Copper accumulation and metabolism in primary monolayer cultures of rat liver parenchymal cells

The characteristics of hepatic copper accumulation and metabolism were studied using primary monolayer cultures of adult rat liver parenchymal cells. Accumulation of copper from serum-free medium was temperature dependent and strongly inhibited by cyanide and N-ethylmaleimide. Addition of various concentrations of zinc to the medium did not alter copper accumulation by the cells. Furthermore, it was found that supplementation of the cell cultures with dexamethasone significantly stimulated zinc accumulation without affecting the accumulation of copper. Cycloheximide substantially stimulated accumulation of copper from the culture medium, whereas actinomycin D had no effect. Efflux experiments showed that copper is rapidly sequestered by intracellular components and becomes unavailable for exchange soon after it is transported into the cells. Gel chromatography of liver cytosol demonstrated that most of the cooper that is initially accumulated is bound to the low molecular weight cytoplasmic protein metallothionein.     

Metabolism of parenterally administered zinc and cadmium in livers of newborn rats

The interaction of injected zinc and cadmium with metallothionein was investigated in newborn rats. Tissues of 5-day-old rats were removed 24 h after a single injection (Sc) of saline or zinc (20 mg/kg, body wt.) or cadmium (1 mg/kg, body wt.) with 2.5 μCi of ⁶⁵Zn or ¹⁰⁹Cd or 5 μCi of [³⁵S]cysteine. Injection of zinc resulted in a 75% increase in the hepatic zinc concentration with a concomitant elevation of metallothionein (P < 0.001), zinc in metallothionein increased by 45% (P < 0.05); [³⁵S]cysteine incorporation indicated the induced synthesis of metallothionein. Injection of cadmium did not alter either metallothionein or zinc levels in liver, but cadmium in cytosol was preferentially bound to metallothionein. Neither treatment altered hepatic copper metabolism and copper in metallothionein, nor renal zinc and metallothionein levels. These data indicate that zinc injection can elevate hepatic zinc levels and induce metallothionein synthesis in newborn rats despite high basal levels; cadmium injection does not induce metallothionein synthesis, though cadmium is avidly sequestered by pre-existing metallothionein. The differences in the induction of metallothionein by these divalent cations can be explained by the differences in their binding affinities for thiol groups in intracellular metallothionein.     

Induction and degradation of Zn-, Cu- and Cd-thionein in Chang liver cells

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.     

Cadmium accumulation and metabolism by rat liver parenchymal cells in primary monolayer culture

Primary cultures of adult rat liver parenchylmal cells, isolated by the collagenase perfusion technique and maintained as a monolayer,l were used to investigate the characteristics of hepatic cadmium accumulation and metabolism. Cadmium accumulation was found to be temperature- and concentration-dependent process that required sulfhydryl groups and was significantly stimulated by the addition of dexamethasome to the medium. Once taken up, cadmium was less available for exit-exchange processes than its biologically required congener, zinc. Moreover, cadmium influx enhanced zinc efflux. While most of the intracellular cadmium was located in the cytosol, its distribution within this fraction was altered with time. Initially the metal was bound to both high molecular weight species (>50 000) and metallothionein. As the incubation period increased, the cytosol concentration of cdmium and the percentage of this metal associated with metallothionein was likewise increased. [³H]Amino acid incorporation studies indicated that the accumulation of cadmium resulted in de novo synthesis of the 1 and 2 forms of metallothionein.     

Cadmium accumulation and metabolism by rat liver parenchymal cells in primary monolayer culture.

Primary cultures of adult rat liver parenchymal cells, isolated by the collagenase perfusion technique and maintained as a monolayer, were used to investigate the characteristics of hepatic cadmium accumulation and metabolism. Cadmium accumulation was found to be a temperature- and concentration-dependent process that required sulfhydryl groups and was significantly stimulated by the addition of dexamethasone to the medium. Once taken up, cadmium was less available for exit-exchange processes than its biologically required congener, zinc. Moreover, cadmium influx enhanced zinc efflux. While most of the intracellular cadmium was located in the cytosol, its distribution within this fraction was altered with time. Initially the metal was bound to both high molecular weight species (less than 50 000) and metallothionein. As the incubation period increased, the cytosol concentration of cadmium and the percentage of this metal associated with metallothionein was likewise increased. [3H]Amino acid incorporation studies indicated that the accumulation of cadmium resulted in de novo synthesis of the 1 and 2 forms of metallothionein.     

Zinc-induced metallothionein synthesis by Caco-2 cells

Caco-2 cells possess many morphological and biochemical characteristics of intestinal absorptive cells, including the ability to transport zinc. In the present study, metallothionein (MT) synthesis in response to increased levels of zinc was examined. Increased incorporation of [³⁵S]cysteine into MTs was observed when excess ZnCl₂ was added to the medium. The rate of MT synthesis was found to be concentration dependent. Also, induction of MT synthesis was greater early in the culture, before the cells were fully differentiated. Incubation of the monolayers with ⁶⁵Zn and 200 μm zinc revealed that approximately 50% of the zinc incorporated into the cells was associated with MTs. The remainder was associated with large proteins as well as amino acids and small peptides. Actinomycin D and cycloheximide both inhibited the induction of MT synthesis, suggesting that the newly synthesized MTs are a result of expression of MT genes. Hence, Caco-2 cells, a model of intestinal absorptive cells, may be used to examine the role of MTs in zinc absorption.     

Uptake and binding of cadmium and mercury to metallothionein in rat hepatocyte primary cultures

The administration of inorganic Cd and Hg in vivo has been shown to result in markedly different metal concentrations in rat liver. Primary cultures of rat hepatocytes were utilized to gain insight into the dispositional differences between these chemically similar metals. Hepatocyte monolayer cultures were exposed to several concentrations of Cd or Hg (3, 10 and 30μm) in serum-containing medium for 30min. The cells were then washed and incubated in fresh medium for the remainder of the experiment. Hepatocytes exposed to Cd accumulated significantly more metal than hepatocytes exposed to equimolar concentrations of Hg. In cells exposed to 3μm-Cd there was an initial loss of Cd from the hepatocytes when placed in fresh medium, followed by a gradual re-uptake of metal, concomitant with increased binding to metallothionein. In hepatocytes exposed to 3 and 10μm-Cd, 87 and 77% of the intracellular Cd was bound to metallothionein within 24h. Loss of Hg from hepatocytes pulsed with 30μm-Hg was also observed upon the addition of fresh medium and continued for the duration of the experiment. No time-dependent increase in Hg binding to metallothionein was observed. A maximum of about 10% of the intracellular Hg was found associated with metallothionein in hepatocytes exposed to 30μm-Hg. Studies utilizing [³⁵S]cysteine incorporation indicated significant increases in the amount of metallothionein synthesized in hepatocytes exposed to 3 and 10μm-Cd (300% of control value) and 30μm-Hg (150% of control value) 24h after metal pulsing. Time-course studies revealed a 6–12h lag in metallothionein synthesis, followed by a significant elevation in [³⁵S]cysteine incorporation into metallothionein between 12 and 24h. These studies suggest that (a) isolated hepatocytes differentiate between Cd and Hg and preferentially accumulate the former, and (b) Cd strongly stimulates the induction of, and preferentially binds to, metallothionein, whereas Hg induces weakly, and does not preferentially bind to, metallothionein.     

Zinc uptake by isolated rat liver parenchymal cells

Primary cultures of rat liver parenchymal cells maintained as a monolayer in serum-free culture medium were used to investigate the characteristics of zinc accumulation in vitro. Liver parenchymal cells accumulated zinc by a temperature-dependent, saturable process that was inhibited by cyanide, azide, oligomycin, N-ethylmaleimide and iodoacetamide. Cadmium reversibly inhibited zinc accumulation in both serum-free and serum-containing media. Gel filtration chromatographic studies showed that recently accumulated intracellular zinc was present as a low molecular weight complex smaller than metallothionein, the zinc storage protein, but larger than individual amino acids.The quantity of zinc accumulated was affected by preincubation of the cells with various hormones. Dexamethasone, prednisone and prednisolone each increased zinc uptake by 40–50% when either insulin or glucagon was also present. Hydrocortisone, cortisone and sex steroids did not influence zinc accumulation. Removal of the polypeptide hormones from the medium abolished the stimulatory effect of the synthetic glucocorticoid steroid hormones on zinc accumulation.     

Regulation of liver metallothionein and plasma zinc by the glucocorticoid dexamethasone.

Administration of the glucocorticoid dexamethasone to adrenalectomized rats significantly decreased the serum zinc concentration within 14 hr. Dexamethasone did not detectably alter the liver zinc content, but markedly increased the proportion of zinc associated with liver metallothionein. The rate of incorporation of ³⁵S-cystine into this protein was stimulated to a maximal extent 7 hr after administration of the glucocorticoid. Poly(A)⁺ mRNA from liver polysomes was isolated and translated in a cell-free protein synthesizing system. Nearly twice as much polysomal metallothionein mRNA was found 7 hr following treatment with dexamethasone. These results suggest that glucocorticoids can regulate the plasma zinc concentration by a process that is related to the biosynthesis of the hepatic zinc-binding protein, metallothionein.     

Inhibition of messenger RNA synthesis by 5,6-dichloro-1-beta-D-ribofuranosylbenzimidazole without its detectable accumulation in mouse T-lymphoma cells

Two lines of evidence were obtained which indicate that inhibition of mRNA formation does not require the detectable accumulation of 5,6-dichloro-1-β-d-ribofuranosylbenzimidazole (DRB), a halogenated analog of adenosine. First, the extent of inhibition by DRB of the formation of cytoplasmic poly(A)⁺ RNA was as rapid and severe (>90% inhibition) in wild-type mouse lymphoma cells (S49) as in mutant cells (AE₁), derived from S49, which were deficient in the transport of purine and pyrimidine nucleosides. Second, the accumulation of [³H]DRB was measured directly and compared to the accumulation of [³H]adenosine. Whereas S49 cells accumulated [³H]adenosine in a linear manner, neither S49 nor AE₁ cells accumulated [³H]DRB to a significant extent. This suggests that inhibition of mRNA synthesis by DRB may (1) require the transport and intracellular accumulation of only minute amounts of DRB, or (2) result from secondary event(s) triggered by interaction of DRB with a surface membrane component.     

The effects of copper and zinc on <Emphasis Type="Italic">Spirulina platensis</Emphasis> growth and heavy metal accumulation in its cells

The effects of copper and zinc on Spirulina platensis (Nordst.) Geitl. growth and the capability of this cyanobacterium for accumulation of these heavy metals (HMs) were studied. S. platensis tolerance to HMs was shown to depend on the culture growth phase. When copper was added during the lag phase, its lethal concentration was 5 mg/l, whereas 4 mg/l were lethal during the linear growth phase. Zinc concentration of 8.8 mg/l was lethal during the linear but not lag phase of growth. HM-treated S. platensis cells were capable for accumulation of tenfold more copper and zinc than control cells. Independently of Cu²⁺ content in the medium and of the growth phase, cell cultures accumulated the highest amount of this metal as soon as after 1 h, which may be partially determined by its primary sorption by cell-wall polysaccharides. A subsequent substantial decrease in the intracellular copper content occurred due to it secretion, which was evident from the increased metal concentration in the culturing medium. When zinc was added during the linear growth phase, similar pattern of its accumulation was observed: the highest content after 1 h and its subsequent decrease to the initial level. When the initial density of the culture was low and the cells had much time to adapt to HM, zinc accumulated during the entire linear growth phase, and thereafter the metal was secreted to the medium. The mechanisms of S. platensis tolerance to HM related to both their sorption by the cell walls and secretion of metal excess into the culturing medium and its conversion into the form inaccessible for the cells are discussed.Translated from Fiziologiya Rastenii, Vol. 52, No. 2, 2005, pp. 259–265.Original Russian Text Copyright © 2005 by Nalimova, Popova, Tsoglin, Pronina.This revised version was published online in April 2005 with a corrected cover date.     

The binding of gold(I) to metallothionein

The binding of gold(I) to metallothionein, MT, has been unambiguously established by the reaction of Na₂AuTM with purified horse kidney MT. Zinc was displaced more readily than cadmium although the latter could be displaced using large Au/Cd ratios. The metal exchange reactions were complete within 2 hr of mixing. Further evidence that such reactions might be physiologically significant were obtained by studying in vitro metal displacements in the liver cytosol of in vivo metal treated rats: When Na₂AuTM was added to the cytosol of rats administered CdCl₂ in vivo, zinc, copper and cadmium were displaced in 2/1/1 ratios from the metallothionein fraction. The zinc and cadmium displacement provide direct evidence that the gold was binding to MT. Addition of Cd⁺² to liver cytosol of gold-treated rats resulted in displacement of copper and zinc, but not gold, from the MT fractions. When liver MT is prepared from rats exposed to Au or Cd, the Cd/protein ratio increased during the preparation, but the Au/protein ratio decreased. The Mt-bound metals account for 95% of the cytosolic Cd but only 15%–30% of the cytosolic gold in these studies. Thus, the nonspecific binding of gold to MT in vivo should be considered as one aspect in its equilibration among protein binding sites, which include, inter alia, metallothionein. Gold was found to coelute with zinc and cadmium in the MT fraction of rat kidney cytosol, when both Cd and Na₂AuTM were administered to the rats. The possible significance of gold binding to MT in the treatment of rheumatoid arthritis-chrysotherapy-is briefly discussed.     

Induction of metallothionein by zinc in lethal milk mutant mice

Adult lethal milk (lm/lm) mutant mice display increased induction of hepatic metallothionein synthesis compared to wild-type mice following the subcutaneous injection of 40 µmol ZnCl₂/kg mouse. At this zinc dose the rate of incorporation of |³⁵S| cysteine into hepatic metallothionein in adult (100-to 230-day-old) lm/lm mice was approximately 2.4-fold greater than the rate of incorporation of isotope in wild-type animals. At a higher zinc dose (160 µmol ZnCl₂/kg) the incorporation of |³⁵S| cysteine into hepatic metallothionein was similar in lm/lm and wild-type mice. The altered dose-response to zinc administration was not due to a change in hepatic zinc, copper, or manganese levels, to a difference in ⁶⁵Zn uptake, or to an alteration in ⁶⁵Zn bound to differential centrifugation fractions of adult lm/lm liver. ⁶⁵Zn bound to hepatic metallothionein was, however, increased in aging lm/lm mice with symptomatic skin lesions.     

SV40-transformed human cells fail to grow in zinc concentrations which permit normal human fibroblast proliferation

Zinc is a metal known to be required for normal growth of both cells and organisms. When normal and SV₄₀-transformed human tumor cells are plated and grown in medium containg zinc sulfate, a significant fraction of the transformed cells fail to grow at zinc concentrations which are relatively nontoxic to the normal fibroblasts. Although cultured cells respond to certain metallic ions by incresing their metallothionein content, no difference in the ability of normal and transformed cells to produce metallothionein in response to zinc exposure could be detected, thus ruling out this mechanism as a basic for the differing abilities of the cells to grwo in zinc in vitro. These results suggest that zinc may be capable of differntially regulating the growth of normal and SV_40? transformed human fibroblasts.     

The stimulation of metallothionein synthesis in neuroblastoma IMR-32 by zinc and cadmium but not dexamethasone

Metallothioneins are a class of cysteine-rich and low molecular weight, metal-binding proteins that are inducible by a wide variety of agents, including metal ions, such as cadmium and zinc, glucocorticoid hormones, interferon, and tumor promoters. In an effort to delineate the regulation of the synthesis of the recently identified brain metallothionein-like protein, a study was undertaken to compare the induction of metallothionein in human neuroblastoma IMR-32 cells by zinc, cadmium, and dexamethasone using the human Chang liver cells as a control. Both cadmium (1 microM) and zinc (100 microM) significantly enhanced the incorporation of [35S]cysteine into metallothioneins isolated from both neuroblastoma and Chang liver cells. Dexamethasone in concentrations of 10 microM stimulated the synthesis of metallothionein in the Chang cells, whereas it had no effects on the synthesis of metallothionein in the neuroblastoma cells at concentrations ranging from 2.5--100 microM. The degree of stimulation of metallothionein synthesis in the Chang cells by cadmium and zinc was significantly higher than seen in neuroblastoma cells. The neuroblastoma IMR-32 exhibited less tolerance to the toxicity of both cadmium and zinc than the Chang cells, which may correlate with the inherent ability of these ions to induce metallothioneins in these dissimilar cells. The results of these studies are interpreted to indicate that the factors regulating the synthesis of metallothioneins in the Chang and neuroblastoma cells are not identical, suggesting also of the presence of dissimilar regulatory mechanisms in the liver and brain.     

Zinc uptake by isolated rat liver parenchymal cells.

Primary cultures of rat liver parenchymal cells maintained as a monolayer in serum-free culture medium were used to investigate the characteristics of zinc accumulation in vitro. Liver parenchymal cells accumulated zinc by a temperature-dependent, saturable process that was inhibited by cyanide, azide, oligomycin, N-ethylmaleimide and iodoacetamide. Cadmium reversibly inhibited zinc accumulation in both serum-free and serum-containing media. Gel filtration chromatographic studies showed that recently accumulated intracellular zinc was present as a low molecular weight complex smaller than metallothionein, the zinc storage protein, but larger than individual amino acids. The quantity of zinc accumulated was affected by preincubation of the cells with various hor?ONES. Dexamethasone, prednisone and prednisolone each increased zinc uptake by 40--50% when either insulin or glucagon was also present. Hydrocortisone, cortisone and sex steroids did not influence zinc accumulation. Removal of the polypeptide hormones from the medium abolished the stimulatory effect of the synthetic glucocorticoid steroid hormones on zinc accumulation.     

Steroid hormone receptor studies in melanoma model systems

The Transplantable B-16 melanotic melanoma carried in syngeneic C57B1/6J female mice and the Syrian hamster melanoma cell line, RPMI 3460, were utilized to determine whether steroid-hormone receptors are present in animal melanomas. In the B-16 melanoma, a cytoplasmic-estrogen receptor is detectable, but there is no evidence for androgen or progestin receptors. Some tumors contain a glucocorticoid-binding macromolecule. Sucrosedensity gradient centrifugation of cytosol after incubation with [³H]-estradiol revealed an 8S peak that was suppressed by excess radioinert diethylstilbesterol. Binding varied from 5–35 fmoles per mg cytosol protein. Scatchard analysis of [³H]-estradiol binding in cytosol yielded a single class of high-affinity binding sites; the dissociation constant is 6 × 10^?10 M. The receptor molecule is shown to be estrogen-specific by ligand competition assays. In contrast to B-16 melanoma, no estrogen, androgen, or progestin receptor can be found in the Syrian hamster melanoma cell line. However, a substantial level of specific binding is observed using [³H]-dexamethasone. Sucrose-gradient centrifugation of cytosol from this cell line after incubation with [³H]-dexamethasone revealed a 7S peak that was suppressed by excess radioinert dexamethasone. Scatchard analysis indicated a single class of high affinity sites with a dissociation constant of 2 × 10^?9 M. Binding levels from 70–610 fmoles per mg cytosol protein were observed. The Syrian hamster melanoma cells also exhibit a biological response to glucocorticoids: Dexamethasone causes both an inhibition of growth and a decrease in final-cell density in these cells.     

Effect of salicylic acid on glucucorticoid receptor in cultured fibroblasts derived from rat carrageenin granuloma

The binding activity of [³H]dexamethasone to the specific receptor was studied in the cytoplasmic fraction of a established fibroblast line derived from rat carrageenin granuloma in culture condition. Specific receptor to dexamethasone was demonstrated. Scatchard analysis revealed a single class of binding sites with a dissociation constant for [³H]dexamethasone of 3.64 · 10^?8 M and a concentration of binding sites of 0.825 pmol per mg cytosol protein. The number of cytoplasmic binding sites per cell was calculated at 1.15 · 10⁵.Total binding activity to [³H]dexamethasone of the cytoplasmic fraction was enhanced when the cells were cultured in a medium containing salicylic acid at 37°C. The maximum enhancement was seen at the concentration of 10^?3 M and in 3 h treatment of salicylic acid. This enhancement by salicylic acid was lost when cycloheximide was added to the culture medium at the same time. If salicylic acid was added to the cell free system, it showed no effect on the binding activity. The other non-steroidal anti-inflammatory drugs; phenylbutazone and indomethacin, also enhanced the total binding activity to [³H]dexamethasone of the cytoplasmic fraction at the concentration of 2 · 10^?5 M and 2 · 10^?7 M, respectively.     

Endotoxin-induced zinc accumulation by liver cells is mediated by metallothionein synthesis

Endotoxin induces a decrease in zinc concentration in the serum and an increase in zinc levels in the liver. We have studied whether metallothionein (MT), which is a heavy metal-binding protein, is associated with this phenomenon in vitro. When MT of liver cells is induced by a factor secreted by endotoxin-stimulated macrophages, the cells accumulate zinc from the medium. The temporal accumulation of zinc is correlated with the induction of MT, and the accumulated zinc binds to MT. These results suggest that zinc accumulation by liver cells is mediated by metallothionein produced in response to a macrophage factor, which is elicited by endotoxin.