Interaction between copper and zinc in metal accumulation in rats with particular reference to the synthesis of induced-metallothionein

The effectiveness of Zn at moderating the pro-oxidant effects of Cu was evaluated in two rat models that differed in the route and mode of administration. The endpoints investigated included measurement of the concentrations of Cu, Zn, metallothionein and glutathione concentrations, as well as SOD and catalase activity, in liver, kidneys and intestine. In a sub-chronic animal model, the hepatic accumulation of Cu was achieved by administration of dietary Cu (1.8 g/kg solid diet) for 30 days after which oral Zn (6 g/kg solid diet) was given. Cu treatment induced an increase in the hepatic and intestinal concentration of Cu of 66 and 455%, respectively, that was not associated with synthesis of metallothionein synthesis, but rather appeared to be related to the higher activity of SOD. Subsequent administration with Zn after dietary Cu induced an increase in the hepatic and intestinal metallothionein content of more twice and reduced the Cu content to control values. Thus, Zn could act as both a competitor for absorption on the luminal side of the intestinal epithelium inducing the synthesis of metallothionein. In the second animal model, we studied the effects of interaction between Cu and Zn administered by i.p. injection at the dose of 3 and 10 mg/kg, respectively; Zn was administered subsequent to Cu overload. In this case, when Zn was administered, Cu was already deposited in tissues and thus there is no competition between two metals at the level of membrane transport. In this experimental model treatment with Cu alone induced liver metallothionein synthesis, and the subsequent treatment with Zn did not decrease the hepatic content of Cu. One explanation for these observations is that Zn induces the synthesis of metallothionein, which binds Cu for which it has a higher affinity. Moreover, after treatment with Zn, SOD activity in the liver decreases of almost 30% with respect to treatment with alone Cu, suggesting that Zn has a protective effect. (c) 2005 Elsevier Ireland Ltd. All rights reserved

Enzymatic and Non-Enzymatic Molecules with Antioxidant Function

It is well known that the excessive production of reactive oxygen species (ROS) can lead to the peroxidation of membrane lipids, glycation/oxidation/nitration of proteins, inactivation of enzymes, DNA mutation and damage, and other alterations in the subcellular components [...

Zinc, antioxidant systems and metallothionein in metal mediated-apoptosis: Biochemical and cytochemical aspects

Copper, zinc and iron are essential metals for different physiological functions, even though their excess can lead to biological damage. This review provides a background of toxicity related to copper, iron and zinc excess, biological mechanisms of their homeostasis and their respective roles in the apoptotic process. The antioxidant action of metallothionein has been highlighted by summarizing the most important findings that confirm the role of zinc in cellular protection in relation to metallothionein expression and apoptotic processes. In particular, we show that a complex and efficient antioxidant system, the induction of metallothionein and the direct action of zinc have protective roles against oxidative damage and the resulting apoptosis induced by metals with redox proprieties. In addition, to emphasize the protective effects of Zn and Zn-MT in Cu and Fe-mediated oxidative stress-dependent apoptosis, some aspects of apoptotic cell death are shown. The most widely used cytochemical techniques also have been examined in order to critically evaluate the available data from a methodological point of view. The observations on the role of Zn and NIT could potentially develop new applications for this metal and NIT in biomedical research. (C) 2007 Elsevier Inc. All rights reserved