Relationship between metallothionine and zinc in the protection against DNA damage in zinc-treated Long-Evans Cinnamon rat liver.

The aims of the work presented here were to determine the effect of long term treatment with zinc (Zn) on both total metallothionine (MT) and, in particular, oxidized MT (MTox) concentrations in Long-Evans Cinnamon (LEC) rat liver. We also evaluated semi-quantitatively the cell death index using TUNEL assay as it is a useful method to localize the nuclear fragmentation occurring in oxidative stress conditions. The results demonstrate there were no statistically different MT concentrations between Zn-treated and untreated rats, whereas the Zn treatment was very effective in reducing the percentage of oxidized MT (MTox). MTox is not able to bind metals, so it does not perform its "scavenger" action against copper (Cu) accumulation in LEC rats. The intensity and quantity of fluorescent staining observed in untreated rat sections decreased compared to the treated ones. These findings suggest that in LEC rats one of zinc's roles is to protect from oxidative stress, however, its mode of action remains partially unknown: a hypothesis is competition for Cu binding sites. A new insight is that Zn induced MT can protect efficiently against DNA damage by free radicals.

Metal accumulation and binding protein induction in Mytilus galloprovincialis, Scapharca inaequivalvis, and Tapes philippinarum from the Lagoon of Venice.

Heavy metal pollution is known to be widespread in the sediments of the Lagoon of Venice. Therefore, physiological parameters influenced by this form of contamination were examined. The bivalve molluscs blue mussel (Mytilus galloprovincialis), ark clam (Scapharca inaequivalvis), and Japanese littleneck (Tapes philippinarum) were sampled in two sites (Marghera, Chioggia) every 3 months for 1 year. The digestive gland and gills of each bivalve were analyzed. The concentrations of essential and nonessential metals (including chromium, manganese, iron, cobalt, nickel, copper, zinc, and cadmium) were determined. Because glutathione and metallothioneins (MTs) are involved in metal homeostasis and detoxification, their concentrations were evaluated in relation to metal concentrations. Results show that (1) all three studied species accumulate metals to a considerable extent, with some species-specific differences between the digestive gland and gills; (2) gills are a good tissue to evaluate pollution by examining the MT content. In particular, the correlation between Zn and MT levels in the gills indicates that M. galloprovincialis and S. inaequivalvis are sentinel organisms and can be used specifically for Zn pollution; (3) T. philippinarum accumulates Cu in the digestive gland more readily than the other two bivalves and therefore has the highest MT.

Interactions between metals in rat liver and kidney: localization of metallothionein.

The interactions between two essential metals, Cu and Zn, and the localization and concentration of metallothionein have been studied in rat liver and kidney. Rats receiving daily intraperitoneal injections of Cu for 3 days, or Zn for 2 days, or Cu for 3 days followed by Zn for 2 days, were sacrificed 24, 72, 120 h after the final injection. Our data indicate that Cu and Zn are both good inductors of metallothionein synthesis in rat tissues. Synergism between Cu and Zn in metallothionein synthesis was also observed as indicated by immunocytochemical experiments and chemical analysis. Moreover, in rats injected with Cu followed by Zn, the localization of metallothionein and the concentrations of both metallothionein and metal differed over time according to the organs considered. In rat kidney, a delay in the excretory process was also observed and metallothionein was present 120 h after the last injection.

Oxidative burst and metallothionein as a scavenger in macrophages.

UNLABELLED: The role of metallothionein (MT) in the scavenging of superoxide radicals (*O2-) generated by macrophages has been examined. The present work has focused on the effects of added cadmium, a known inducer of MT biosynthesis, on determined amounts of superoxide radicals produced by in vitro cultured rat peritoneal macrophages on their stimulation with phorbol-12-myristate-13-acetate (PMA). The levels of superoxide radicals (*O2-) have been found to decrease when cadmium was added to cells exposed to PMA. However, substantially lower levels of MT have been determined in this case compared to cells untreated with PMA. This effect could be reversed by incubation of the PMA and cadmium-treated cells with a reducing agent, 2-mercaptoethanol (2-ME). Results suggest that *O2- caused thiolate oxidation and subsequent metal loss, thus reducing the cellular MT content as quantified by the silver saturation METHOD: This conclusion is supported by cell-free experiments in which the oxidation of rabbit MT-I by a xanthine/xanthine-oxidase system could be reversed by its subsequent reduction with 2-ME. The data presented provide direct evidence of the involvement of MT in scavenging superoxide radicals in living cells.

Zinc therapy increases duodenal concentrations of metallothionein and iron in Wilson's disease patients.

OBJECTIVE: Wilson's disease is effectively treated by zinc administration which, in vitro, increases metallothionein concentrations. To ascertain whether the latter also occurs in humans we measured metallothionein and trace element concentrations in the duodenal mucosa of 15 Wilson's disease patients: 12 treated with zinc sulphate, two treated with penicillamine, and one not yet on treatment. The control group consisted of 17 patients with dyspepsia, who underwent the same study protocol. METHODS: Metallothionein and trace element concentrations were measured in duodenal mucosa biopsies according to the silver-saturation hemolysate method and atomic absorption spectrophotometry. RESULTS: Metallothionein concentrations increased by 1500% after zinc and 150% after penicillamine in Wilson's disease patients, with respect to controls who had negative endoscopy and Wilson's disease patients who were not treated. A significant correlation was found between metallothionein and duodenal zinc concentrations. Mucosal iron concentration increased in Wilson's disease patients whether they were treated with zinc or penicillamine. Duodenum with duodenitis also had significantly increased iron levels compared with normal duodenum. CONCLUSIONS: Zinc administration increases intestinal metallothionein in Wilson's disease patients. The blockade of copper absorption and its elimination in the stools on desquamation of the intestinal cells probably explains one of the mechanisms underlying the effect of zinc treatment. Despite normal endoscopy, Wilson's disease patients present increased mucosal iron concentrations similar to those in controls with duodenitis. Metallothionein may therefore prevent oxidative damage caused by metal toxicity.

Metal accumulation in a biological indicator (Ulva rigida) from the lagoon of Venice (Italy).

Ulva rigida (C. Agardht) was collected from the Palude della Rosa (lagoon of Venice), a particular area characterized by a salinity gradient, from December 1991 to June 1993. Metal contents (Al, Mn, Fe, Cu, Zn, Cr, Co, Ni, Cd, and Pb) were determined by atomic absorption spectrophotometry and statistically analysed for differences between months and sampling sites. The mean seasonal variability is very significant (p < 0.001) for all studied metals. Seasonal trends are comparable for groups of metals according to possible functional similarities. A significant positive correlation was calculated for the pairs Fe-Al and Fe-Pb. Mechanisms regulating metal uptake are discussed, particularly the role of Fe and its linear relationship with Al. Metal concentrations in relation to salinity also were studied. Larger amounts of Fe, Zn, and Cd accumulated in correspondence of lower salinity, may be owing to both higher metal activity and burden of bioavailable metals in freshwater flowing into the Palude. Calculation of concentration factor (CF) indicates that U. rigida specifically accumulates Fe. CF linearly correlates with dissolved metal concentrations, suggesting that U. rigida is a good bioindicator of metal bioavailability, although seasonal active accumulation occurs in some cases (Mn). Metal concentrations determined in this macroalga support the conclusion that the studied area is rich in bioavailable Fe and poor in toxic metals. In any case, a great affinity for Al in U. rigida may be proposed.

Effect of zinc supplementation on metallothionein, copper, and zinc concentration in various tissues of copper-loaded rats.

The present study was designed to investigate the effects of Zn administration on metallothionein concentrations in the liver, kidney, and intestine of copper-loaded rats. Male CD rats were fed a diet containing 12 mg Cu and 67 mg Zn/kg body wt. They were divided into either acute or chronic experimental protocols. Rats undergoing acute experiments received daily ip injections of either Cu (3 mg/kg body wt) or Zn (10 mg/kg body wt) for 3 d. Chronic experiments were carried out on rats receiving Cu ip injections on d 1, 2, 3, 10, 17, and 24, Cu injections plus a Zn-supplemented diet containing 5 g Zn/kg solid diet, or a Zn-supplemented diet alone. Rats injected Zn or Cu had increased MT concentrations in liver and kidney. Zn produced the most important effects and the liver was the most responsive organ. Rats fed a Zn-supplemented diet had significantly higher MT concentrations in liver and intestine with respect to controls. Increased MT synthesis in the liver may contribute to copper detoxification; the hypothesis of copper entrapment in enterocytes cannot be confirmed.

Purification and primary structure of metallothioneins induced by cadmium in the protists Tetrahymena pigmentosa and Tetrahymena pyriformis.

Tetrahymena pyriformis and Tetrahymena pigmentosa grown in the presence of a non-toxic dose of cadmium, accumulate the metal in the cytosol. Purification by gel-permeation, ion-exchange and reverse-phase high-performance liquid chromatography showed that the metal is bound principally to newly formed proteins with ultraviolet spectra and cysteine contents similar to those of Cd(2+)-metallothioneins from multicellular organisms. The isolated proteins revealed that the two species of ciliates each express two Cd(2+)-isothioneins. The primary structures determined by both Edman degradation and mass spectrometry revealed that the equivalent proteins from T. pyriformis and T. pigmentosa have identical sequences and that the two isoforms in each species differ only by the presence or absence of a lysine residue at the N-terminus. The development of automated mass spectrometric sequence analysis algorithms combined with an accurate determination of the molecular mass allowed the rapid confirmation of the sequences. The Tetrahymena metallothionein sequences are unusually long (105 and 104 amino acids) and show a unique internal homology which suggests that the proteins arose by gene duplication. The chains contain 31 cysteine residues, 15 of which are arranged in motifs characteristic of the mammalian metallothioneins; the remaining residues show several unique repeating motifs, which could have interesting consequences for the tertiary structure of the metal-binding sites. Amino acid sequences of Tetrahymena metallothioneins have some similarity with other eukaryotic metallothioneins. A comparison on the basis of optimised FASTA scores, shows a closer relationship with horse metallothionein-1B.