Mucus lifetime is short and the fastest turnover (i.e., clearance time) is observed at surfaces with
thinnest mucus layers. Thus, nanoparticles have to permeate quickly through this barrier
to reach the underlying epithelia (Cone, 2009). Local effects after oral exposure to NMs Navitoclax mw include abnormal mucus production, induced by TiO2 nanoparticles in cultured ChaGo-K1 cells (Chen et al., 2011) and by silver nanoparticles in vivo (Jeong et al., 2010). Additionally, pH changes induced by NMs can change the pH-dependent aggregation of mucins (Bhaskar et al., 1991). In addition, positively charged NMs impede mucin swelling and thereby increase viscosity (Chen et al., 2010). The epithelium generally represents the highest resistance against the passage of chemical compounds and NMs. Epithelial cells are polarized, they possess an Sirtuin inhibitor apical surface facing an internal or external surface and a basal site, where they face the underlying tissue. Epithelia may consist of several layers Fenbendazole and may vary in the height of the cells. Penetration through a monostratified squamous epithelium, like in endothelia (Fig. 1a), is easier than through the simple columnar epithelium in stomach and intestine (Fig. 1b) and the squamous epithelium of the oral cavity and the esophagus (Fig. 1c). The thickness of the non-keratinized
squamous epithelium in the oral cavity ranges between 550 and 800 μm (Collins and Dawes, 1987, Harris and Robinson, 1992 and Lagerlof and Dawes, 1984). The squamous epithelium of the esophagus shows a thickness of 300–500 μm (Takubo, 2009). The epithelium of the esophagus has the same structure as that of the buccal mucosa but is thinner and less variable (Diaz del Consuelo et al., 2005). The simple columnar epithelium in the gastrointestinal tract measures 20–25 μm (Atuma et al., 2001 and Matsuo et al., 1997). In general, only one cell type forms the structural basis of the barrier: keratinocytes for the oral cavity and the esophagus, gastric epithelial cells for the stomach and enterocytes for the small and large intestine. The epithelial cells are linked together by intercellular junctions, which give the epithelial layer mechanical strength and restrict passage between cells.