In vitro free radical scavenging activity of hepatic metallothionein induced in an Indian freshwater fish, Channa punctata Bloch

Mammalian metallothioneins (MT) have been reported to scavenge free radicals. There is no experimental evidence to show that fish MT has a similar property. In the present study cadmium-induced MT (Cd-MT) from the liver of an Indian freshwater fish Channa punctata Bloch was investigated for its free radical scavenging activity using three different in vitro assays. Exposure to cadmium chloride (0.2 mg/kg body weight; three doses on alternate days) resulted in a marked induction of Cd-MT in liver. Only a single isoform of Cd-MT was found to be induced. Molecular weight of Cd-MT was found to be 14 kDa as deduced by SDS-PAGE analysis. The purified Cd-MT effectively scavenged the following free radicals: superoxide radical (O2*-), 2,2'-azinobis 3-ethylbenzothiazoline-6-sulfonic acid (ABTS*+) and 1,1-diphenyl-picrylhydrazyl radical (DPPH*). The radical scavenging effect was found to be concentration-dependent. Also, the purified MT exhibited an inhibitory effect on ferric nitrilotriacetate (Fe-NTA) induced oxidative DNA damage in vitro. The cysteine residues of MT are proposed to be the main candidate for its radical scavenging activity. Findings of the present study strongly suggest a free radical scavenging role for fish MT. Present study adds to the little existing knowledge about fish MT and its possible biological functions.     

Cadmium-bound metallothionein induces apoptosis in rat kidneys, but not in cultured kidney LLC-PK1 cells

The ability of cadmium-bound metallothionein(Cd-MT) to induce apoptosis was investigated in vivo and in vitro. Administration of purified Cd-MT (0.15 mg MT bound Cd per kg body weight) to the rat induces DNA fragmentation, a biochemical characteristic of apoptosis in the kidney at 16 h, which was detectable by ethidium bromide staining on an agarose gel. It was still detected 24 h after administration. Induction of apoptosis by Cd-MT was specific to kidney; it was not observed in cerebrum, cerebellum, heart, lung, liver, testis, dorsolateral prostate, and ventral prostate. In contrast, addition of Cd-MT (0.01-100 microM) to the cultured porcine kidney LLC-PK1 cells failed to induce apoptosis under the condition where cadmium chloride (10 microM) did. There was no additivity of induction of apoptosis by CdCl2 (10 microM) in the presence of Cd-MT (0.01-100 microM). To examine the effect of intracellular MT on cadmium-induced apoptosis in cultured cells, new cell lines were established, which constitutively produce MT, being termed as Cd(r)-LLC-PK1 cells since Cd-MT exogenously added had much less permeability to the cultured cells. Followed by exposure of wild-type LLC-PK1 cells to 50 microM CdCl2 for 24 h, the surviving cells(Cd(r)-LLC-PK1 cells) induce MT at the level of 1.9 microg/2 x 10(6) cells. In Cd(r)-LLC-PK1 cells, 10 microM CdCl2 failed to induce apoptosis, but 60 microM CdCl2 could exert the apoptotic response, indicating that intracellular MT which was induced by CdCl2 did not facilitate CdCl2-elicited apoptosis. Furthermore, chromatin in rat kidneys was condensed by Cd-MT, but not that in LLC-PK1 cells. Thus, Cd-MT induces apoptosis in rat kidneys, but not in the cultured renal cells, suggesting that the ionic form of cadmium was required for programmed cell death.     

Identification, cloning and characterisation of a novel copper-metallothionein in tetrahymena pigmentosa. Sequencing of cDNA and expression.

The protist Tetrahymena pigmentosa accumulates large amounts of metal ions, particularly cadmium and copper. This capability is linked to the induction of metallothioneins (MTs), cysteine-rich metal-binding proteins found in protists, plants and animals. The present study focuses on a novel inducible MT-isoform isolated from Tetrahymena after exposure to a non-toxic dose of copper. The cDNA sequence was determined utilising the partial peptide sequence of purified protein. The Cu-MT cDNA encodes 96 amino acids containing 28 cysteine residues (29%) arranged in motifs characteristic of the metal-binding regions of vertebrate and invertebrate MTs. Both the amino acid and nucleotide sequences differ, not only from other animal MTs, but also from the previously characterised Tetrahymena Cd-MT. Both MTs contain the structural pattern GTXXXCKCXXCKC, which may be proposed as a conservative sequence of Tetrahymena MTs. Cu-dependent regulation of MT expression was also investigated by measuring MT-mRNA and MT levels. MT synthesis occurs very quickly and MT contents increase with Cu accumulation. The induction of Cu-MT mRNA is very rapid, with no observable lag period, and is characterised by transient fluctuation, similar to that described for Cd-MT mRNA. The data reported here indicate that, also in the unicellular organism Tetrahymena, two very different MT isoforms, which perform different biological functions, are expressed according to the inducing metal, Cu or Cd.     

Immobilization of metallothionein as a sensitive biosensor chip for the detection of metal ions by surface plasmon resonance

A biosensor based on mammalian metallothionein (MT) for the detection of metal ions was developed and characterized. MT was immobilized onto a carboxymethylated dextran matrix as a biosensor for the detection of metal ions by surface plasmon resonance (SPR). The optimal pH for the immobilization step was determined to be 4. The temperature for the analysis was also defined, and the highest interaction was observed at 30 degrees C. The MT sensor chip binds cadmium (Cd), zinc (Zn) or nickel (Ni), but not magnesium (Mg), manganese (Mn) and calcium (Ca). Calibration curves for the quantification of metal ions showed excellent linearity. The sensitivity for metal detection is at the micromolar level. The interaction between the metal ions and the sensor chip is influenced significantly by the presence of NaCl, Tween 20 and the pH of the reaction buffer. By decreasing the NaCl in the reaction buffer to 1 mM, the MT chip effectively differentiates cadmium from zinc and nickel. Kinetic parameters of the metal-MT interactions were also determined by using this chip. The binding affinity between the metal ions and the immobilized MT follows the order of cadmium > zinc > nickel, which is the same as that determined for MT in solution. Thus, the MT chip can be an effective biosensor for the detection and measurement of several metal ions.     

Cadmium stress stimulates tissue turnover in Helix pomatia: increasing cell proliferation from metal tolerance to exhaustion in molluscan midgut gland

In terrestrial pulmonate snails, cadmium (Cd) uptake leads to the induction of a Cd-specific metallothionein isoform (Cd-MT) that protects against adverse interactions of this toxic metal ion. Increasing concentrations of Cd cause increased individual mortality possibly linked to pathological alterations in the snail midgut gland. Histological, immuno-histochemical, and electron-microscopic methods in combination with tissue metal analyses and quantification of MT induction parameters were applied to the midgut gland of Cd-exposed Roman snails (Helix pomatia). Conspicuous concentration-dependent alterations occurred in this organ, including the metal-induced increase of Cd-MT concentration and manifestation of Cd-MT mRNA precipitations in all midgut gland cell types. The most evident alteration was an increase of cellular turnover reflected by enhanced cell proliferation. Intensified vesiculation of endoplasmic reticulum was noted in basophilic cells and an increasing formation of lipofuscin granules in excretory cells. At the highest Cd concentrations, mitochondrial membranes were disrupted in basophilic cells, and lipofuscin granules were released from excretory cells into the midgut gland tubular system. Some of these alterations (e.g., increased cell proliferation rate, vesiculation of endoplasmic reticulum) detected at low Cd concentrations were interpreted as adaptive response processes enhancing the tolerance of exposed individuals to metal stress. Cellular alterations at higher Cd concentrations (e.g., mitochondrial structural damage) clearly represented ongoing irreversible cellular disruption. Combined evaluation of cellular biomarkers and MT saturation levels indicated that the transition from stress resistance to depletion of resistance capacity occurred above a threshold of 0.8 µmol Cd/g dry weight in the midgut gland of H. pomatia. At these Cd concentrations, Cd-MT was saturated with Cd²⁺ ions, whereas at the cellular level, structural alterations turned into pathological deterioration.     

柱状田头菇(茶薪菇)金属硫蛋白的分离纯化与特性研究*

应用快速灌注色谱系统首次从经Cd2+诱导的柱状田头菇(茶薪菇)Agrocybecylindracea(DC.:Fr:)R.Maoire菌丝体中分离得到一种镉结合蛋白。通过SephadexG-75凝胶过滤层析,原子吸收光谱分析(AAS),巯基含量测定及紫外吸收光谱分析表明这种镉结合蛋白具有金属硫蛋白(metallothionein,MT)的理化性质:即分子量为6kDa、每分子MT含18个半胱氨酸残基并结合7个镉原子、具有镉硫金属簇的特征紫外吸收光谱,初步鉴定为茶薪菇Cd-MT。     

Isolation and characterization of a self-sufficient one-domain protein. (Cd)-metallothionein from Eisenia foetida.

Earthworms have been shown to accumulate trace elements in general, and particularly high amounts of metal ions such as cadmium, copper and zinc. The earthworm's response to metal contamination has been linked to the induction and expression of metallothionein (MT) proteins, a detoxification strategy analogous to that found in other biological systems. The present study focuses on an inducible Cd-MT isolated from the compost-dwelling brandling worm Eisenia foetida (Savigny). A full characterization of the protein (including protein induction, MT cDNA, amino-acid sequence and metal stoichiometry) revealed a new dimension of knowledge to the molecular genetic information available to date. Whereas the elucidated cDNA codes for a putative protein which possesses 80 amino-acid residues, the characterized protein bears only 41 amino acids. The isolated product has evidently attained its size and shape by cleavage near the N-terminal site and at the linker region between the two putative metal-binding domains of the translated product, yielding a small MT moiety which contains 12 Cys residues (including one triple Cys-motif) binding four cadmium ions. It can be shown that the isolated MT molecule represents a self-sufficient one-domain MT which is stable in vitro. The isolation of the single-domain MT peptide raises the question about the method of formation and significance in vivo of such small MT moieties from tissues of E. foetida and possibly other terrestrial invertebrates. In this respect, two hypotheses are discussed: firstly, the possibility of formation of small MT peptides due to enzymatic cleavage of the intact protein during the process of preparation and isolation; and secondly, the possibility of deliberate post-translational processing of the translated gene product to yield functional one-domain MT moieties.     

柱状田头菇(茶薪菇)金属硫蛋白的分离纯化与特性研究

应用快速灌注色谱系统首次从经Cd2+诱导的柱状田头菇(茶薪菇)Agrocybecylindracea(DC.:Fr:)R.Maoire菌丝体中分离得到一种镉结合蛋白。通过SephadexG-75凝胶过滤层析,原子吸收光谱分析(AAS),巯基含量测定及紫外吸收光谱分析表明这种镉结合蛋白具有金属硫蛋白(metallothionein,MT)的理化性质:即分子量为6kDa、每分子MT含18个半胱氨酸残基并结合7个镉原子、具有镉硫金属簇的特征紫外吸收光谱,初步鉴定为茶薪菇Cd-MT。     

Protective effect of metallothionein to ras DNA damage induced by hydrogen peroxide and ferric ion-nitrilotriacetic acid

Metallothionein (MT) is a strong antioxidant, due to a large number of thiol groups in the MT molecule and MT has been found in the nucleus. To investigate whether MT can directly protect DNA from damage induced by hydroxyl radical, the effects of MTs on DNA strand scission due to incubation with ferric ion-nitrilotriacetic acid and H2O2 (Fe3+ -NTA/H2O2) were studied. The Fe3+-NTA/H2O2 resulted in a higher rate of deoxyribose degradation, compared to incubation of Fe3+/H2O2, presumably mediated by the formation of hydroxyl radicals (*OH). This degradation was inhibited by either Zn-MT or Cd-MT, but not by Zn2+ or Cd2+ at similar concentrations. The Fe3+ -NTA/H2O2 resulted in a concentration dependent of increase in DNA strand scission. Damage to the sugar-phosphodiester chain was predominant over chemical modifications of the base moieties. Incubation with either Zn-MT or Cd-MT inhibited DNA damage by approximately 50%. Preincubation of MT with EDTA and N-ethylmaleimide, to alkylate sulfhydryl groups of MT, resulted in MT that was no longer able to inhibit DNA damage. These results indicates that MT can protect DNA from hydroxyl radical attack and that the cysteine thiol groups of MT may be involved in its nuclear antioxidant properties.     

Investigation of complexation of immobilized metallothionein with Zn(II) and Cd(II) ions using piezoelectric crystals

The aim of this study is to investigate complexation of metallothionein (MT) with cadmium and zinc ions. An oligopeptide (i.e. Lys-Cys-Thr-Cys-Cys-Ala), a fragment of MT was covalently immobilized onto piezoelectric crystals, which were first treated with ethylene diamine plasma in a glow-discharge apparatus, and then were chemically reacted with glutaraldehyde. Complexation of the immobilized MT with Zn(II) and Cd(II) ions in aqueous media was followed by recording the changes of the frequency shifts of the piezoelectric quartz crystals. The amount of Cd(II) ions interacted with the immobilized MT molecules was the highest at pH 7.4, and decreased with an increase in the pH of the medium, in parallel to the decrease in the amount of immobilized MT. The number of Zn(II) ions interacted with the immobilized MT molecules was higher than the number of Cd(II) ions when the adsorption was from solutions containing a single-metal ion with the same ion concentrations. In consecutive adsorption studies, we observed that the type of metal ions used in the first interaction is important. These experiments showed also that there is an exchange between the metal ions, and competition provokes adsorption of both ions due to synergistic-antagonistic effects.     

Effect of metallothionein on cell viability and its interactions with cadmium and zinc in HEK293 cells

Metallothioneins (MTs) are thought to participate in a wide variety of physiological roles, but the mechanisms involved are still unclear. The study was designed to examine the possible factors related to these mechanisms. Methods, including transfection, MTT assay and flow cytometry, were used to investigate the effect of MTs on cell viability and their interactions with cadmium and zinc in HEK293 cells. The results showed that transient overexpression of human MT1A, MT2 and MT3 genes dynamically affected cell viability, and the effect was influenced by zinc and cadmium ions. Overexpressed MTs with added zinc showed a greater inhibitory effect on cell viability. Overexpressed MTs protected cells against low concentrations of cadmium ions (10 microM), but increased cell death in response to high concentrations (20-50 microM). Out of the three MTs, MT1A was more efficient than MT2 and MT3 in its resistance to cadmium (10 microM), and MT3 together with zinc showed more cell growth inhibition than MT1 and MT2. These results indicate that both of the divalent metal ions that could bind MTs, as well as the individual MT isoforms, affect the role of MTs on cell viability, which may explain in part why the comprehensive effect of MTs on the cells was elusive.     

Domain specificity in metal binding to metallothionein. A circular dichroism and magnetic circular dichroism study of cadmium and zinc binding at temperature extremes

Rabbit liver Zn metallothionein-(MT) will bind cadmium readily between -26 degrees C and 70 degrees C. The binding reaction was monitored by recording the circular dichroism and magnetic circular dichroism spectra, in the region of the RS(-)----Cd2+ charge transfer transition at 250 nm, at intervals as aliquots of cadmium were added. For all temperatures, these data can be analyzed in terms of a distributed mechanism for cadmium binding when Zn-MT is used, and a domain-specific mechanism when apo-MT is used. The CD spectrum measured at -26 degrees C for Cd,Zn-MT, which was made by adding excess cadmium directly to Zn7-MT at -26 degrees C, is not the same as the CD spectrum of Cd-MT prepared at room temperature from the same Zn7-MT. Measurements of the stoichiometry of the cadmium and zinc bound to MT in the presence of excess cadmium at different temperatures indicates that below 5 degrees C at least one zinc atom remains bound to the protein. The mixed metal metallothionein, Cd/Zn-MT, that always forms below 5 degrees C, is characterized by a single maximum near 250 nm in the CD spectrum, rather than the derivative-shaped CD envelope that is diagnostic of the (Cd4-S11)alpha cluster, which indicates that the zinc occupies a site in the alpha domain. Rearrangement of the bound metals to the domain-specific distribution takes place if Cd,Zn-MT, prepared at subzero temperatures, is warmed above 30 degrees C.     

Immobilization of metallothionein to carbon paste electrode surface via anti-MT antibodies and its use for biosensing of silver

In this paper, heavy metal biosensor based on immobilization of metallothionein (MT) to the surface of carbon paste electrode (CPE) via anti-MT-antibodies is reported. First, the evaluation of MT electroactivity was done. The attention was focused on the capturing of MT to the CPE surface. Antibodies incorporated and mixed into carbon paste were stable; even after two weeks the observed changes in signal height were lower than 5%. Further, the interaction of MT with polyclonal chicken antibodies incorporated in carbon paste electrode was determined by square-wave voltammetry. In the voltammogram, two signals--labelled as cys(MT) and W(a)--were observed. The cys(MT) corresponded to -SH moieties of MT and W(a) corresponded to tryptophan residues of chicken antibodies. Time of interaction (300 s) and MT concentration (125 μg/ml) were optimized to suggest a silver(I) ions biosensor. Biosensor (CPE modified with anti-MT antibody) prepared under the optimized conditions was then used for silver(I) ions detection. The detection limit (3 S/N) for silver(I) ions was estimated as 0.5 nM. The proposed biosensor was tested by detection spiking of silver(I) ions in various water samples (from very pure distilled water to rainwater). Recoveries varied from 74 to 104%.     

异常汉逊酵母BD102金属硫蛋白的分离纯化和鉴定

从异常汉逊酵母中分离出拮抗Cu²⁺、Cd²⁺等重金属、并经铜、镉诱导产生金属硫蛋白的异常汉逊酵母 (Hansenulaanomala)BD1 0 2。无细胞抽提液经SephadexG 50、DEAESepharoseCL 6B、SephadexG 2 5三次凝胶及阴离子交换柱层析分离纯化 ,Cu²⁺诱导得到Cu MTs两个亚型 ,Cd²⁺诱导得到Cd MT一个亚型。Mr分别约为 7kD和 7 5kD ,由 60和 61个氨基酸组成 ,其中半胱氨酸含量各为 6.8%和 1.0 %。每分子金属硫蛋白 (Cu MTs或Cd MT)可结合 4个铜或镉原子     

中华鳖肝金属硫蛋白的分离、纯化及鉴定（英文）

金属硫蛋白(metallothionein,MT)是一类低分子量、富含半胱氨酸的金属结合蛋白.MT几乎广泛分布于所有生物,包括哺乳动物、两栖动物、鱼、植物、真菌和蓝细菌.不同生物金属硫蛋白理化特性和其氨基酸序列及中心片段的比较研究,对研究MT的结构和生物功能及生物的分子进化提供重要依据.哺乳动物MT研究较多,爬行动物鳖MT的研究尚属空白,本文报道鳖肝的金属硫蛋白.中华鳖 (Pelodiscus sinensis) 分别经皮下注射ZnSO4、CuSO4和CdCl2 溶液诱导后,取乙醇沉淀的肝脏无细胞提取液再经Sephadex G-50、DEAE-SepharoseCL-6B 及SephadexG-25凝胶过滤和离子交换柱层析分离,自鳖肝脏中分别获得Zn-MT、Cu-MT和Cd-MT,未经诱导的鳖肝脏中无MT.质谱和HPLC分析其分子量约为6 300 dalton.根据氨基酸组成分析,鳖肝脏MT含61个氨基酸残基,其中MT的典型氨基酸Cys含量占17%.Lys、Glu和Asp含量较高,而芳香族氨基酸和组氨酸含量极低.从紫外光谱特性分析,Zn-MT、Cu-MT、Cd-MT紫外吸收肩分别在220 nm、270 nm和250 nm.表明确为鳖肝脏MT.从氨基酸残基数和分子量看,鳖肝脏MT与哺乳动物MT类似;而从氨基酸组成和结合金属离子的量看,又与低等生物蚯蚓及酵母菌的MT类似.鳖MT的特性介于哺乳动物MT与低等生物MT之间,体现了鳖这种生物进化的特点.     

Effects of cadmium-metallothionein on renal organic ion transport and lipid peroxidation in rats

The effects of cadmium-metallothionein (Cd-MT) on organic ion uptake in renal cortical slices and lipid peroxidation in the kidney were studied in rats. For in vitro studies, slices were prepared from kidneys of control animals and incubated in buffer containing either cadmium chloride (CdCl₂) or Cd-MT in equimolar Cd concentrations ranging from 5 × 10^?6 to 2 × 10^?4 M. Uptake into the slices of the organic anion p-aminohippuric acid (PAH) was found to be inhibited by both forms of Cd in a dose-dependent manner. Although this inhibition was slightly greater in the presence of Cd-MT, accumulation of Cd into the slices was approximately 12 times greater with CdCl₂ than Cd-MT. Tetraethylammonium (TEA) uptake was less sensitive to the inhibitory effects of both CdCl₂ and Cd-MT, although a dose-dependent inhibition did occur with higher Cd concentrations. To study the in vivo effects of Cd-MT on transport function and lipid peroxidation in the kidney, rats were injected with Cd-MT (0.3 mg Cd per kilogram body weight [bw]) and sacrificed at specific time intervals. Similar to the in vitro studies, PAH uptake into the renal cortical slices was markedly inhibited within 12 hours after Cd-MT injection whereas inhibition of TEA uptake was less and not observed until 48 hours after injection. Only a small increase (1.4-fold) in lipid peroxidation, as measured by generation of malondialdehyde (MDA), in the kidney was detected at four hours postinjection, and no further increase was observed at later time periods. The results suggest that Cd-MT affects the transport of organic anions and cations during its renal uptake but that lipid peroxidation may play only a minor role in Cd-MT-induced renal toxicity.     

中华鳖肝金属硫蛋白的分离、纯化及鉴定

金属硫蛋白metallothionein,MT)是一类低分子量、富含半胱氨酸的金属结合蛋白。MT几乎广泛分布于所有生物,包括哺乳动物、两栖动物、鱼、植物、真菌和蓝细菌,不同生物金属硫蛋白理化特性和其氨基酸序列及中心片段的比较研究,对研究MT的结构和生物功能及生物的分子进化提供重要依据。哺乳动物MT研究较多,爬行动物鳖MT的研究尚属空白,本文报道鳖肝的金属硫蛋白,中华鳖（Pelodiscus sinensis)分别经皮下注射ZnSO4,CuSO4和CdCl2溶液诱导后,取乙醇沉淀的肝脏无细胞提取液再经SephadexG-50、DEAE-SepharoseCL-6B及SephadexG-25凝胶过滤和离子交换柱层析分离,自鳖肝脏中分别获得Zn-MT、Cu-MT和Cd-MT,未经诱导的鳖肝脏中无MT,质谱和HPLC分析其分子量约为6300dalton。根据氨基酸组成分析。鳖肝脏MT含61个氨基酸残基,其中MT的典型氨基酸Cys含量占17%。Lys,Glu和Asp含量较高,而芳香族氨基酸和组氨酸含量极低,从紫外光谱特性分析,Zn-MT、Cu-MT、Cd-MT紫外吸收肩分别在220nm、270nm和250nm。表明确为鳖肝脏MT。从氨基酸残基数和分子量看,鳖肝脏MT与哺乳动物MT类似;而从氨基酸组成和结合金属离子的量看,又与低等生物蚯蚓酵母菌的MT类似。鳖MT的特性介于哺乳动物MT与低等生物MT之间,体现了鳖这种生物进化的特点。