Abstract
Nanotechnology makes use of the special surface properties of extremely small particles. In this rapidly growing field, many different materials are produced for a multitude of diverse applications. Possible adverse health effects of these materials however are so far scarcely investigated and are therefore a special task of toxicology. Although strategies for risk assessment have been suggested, the authors of the current review emphasize the fact that on the cellular, subcellular and molecular levels, interactions between nanoparticles (NP) and target cells relevant for the induction of possible adverse health effects are poorly understood. On the basis of existing literature, the potentially most relevant cellular target sites of NP as well as the so far known major molecular events specifically induced by these xenobiotics are reviewed. Starting with NP uptake across the cell membrane, mechanisms of generation of reactive oxygen species and the activation of redox-sensitive signalling cascades are described. Besides the cell membrane, mitochondria and cell nucleus are considered as major cell compartments relevant for possible NP-induced toxicity. Finally, an integrated research protocol is proposed to identify fundamental cellular responses to NP in order to complement current toxicological screening strategies with a mechanism-based approach.
The authors thank Prof. Jean Krutmann (IUF) for critically reading this manuscript. This review was supported by a grant from the German Federal Ministry of Environment, BMU (Bundesministerium für Umwelt, Reaktorsicherheit und Strahlenschutz).