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1.
A study on the transfer of copper from Cu-thionein into apo-caeruloplasmin, using Cu-thionein that was previously oxidised by activated leucocytes, was performed. Cu(I)-thiolate oxidation was conveniently monitored by the progressive decline of the specific Cotton bands between 400 and 300 nm. The characteristic e.p.r. properties and NN-dimethyl-p-phenylenediamine oxidase activity indicated a successful formation of caeruloplasmin. Taking into account the simultaneous occurrence of leucocytes, apo-caeruloplasmin and Cu-thionein in blood plasma, such an interaction would favour a possible metabolic link between either copper protein.  相似文献   

2.
In the course of an oxidative burst oxygen free radicals and hypothiocyanite (OSCN), a transiently abundant derivative of thiocyanate (SCN), are formed in the presence of activated polymorphonuclear leukocytes (PMNs). At the same time Cu(I)-thionein is present and the question arose whether or not thiocyanate and its oxidized form may transiently release highly Fenton active copper to improve the efficacy of the above mentioned oxidative burst. Thus, the reaction of yeast Cu-thionein with OSCN was examined. Indeed, a release of copper from the Cu(I)-thiolate clusters of the protein was observed ex vivo. Both the chiroptic and luminescence emission signals of Cu-thionein essentially levelled off in the presence of a 15-fold molar excess of OSCN expressed per equivalent of thionein-copper. The effective copper-releasing activity of this reagent was confirmed by equilibrium dialysis. The demetallized protein could be reconstituted under reductive conditions. SCN did not affect the copper-thiolate bonding. It rather acts as a potent metabolic source for the transient copper release from Cu-thionein in the presence of activated PMNs.  相似文献   

3.
Differently bound copper(I) in yeast Cu8-thionein   总被引:1,自引:0,他引:1  
The reactivity of yeast Cu-thionein in the presence of the Cu(I)-chelators, bathocuproinesulphonate and cuproine, was examined to distinguish between possible differently coordinated Cu(I). Electronic absorption measurements revealed that two out of eight coppers of the protein reacted within seconds with the chelator. At the same time, the shape and magnitude of the characteristic Cotton bands attributable to the Cu(I)-thiolate chromophores remained constant. Due to the successful removal of circular dichroic silent copper, all specific theta Cu values rose by 53% of the original value. Thus, it is strongly suggested that two or more distinct types of Cu(I) ought to be present in Cu8-thionein. In the light of the many different Cu/cysteine ratios of Cu-thioneins from vertebrate and microbial origin, possible interconversion reactions of the Cu(I)-thiolate centres seem to be likely.  相似文献   

4.
Summary The release of intact CU(I)8-thionein from copper-resistant copper-loaded yeast cells, strain X 2180-1Aa, has been shown. This copper(I)-thiolate-rich protein was characterized and compared with the chemical and physicochemical properties of intracellular yeast Cu-thionein. The same molecular mass and stoichiometry of 8 mol copper atoms/mol protein was found. No detectable difference between the Cu-thioneins was seen in luminescence emission, electronic absorption in the ultraviolet region, chiroptical data or amino acid composition. The importance of stable Cu(I)-thiolates in Cu-thionein as a safe vehicle for transporting copper in a non-reactive manner is confirmed.  相似文献   

5.
《Inorganica chimica acta》1987,136(2):107-110
The leukocyte-induced oxidative cleavage of yeast Cu(I)-thionein was examined. Oxidation was followed by the progressive decline of the specific Cotton bands attributed to the Cu(I)-thiolate chromophores between 400 and 270 nm. Despite many potent and competitive copper binding sites certainly present in leukocytes, the reconstitution of apo-Cu2Zn2-superoxide dismutase was expected due to its higher thermodynamic stability. Both enzymic activity measurements and characteristic Cu(II) EPR properties of Cu2Zn2-superoxide dismutase supported a successful reconstitution. The most favoured pathway for releasing Cu(II) from Cu-thionein was suggested to be an enzyme- controlled oxidation.  相似文献   

6.
The role of Cu(I)-thiolate clusters during the proteolysis of Cu-thionein   总被引:3,自引:0,他引:3  
U Weser  W Mutter  H J Hartmann 《FEBS letters》1986,197(1-2):258-262
Rat liver Cu,Zn-[35S]thionein and yeast Cu-thionein were subjected to proteolysis in vitro using equilibrium dialysis. The partially copper-loaded vertebrate thionein (2-7 Cu/mol) was affected by different proteases including thermolysin, proteinase K, protease from Streptomyces griseus and lysosomal enzymes. Unlike the 2Cu-thionein the respective 7Cu-thiolate-centred metallothionein was hardly proteolytically digested. In contrast to fully copper-loaded native yeast Cu-thionein both the H2O2-oxidized and the metal-free protein were effectively cleaved in the presence of proteinase K. It is important to realize that the native Cu(I)-thiolate chromophore survives the proteolytic attack. When the copper-sulphur bonding is broken and the same amount of copper is unspecifically bound to the thionein portion, proteolysis proceeds identically with respect to the rate observed in the presence of the apoprotein. The unsuccessful proteolysis of native Cu-thionein is not attributable to a simple copper-dependent inhibition of the proteinases. It is suggested that prior to proteolysis the copper-sulphur clusters must be destroyed.  相似文献   

7.
Cobalt-(cysteinyl)4 tetrahedra in yeast cobalt(II)-thionein   总被引:3,自引:0,他引:3  
The conversion of yeast Cu(I)-thionein into the Co(II) derivative was successful. 2.6 Co atoms were incorporated per mole of protein yielding a Co : S ratio of 1 : 3. The electronic absorption of this highly air sensitive Co(II)-thionein is virtually identical to those of the Co(II) derivatives of other metallothioneins originating from vertebrates and N. crassa. Weaker Cotton extrema are noticed and the two doublet splittings of Cu-thionein disappeared. Throughout the molar ellipticities of the cobalt protein were markedly lower compared to those of the Cu-thionein. Owing to the characteristic charge transfer bands and d-d transitions a tetrahedral Co-thiolate coordination was deduced. The best fit proposal maintaining the above Co : S ratio of 1 : 3 was a six-membered ring with three bridging cysteine sulphurs.  相似文献   

8.
Our knowledge on the release of copper from Cu-thionein in biological systems is limited. Other than oxidative cleavage or direct transfer, the possibility of an alkylation mechanism seemed attractive. Iodoacetamide and methyl methanesulphonate were successfully employed to alkylate the Cu-thiolate sulphur atom of homogeneous Cu(I)-thionein from yeast. The alkylation caused a weakening of the Cu-S bonding, which led to the release of copper. After equilibrium dialysis a proportion of the released copper was found in the dialysis buffer. When iodoacetamide was used carboxymethylcysteine was detected in the protein hydrolysate. A 10-fold molar excess over cysteine was sufficient for complete alkylation, which could be conveniently monitored by c.d. at 328 and 359 nm. The reaction proceeded under both aerobic and anaerobic conditions. E.p.r. measurements of Cu2+ revealed unequivocally the complete cleavage of the Cu-thiolate bonding in less than 5 h. It is possible that this mode of copper release might be of relevance to the molecular transport of this biochemically important transition metal.  相似文献   

9.
Cu-thionein from yeast was investigated by EPR spectroscopy to probe the oxidation state of copper, and the effects on it of oxidizing and reducing agents. At pH 0.2 the copper was released, but no EPR signal from Cu(II) was observed, unless air was present. Optical experiments did not detect any disulphide groups which might have been formed during anaerobic release of copper. The mercurial, p-hydroxymercuribenzoate caused the release of EPR-detectable copper only under aerobic conditions, and EDTA caused release of Cu(II) on heating. No reduction of the copper-thiolate units in Cu-thionein by ascorbate was detected. Potentiometric titrations with hexachloroiridate(IV) or hexacyanoferrate(III) produced several different Cu(II) EPR signals at various stages of oxidation. The former oxidizing agent required a lower oxidation-reduction potential (+350 mV) to oxidize the copper, than the latter (+410 mV) and neither titration was fully reversible. The EPR signal from Cu(II) oxidized by hexachloroiridate(IV) resembled that produced by p-hydroxy-mercuribenzoate in air, suggesting that the copper was released from its thiolate ligands. It is concluded that the EPR non-detectable copper in the native protein is Cu(I). Oxidation-reduction of the copper-thiolate clusters of Cu-thionein is proposed to be decisive for controlling storage and transport of cellular copper.  相似文献   

10.
It was of interest to examine whether yeast Cu-thionein could be used to transfer the thiolate bound copper directly into the copper binding site of 'blue' apoproteins which contain free thiol groups. In particular apo-stellacyanin was used in the present study and it was found to be able to accept Cu(I) from yeast Cu-thionein, without any detectable unspecific Cu(II) intermediate, both aerobically and anaerobically.  相似文献   

11.
The reaction of yeast Cu-MT with nitric oxide (NO) was examined. A release of copper from the Cu(I)-thiolate clusters of the protein by this remarkably important reagent was observed in vitro. The characteristic spectroscopic signals of the Cu(I)-thiolate chromophores levelled off in the presence of a two-fold molar excess of NO expressed per equivalent of thionein-copper as monitored by UV-electronic absorption, circular dichroism and luminescence emission. At the same time all of the copper became EPR detectable. The oxidized metal ions could easily be removed from the protein moiety by gelfiltration. The reversibility of the copper releasing process is of special interest. The specific fluorescence and dichroic properties of the previously demetallized protein could be recovered up to 85% under reductive conditions. Moreover, no difference in the electrophoretic behaviour was seen compared to the untreated Cu-MT. Thus, NO may act as a potent metabolic source for the transient copper release from Cu-MT. In the course of an oxidative burst this highly Fenton active copper is able to improve the efficacy of biological defence mechanisms.  相似文献   

12.
Cu-thionein purified from rat liver contains 10 g atoms Cu per mole protein. EPR and NMR bulk susceptibility studies indicate that the copper ions are bound in a diamagnetic state. Purification of the metalloprotein anaerobically results in a sample in which 18 cysteines can be titrated by 2,2-dithiodipyridine. Only 10–12 cysteines could be titrated in aerobically prepared samples. The copper ions in aerobically prepared Cu-thionein are more easily removed by ethylenediaminetetraacetic acid and diethylenetriaminepentaacetic acid than are the ions in the anaerobically purified protein. Likewise, the Cu ions in aerobically prepared Cu-thionein molecules have the ability to reactivate aposuperoxide dismutase and to bind to apocarbonic anhydrase whereas the metal ions in anaerobically prepared Cu-thionein molecules do not. A qualitative correlation was found between the extent of sulfhydryl oxidation in Cu-thionein and the reactivity of thionein-bound Cu ions with chelators such as the apometalloenzymes. The reconstitution assay system represents a sensitive indicator of the reactivity of Cu-thionein. The results suggest that rat liver Cu-thionein is very susceptible to oxidation and the Cu-binding affinity varies accordingly.  相似文献   

13.
Chicken liver Cd, Zn-thionein (metallothionein) was isolated from Cd-pretreated chickens weighing 1 500 g. The native Cd, Zn-thionein contained 9 g-atoms of metals per 12 000 g of protein. Upon the addition of Cu(CH3CN)4ClO4, all Cd2 and Zn2 were successfully replaced. 15 g-atoms of Cu from the acetonitrile perchlorate complex were bound to the protein. Due to the absence of aromatic amino acid residues, thionein has unique ultraviolet and circular dichroism properties. The shoulder of the ultraviolet spectrum at 250 nm (A250 X A280(-1) = 23.9) was shifted to 275 nm (A250 X A280(-1) = 1.6). No significant absorption was detected in the visible region. Th conformational changes of the protein moiety were much more visible in the circular dichroism spectra. The titration with Cu(CH3CH)2 caused the appearence of three new Cotton effects: 257.5 nm (+), 350 nm (+) and 301 nm (-). The negative Cotton effect at 239 nm of the original metallothionein was completely levelled off. The binding strength of copper with thionein is extraordinarily high: it survives proton treatment up to pH 1.9. Displacement of the Cd2 by Cu employing Cd-thionein which was formed at pH 2.2 resulted in the same circular dichroism properties as observed for Cu-thionein. D-Penicillamine proved a suitable model for the metal-free thionein, since redox reactions and polymerization of the sterically hindered thiol residue are known to be slow. The correlation of the circular dichroism properties of either copper complex using thionein or D-penicillamine was surprisingly high. Circular dichroism measurements of Cu(I)-D-penicillamine revealed Cotton effects at 255 nm (+), 280 nm (+) and 355 nm (-). Upon examining the red-violet mixed Cu(-i)-cu(II)-D-penicillamine complex, Cotton bands in the visible region at 425 nm (-) and 495 nm (+) were seen. In many blue copper enzymes, the copper is assumed to be in the neighborhood of both cysteine and aromatic amino acid residues, which are known to play an important role in the electron transfer. This is not the case in the Cu-thionein, which would explain many different properties of this copper protein. It is very attractive to conclude that the sterically hindered SH-group of D-penicillamine reacts with excess copper in a specific way, similar to the Cu-thionein. This phenomenon could explain the considerable success of D-penicillamine in the treatment of Wilson's disease.  相似文献   

14.
The prion protein (PrPc) is a cuproprotein implicated in a number of human neurodegenerative diseases. Although many physiological functions have been ascribed to PrP, its potential to act as a neuronal antioxidant, based in part on its copper binding ability, is controversial and unresolved. A number of studies have shown that copper bound to PrPc is not redox silent, and recent data shows that the Cu(II) sites at histidines 96 and 111 display reversible electrochemistry. Reversible electrochemistry implies redox cycling whilst the metal remains bound and with the absence of permanent oxidation or reduction of the protein. Despite this indirect evidence of Cu(I) binding to PrP, the nature of the Cu(I) binding site/s is unclear, although previous extended X-ray absorption fine structure (EXAFS) data has implicated methionines in the Cu(I) binding site. Using spectroscopic techniques we find that the PrP region encompassing histidines 96 and 111 can bind a Cu(I) ion in a site comprising His 96, His 111, Met 109 and Met 112. The four-coordinate (His)2(Met)2 Cu(I) site has a Kd = 10−15–10−12 M indicative of high affinity. Mutation of histidine residues reduces the Cu(I) affinity. Although alluding to the fact the PrP could act in a direct superoxide dismutase-like fashion, the Cu(I)–PrP(91–124) site and affinity is comparable to that observed for bacterial periplasmic Cu(I) transporters.  相似文献   

15.
DNA was found to be cleaved by arenes and copper(II) salts in neutral solutions. The efficiency of this reaction is comparable with the DNA cleavage by such systems as Cu(II)–phenanthroline and Cu(II)–ascorbic acid in efficiency, but, unlike them, it does not require the presence of an exogenous reducing agent or hydrogen peroxide. The Cu2+–arene system does not cleave DNA under anaerobic conditions. Catalase, sodium azide as well as bathocuproine, a specific chelator of Cu(I), completely inhibit the reaction. Our results suggest that Cu(I) ions, superoxide radical and singlet oxygen participate in this reaction. It was shown by EPR and spin traps that the reaction proceeds with the formation of alkoxyl radicals capable of inducing breaks in DNA molecules. An efficient cleavage of DNA in the Cu(II)–o-bromobenzoic acid system requires the generation of radicals under the conditions of formation of a specific copper–DNA–o-bromobenzoic acid complex, in which copper ions are likely to be coordinated with oxygen atoms of the DNA phosphate groups.  相似文献   

16.
Induction and degradation of Zn-, Cu- and Cd-thionein in Chang liver cells   总被引:2,自引:0,他引:2  
Human liver cells (Chang liver) were exposed to 5 micrograms Zn, 2.5 micrograms Cu or 1 microgram Cd/ml in cultured medium. These exogeneous heavy metals were accumulated by the cells and induced de novo synthesis of metallothionein after a 3-h incubation period. The production of Zn-, Cu- or Cd-thionein started in the cells with accumulation of 1 nmol Zn, 0.3 nmol Cu and 0.1 nmol Cd/mg cytosol protein and subsequently the amounts of metal-binding thioneins increased in agreement with the relative amount of metal accumulated in the cytosol over a 24-h period. When cells containing Zn- or Cu-thionein were placed in metal free medium, 70% or 25% of the zinc or copper bound to each original metallothionein was released after 3 h; bound metals decreased to 85% and 65% respectively after 24 h. The disappearance of metal from metallothionein correlated with increases of metal in the medium. On the other hand, 35S-counts incorporated into Zn- and Cu-thionein decreased only to 40% and 15% of the levels in the original metallothionein after 3 h; 35S-counts decreased to 65% and 45%, respectively, after 24 h, indicating that metals bound to metallothionein decreased more quickly than 35S-counts. These results suggest that metals were released from metallothionein and were excreted into the medium. However, 35S- and 109Cd-counts in Cd-thionein changed very little, if at all, in the cells even after a 24-h incubation period. Our data strongly suggest that Zn- and Cu-thionein are degraded in the cells, but that Cd-thionein remains longer than either Zn- or Cu-thionein. When cells containing Zn-thionein were incubated in metal-free medium, Zn-thionein was digested in the cells and peptide fragments ranging about 200-400 daltons were excreted from the cells.  相似文献   

17.
The direct incorporation of Cu(I) from [Cu(I)(thiourea)3]Cl, a structural analogue of Cu-thionein, into apo-stellacyanin, was successful both aerobically and anaerobically. A characteristic c.d. band of Cu(I)-stellacyanin at 270 nm (0 = -12.5 X 10(3) degrees X cm2 X dmol-1) was seen. On oxidation with hexacyanoferrate(III) or by air, the correct Cu(II) binding into the active centre of this 'Type 1' Cu-protein was deduced from chiroptical measurements which were supported by e.p.r. data. Thus Cu-thiourea turned out to be an excellent Cu(I)-donor in aqueous systems for the complete reconstitution of mononuclear Blue copper proteins.  相似文献   

18.
Spinach plastocyanin was converted into the apoprotein. CuSO4 and oxidized Cu(II)- thionein reacted with the apoprotein to Cu(II) plastocyanin. Cu(I) transfer from Cu(I)0-thionein was only 15%. The structural analogue of the copper thiolate chromophore [Cu(I)(thiourea)3]Cl as well as [Cu(CH3CN)4]ClO4 successfully formed the Cu(I)- holoprotein. Characteristic circular dichroism bands at θ284 (?5300 deg·cm2·dmol?1 and θ310 (+3300 deg·cm2·dmol?1) were seen. Upon oxidation with ferricyanide and dialysis against phosphate buffer the correct Cu(II) binding into the active centre of Cu(II) plastocyanin was confirmed by EPR-measurements. The use of [Cu(I)(thiourea)3] Cl as a convenient Cu(I) source for reconstitution studies on copper proteins is highly recommended.  相似文献   

19.
Extracellular copper regulates the DNA binding activity of the CopY repressor of Enterococcus hirae and thereby controls expression of the copper homeostatic genes encoded by the cop operon. CopY has a CxCxxxxCxC metal binding motif. CopZ, a copper chaperone belonging to a family of metallochaperones characterized by a MxCxxC metal binding motif, transfers copper to CopY. The copper binding stoichiometries of CopZ and CopY were determined by in vitro metal reconstitutions. The stoichiometries were found to be one copper(I) per CopZ and two copper(I) per CopY monomer. X-ray absorption studies suggested a mixture of two- and three-coordinate copper in Cu(I)CopZ, but a purely three-coordinate copper coordination with a Cu-Cu interaction for Cu(I)2CopY. The latter coordination is consistent with the formation of a compact binuclear Cu(I)-thiolate core in the CxCxxxxCxC binding motif of CopY. Displacement of zinc, by copper, from CopY was monitored with 2,4-pyridylazoresorcinol. Two copper(I) ions were required to release the single zinc(II) ion bound per CopY monomer. The specificity of copper transfer between CopZ and CopY was dependent on electrostatic interactions. Relative copper binding affinities of the proteins were investigated using the chelator, diethyldithiocarbamic acid (DDC). These data suggest that CopY has a higher affinity for copper than CopZ. However, this affinity difference is not the sole factor in the copper exchange; a charge-based interaction between the two proteins is required for the transfer reaction to proceed. Gain-of-function mutation of a CopZ homologue demonstrated the necessity of four lysine residues on the chaperone for the interaction with CopY. Taken together, these results suggest a mechanism for copper exchange between CopZ and CopY.  相似文献   

20.
Dysregulation of copper and zinc homeostasis in the brain plays a critical role in Alzheimer disease (AD). Copper binding to amyloid-beta peptide (Abeta) is linked with the neurotoxicity of Abeta and free radical damage. Metallothionein-3 (MT-3) is a small cysteine- and metal-rich protein expressed in the brain and found down-regulated in AD. This protein occurs intra- and extracellularly, and it plays an important role in the metabolism of zinc and copper. In cell cultures Zn7MT-3, by an unknown mechanism, protects neurons from the toxicity of Abeta. We have, therefore, used a range of complementary spectroscopic and biochemical methods to characterize the interaction of Zn7MT-3 with free Cu2+ ions. We show that Zn7MT-3 scavenges free Cu2+ ions through their reduction to Cu+ and binding to the protein. In this reaction thiolate ligands are oxidized to disulfides concomitant with Zn2+ release. The binding of the first four Cu2+ is cooperative forming a Cu(I)4-thiolate cluster in the N-terminal domain of Cu4,Zn4MT-3 together with two disulfides bonds. The Cu4-thiolate cluster exhibits an unusual stability toward air oxygen. The results of UV-visible, CD, and Cu(I) phosphorescence at 77 K suggest the existence of metal-metal interactions in this cluster. We have demonstrated that Zn7MT-3 in the presence of ascorbate completely quenches the copper-catalyzed hydroxyl radical (OH.) production. Thus, zinc-thiolate clusters in Zn7MT-3 can efficiently silence the redox-active free Cu2+ ions. The biological implication of our studies as to the protective role of Zn7MT-3 from the Cu2+ toxicity in AD and other neurodegenerative disorders is discussed.  相似文献   

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