Quantitative competitive (qc) RT-PCR as a tool in biomarker analysis

All inducible proteins which respond to known pollutants are potential molecular biomarkers. Quantitative competitive (qc) RT-PCR represents a uniquely sensitive tool for measuring the extent of induction of molecular biomarkers such as metallothionein, which is responsive to inducers that include a range of heavy metals. Using the yellowbelly flounder Rhombosolea leporina collected from sites in the Manukau Harbour and Hauraki Gulf (Auckland, New Zealand) as an indicator species, we describe the methodology underpinning the use of qcRT-PCR as a tool in biomarker analysis with reference to the induction of metallothionein. The results show reasonable correlation between the extent of metallothionein induction and the liver burden of Cu and Zn.     

Evidence of a regulatory role of the level of poly (ADP-ribose) in chromosomal proteins in metallothionein gene expression by glucocorticoids but not by heavy metals

The induction capacity of dexamethasone, a synthetic glucocorticoid, for the synthesis of metallothionein was about the same as that of 3-aminobenzamide, which is an inhibitor of ADP-ribosylation of chromosomal proteins, in cultured mouse mammary tumor cells. Both inductions of metallothionein were temporally correlated with a decrease in the amount of endogenous poly (ADP-ribose) on nonhistone high-mobility-group 14 and 17 proteins. In contrast, the extent of cadmium-induced metallothionein synthesis was 2-3-times that of dexamethasone or 3-aminobenzamide. However, cadmium had essentially no effect on de-ADP-ribosylation of these proteins.     

Multiple biomarker response in rainbow trout during exposure to hexavalent chromium

This research investigated hexavalent chromium toxicity in rainbow trout using a panel of biomarkers at different levels of biological organization. A time-course experiment in which rainbow trout were exposed in hard water (63.5 mg/L CaCO3) to a sublethal concentration of hexavalent chromium (10 mg/L) for a period of 28 days was conducted. The responses of multiple biomarkers were measured in gill and liver tissues at varying time points. Significant differences in metallothionein induction, superoxide dismutase activity, lipid peroxidation, cellular morphology, and growth were observed. Results indicated that gill tissues were more sensitive than hepatic tissues to chromium toxicity, yet hepatic tissues appeared to play a larger role in the organism's adaptive response to chromium compared to gill tissues. This study highlights the importance of using a set of integrated biomarkers to assess contaminant exposure and effects.     

Cadmium induces a novel metallothionein and phytochelatin 2 in an aquatic fungus

Cadmium stress response was measured at the thiol peptide level in an aquatic hyphomycete (Heliscus lugdunensis). In liquid culture, 0.1 mM cadmium increased the glutathione (GSH) content and induced the synthesis of additional thiol peptides. HPLC, electrospray ionization mass spectrometry, and Edman degradation confirmed that a novel small metallothionein as well as phytochelatin (PC2) were synthesized. The metallothionein has a high homology to family 8 metallothioneins (http://www.expasy.ch/cgi-bin/lists?metallo.txt). The bonding of at least two cadmium ions to the metallothionein was demonstrated by mass spectrometry (MALDI MS). This is the first time that simultaneous induction of metallothionein and phytochelatin accompanied by an increase in GSH level has been shown in a fungus under cadmium stress, indicating a potential function of these complexing agents for in vivo heavy metal detoxification. The method presented here should be applicable as biomarker tool.     

Bivalve metallothionein as a biomarker of aquatic ecosystem pollution by trace metals: limits and perspectives.

Owing to their induction by metals metallothioneins (MTs) have been proposed as biomarkers of the metallic contamination of the environment. On the other hand, bivalves are regarded as very convenient bioindicators of the aquatic ecosystems and an extensive literature has been dedicated to their response to metals. Among studies supporting the involvement of MTs in metal detoxification some discrepancy appears due to inter- and intra-specific variations, or to heterogeneous exposure conditions. A lesser number of papers are dealing with the use of metallothionein levels as biomarkers, and sometimes they evidence that natural factors influencing metallothionein synthesis have to be taken into account before final conclusions can been drawn. Moreover, there is still a large number of non-intercalibrated protocols used to quantify amounts of metallothioneins in organisms. As comparisons are necessary to assess the relative abundance of metallothioneins in a studied species, more work has to be completed before such comparisons could be validated. In the present paper we wish to establish the limits of the use of mollusc metallothioneins as a biomarker of aquatic ecosystem contamination by trace metals, using published and recent data as support for our conclusions and perspectives.     

The Neurospora crassa metallothionein gene. Regulation of expression and chromosomal location

The promoter region of the Neurospora crassa metallothionein gene contains no sequences which are similar to the mammalian or the yeast metal responsive elements (Münger, K., Germann, U. A., and Lerch, K. (1985) EMBO J. 4, 2665-2668). We therefore studied the regulation of expression of the N. crassa metallothionein gene in response to different metal ions (Cu2+, Cd2+, Zn2+, Co2+, and Ni2+) by Northern analysis. Only copper led to the induction of metallothionein mRNA. In N. crassa cultures inoculated and grown in copper-supplemented media, metallothionein mRNA appeared during the late logarithmic growth period (about 30 h after inoculation) and was detectable for a time period of more than 30 h. In response to copper shock, however, rapidly increasing amounts of metallothionein mRNA were detected within minutes after copper administration at any time in vegetatively growing mycelia of N. crassa. Maximum levels were detected about 1 h after addition of copper to the medium. The half-life time of the mRNA was estimated as 2.5 h. The amounts of copper metallothionein reach a maximum level at 3 h after induction and thereafter remain constant. The rapid induction by copper ions of metallothionein mRNA and metallothionein together with the remarkable stability of the native protein intracellularly suggest that this protein serves an important homeostatic role in the copper metabolism in this fungus. The structural gene of N. crassa metallothionein has been located on chromosome VI using restriction fragment-length polymorphisms as genetic markers.     

Role of thiocyanate ion in metallothionein induction and in endogenous distribution of essential elements in the rat liver

Thiocyanate is the major toxic metabolite of hydrogen cyanide, a toxic substance the organism may be exposed to as a result of cigarette smoking or industrial pollution. The complex interactions existing between metals and metallothionein induction are well known. However, the possible role of thiocyanate, which is also an anion, has not been established yet. Considering the interactions between metals and the metallothioneins, in this study the relationship between thiocyanate and the in vivo distribution of hepatic metallothionein and zinc, copper, iron, calcium, magnesium, and manganese are investigated in rats. This study implies that thiocyanate has, to some extent, an effect on the in vivo expression of metallothionein and endogenous distribution of essential elements in rat liver. Elevated levels of metallothionein and changes in hepatic concentrations of essential elements have suggested a role for thiocyanate in cellular metabolism and it might reflect a direct role of thiocyanate on alteration of cellular functional activities.     

Induction of metallothionein synthesis in Menkes' and normal lymphoblastoid cells is controlled by the level of intracellular copper

A study was carried out on the uptake of copper, zinc, or cadmium ions and their induction of metallothionein synthesis in Menkes' and normal lymphoblastoid cells. The main difference between Menkes' and normal cells in the uptake of these metal ions was an increased uptake of copper ions in Menkes' cells at a low concentration of CuCl2 (2.1 microM). The CuCl2 concentration necessary to induce metallothionein synthesis in Menkes' cells was 50 microM, whereas that in normal cells was about 200 microM. The levels of zinc or cadmium ions needed to induce metallothionein in Menkes' cells were similar to those in normal cells. At least four isomers of metallothionein were induced by copper, zinc, and cadmium ions in both types of cells. Metallothionein synthesis in Menkes' and normal cells was induced when the amounts of intracellular copper reached a threshold level of approximately 0.2 nmol/10(6) cells, and the rate of metallothionein synthesis in these cells was increased as a function of the amounts of intracellular copper (0.2-1.7 nmol/10(6) cells). These results indicate that the induction of metallothionein synthesis in lymphoblastoid cells is controlled by the level of intracellular copper, suggesting that the major defect in Menkes' cells is not due to the abnormal regulation of metallothionein synthesis but to an alteration of the copper metabolism in cells by which the levels of intracellular copper become larger than those in normal cells and just lower than the threshold level for induction of metallothionein synthesis.     

Influence of biotic and abiotic factors on metallothionein level in Gammarus pulex

Detection and assessment of the impact of pollution on biological resources imply increasing research on early-warning markers such as metallothioneins in metal exposure. Metallothioneins are cytosolic, low molecular weight proteins, involved principally in essential metal homeostasis and non-essential metal detoxication. Metallothionein synthesis could be influenced by abiotic (season) or biotic (reproduction process) factors directly or indirectly by its effect on metal bioaccumulation (i.e., sex, weight). In a view of using metallothioneins as metal-exposure biomarkers in Gammarus pulex, this study attempts to define the effect of several factors (sex, weight/size and season) on the level of this protein. Metallothionein levels recorded in individuals over a large range of weights indicate a negative correlation between them. Inversely in our conditions, no difference was observed between male and female organisms. During field study, metallothionein level changes were observed with the highest levels in autumn and winter periods. The highest metallothionein levels were observed after the reproduction period, perhaps linked with the metabolic needs of biologically available essential metal such as zinc.     

Metal-binding proteins of the Syrian hamster ovaries: apparent deficiency of metallothionein

A deficiency of metallothionein, a high-affinity metal-binding protein thought to detoxify cadmium, has been observed in rat and mouse testes, tissues that are highly susceptible to the necrotizing and carcinogenic effects of cadmium. Like the testes, the ovaries undergo a hemorrhagic necrosis when exposed to cadmium, and female Syrian hamsters have recently been shown to be highly susceptible to cadmium. However, the nature of cadmium-binding proteins in the ovary is unknown; thus, this study was undertaken to define the nature of any such proteins in the Syrian hamster ovary. A low molecular weight (Mr) zinc- and cadmium-binding protein was detected in cytosol derived from the ovaries after gel filtration that eluted with a relative elution volume similar to authentic metallothionein. This protein was extractable by heat-treatment and sequential acetone precipitation. When such extracts were further purified with a reverse phase high performance liquid chromatography (HPLC) technique developed for the isolation of metallothionein isoforms, two forms were separated. However, neither of these could be classified as metallothionein on the basis of amino acid composition, since both were particularly low in cysteine, a very common amino acid in metallothionein. The ovarian protein also contained significant amounts of aromatic amino acids, unlike metallothionein--which is devoid of aromatics, and contained much more glutamate than metallothionein. Hamsters were also made resistant to cadmium-induced ovarian necrosis by zinc treatment. Such zinc treatment, however, did not alter levels of this protein, yet caused a marked induction of hepatic metallothionein. Likewise, cadmium treatment did not increase the levels of the ovarian metal-binding protein yet markedly induced hepatic metallothionein.(ABSTRACT TRUNCATED AT 250 WORDS)     

Formation of metallothionein in fish

1. Carp were bred in Cd solution, and each organ was homogenized and centrifuged at 105,000 g. The Cd content of the supernatant was much more than that of the precipitate. 2. In examining the metal form in the supernatant, the induction of metallothionein (MT) was found in carp exposed to Cd and Zn solutions and the presence of metallothionein was found in fish captured in Nagara river and breeding ponds. 3. Cd content in the metallothionein fraction of hepato-pancreas increased at the early stages of exposure, but Cd in the metallothionein fraction of the other organs increased as time proceeded. 4. In the tap water group, metallothionein in hepato-pancreas and kidney contained Cu, and increased with the induction of metallothionein in hepato-pancreas due to Zn-exposure.     

Augmentation of dexamethasone induction of rat liver metallothionein by zinc.

The induction of liver metallothionein by dexamethasone in adrenalectomized rats was augmented by zinc administration. Metallothionein synthesis was increased in an additive manner with both zinc and dexamethasone compared with either treatment alone. Translational activity of polyribosomal metallothionein mRNA was also greater in zinc + dexamethasone-treated rats. Northern-blot analyses showed that dexamethasone increased these mRNA contents to a greater extent at the lower zinc dose, suggesting that the induction may be maximal at the higher zinc dose when combined with dexamethasone.     

Metallothionein gene from Tetrahymena thermophila with a copper-inducible-repressible promoter

We describe a novel metallothionein gene from Tetrahymena thermophila that has a strong copper-inducible promoter. This promoter can be turned on and off rapidly, making it a useful system for induction of ectopic gene expression in Tetrahymena and enhancing its applications in cell and molecular biology, as well as biotechnology.     

Low-molecular weight metalloproteins in tissues of the narwhal (Monodon monoceros)

Narwhal (Monodon monoceros) liver and kidney cytosol were fractionated by gel chromatography, anion-exchange chromatography and electrophoresis. Cadmium was associated largely with low molecular weight proteins, while mercury was associated also with high molecular weight proteins, but apparently not because of saturation of the metallothionein mechanism. Eight different electrophoretic bands, four of which were metalloproteins, were found under the "metallothionein" peak. Anion-exchange chromatography yielded five metal peaks while further fractionation on G-50 gave two peaks, one containing almost pure metallothionein (Mt-1) and the other a metalloprotein having twice the molecular weight of metallothionein. Mt-2 was observed, at a much lower concentration than Mt-1, in liver but not kidney.     

Effect of cis-diamminedichloroplatinum (II) on metallothionein induction and trace element metabolism in rats fed different amounts of dietary zinc

Recent studies have suggested that the induction of metallothionein synthesis in kidneys of mice by the acute administration of bismuth and other trace elements might protect against cis-diamminedichloroplatinum (II) nephrotoxicity. The present study was designed to determine the effects of dietary zinc and cis-diamminedichloroplatinum (II) on the induction of liver and kidney metallothionein and its subsequent effect on nephrotoxicity and trace element metabolism in rats. Male rats were fed diets containing 5, 20, 80, or 320 mg zinc/kg diet for 3 weeks. Each dietary group was subdivided into 3 groups. In one group, each rat received an i.p. injection of 7.5 mg cis-diamminedichloroplatinum (II)/kg b.w. All other rats received saline. During the next three days a second group of rats was pair-fed to the cis-diamminedichloroplatinum (II) injected group. A third group received no treatment and was allowed to eat ad libitum. Results showed that when dietary zinc was increased from 5 mg/kg diet to higher amounts, kidney metallothionein concentration increased twofold. cis-diamminedichloroplatinum (II) treatment increased kidney metallothionein even further, but elevated metallothionein gave no protection from the toxic effects of the drug. Serum copper concentration and ceruloplasmin activity were significantly lower with higher concentrations of dietary zinc, which indicated that these rats were mildly copper-deficient. There was a small but significant depression of superoxide dismutase activity and a highly significant increase in thiobarbituric acid reactive substances in kidneys of rats treated with cis-diamminedichloroplatinum (II) compared to either pair-fed or ad libitum controls. This supports the hypothesis that part of the mechanism for cis-diamminedichloroplatinum (II)-induced toxicity might be caused by free-radical generation. However, the data do not support the hypothesis that metallothionein induction protects the kidney from cis-diamminedichloroplatinum (II) toxicity.