The mercury-203 method for evaluating metallothioneins: interference by copper, mercury, oxygen, silver and selenium

Metallothioneins are low molecular weight proteins rich in sulfhydryl groups (cysteinyl) which readily bind various heavy metal cations, e.g. cadmium, copper, gold, mercury, silver and zinc. Mercury has a particular affinity for sulfhydryl groups and mercury-203 has been used as the basis of a rapid, sensitive, radiometric assay for metallothionein. The potential of 16 metals and oxygen for interfering with this test was examined. The mercury-203 test appears to be sensitive to the presence of copper, mercury, oxygen, selenium and silver.     

Complexes of copper and gold with phosphorus-sulfur bidentate ligands

Copper(II) salts react with the bidentate hybrid ligands 1-thiophenyl-2-diphenylphosphinoethane (PSPh) and 1-thioethyl-2-diphehylphosphinoethane (PSEt) to yield copper(I) and/of copper(II) complexes of composition [Cu(PSR)₂]Y andCu- (OPSR)₂] Y₂(Y=C10₄, BF₄; OPSR=phosphinooxide of the PSR ligand). A mixed-valence species cu″?(OPSEt)₂Y₂·Cu′(PSR)₂Y has been isolated. The interaction of the PSR ligands with silver(I) and gold(III) salts has been also studied and gold(I) derivatives of the type [AuX(PSR)] have been isolated.     

Effects of temperature and humidity on the efficacy of methicillin-resistant Staphylococcus aureus challenged antimicrobial materials containing silver and copper

Aims:  To compare silver and copper, metals with known antimicrobial properties, by evaluating the effects of temperature and humidity on efficacy by challenging with methicillin resistant Staphylococcus aureus (MRSA) .
Methods and Results:  Using standard methodology described in a globally used Japanese Industrial Standard, JIS Z 2801, a silver ion-containing material exhibited >5 log reduction in MRSA viability after 24 h at >90% relative humidity (RH) at 20°C and 35°C but only a <0·3 log at ∼22% RH and 20°C and no reduction at ∼22% RH and 35°C. Copper alloys demonstrated >5 log reductions under all test conditions.
Conclusions:  While the high humidity (>90% RH) and high temperature (35°C) utilized in JIS Z 2801 produce measurable efficacy in a silver ion-containing material, it showed no significant response at lower temperature and humidity levels typical of indoor environments.
Significance and Impact of the Study:  The high efficacy levels displayed by the copper alloys, at temperature and humidity levels typical of indoor environments, compared to the low efficacy of the silver ion-containing material under the same conditions, favours the use of copper alloys as antimicrobial materials in indoor environments such as hospitals.     

Mercury, silver, and gold inhibition of selenium-accelerated cysteine oxidation

In vivo, cysteine in proteins or glutathione is the major amino acid involved in sulfhydryl oxidation-reduction reactions. An in vitro model of cysteine oxidation accelerated by selenium compounds was used to study the interaction of selenocystine and sodium selenite with metal ions. The interaction of metal ions with selenium compounds inhibited cysteine oxidation. The ionic forms of three toxic soft-acid metals, mercury, silver, and gold, were the most effective inhibitors. The antiarthritic gold drugs, aurothiomalate and aurothioglucose, were of particular interest as they inhibit the activity of selenium-glutathione peroxidase. The effect of gold ligands on gold(I) inhibition of selenocystine-accelerated cysteine oxidation was tested. Sodium cyanide partially reversed inhibition and potassium iodide had no effect. Inhibition of selenium-accelerated oxidation-reduction reactions by soft-acid metal ions may be of biological relevance during toxicities or during antiarthritic gold therapy.     

Inactivation of coliphage MS-2 and poliovirus by copper, silver, and chlorine.

The efficacy of electrolytically generated copper and silver ions (400 and 40 micrograms/L, respectively) was evaluated separately and in combination with free chlorine (0.2 and 0.3 mg/L) for the inactivation of coliphage MS-2 and poliovirus type 1 in water at pH 7.3. The inactivation rate was calculated as log10 reduction/min: k = -(log10 Ct/C0)/t. The inactivation of both viruses was at least 100 times slower in water containing 400 and 40 micrograms/L copper and silver, respectively (k = 0.023 and 0.0006 for MS-2 and poliovirus, respectively), compared with water containing 0.3 mg/L free chlorine (k = 4.88 and 0.036). Significant increases in the inactivation rates of both viruses were observed in test systems containing 400 and 40 micrograms/L copper and silver, respectively, with 0.3 mg/L free chlorine when compared with the water systems containing either metals or free chlorine alone. Poliovirus was approximately 10 times more resistant to the disinfectants than coliphage MS-2. This observation suggests either a synergistic or an additive effect between the metals and chlorine for inactivation of enteric viruses. Use of copper and silver ions in water systems currently used in swimming pools and spas may provide an alternative to high levels of chlorination.     

Metallic gold and silver colours in some insect cuticles

Broad bandwidth physical gold and silver cuticular interference reflectors were studied with a microspectroscope. Plusiotis optima adults reflect wavelengths throughout the human visible spectrum, appearing silver because of their high reflectivity. In P. gloriosa, the silver stripes are broad bandwidth interference reflectors whereas the green stripes reflect a narrow bandwidth. Pupae of Heliconius erato have regions which are silver and other parts where physical silver is combined with chemical tanning colouration to produce a gold colour. Developmental changes of silver in Antheraea pernyi larvae, of gold in adult Aspidomorpha tecta, and of silver and gold in pupal Heliconius erato are described. Reversible colour changes in living A. tecta adults were mimicked by placing pieces of cuticle in buffer solutions of different pH. During starvation the endocuticle which produces the physical colour is resorbed and the brightness reduces. The diversity of golds and silvers is discussed with reference to location of layers responsible, tanning, pigments, extracellular pH control, cuticular hydration, and possible defence mechanisms.     

The effects of cadmium and copper on the renal uptake and metallothionein binding of gold in the rat and hamster

Rats and hamsters, (pre)-treated with copper and cadmium, were used to investigate whether species-differences in renal metallothionein synthesis in response to gold were determined by changes in the kidney concentrations of other metals. The effects of both dietary copper limitation and excess on the renal metabolism of gold also were studied in the rat. In this species, all of the pre-treatments affected the renal concentrations of total and metallothionein-bound copper, but none of them altered either the kidney uptake or thionein-binding of gold. Incorporation of zinc into the metallothionein, which accompanied the binding of gold in this fraction of the kidney, however, was influenced slightly by the pretreatments. In hamsters, pretreatment with cadmium, which increased the concentrations of total and thionein-bound zinc in the kidneys, also did not affect the renal uptake of gold, although it increased significantly the binding of gold to the metallothionein fraction of the renal cytosol. This increased binding of gold also was accompanied by further increases in the zinc and copper contents of the metallothionein; the contents of total and thionein-bound cadmium, however, remained essentially unchanged. Concentrations of copper and zinc in the hamster kidney were not affected significantly by subcutaneous administration of copper alone (five daily doses, each of 3.2 mg Cu/kg body wt.), but were increased when gold was given during the copper-treatment. The concentrations of gold, copper and zinc in the renal metallothionein fraction also were increased under these conditions. From these results it seems that kidney metallothionein synthesis in response to gold may be related to the changes in either the concentration or distribution of zinc, rather than copper.     

Gold and silver accumulation by Aspergillus niger from cyanide-containing solution obtained from the gold mining industry

An Aspergillus niger strain accumulated gold and silver from solution containing high cyanide concentrations. Our results show that A. niger is of potential use for the removal of metals and/or the recovery of valuable metals from cyanide-containing solutions.     

Gold and silver accumulation by Aspergillus niger from cyanide-containing solution obtained from the gold mining industry

An Aspergillus niger strain accumulated gold and silver from solution containing high cyanide concentrations. Our results show that A. niger is of potential use for the removal of metals and/or the recovery of valuable metals from cyanide-containing solutions.     

Silver,copper, lead and zinc accumulation byPseudomonas stutzeri AG259 andStreptomyces albus : electron microscopy and energy dispersive X-ray studies

Metal accumulation by a silver-resistant Pseudomonas stutzeri AG259 strain and a Streptomyces albus strain was investigated in a mixed metal solution of silver, copper, lead and zinc. The location of silver, lead and copper on cells was determined by transmission electron microscopy coupled with an X-ray analysis system. In P. stutzeri cells silver was detected as dense deposits on the cells. Copper and lead were distributed over the cells. S. albus accumulated these metals only on part of cells with a higher concentration per cell than in P. stutzeri.     

Synthesis of gold nanotriangles and silver nanoparticles using Aloe vera plant extract

Biogenic gold nanotriangles and spherical silver nanoparticles were synthesized by a simple procedure using Aloe vera leaf extract as the reducing agent. This procedure offers control over the size of the gold nanotriangle and thereby a handle to tune their optical properties, particularly the position of the longitudinal surface plasmon resonance. The kinetics of gold nanotriangle formation was followed by UV-vis-NIR absorption spectroscopy and transmission electron microscopy (TEM). The effect of reducing agent concentration in the reaction mixture on the yield and size of the gold nanotriangles was studied using transmission electron microscopy. Monitoring the formation of gold nanotriangles as a function of time using TEM reveals that multiply twinned particles (MTPs) play an important role in the formation of gold nanotriangles. It is observed that the slow rate of the reaction along with the shape directing effect of the constituents of the extract are responsible for the formation of single crystalline gold nanotriangles. Reduction of silver ions by Aloe vera extract however, led to the formation of spherical silver nanoparticles of 15.2 nm +/- 4.2 nm size.     

Cytogenetic effects of silver and gold nanoparticles on Allium cepa roots

The present study evaluates the cytogenetic effects of both silver and gold nanoparticles on the root cells of Allium cepa. In this study, the root cells of Allium cepa were treated with both gold and silver nanoparticles of different concentrations (1?mg/L, 5?mg/L and 10?mg/L) along with control for 72?h. Experimental results revealed that after 72?h of exposure, a significant decrease in mitotic index (MI) from 68% (control) to 52.4% (1?mg/L), 47.3% (5?mg/L) and 41.4% (10?mg/L) for gold nanoparticles and 57.1% (1?mg/L), 53% (5?mg/l), 55.8% (10?mg/L) for silver nanoparticles. Through minute observation of the photograph, it was recorded that some specific chromosomal abnormalities such as stickiness of chromosome, chromosome breaks, nuclear notch, and clumped chromosome at different exposure conditions. Therefore, present results clearly suggest that Allium cepa root tip assay could be a viable path through which negative impact of both gold and silver nanoparticles can be demonstrated over a wide range of concentrations.     

The independent cue and cus systems confer copper tolerance during aerobic and anaerobic growth in Escherichia coli

Copper is essential but can be toxic even at low concentrations. Coping with this duality requires multiple pathways to control intracellular copper availability. Three copper-inducible promoters, controlling expression of six copper tolerance genes, were recently identified in Escherichia coli. The cue system employs an inner membrane copper transporter, whereas the cus system includes a tripartite transporter spanning the entire cell envelope. Although cus is not essential for aerobic copper tolerance, we show here that a copper-sensitive phenotype can be observed when cus is inactivated in a cueR background. Furthermore, a clear copper-sensitive phenotype for the cus system is revealed in the absence of O(2). These results indicate that the cue pathway, which includes a copper exporter, CopA, and a periplasmic oxidase, CueO, is the primary aerobic system for copper tolerance. During anaerobic growth, however, copper toxicity increases, and the independent cus copper exporter is also necessary for full copper tolerance. We conclude that the cytosolic (CueR) and periplasmic (CusRS) sensor systems differentially regulate copper export systems in response to changes in copper and oxygen availability. These results underscore the increased toxicity of copper under anaerobic conditions and the complex adaptation of copper export in E. coli.     

Involvement of copper in female reproduction

Copper (Cu) is one of the essential trace metals which are necessary in maintaining the functioning of living organisms. The current knowledge on the role of copper in animal reproduction is presented in the article. Our studies have shown that complexes of copper (Cu(2+)) with gonadotropin-releasing hormone (GnRH) are even more effective in the release of LH than native GnRH. Moreover, Cu-GnRH is more potent in inducing in vivo release of FSH than LH. Copper complexes with GnRH interact with GnRH receptors (GnRHR) and modulate intracellular signaling in the gonadotrope cells of the anterior pituitary. Copper plays also a significant role in maintaining normal fetus development in mammals.     

Autometallography: tissue metals demonstrated by a silver enhancement kit

In biological tissue, minute accumulations of gold, silver, mercury and zinc can be visualized by a technique whereby metallic silver is precipitated on tiny accumulations of the two noble metals, or on selenites or sulphides of all four metals. In the present study a silver enhancement kit, primarily intended for the amplification of colloidal gold particles, has been used to demonstrate these catalytic tissue metals. Sections from animals exposed intravitally to aurothiomalatate, silver lactate, mercury chloride, sodium selenite or perfused with sodium sulphide were subjected to a commercial silver enhancement kit (IntenSE, Janssen Pharmaceutica). It was found that the kit performs adequately to the silver lactate gum arabic developer and to the photographic emulsion technique. The kit can be used as a silver enhancement medium for the demonstration of zinc by the Neo-Timm and selenium methods and for demonstration of gold, silver, and mercury in tissues from animals intravitally exposed to these metals. It can also be used for counterstaining silver treated osmium fixed tissues embedded in plastic.     

Proteomic identification of the Cus system as a major determinant of constitutive Escherichia coli silver resistance of chromosomal origin

Although silver is one of the most potent and rapidly acting toxic metals to bacteria, silver-resistant bacteria do exist with low incidence. A proteomic approach was employed to identify the silver resistance determinants of a silver-resistant Escherichia coli strain isolated from stepwise selection against increasing concentrations of silver (Li et al. J. Bacteriol 1997, 179, 6127-32). Two-dimensional gel electrophoresis and mass spectrometry analysis revealed that members of the CusCFBA copper/silver chemiosmotic efflux system were highly expressed in the silver-resistant strain but undetectable in the parental silver-sensitive strain. Disruption of the cus locus of the silver-resistant strain resulted in a decrease of the minimum inhibitory concentration of Ag (+) from more than 1 mM to 12 microM. These results suggest that the chromosomally encoded Cus system, which naturally controls the periplasmic copper concentrations, is selectable to confer a constitutive silver resistance phenotype.     

Biochemical,physiological, and structural effects of excess copper in plants

Heavy metal pollution is one of the most troublesome environmental problems faced by mankind nowadays. Copper, in particular, poses serious problems due to its widespread industrial and agricultural use. Unlike other heavy metals, such as cadmium, lead, and mercury, copper is not readily bioaccumulated and thus its toxicity to man and other mammals is relatively low. On the contrary, plants in general are very sensitive to Cu toxicity, displaying metabolic disturbances and growth inhibition at Cu contents in the tissues only slightly higher than the normal levels.     

Synthesis of polysaccharide-stabilized gold and silver nanoparticles: a green method

A simple, green method was developed for the synthesis of gold and silver nanoparticles by using polysaccharides as reducing/stabilizing agents. The obtained positively charged chitosan-stabilized gold nanoparticles and negatively charged heparin-stabilized silver nanoparticles were characterized with UV-vis spectroscopy and transmission electron microscopy. The results illustrated the formation of gold and silver nanoparticles inside the nanoscopic polysaccharide templates. Moreover, the morphology and size distribution of prepared gold and silver nanoparticles varied with the concentration of both the polysaccharides and the precursor metal salts.