Isolation and partial characterization of the low-molecular-mass zinc/cadmium-binding protein from the testes of the patas monkey (Erythrocebus patas). Distinction from metallothionein.

The mammalian testes are generally quite susceptible to cadmium. A deficiency of metallothionein (MT), a metal-binding protein linked to Cd tolerance, has been observed in rat testes and may explain the sensitivity in rats. Little is known about the metal-binding proteins in primate testes. Thus this study examined the nature of these proteins in a non-human primate species, the patas monkey (Erythrocebus patas). In all cases proteins isolated from testes were compared with authentic MT isolated from the liver of a zinc-treated monkey. A low-molecular-mass Zn/Cd-binding protein was seen in testicular and hepatic cytosol after gel filtration. Neither protein had substantial amounts of associated copper. These proteins could be partially purified from both sources by heat treatment and acetone precipitation. When such extracts were further separated by reverse-phase h.p.l.c., four hepatic forms were isolated, all of which proved to be authentic MT by amino acid analysis. However, only two testicular forms were separated by h.p.l.c., both of which had amino acid compositions quite unlike that of MT, having a much lower cysteine content and amino acids which are absent from MT (leucine and phenylalanine). The testicular protein appeared to be uninducible by Zn treatment. These results suggest that the low-molecular-mass Cd/Zn-binding proteins in the patas testes are not MTs and further support the hypothesis that a MT deficiency may be an important determinate of the marked testicular sensitivity to Cd toxicity.     

Relative cadmium-binding capacity of metallothionein and other cytosolic fractions in various tissues of the rat.

The Cd-binding capacity of soluble proteins in 10 tissues of normal rats not excessively exposed to heavy metals was measured by saturation of freshly isolated cytosol with 109CdCl2 in vitro followed by Sephadex G-75 chromatography. The Cd-binding capacity of a 10,000 molecular weight Cd-binding peak (10,000 MW Cd-BP), which had a high affinity for Cd and was probably metallothionein, was the highest in kidney (78nmol Cd/g fresh tissue), followed by testis (63 nmol/g), liver (38 nmol/g) and then by brain (14 nmol/g). The amount of the Cd-BP in these tissues (assuming that it was metallothionein and bound 9 mol Cd/10,000g) was calculated to be 87, 70, 42 and 16 mg/kg fresh tissue in kidney, testis, liver and brain, respectively, or in the order of 10(-5) to 10(-6) mol/kg tissue. A significant amount of the 10,000 MW Cd-BP was also found in small intestine. It was present in rather small amounts in heart and lung, and possibly in spleen and skeletal muscle as well. In contrast, the protein was not detectable by this technique in plasma. The results suggest that metallothionein is a rather ubiquitous, intracellular protein in tissues of normal animals and may have other biological functions, besides its possible fortuitous role in heavy metal detoxification. A 30,000 molecular weight Cd-binding peak (30,000 MW Cd-BP) having a very high affinity Cd, apparently higher than that of the 10,000 MW Cd-BP, was found only in testes, among the 10 tissues examined. Its estimated Cd-binding capacity was 51 nmol Cd/g of testis, slightly less than that of metallothionein in testis. These findings support the hypothesis that the 30,000 MW Cd-BP is a plausible target of Cd in Cd-induced testicular injury, and suggest a basis for the peculiar sensitivity of the rat testis to Cd.     

In vitro assessment of target cell specificity in cadmium carcinogenesis: Interactions of cadmium and zinc with isolated interstitial cells of the rat testes

Summary Cadmium (Cd) induces testicular tumors of interstitial cell (IC) origin in rats which can be prevented by zinc (Zn). Zn-induced synthesis of metallothionein (MT), a metal-binding protein with a high affinity for Cd, is thought to account for tolerance to Cd in most tissues by sequenstration of Cd. However, the mechanism of Zn inhibition of Cd-induced carcinogenesis in the testes is unknown. Our studies with ICs obtained by collagenase dispersion of rat testes, indicate the levels of the Cd-binding protein in ICs are unaltered by Zn. This testicular protein also was found to differe from MT in amino acid content and to have a lower affinity for Cd. Thus, MT does not seem to be involved in protection of ICs against Cd carcinogenesis. Altered Cd toxicokinetics as a possible explantation for Zn-induced tolerance was therefore explored. Cd uptake into isolated ICs had passive diffusion and nonpassive (carrier mediated or active transport or both) components. The nonpassive component of Cd accumulation was markedly reduced by addition of Zn in vitro, indicative of competition for uptake at the cellular level. These results indicate that toxicokinetic alterations leading to reduced Cd accumulation may play an important role in Zn induction of tolerance to Cd carcinogenesis in the testes. Paper presented at the 38th Annual Meeting of the Tissue Culture Association in Arlington, Virginia, in May 1987. The session was chaired by Dr. Carlton H. Nadolney, member of the TCA Committee on Toxicity, Carcinogenesis and Mutagenesis Evaluation.     

Testicular toxicity induced by dietary cadmium is associated with decreased testicular zinc and increased hepatic and renal metallothionein and zinc in the bank vole <Emphasis Type="Italic">(Clethrionomys glareolus)</Emphasis>

Mechanism of testicular toxicity induced by dietary cadmium (Cd) has been less investigated than that following acute Cd injection. In the present study we characterized testicular injury in a small rodent, the bank vole, exposed subchronically to dietary Cd in a quantity of 0.9 mol/g, and determined the importance of some factors (Cd accumulation, metallothionein (MT), oxidative stress, and zinc (Zn)) in the injury. Dietary Cd induced moderate histopathological changes (hemorrhage in interstitium, necrosis and apoptosis in seminiferous tubule epithelium) in young (1 month old) bank voles fed, for 6 weeks, Fe-adequate (1.1–1.4 mol/g) and Fe-enriched (4.5–4.8 mol/g) diets. In contrast, adult (5 months old) bank voles appeared to be resistant to the toxic effects of dietary Cd, despite the fact that testicular Cd contents were higher and MT levels lower than those in the young animals. The Cd-induced histopathological changes and apoptosis were accompanied by increased testicular lipid peroxidation, decreased testicular Zn concentration and elevated levels of hepatic and renal MT and Zn. Supplemental dietary Zn (1.7–1.8 mol/g) prevented the Cd-induced testicular Zn depletion and injury. The data indicate that dietary Cd produces testicular lesions indirectly, through decreasing testicular Zn, which seems to be due to the sequestration of this element by the Cd-induced hepatic and renal MT.     

The longitudinal distribution of cadmium,zinc, copper,iron, and metallothionein in the small-intestinal mucosa of rats after administration of cadmium chloride

Different routes of Cd intake may influence the intestinal distribution of Cd, metallothionein (MT), and trace metals differently. Therefore, we compared the effects of parenteral and enteral administration of Cd on the distribution of trace metals and MT along the small intestine. In a first experiment three groups of rats were employed: a control, one receiving CdCl₂ within the drinking water, and another receiving sc injections of CdCl₂. In a second experiment, rats were fed three different diets with either 0, 0.3, or 1 mmol CdCl₂/kg for one and two weeks to study the time- and dose-dependent effects of orally administered Cd. Metal concentrations (Cd, Zn, Cu, Fe) were measured by atomic emission spectrometry and MT was determined by radioimmunoassay. Intestinal MT levels did not show proximodistal gradients in controls or after sc administration of Cd, but orally administered Cd increased mucosal MT levels longitudinally from the duodenum to the ileum. Cd levels paralleled those of MT. Compared with the metal concentrations in the controls, sc administration of Cd did not change intestinal Zn, Cu, and Fe levels. Oral administration of Cd, however, increased Cu and decreased Fe levels in the intestinal mucosa significantly. The second experiment revealed that only high dietary concentrations of Cd increase intestinal Cd and MT levels longitudinally toward the distal parts, whereas at lower dietary concentration the longitudinal distribution was reversed. This shows that different routes and doses of Cd intake lead to a different trace metal and MT distribution and emphasizes the role of dietary Cd in the local induction of small-intestinal MT.     

Isolation of a novel rat testicular metalloprotein binding cadmium and zinc

Various testicular metal-binding proteins having apparent mol wt in the range of 10–30 kD have been demonstrated by gel filtration of¹⁰⁹Cd- or⁶⁵Zn-labeled cytosol, but in no case has a purified metalloprotein been isolated that contains stoichiometric amounts of the metal. The purpose of this work was to purify from rat testes a testes-specific 30 kD Cd-binding protein (Cd-testin) following in vitro addition of¹⁰⁹Cd to testis cytosol. Conventional purification methods similar to those used for purification of metallothionein could not be used because Cd was not retained in stoichiometric amounts by the 30 kD species when these methods were employed. However, using ammonium sulfate fractionation, hydrophobic interaction and gel filtration chromatography, a 30 kD protein containing 2.6 mol of Cd/ mol of protein was isolated. Two-dimensional sodium dodecyl sulfate polyacrylamide gel electrophoresis demonstrated that the isolated protein contained one major polypeptide with a mol mass of 22 kD and a pI of 4.6 (22 kD/pI 4.6) and two minor polypeptides (16 kD/pI 4.6 and 10±4 kD/pI 6.3) Two-dimensional gel electrophoresis demonstrated that the 22 kD species is a major low mol mass (<60 kD) protein in rat testic cytosol. The 22 kD protein was not detectable in cytosol of rooster testis, a tissue that is insensitive to Cd-induced damage and devoid of the 30 kD Cd-binding protein. Gel filtration and hydrophobic interaction chromatography of¹⁰⁹Cd- and⁶⁵Zn-labeled cytosol demonstrated that¹⁰⁹Cd and⁶⁵Zn cochromatography with the 30 kD protein. The function of this novel 30 kD testicular metal-binding protein is not known, but our work and other studies suggest that its occurrence in testes is linked to the production of a unique 22 kD polypeptide.     

Some properties of a unique cadmium-binding moiety in the soluble fraction of rat testes.

A 30,000 molecular weight testicular Cd-binding peak (30,000 MW Cd-BP) previously implicated in Cd-induced testicular injury was unstable during storage with respect to apparent molecular weight determined by Sephadex G-75 chromatography. Storage of testicular cytosol labeled with 109Cd in vivo or in vitro for several days at 4 degrees C under nitrogen resulted in disappearance of the 30,000 MW Cd-BP and increased 109Cd uptake in other protein fractions. Rechromatography of the previously isolated 30,000 MW Cd-BP after storage gave rise to a 109Cd peak eluting in the higher molecular weight region. The latter effect was prevented by 1 mM dithiothreitol, suggesting that sulfhydryl groups were involved in the apparent aggregation. The 30,000 MW Cd-BP found in testes of rats was not present in testes of roosters, nor in liver and kidney of either species, providing further evidence of a correlation between the occurrence of 30,000 MW Cd-BP protein in the tissue and susceptibility to Cd-injury. The inability of parenterally administered HgCl2 to induce testicular injury compared to the same dose of CdCl2(0.011 mmol/kg) is apparently related to the poor uptake of Hg in the testes (one-eighteenth that of Cd) rather than to an inability of Hg to bind to the 30,000 MW Cd-BP. Our studies indicate that binding of Cd to this unique 30,000 MW testicular component, as yet unidentified, is a possible basis for the unique sensitivity of the testis to Cd injury.     

Interactions between cadmium,selenium and glutathione peroxidase in rat testis

In rats given a minimal damaging dose of ¹⁰⁹CdCl₂ (0.011 mmole/kg, s.c.), a visible hemorrhagic response was evident after 48 h when testicular Cd uptake exceeded a level of approx. 150 ng/g. Glutathione peroxidase (GSH-Px) activity was elevated in homogenates of these damaged testes. In rats whose testes were not damaged, the Cd levels were below 150 ng/g and the GSH-Px activity was similar to that of control animals injected with sodium acetate. Rat testis cytosol was found to contain two different GSH-Px activities when assayed with cumene hydroperoxide. These could be separated by gel filtration chromatography. The larger species (GSH-Px A) was eluted in the void volume on Sephadex G-150 and incorporated ⁷⁵Se from Na₂⁷⁵SeO₃ given 4 weeks earlier. The smaller species, of approx. 42 000 molecular weight (MW) (GSH-Px B), did not incorporate ⁷⁵Se and could be distinguished from GSH-Px A by its insensitivity to cyanide (10 mM). CdCl₂ (1 mM) did not inhibit GSH-Px activity when added in vitro to GSH-Px A or B from testicular cytosol, or to purified GSH-Px isolated from ovine erythrocytes. When ¹⁰⁹CdCl₂ was given in vivo to rats injected 4 weeks previously with a tracer dose of Na₂⁷⁵SeO₃ or added in vitro to cytosol prepared from similarly labeled rats, Sephadex G-150 chromatography of cytosol showed that most of the ¹⁰⁹Cd was eluted in a major peak of 34 000 MW. Little or no ¹⁰⁹Cd was found in association with ⁷⁵Se (major peak 140 000 MW) or GSH-Px activity. When ¹⁰⁹CdCl₂ was injected into rats given an equimolar dose of Na₂⁷⁵SeO₃ 30 min previously, ¹⁰⁹Cd uptake in cytosol was increased and both ¹⁰⁹Cd and ⁷⁵Se was shifted into a peak of 110 000 MW.The ¹⁰⁹Cd-binding peak of approx. 30 000–34 000 MW was the major Cd-binding fraction in cytosol of 7-week-old rats but was not detectable in 4-week-old rats. Susceptibility of the testes to Cd did not correlate with the presence of this peak, however, since 4-week-old rats were occassionally damaged by CdCl₂.     

Acrylonitrile interaction with testicular DNA in rats

In the present study we report the in vivo interaction of acrylonitrile (VCN) with testicular tissue in rats. Covalent binding of radioactivity to testicular tissue DNA was examined for a period of 72 hr after a single oral dose (46.5 mg/kg) of [2, 3-¹⁴C] VCN. Maximal covalent binding was observed at 0.5 hr (8.9 μmol VCN equivalent/mol nucleotide). Binding decreased gradually thereafter but was still detected (2.5 μmol VCN equivalent/mol nucleotide) at 72 hr following VCN administration. Further, we examined the effects of VCN on DNA synthesis and repair in the testes of rats following a single oral dose (46.5 mg/kg) of VCN to clarify the impact of the covalent binding observed on the testicular genetic material. A significant decrease in DNA synthesis (80% of control) was observed at 0.5 hr after treatment. At 24 hr following acrylonitrile administration, testicular DNA synthesis was severely inhibited (38% of control). Testicular DNA repair was increased 1.5-fold at 0.5 hr and more than 3.3-fold at 24 hr following treatment with VCN. These results suggest that VCN can act as a multipotent genotoxic agent by alkylating DNA in testicular tissue and may affect the male reproductive function by interfering with testicular DNA synthesis and repair processes.     

Cadmium-binding proteins of rat testes. Apparent source of the protein of low molecular mass.

Fractionation of rat testicular cytosolic proteins by gel filtration indicates three major metal-binding proteins, or groups of proteins, termed testicular metal-binding protein (TMBP) 1, 2 and 3 by order of elution. The major heat-stable, metal-binding proteins in testes is TMBP-2, which has an Mr of approx. 25000. In most tissues, metallothionein (MT) is the major heat-stable, metal-binding protein, but it has an Mr of 6000. This testicular protein (TMBP-2) is much larger than MT, and since polymeric forms of MT have been previously reported, further characterization of TMBP-2 was performed. TMBP-2 was separated into two forms by DEAE-Sephadex A-25 anion-exchange chromatography. Amino acid analysis of both forms of TMBP-2 revealed that they differed markedly from MT, having particularly low cysteine contents. However, amino acid analysis showed that TBMP-2 was strikingly similar to TMBP-3, with an approximate stoichiometric relationship of 4:1. Therefore, experiments were conducted to determine if TMBP-3 could be a breakdown product of TMBP-2. Heat treatment of testicular cytosol in room air before gel filtration resulted in a marked increase in TMBP-3 and loss of TMBP-2. Storing intact testes at -20 degrees C for 2 weeks before processing for gel filtration also resulted in an increase in TMBP-3 and a loss of TMBP-2. Addition of a reducing agent (dithiothreitol) or proteinase inhibitor (N-ethylmaleimide) in processing of samples before gel filtration inhibited the appearance of TMBP-3. Results suggest that the low-Mr Cd-binding protein (TMBP-3) of rat testes results from either proteolytic or oxidative breakdown of a higher-Mr species, or from a combination of such factors.     

Cadmium-Induced Injury and the Ameliorative Effects of Selenium on Chicken Splenic Lymphocytes: Mechanisms of Oxidative Stress and Apoptosis

Cadmium (Cd) is an important environmental pollutant present in soil, water, air, and food. Selenium (Se) can antagonize some metal element toxicity including Cd. To investigate the cytotoxicity of Cd and the protective effects of Se on bird immunocytes in vitro, chicken splenic lymphocytes with CdCl₂ (10^?6 mol/L), Na₂SeO₃ (10^?7 mol/L), and the mixture (10^?7 mol/L Na₂SeO₃ and 10^?6 mol/L CdCI₂) were incubated for 12, 24, 36, and 48 h, respectively. A high level of malondialdehyde (MDA) and reactive oxygen species (ROS) productions were observed in Cd treatment group; the activities of catalase (CAT), glutathione peroxidise (GSH-Px), superoxide dismutase (SOD), and the mitochondrial inner transmembrane potential (ΔΨm) were significantly lower in Cd treatment group than those in controls (P?P?mRNA level of Bak, p53, caspase-3, caspase-9, and cytochrome c (Cyt c) and decreased Bcl-2, Bcl-xl, and CaM were observed in Cd treatment group. Se ameliorated ΔΨm and [Ca²⁺]i for mitochondria function restoring, and Se was able to modulate the expression of relative genes. In conclusion, concurrent treatment with Se reduced the Cd-induced morphological changes and oxidative stress, ion disorder, and apoptosis, suggesting that the toxic effects of Cd on the chicken splenic lymphocytes were partly meliorated by Se.     

The indomethacin-induced gastric mucosal damage in rats. Effect of gastric acid,acid inhibition,capsaicin-type agents and prostacyclin

In pylorus-ligated rats subcutaneous (sc) pentagastrin (325.5 nmol/kg) or histamine (54.3 μmol/kg), but not the cholinergic linergic agent bethanechol (7.6 or 15.2 μmol/kg), increased gastric mucosal injury by sc indomethacin (55.8 μmol/kg). Intragastric (ig) administration of 0.15 or 0.3 N HCl greatly potentiated injury by sc indomethacin with widespread ulceration, intragastric bleeding and even perforation. The gastric mucosal damage produced by indomethacin plus 0.3 N HCl was reduced by ig capsaicin (3.1–25.1 μM), ig resiniferatoxin (0.38-6.1 μM), by sc atropine (0.15-1.2 μmol/kg) and to a lesser extent by ig prostacyclin (40–267 μM) or sc cimetidine (198.2 μmol/kg). The protective effect of capsaicin or resiniferatoxin was not prevented by atropine or cimetidine treatment. Capsaicin (6.5 mM) enhanced gastric injury by sc or ig indomethacin. Results indicate the importance of early vascular events in the pathogenesis of mucosal injury induced by indomethacin in the stomach and suggest a role for gastric acid in potentiation of such injury. Results further strengthen the idea of a protective role for capsaicin-sensitive sensory nerves in the stomach.     

Oral and subcutaneous administration of cadmium chloride and the distribution of metallothionein and cadmium along the villus-crypt axis in rat jejunum

The route of Cd uptake influences the distribution of Cd, other metals, and metallothionein (MT). Although intestinal MT levels related to the tissue mass did not show proximodistal gradients after sc administration of CdCl₂, orally administered high doses of CdCl₂ increased mucosal MT levels longitudinally from the duodenum to the ileum. The gradient abolished when the mucosal MT level was related to the intestinal length. To further elucidate this finding, three groups of rats were studied: a control group, a group receiving dietary CdCl₂, and a group receiving sc injections of CdCl₂. The small intestine was removed after a 14-d treatment. Midjejunal segments were mounted in a cryomicrotome and cut transversally into five layers along the villus-crypt axis. Mucosal enzymes were measured to control these sections. Cd was measured by AAS and MT by RIA. Alkaline phosphatase and lactase activities exhibited the typical villus-crypt gradient. Mucosal MT levels paralleled those of Cd. Although Cd and MT concentrations were high at the tip of the villi and low in the crypts after oral administration, sc treatment reversed that profile. A molar Cd-MT ratio of approx 10 or 1 was reached after po or sc treatment, respectively. This demonstrates that only oral Cd may lead to an accumulation of Cd in the mucosal tissue fairly exceeding the binding capacity of small intestinal MT. The results show that different routes of Cd intake lead to a different MT-induction pattern in the intestinal wall and that longitudinal Cd and MT concentration gradients in the small intestine observed after high oral doses are a result of their high levels at the villus tips.     

Subclinical response to cadmium in liver cells

Effects of cadmium (Cd) in vivo and in vitro were studied in the absence of enhanced metallothionein (MT) production and overt Cd toxicity. Such a condition was established by extended oral exposure of male rats of 0.2 μmol Cd/kg and by incubation of isolated hepatocytes with up to 25 μM for 30 min. Subsequently, mitochondrial and extramitochondrial responses to Cd were recorded. Cadmium diminished the activity of cytochrome c oxidase (CYT C OX) by 50% in vivo and by 35% in vitro. In hepatocytes, this was accompanied by increased Cd and decreased protoheme (PrH) in mitochondria. Extramitochondrial PrH and cytochrome P 450 were not significantly altered. In hepatocytes from phenobarbitone pretreated rats, 25 μM Cd decreased CYT C OX but not mitochondrial PrH. Moreover, simultaneous incubation of hepatocytes with 25 μM Cd and either 2.5 mM dithiothreitol or 5 mM reduced glutathione diminished cellular and mitochondrial Cd and prevented the decrease in CYT C OX but not that in PrH. In contrast, coincubation with either 250 μM l-buthionine-sulfoximine or diethylmaleate, which did not alter Cd uptake, prevented the decrease in PrH but not that in CYT C OX owing to Cd. These results show that Cd exerts mitochondrial alterations in vivo and in vitro in the absence of enhanced MT production. Moreover, Cd effects on CYT C OX and PrH do not seem to be firmly linked.     

Effects of molybdenum on fertility of male rats

Sodium molybdate was administered orally to adult male rat at dose level of 10, 30, and 50 mg kg body weight (5 days per week) for 60 days. At higher dose levels significant decrease in absolute and organ-to-body weight ratios of testes, epididymides, seminal vesicles and ventral prostate was observed. The sperm abnormality, associated with decrease in sperm motility and sperm count was also observed. Significant alterations in the activities of marker testicular enzymes, viz. sorbitol dehydrogenase (decreases), lactate dehydrogenase (increases) and -glutamyl transpeptidase (increases) associated with histopathological changes in testes was also observed. Accumulation of molybdenum in testes, epididymides and seminal vesicles was also observed. The study reveals that the oral ingestion of molybdenum may affect the histoarchitecture of testes and sperm morphology. The testicular and spermatotoxic changes may be responsible for observed male mediated developmental toxic effects.     

Cd/Zn exposure interactions on metallothionein response in Eisenia fetida (Annelida, Oligochaeta)

We studied metallothionein (MT) response in the manure worm Eisenia fetida after exposures to cadmium (Cd), zinc (Zn) or cadmium and zinc spiked media. MT was studied both at the protein level by Dot Immunobinding Assay, (DIA) and at the expression level by Northern blotting. Cd was highly accumulated by worms whereas Zn body concentration was regulated. In addition, Zn would limit Cd accumulation in worms exposed to low Cd concentrations (1 and 8 mg Cd kg(-1) of dry soil). Exposure to a mixture of Cd and Zn at high concentrations increased cytosolic MT levels. This increase would allow worms to regulate body Zn concentrations and also to limit Cd toxicity. Cd exposures increased gene expression of Cd-binding MT isoform (MT 2A) whereas Zn did not. However, when both metals were at high concentrations in the exposure medium, this expression was further increased. Several hypotheses are proposed to explain the results and the best approach to estimate metal exposure of this earthworm species is given. Further experiments have now to be performed to evaluate the usefulness of these MT responses for field contaminated soils toxicity assessment using this earthworm species.     

Male reproductive effect of nickel sulphate in mice

Nickel sulphate was administered orally to adult male mice at dose level of 5 and 10 mg/kg body weight (5 days per week) for 35 days. There was no change in body weight. However a significant decrease in absolute and organ-to-body weight ratios of testes, epididymides, seminal vesicles and prostate gland was observed. The sperm abnormality, associated with decrease in sperm motility and sperm count was also observed. Significant alterations in the activities of marker testicular enzymes, viz. sorbitol dehydrogenase (decreases), lactate dehydrogenase (increases) and -glutamyl transpeptidase (increases) associated with histopathological changes in testes, epididymides and seminal vesicles, were also observed. Accumulation of nickel in testes, epididymides and seminal vesicles was also observed. The study reveals that the oral exposure to nickel may affect the histology of testes, epididymides, seminal vesicles and sperms morphology. These testicular and spermatotoxic changes may be responsible for observed male mediated developmental toxic effects.     

Melatonin increases tissue accumulation and toxicity of cadmium in the bank vole (<Emphasis Type="Italic">Clethrionomys glareolus</Emphasis>)

Recent study has shown that a short photoperiod increases the accumulation and toxicity of cadmium (Cd) in the bank vole as compared to a long photoperiod. Since many of the effects of photoperiod on physiological processes in small mammals are transduced by the pineal gland and its hormone melatonin, in this study the effect of subchronic melatonin injection (7 mol/kg/day for 6 weeks) on the hepatic, renal and intestinal Cd accumulation in the bank voles raised under a long photoperiod and exposed to dietary Cd (0.9 mol/g) was examined. Simultaneously, histological examinations of the liver and kidneys, and analyses of metallothionein (MT) and lipid peroxidation were carried out. Melatonin co-treatment brought about a significant increase in the hepatic (61%), renal (79%) and intestinal (77%) Cd concentrations as compared to those in the Cd alone group. However, the concentrations of MT in the liver and kidneys of the Cd + melatonin co-treated bank voles did not differ from those in the Cd alone group. Also, histopathological changes in the liver (infiltration of leukocytes) and kidneys (glomerular swelling and a focal tubular cell degeneration) as well as an increase (2-fold) in the renal lipid peroxidation occurred only in animals from the Cd + melatonin group. These data indicate that (1) subchronic melatonin injection has similar effect on the tissue accumulation and toxicity of Cd to that produced by a short photoperiod and (2) the Cd-induced toxicity in the liver and kidneys of melatonin co-treated bank voles is probably due to increased Cd accumulation and decreased synthesis of MT.     

力竭游泳诱导的大鼠睾丸金属结合蛋白的初步分离与鉴定

目的初步分离和鉴定力竭运动诱导的大鼠睾丸金属结合蛋白(testis metal-binding proteins,TMB-Ps)。方法 8只雄性SD大鼠一次性力竭游泳运动(8只对照)后6 h取睾丸和肝脏组织,用镉饱和法测定TMBPs和肝脏金属硫蛋白(metallothionein,MT)含量,用tricine-SDS-PAGE方法分离镉饱和法提取液的TMBPs组分和肝脏MT,用液相色谱-串联质谱法(LC-MS-MS)鉴定TMBPs分离条带。结果力竭运动组大鼠TMBPs水平(113.71±11.72)nmol Cd/g testis显著高于安静对照组(87.14±12.72)nmol Cd/g testis(P0.01),肝脏MT表达量(64.70±14.89)μg/g也显著高于安静对照组(7.32±3.31)μg/g(P0.001)。LC-MS-MS对tricine-SDS-PAGE分离的蛋白条带的鉴定结果为:TMBPs含有泛素、铜-锌-超氧化物歧化酶、酪蛋白样磷蛋白等蛋白质,另外还应包括MT。结论TMBPs由一组具有金属结合性、耐热性和诱导性的蛋白质所组成,主要有泛素、超氧化物歧化酶和酪蛋白样磷蛋白。镉饱和法并非测定金属硫蛋白的特异性方法。     

Macromolecular interactions with cadmium and the effects of zinc,copper, lead,and mercury ions

Interactions of cadmium (Cd) ions with bovine serum albumin (BSA), bovine hepatic metallothionein (MT), calf thymus histone and deoxyribonucleic acid (DNA), and bovine hepatic chromatins were studied in the presence and absence of divalent zinc (Zn), copper (Cu), mercury (Hg), or lead (Pb) ions, using equilibrium dialysis at pH 7 and at 37°C. The BSA had 3.5 Cd-binding sites with an apparent affinity constant of 1×10⁵. The other metal ions inhibited the binding by reducing the affinity constant and the number of Cd-binding sites in BSA. There were 6 high affinity and 13 low affinity Cd-binding sites in the MT. Zinc ions had poor efficacy in reducing the binding of Cd to the MT. However, the Cu²⁺ and Hg²⁺ ions inhibited the Cd binding to a considerable extent, the former ions being more potent in this respect. Histone did not bind Cd. There were two kinds of Cd-binding sites in DNA: One mole of Cd per four moles DNA-phosphorus at low affinity sites, and one mole of Cd per 6.7 moles DNA-phosphorus at high affinity sites. Their apparent association constants were 8.3×10⁵ and 4.4×10⁶ M, respectively. The other metal ions had inhibitory effects on the binding of Cd to DNA. Histone reduced the Cd-DNA interactions to only a minor extent. The other metal ions reduced the binding of Cd to DNA-histone complex to a small extent. Cadmium binds to the euchromatin (Euch), heterochromatin (Het), and Euch-Het mixture almost equally. The other metal ions reduced the binding maximally in Euch-Het followed next in order by Het and Euch. Cupric ions were the most potent inhibitors of the interactions of Cd with the nuclear materials.