General aspects of metal toxicity.

This review is focused on the general mechanisms of metal toxicity in humans. The possible and mainly confirmed mechanisms of their action are discussed. The metals are divided into four groups due to their toxic effects. First group comprises of metal ions acting as Fenton reaction catalyst mainly iron and copper. These types of metal ions participate in generation of the reactive oxygen species. Metals such as nickel, cadmium and chromium are considered as carcinogenic agents. Aluminum, lead and tin are involved in neurotoxicity. The representative of the last group is mercury, which may be considered as a generally toxic metal. Fenton reaction is a naturally occurring process producing most active oxygen species, hydroxyl radical: Fe(2+) + He2O2 ↔ Fe(3+) + OH(-) + OH(•) It is able to oxidize most of the biomolecules including DNA, proteins, lipids etc. The effect of toxicity depends on the damage of molecules i.e. production site of the hydroxyl radical. Chromium toxicity depends critically on its oxidation state. The most hazardous seems to be Cr(6+) (chromates) which are one of the strongest inorganic carcinogenic agents. Cr(6+) species act also as oxidative agents damaging among other nucleic acids. Redox inactive Al(3+), Cd(2+) or Hg(2+) may interfere with biology of other metal ions e.g. by occupying metal binding sites in biomolecules. All these aspects will be discussed in the review.

Metal transport and homeostasis within the human body: toxicity associated with transport abnormalities.

In this work, latest reports about metal toxicity, transport and homeostasis have been thoroughly described and discussed. Although diseases associated with transport and homeostasis abnormalities are those of great interest, still a variety of the phenomena associated with these processes are under debate. In this paper, we try to summarize the newest theses on this topic, presenting contradictory points of view. We focus on toxic and essential metal pathways crossing and try to follow the exact metal binding molecules within the body and provide insight into the transport mechanism. Special attention is given to the mechanism of action of lately investigated metal transporters.