Induction of cadmium-thionein in isolated rat liver cells.

The uptake of cadmium by isolated liver cells was linearly related to the cadmium concentration to which the cells were exposed in the medium. Cadmium-treated cells synthesized proteins de novo with the characteristics of cadmium-thionein induced in the liver of cadmium-treated animals. Thionein from liver cells incorporated cadmium and [35S]cysteine, had a Ve/Vo (Sephadex G-50) of 1.8-1.9, and was separated into two subfractions by DEAE-cellulose ion-exchange chromatography. Cycloheximide and actinomycin D when added after a cadmium exposure prevented the synthesis of thionein. However, addition of actinomycin D after synthesis had started only decreased the total amount of thionein synthesized. The concentration of cadmium to which the cells were exposed affected the amount of cadmium-thionein synthesized in 6h. The maximum response occurred when cells were exposed to 0.5 microgram of cadmium/ml; at higher metal concentrations the total amount of cadmium-thionein synthesized declined. The system described in the present paper can be used to study the mode of metal toxicity and the mechanism of cadmium-thionein synthesis.     

镉对雄性小鼠生精细胞的影响

为了研究镉对小鼠生殖力和生精细胞的作用,本文对氯化镉处理后的雄性小鼠进行了交配实验,以观察其对怀孕率、每窝产仔数及子代性比的影响。测定比较了注射镉后,小鼠成熟精子的总LDH酶和LDH-X酶的活性;还用双向电泳方法分析了成熟精子的蛋白质变化。结果表明,处理组在怀孕率、每窝产仔数及子代性比方面无统计学意义的差异。成熟精子的总LDH活性经镉处理后未发现明显变化,但镉能显著地抑制与精子运动的能量有关的LDH-X酶的活性。双向电泳图谱表示,镉处理后,精子中含量较少的三组蛋白质或消失不见,或发生明显变化。     

Cysteine metabolism in cultured tobacco cells

Transported l-[(35)S]cysteine was rapidly metabolized by cultured tobacco cells when supplied to the cells at 0.02 millimolar or 0.5 millimolar. The internal cysteine pool was expandable to approximately 2400 nmoles per gram fresh weight.The (35)S label derived from cysteine was found in several metabolites. The amount of label in glutathione and sulfate was directly proportional to the internal l-[(35)S]cysteine, while the levels of labeled methionine and protein were apparently independent of internal labeled cysteine. Cysteine was more rapidly metabolized when the external cysteine concentration was low (0.02 millimolar) with up to 90% of the (35)S label present as compounds other than cysteine.The initial step in cysteine degradation yielded pyruvate, sulfide, and presumably NH(4) (+). Stoichiometry studies using extracts prepared from acetone powders of tobacco cells indicated that pyruvate and sulfide were produced in a 1:1 ratio. The catabolic reaction was linear with respect to time and amount of protein and had a pH optimum of 8 in crude extracts. Preliminary kinetic data indicated the K(m) to be approximately 0.2 millimolar. The extractable degradative activity was enhanced 15- to 20-fold by preincubating the cells for 24 hours in 0.5 millimolar cysteine. The extractable specific enzyme activity roughly reflected the growth curve of the cells in culture. Maximal cysteine degradation was observed in extracts prepared from late log phase cultures that were preincubated in cysteine, while little activity was found in similar extracts from stationary phase cultures. These results are consistent with an inducible catabolic enzyme similar to the cysteine desulfhydrase from bacteria.     

Cadmium removal by living cells of the marine microalga Tetraselmis suecica

Cadmium removal by living cells of the marine microalga Tetraselmis suecica was tested in cultures exposed to different cadmium concentrations (0.6, 3, 6, 15, 30 and 45 mg/l). The EC50 for growth was 7.9 mg Cd/l after six days of exposure. The cadmium removed was proportional to the concentration of this metal in the medium and it was dependent on the time of exposure; cultures with higher cadmium concentration removed a higher amount of this metal. In cultures exposed to 0.6 mg/l, T suecica cells removed 98.1% of added cadmium with 0.392 x 10(-6) microg Cd/cell, whereas in cultures with 45 mg/l only 7.7% was removed with 16.052 x 10(-6) microg Cd/cell. The highest amount of cadmium removed per liter of culture was observed in cultures exposed to 6 mg/l, with 3.577 mg/l of cadmium. After six days of incubation, the higher proportion of cadmium was bioaccumulated intracellularly in all cultures except in 45 mg/l cultures, the percentage of intracellular cadmium being always more than 50%. The highest percentage of bioadsorbed cadmium (60.1%) was found in cells of cultures with the highest cadmium concentration (45 mg/l). Furthermore, a relation between intracellular cadmium and the concentration of sulfhydryl groups was observed.     

Calcium, lanthanum, pyrophosphate, and hydroxyapatite: a comparative study in fibroblast mitogenicity

Calcium-containing crystals and elevated levels of calcium chloride (CaCl2) and lanthanum chloride (LaCl3) have been previously reported to enhance the proliferative activity of cultured fibroblasts. We have investigated the relative mitogenicity of these agents, whether they function via precipitation on the cell surface and whether they interact with one another. Confluent cultures of newborn foreskin fibroblasts provided with fresh medium containing 10% fetal bovine serum (FBS) in the presence of hydroxyapatite (HA), pyrophosphate (PPi), LaCl3 (La), or additional CaCl2 (Ca) were all stimulated more than control cultures provided with fresh medium and 10% FBS alone as assessed by cell counts 5 days later. Increases in cell yield above the original confluent cell density were 316% for La, 271% for Ca, 189% for HA, 131% for PPi, and 45% for controls. Addition of fresh medium containing 10% FBS and epidermal growth factor or fresh medium containing 20% FBS as additional points of reference yielded increases of 204 and 107%, respectively, over original confluent density. Stimulation induced by La or Ca was significantly greater (P less than 0.001) than the stimulation induced by each of the other treatments. The same treatments added to confluent cultures without a change of medium also renewed mitotic activity, with La and Ca again the most mitogenic and approximately doubling the pretreatment cell yields. Cultures incubated in an inverted position to avoid cell contact with precipitates in the medium were also stimulated by La and Ca, but not by HA and PPi. When added to confluent cultures simultaneously supplemented with optimal additional Ca, La decreased Day 5 cell yields in a dose-dependent manner at low concentrations (0.03-0.2 mM) but increased cell yields over those obtained with 0.2 mM LaCl3 again in a dose-dependent manner at higher concentrations. Thus, while HA and PPi act via precipitation on the cell surface, the more mitogenic agents La and Ca function in solution and appear to stimulate cell division by different nonadditive mechanisms. These findings suggest multiple mechanisms of membrane participation in mitogen responsiveness and in density-dependent inhibition of growth.     

Roles of calcium and cadmium on Cd-containing intra-and extracellular formation of Ca crystals in tobacco

Growth was severely inhibited when tobacco plants were exposed to toxic levels of cadmium (0.2 mM). However, when this treatment was combined with a high concentration of calcium (30 mM), the Cd-induced damage was strongly alleviated. Under these enhanced conditions, i.e., 30 mM Ca and 0.2 mM Cd, Ca crystals not only were heavily deposited in the leaves but were also actively excreted from the trichomes. The X-ray spectrum from our Energy Dispersive analysis revealed that both intra-and extracellular Ca crystals contained detectable amounts of Cd. Moreover, intracellular Ca deposition in the leaves was stimulated only by a high Ca concentration (30 mM); moderate levels of Ca (3 mM) or a toxic amount of Cd (0.2 mM) alone resulted in crystal deposition that was undetectable under a light microscope. In contrast, extracellular crystal formation on the trichomes was stimulated by toxic Cd treatment but not by high Ca concentrations alone. Finally, Inductively Coupled Plasma Spectroscopy revealed that a high level of Ca (30 mM) suppressed Cd accumulation while also increasing the endogeneous Ca concentration in the leaves. These observations imply that the amelioration of Ca against toxic Cd in tobacco plants is a result of not only the inhibition of Cd uptake, but also the extra-and intracellular sequestration of cadmium via Ca crystallization.     

Proline alleviates heavy metal stress inScenedesmus armatus

Growth and some metabolic activities ofScenedesmus armatus grown in the presence of different heavy metals (Cd, Mn and Ni) with and without exogenously added proline (Pro) were monitored. The growth ofS. armatus cells (cell concentration, pigment and dry mass) was inhibited by all these heavy metals. Addition of Pro to the culture medium minimized the toxic effect of the metals. The growth rate was somewhat higher in Pro-containing cultures and started to decline I d later than in cultures containing heavy metals alone.S. armatus cells accumulated the added Pro in response to heavy metals. The accumulation correlated with protein content. Cd was the strongest inducer of Pro accumulation, Mn being the weakest. Cells accumulated nickel more than cadmium and manganese. Heavy metal-treated cells had increased peroxidase and catalase activities.     

Improved expression of human interleukin-2 in high-cell-density fermentor cultures of Escherichia coli K-12 by a phosphotransacetylase mutant.

A fluoroacetate-resistant mutant of Escherichia coli K-12 (MM-294) accumulated less acetate in the medium during growth to high cell density in fermentor cultures and was shown to be defective in its phosphotransacetylase activity. The mutant had an improved ability to continue growing during induction of interleukin-2 (IL-2) synthesis, and in fermentor cultures it gave a higher level of specific IL-2 accumulation than its parent during expression under control of the temperature-sensitive pL promoter. In flask cultures at lower cell density, the mutant again produced less acetate than the parent, although both showed a much lower level of acetate accumulation than that seen in fermentors at high cell density. Both showed a higher specific expression level of IL-2 in flask cultures, and there was a greater difference between the mutant and its parent in the final extent of specific IL-2 accumulation in fermentor cultures compared with flask cultures. Thus, the concentration of acetate in the medium, which was much higher in fermentor cultures (greater than or equal to 300 mM after 5 h of induction) than in flask cultures (less than or equal to mM) of the parent organism, was a significant factor in limiting expression of the heterologous protein product, IL-2. The acetate kinase-phosphotransacetylase pathway was therefore a major source of acetate formation in these cultures. Blocking this pathway improved accumulation of IL-2 and did not slow growth.     

Improved expression of human interleukin-2 in high-cell-density fermentor cultures of Escherichia coli K-12 by a phosphotransacetylase mutant

A fluoroacetate-resistant mutant of Escherichia coli K-12 (MM-294) accumulated less acetate in the medium during growth to high cell density in fermentor cultures and was shown to be defective in its phosphotransacetylase activity. The mutant had an improved ability to continue growing during induction of interleukin-2 (IL-2) synthesis, and in fermentor cultures it gave a higher level of specific IL-2 accumulation than its parent during expression under control of the temperature-sensitive pL promoter. In flask cultures at lower cell density, the mutant again produced less acetate than the parent, although both showed a much lower level of acetate accumulation than that seen in fermentors at high cell density. Both showed a higher specific expression level of IL-2 in flask cultures, and there was a greater difference between the mutant and its parent in the final extent of specific IL-2 accumulation in fermentor cultures compared with flask cultures. Thus, the concentration of acetate in the medium, which was much higher in fermentor cultures (greater than or equal to 300 mM after 5 h of induction) than in flask cultures (less than or equal to mM) of the parent organism, was a significant factor in limiting expression of the heterologous protein product, IL-2. The acetate kinase-phosphotransacetylase pathway was therefore a major source of acetate formation in these cultures. Blocking this pathway improved accumulation of IL-2 and did not slow growth.     

Synthesis of DNA in the liver and testes of cadmium-tested partially hepatectomized rats.

Cadmium affects the induction of thymidine and thymidylate kinases in regenerating rat liver. EDTA administered simultaneously with cadmium reverses its inhibitory action on enzyme synthesis, and prevents the depression of thymidine incorporation into DNA observed in cadmium-treated animals. Zinc does not abolish the inhibitory action of cadmium on the synthesis of DNA in regenerating liver, and the incorporation of thymidine into DNA in the testes was inhibited more by intraperitoneal injection of cadmium plus zinc than by injection of cadmium alone. Inhibition of thymidine incorporation into DNA in the liver and testes was proportional to the amount of cadmium administered up to about 2 mg CdCl2/kg body weight, but surprisingly, higher doses of cadmium caused less inhibition.     

Zinc can influence ornithine decarboxylase activity in rat thymus cells

Summary The thymus of young rats contained a high basal activity of ornithine decarboxylase (ODC). Treatment with zinc sulphate caused a slight increase of thymic ODC activity within 6 hours and a more marked enhancement (three-fold) in the spleen 24 h after treatment. In spite of the high activity of thymic ODCin vivo, ODC was not detectable in primary cultures of rat thymocytes, but was early and largely induced after treatment with Concanavalin A (Con A). The presence of 0.1 mM zinc in the medium increased the response of ODC to Con A. This effect of zinc in mitogen activated thymocytes may be due to the stabilization of ODC, which was found to decay with a half life of 65 min after the block of protein synthesis with cycloheximide. On the contrary in absence of zinc the half life of the enzyme was 40 min, as in the rat thymus in vivo.Zinc alone, at 0.1 mM concentration, did not affect ODC activity in resting thymocytes during the early times, but the metal was able to cause an increase of the enzyme activity after 4–6 days of culture. Other heavy metals such as mercury, cadmium and copper provoked a late increase of ODC activity, but their action was evident only at dosages which were toxic for the cells.     

Effects of cadmium stress on growth, morphology, and protein expression in Rhodobacter capsulatus B10

The effects of cadmium stress on growth, morphology, and protein expression were investigated in Rhodobacter capsulatus B10 using two-dimensional polyacrylamide gel electrophoresis and a scanning electron microscope with an energy dispersive X-ray spectrometer. The bacterium grew in the presence of 150 microM CdCl2 and highly induced heat-shock proteins (GroEL and Dnak), S-adenosylmethionine synthetase, ribosomal protein S1, aspartate aminotransferase, and phosphoglycerate kinase. Interestingly, the ribosomal protein S1 was proportionally expressed as the amount of cadmium in the medium, suggesting that S1 may be required for the repair of cadmium-mediated cellular damage. On the other hand, we identified five cadmium-binding proteins: 2-methylcitrate dehydratase, phosphate periplasmic binding protein, inosine-5'-monophosphate dehydrogenase/guanosine-5'-monophosphate reductase, inositol monophosphatase, and lytic murein transglycosylase. The cadmium-treated cells had a filamentous structure and contained less phosphorous than the untreated cells. We propose that these characteristics of the cadmium-treated cells may be due to the inactivation of the phosphate periplasmic binding protein and lytic murein transglycosylase by cadmium.     

Photosynthetic activities of cadmium-treated tomato plants

Tomato plants (Lycopersicum esculentum Mill. cv. Moneymaker) grown on nutrient medium containing cadmium exhibit reduced net photosynthesis and reduced contents of chlorophyll and accessory pigments. In chloroplasts isolated from cadmiumtreated plants photosystem II activity, as measured by 2,6-dichlorophenolindophenol photoreduction, and photosystem II + I activity (H₂O → methyl viologen) were both inhibited to about 60%. When 1,5-diphenylcarbazide was used as artificial electron donor, no significant cadmium effect was observed. Photosystem I activity was not affected by cadmium. The fine structure of chloroplasts in cadmium-treated plants was degenerated, similarly to senescence response. The principal symptom of cadmium action was the occurrence of large plastoglobules and a disorganization of the lamellar structure, mainly grana stacks. Transfer of cadmium-treated plants into a medium with increased manganese level caused grana stacking and restoration of photosystem II activity.     

Cd, Fe, and light sensitivity: interrelationships in Cd-treated populus

Cadmium is a toxic heavy metal causing iron deficiency in the shoot and light sensitivity of photosynthetic tissues that leads to decreased photosynthetic performance and biomass production. Light intensity had strong impact on both photosynthetic activity and metal accumulation of cadmium-treated plants. At elevated irradiation, cadmium accumulation increased due to the higher dry mass of plants, but its allocation hardly changed. A considerable amount of iron accumulated in the roots, and iron concentration was higher in leaves developed at moderate rather than low irradiation. At the same time, the higher the irradiation the lower the maximal photochemical quantum efficiency. The decreased photochemical efficiency, however, started to recover after a week of Cd treatment at moderate light without substantial change in metal concentrations but following the accumulation of green fluorescent compounds. Both cadmium treatment and higher light caused the accumulation of flavonoids in leaf mesophyll vacuoles/chloroplasts, but accumulation of flavonols, fluorescing at 510?nm, was characteristic to cadmium stress. Therefore, flavonoids, which may act by scavenging reactive radicals, chelating Cd, and shielding against excess irradiation, play an important part in Cd stress tolerance of Populus, and may have special impact on its phytoremediation capacity.     

Growth of Escherichia coli cells in the presence of cysteine on sulphate-deficient media

Summary The behaviour of E. coli B culture grown on SO₄ ^2--free minimal glucose-salt medium was examined in the presence of exogenous cysteine at various concentrations. This was done by means of using the following parameters: length of lag, growth rate and total population. Up to a concentration of cysteine at 0.2mm the growth sets in without a lag phase, the growth rate is optimal (identical with that of cultures grown on media containing Na₂SO₄ as source of sulphur), only the size of total population being decreased by cysteine. At concentrations of 0.2mm and upwards, after a concentration-dependent lag-period, the cultures were found to increase at various lower growth rates.The toxic effect of cysteine was reduced by leucine itself, as well as by a mixture of leucine, isoleucine, valine and threonine. The anti-cysteine action of these amino acids showed itself in the shortening of the lag period and in the recovery of the growth rate which, however, failed to reach the original level.Cysteamine failed to provide sulphur for cultures of E. coli B grown on the above medium. Neither was the utilization of cysteamine affected by the application of amino acids possessing an anti-cysteine action.We have postulated that beside the inhibition of the biosynthesis of amino acids having an anti-cysteine effect, toxic concentrations of cysteine posses additional sites of action.     

Effects of cadmium exposure on glycogen phosphorylase activity in rat placenta as demonstrated by histochemical means

Glycogen phosphorylase (PHO) activity was demonstrated histochemically in unfixed cryostat sections of placentae from cadmium-treated and control rats with the use of the semipermeable membrane technique. Staining of the newly synthesized glycogen was performed by lugol. A high activity was present in glycogen cells, spongiotrophoblast and visceral yolk sac from cadmium-treated and control animals. A low but distinct activity could be demonstrated in placental labyrinth from control rats in late pregnancy. Cadmium-exposed rats showed a considerably higher activity in the labyrinth during this period of pregnancy. The elevated PHO activity and concomitant higher glycogen content indicate a disturbance by exposure to cadmium of placental carbohydrate metabolism from day 18 onwards.     

Cytotoxicity of cysteine in culture media

Summary When added to Eagle’s Minimum Essential Medium supplemented with 10% bovine serum (MEM-10BS), 1mM cysteine was highly toxic to cultured cells. This toxicity was eliminated by (a) preincubation of the medium at 37°C for 24 hr before use, or (b) presence of 5mM pyruvate. Similar results were obtained with freshly prepared CMRL 1066 supplemented with 10% bovine serum (CMRL-10BS), which contains 1.5 mM cysteine as an original ingredient. Medium L 15 supplemented with 10% bovine serum (L-10BS), which contains both 1 mM cysteine and 5 mM pyruvate, supported cell growth. On incubation of MEM-10BS supplemented with 1 mM cysteine (MEM-10BS-1CySH) or CMRL-10BS without cells for one day, the cysteine concentrations decreased to about one-tenth or less of the original concentrations. The cysteine concentration in L-10BS did not decrease so much on similar incubation. Pyruvate reduced the rate of disappearance of the cysteine in MEM-10BS-1CySH or CMRL-10BS as assayed with p-chloromercuribenzoate, although less than that in L-10BS. This effect of pyruvate was concentration dependent. These paradoxical effects of pyruvate on cysteine, i.e. the reduction of its cytotoxicity and the stabilization as an SH compound, are probably due to the formation of a dissociable complex between these two compounds, which is not cytotoxic and resistant to oxidation. This work was supported by Grants-in-Aid for Cancer Research from the Ministry of Education, Science and Culture, Japan, and a grant from the Princess Takamatsu Cancer Research Fund.     

The differential effects of cadmium exposure on the growth and survival of primary and established cells from fish and mammals

The differential cytotoxic effects of cadmium on fish and mammalian epithelial cells in established and primary culture were assessed by looking at the reduction of the colony-forming ability and reduction in the extent of growth. The influence of medium composition on the toxicity of cadmium was also studied using serum-free and serum-containing media. The experiments using immortalized cell lines showed that mammalian cells were more sensitive than fish cells to cadmium. Both cell types were grown at the same serum concentration. However, using the normal primary system, human epithelial tissue explants showed less sensitivity to cadmium than did similar cultures from rainbow trout. It is likely that cellular mechanisms of cadmium resistance in the different cell types are responsible for these effects. As expected, cadmium proved to be more toxic when tested in serum-free medium. With fish skin primary cultures, reduction of cell numbers was observed at concentrations as low as 5 mol/L in serum-free medium compared to 100 mol/L in serum-containing medium. This was found to be due to the reduction in the activity of free cadmium ions, caused by the presence of serum in the medium. It is concluded that serum-free formulations are probably preferable when testing pollutants in vitro. The results highlight the importance of establishing species-specific pollution tests and standardizing variables.In summary, the results show species and culture media differences in cadmium toxicity and suggest that caution is required when extrapolating results for pollutant effects from one in vitro system to another.Abbreviations CE colony-forming efficiency - EPC epithelioma papulosum cyprini - KGM Clonetics Keratinocyte Growth Medium