Development of fibrin hydrogel-based in vitro bioassay system for assessment of skin permeability to and pro-inflammatory activity mediated by zinc ion released from nanoparticles.

Nanoparticles (NPs) are promising products in industry and medicine due to their unique physicochemical properties. In particular, zinc oxide (ZnO) NPs are extensively incorporated into sunscreens to protect the skin from exposure to ultraviolet radiation. However, there are several health concerns about skin penetration and the resultant toxicity. As methodologies for evaluating NP toxicity are under development, it is difficult to fully assess the toxicity of ZnO NPs toward humans. In this study, we developed a platform to simultaneously detect skin permeability to and pro-inflammatory activity mediated by zinc ion released from NPs. First, we generated a stable reporter cell line expressing green fluorescent protein (GFP) under the control of interleukin-8 (IL-8) promoter activity. The expression levels of GFP induced by zinc reflected the endogenous IL-8 expression levels and the pro-inflammatory responses. Next, we found that fibrin hydrogel can reproduce permeability to zinc ion of a human skin equivalent model and is therefore a promising material to assess skin permeability to zinc ion. Then, we constructed a fibrin hydrogel-based in vitro bioassay system for the simultaneous detection of skin permeability to and pro-inflammatory activity mediated by zinc ion released from NPs by using a stable reporter cell line and a fibrin hydrogel layer. This bioassay system is a promising in vitro permeation test due to its technical simplicity and good predictability. Overall, we believe that our bioassay system can be widely used in the cosmetics and pharmaceutical industries.