Modulation of adrenal cell functions by cadmium salts. 1. Cadmium chloride effects on basal and ACTH-stimulated steroidogenesis

Cultured Y-1 mouse adrenal tumor cells, which secrete 20--hydroxy-4-pregnen-3-one (20-DHP), were used to investigate the acute nonlethal effects of incremental cadmium chloride (CdCl₂) concentrations on basal and maximally stimulated steroid secretion. In addition, cumulative CdCl₂ effects during 4-hr incubations, effect reversibility, and viability were determined. Cells were incubated in 1 ml serum-free Eagle's Minimal Essential Medium (FMEM) with or without 0.5 IU (ca. 1.5 M) adrenocorticotropin (ACTH) in the presence or absence of CdCl₂. Following incubation, cell viability was quantitated using trypan blue exclusion. The 20-DHP secreted into the experimental incubation medium was measured by radioimmunoassay. CdCl₂ levels of 10.0 g/ml or greater significantly inhibited basal 30 min steroid secretion in a dose-dependent manner; ACTH-stimulated steroid secretion was significantly inhibited by levels 5.0 g/ml or greater. At least 80% of all control and stimulated cells in the presence or absence of cadmium ions excluded trypan blue. The reduction in ACTH-stimulated steroid secretion was greater than the reduction in basal steroid secretion at any cadmium concentration level. The CdCl₂ concentration that reduced stimulated steroid hormone secretion by 50% (IC₅₀) was 45.0 g/ml. Exposing Y-1 cells to either 5.0, 10.0, 45.0 or 500.0 g CdCl₂/ml FMEM for periods ranging from 0.5 to 4 hr inhibited ACTH-stimulated steroid secretion in a time-dependent manner. After 30 min exposure to 10.0, 45.0 or 500.0 g CdCl₂/ml FMEM with or without ACTH, cadmium inhibition was irreversible. When 5.0 g CdCl₂/ml was used, basal and stimulated inhibition was reversible by reincubating in medium containing ACTH alone. The relatively greater cadmium effects on ACTH stimulated steroidogenesis might suggest that cadmium modulated the rate-limited transducing system between the ACTH plasma membrane receptor complex and cholesterol side-chain cleaving mitochondrial enzymes. However, cadmium influences on basal secretion indicated effects on the non-rate-limited steroidogenic pathway.Abbreviations ACTH adrenocorticotropin - ANOVA analysis of variance - CdCl₂ cadmium chloride - Ci Curie - DNA deoxyribonucleic acid - FMEM serum-free Eagle's Minimum Essential Medium - HEPES N-2-hydroxyethylpiperazine-N-1,2-ethanesulfonic acid - IC₅₀ concentration inhibiting stimulated steroid secretion by 50% - IU international unit - MEM Eagle's Minimum Essential Medium - RIA radioimmunoassay - RNA ribonucleic acid - SEM standard error of the mean - SMEM serum-containing Eagle's Minimum Essential Medium - 20-DHP 20--hydroxy-4-pregnen-3-one     

Modulation of adrenal cell functions by cadmium salts. 4. Ca2+-dependent sites affected by CdCl2 during basal and ACTH-stimulated steroid synthesis

In previous studies, nonlethal CdCl₂ concentrations apparently inhibited basal Y-1 mouse adrenal tumor cell endogenous mitochondrial cholesterol conversion to pregnenolone. In addition, CdCl₂ inhibited all agents stimulating both plasma membrane-dependent cAMP synthesis and 20-hydroxy-4-pregnen-3-one (20DHP) secretion. Bypassing the plasma membrane using dibutyryl-cAMP (dbcAMP) stimulated cytoplasmic cholesterol metabolism and 20DHP secretion in the presence of CdCl₂. Since CdCl₂ competed at metabolic steps requiring Ca²⁺ in other tissues, experiments were designed to examine Cd²⁺ competition with Ca²⁺ during steroidogenesis. Sets of cells incubated with either medium or adrenocorticotropin (ACTH) with or without CdCl₂ were also treated with 0, 1.0, 5.0 or 10.0 mmol/L CaCl₂ in the presence or absence of EGTA, a relatively specific Ca²⁺, but not Cd²⁺, chelating agent. Another experimental cell set incubated with either medium or ACTH, with or without CdCl₂, was treated with or without 1 mmol/L A23187, an ionophore specifically facilitating extracellular Ca²⁺ transfer across plasma membranes. Besides determining Ca²⁺ involvement in steroidogenesis using steroid secretion as an endpoint, we directly measured Ca²⁺ concentrations using intracellular fura-2 fluorescence. Following loading with 2 mol/L fura-2, cells remained untreated or medium was infused with CdCl₂, ACTH, ACTH/CdCl₂ or ACTH followed after 50 s by CdCl₂. Using Ca²⁺-supplemented media, we observed that Cd²⁺ inhibition of ACTH-stimulated 20DHP secretion was completely reversed. Standard Ca²⁺-containing medium supplemented with Ca²⁺ also enhanced maximally stimulated 20DHP secretion by ACTH. 20DHP secretion by ACTH-treated and ACTH/Cd²⁺-treated cells was only reduced by EGTA, when Ca²⁺ was not supplemented. The ionophore A23187 increased basal and ACTH-stimulated 20DHP secretion by Cd²⁺-treated cells, suggesting that extracellular Ca²⁺ resources may compete against Cd²⁺ effects on plasma membrane cAMP synthesis and on basal cholesterol metabolism by mitochondria. No time-dependent change in Ca²⁺ concentrations occurred within untreated cell suspensions. ACTH stimulation caused a 25 s burst in Ca²⁺ concentrations before returning to basal, steady-state levels. Cd²⁺ also stimulated intracellular fura-2 fluorescence. Untreated cell suspensions infused with Cd²⁺ exhibited a continuous rise in intracellular fluorescence. ACTH/CdCl₂-treated cells exhibited a hyperbolic rise in intracellular fluorescence over the 300 s study period. Cells treated with Cd²⁺ 50 s after ACTH treatment initially exhibited the 25 s fluorescence burst followed by a Cd²⁺-induced hyperbolic rise in intracellular Cd²⁺. These fluorescence measurements suggested that cytoplasmic Ca²⁺ changes do not appear to be necessary for basal 20DHP synthesis and secretion; only a 25 s burst in intracellular Ca²⁺ is necessary to a slightly higher plateau level for stimulated 20DHP synthesis and secretion. Cd²⁺ freely enters the cell under basal conditions and Cd²⁺ entry is accelerated by ACTH stimulation. Data were consistent with Ca²⁺ being required for optimal stimulated steroid production and Cd²⁺ probably competing with Ca²⁺ during basal mitochondrial cholesterol metabolism and plasma membrane ACTH-stimulated cAMP generation.     

Modulation of adrenal cell functions by cadmium salts: 2. Sites affected by CdCl2 during unstimulated steroid synthesis

In previous studies cadmium chloride (CdCl₂) nonlethally inhibited Y-1 adrenal mouse adrenal tumour cell 20-dihydroxyprogesterone (20DHP) secretion, affecting unstimulated and stimulated steroidogenic pathway sites differently. We studied CdCl₂ effects on unstimulated steroidogenesis using Y-1 cells incubated 0.5 h in medium with or without cadmium (using the concentration that inhibited ACTH-stimulated steroid secretion by 50%). Exogenously added 20-hydroxycholesterol (20OHC), 22(R)-hydroxycholesterol (22OHC), 25-hydroxycholesterol (25OHC), pregnenolone (PREG), or progesterone (PROG) were used to bypass any rate-limited steroidogenic pathway sites that CdCl₂ might inhibit. 25OHC is a biologically active nonpathway steroid, while 20OHC, 22OHC, PREG, and PROG are pathway steroids; each increased unstimulated 20DHP secretion nearly 10-fold. Although CdCl₂ could not reduce dibutyryl cyclic AMP- (dbcAMP)-stimulated 20DHP secretion significantly, it did significantly reduce basal and 25OHC-induced 20DHP secretion 25% below untreated levels. When 20OHC, 22OHC, PREG, or PROG were incubated with unstimulated Y-1 cells, their synthesis into 20DHP was unaffected by cadmium. dbcAMP bypasses the plasma membrane enzyme complex that synthesizes intracellular cAMP during exogenous ACTH stimulation; dbcAMP was not inhibited by CdCl₂. The rate-limited step accelerated by cAMP involves plasma membrane and/or cytoplasmic cholesterol transport to and through outer and inner mitochondrial membranes before the cholesterol is synthesized into pregnenolone by side-chain cleavage enzymes on the inner membrane matrix face. Little is known regarding the mechanisms controlling unstimulated steroidogenesis. Under unstimulated conditions the 25-, 20- and 22(R)-monohydroxyls of cholesterol facilitate plasma membrane, cytoplasm and inner and outer mitochondrial solubility, diffusion and/or transport to bypass rate-limited steps and augment unstimulated steroid synthesis. Since conversion of endogenous mitochondrial cholesterol and 25OHC, but not dbcAMP-mobilized cytoplasmic cholesterol, 20OHC or 22OHC conversion, to 20DHP is inhibited by CdCl₂, this suggests that (a) control of mitochondrial cholesterol supplies is independent of the cAMP-regulated mitochondrial steps in the 20DHP steroid synthetic pathway, (b) CdCl₂ specifically inhibited endogenous mitochondrial cholesterol and 25OHC utilization, (c) CdCl₂ toxicity may affect adrenal, testicular, ovarian, and placental basal steroidogenic functions, and (d) 25OHC may be a useful compound to examine unstimulated steroid synthesisAbbreviations ACTH adrenocorticotropin - ANOVA analysis of variance - CdCl₂ cadmium chloride - cAMP cyclic 3,5-adenosine monophosphate - DMSO dimethylsulfoxide - DNA deoxyribonucleic acid - FMEM serum-free Eagle's Minimum Essential Medium - Hepes N-2-hydroxyethyl-piperazine-N-1,2-ethanesulfonic acid - 20OHC 20-hydroxycholesterol - 22OHC 22(R)-hydroxycholesterol - 25OHC 25-hydroxycholesterol - IC_50' concentration inhibiting stimulated steroid secretion by 50% - IU international unit - MEM Eagle's Minimum Essential Medium - P450scc cytochrome P450 side-chain cleavage enzyme - PREG pregnenolone - PROG progesterone - RNA ribonucleic acid - SEM standard error of the mean - SMEM serum-containing Eagle's Minimum Essential Medium - 20DHP 20-hydroxy-4-pregnen-3-one     

Modulation of adrenal cell functions by cadmium salts: 3. Sites affected by CdCl2 during stimulated steroid synthesis

In previous studies cadmium chloride (CdCl₂) nonlethally inhibited Y-1 mouse adrenal tumor cell 20-dihydroxyprogesterone (20DHP) secretion, affecting unstimulated and stimulated steroidogenic pathway sites differently. In addition, dibutyryl cAMP-stimulated 20DHP secretion was unaffected by CdCl₂, while the site of the unstimulated effect was indirectly shown to involve steps between endogenous cholesterol utilization and 20-hydroxycholesterol association with mitochondrial cytochrome P450 side-chain cleavage enzyme. In the present study we determined CdCl₂ effects on plasma membrane sites preceding pre-dbcAMP-stimulation of 20DHP secretion. Y-1 cells were incubated 0.5 h in medium with or without cadmium (using the concentration that inhibited adrenocorticotropin- (ACTH)-stimulated steroid secretion by 50%) together with exogenously added maximally stimulating concentrations of ACTH, cholera toxin, forskolin, or adenosine triphosphate Cholera toxin, forskolin and ATP bypass specific plasma membrane sites involved in the synthesis of intracellular cAMP and activate the steroid hormone biosynthetic pathway. Cadmium effects on ACTH-stimulated endogenous cAMP secretion were also examined. CdCl₂ significantly reduced Y-1 cell 20DHP secretion following exposure to ACTH, cholera toxin, forskolin, and ATP; it also significantly decreased endogenous cAMP secretion into culture medium. These data may be interpreted to suggest that CdCl₂ altered Y-1 cell regulation of adenyl cyclase activity, which reduced cAMP-activated cholesterol uptake by mitochondria as a consequence.Abbreviations ACTH adrenocorticotropin - ATP adenosine triphosphate - ANOVA analysis of variance - CdCl₂ or Cd²⁺ cadmium chloride - cAMP cyclic 3,5-adenosine monophosphate - CTX cholera toxin - dbcAMP dibutyryl cAMP,N,O-dibutyryl-3,5-adenosine monophosphate - EGTA ethylene glycol bis tetraacetic acid - FMEM serum-free Eagle's Minimum Essential Medium with all other supplements - FSK forskolin - Hepes N-2-hydroxyethylpiperazine-N-1,2-ethanesulfonic acid - IC_50' concentration inhibiting stimulated steroid secretion by 50% - IU international unit - MEM Eagle's Minimum Essential Medium - P450scc cytochrome P450 side-chain cleavage enzyme - PREG pregnenolone - PROG progesterone - SEM standard error of the mean - SMEM serum-containing Eagle's Minimum Essential Medium with supplements - 20DHP 20--hydroxy-4-pregnen-3-one     

Cadmium interferes with steroid biosynthesis in rat granulosa and luteal cellsin vitro

Recently, cadmium has been described to disturb ovarian function in rats. In this paper the direct influence of cadmium on steroid production of ovarian cellsin vitro has been studied. Granulosa and luteal cells were obtained from proestrous and pregnant rats, and incubated with 0, 5, 10, 20 or 40 g ml^–1 CdCl₂ in the presence or absence of 0.1–1000 ng ml^–1 follicle stimulating hormone (FSH) or luteinizing hormone (LH) for 24 or 48 h. Production of progesterone (P) and 17-estradiol (E₂) by granulosa and that of P by luteal cells were measured by radioimmunoassay. In FSH-stimulated granulosa cell cultures, 5 and 40 g ml^–1 CdCl₂ suppressed P accumulation to 65 and 10%, respectively; accumulation of E₂ (at 5 g ml^–1 CdCl₂) decreased to 44%. P production of LH-supported luteal cells dropped to 86 and 66%, respectively, when 5 and 40 g ml^–1 CdCl₂ was added to the medium. No alteration in basal P accumulation occurred in granulosa and luteal cell cultures following incubations with 20 and 40 g ml^–1 CdCl₂, whereas basal E₂ production of granulosa cells was markedly diminished. It is concluded that CdCl₂ suppressing steroid synthesisin vitro exerts a direct influence on granulosa and luteal cell function.     

Relation between resistance to β-lactam antibiotics and cadmium in salmonellae isolated from pigs

Of 50Salmonella species isolated from pigs, 30 were resistant to cadmium and 18 of these also to azlocillin. The azlocillin-resistant isolates were resistant to cadmium at 80–500, mg/L CdSO₄. A broader spectrum of resistance to azlocillin, ampicillin and cephazollin was found in strains resistant to <200 mg/L CdSO₄. Resistance to silver, mercury, chloramphenicol and streptomycin was independent of the resistance to β-lactam antibiotics and Cd²⁺. Production and levels of β-lactamase do not correlate with the spectrum of resistance.     

Induction of metal binding compounds and antioxidative defence in callus cultures of two black poplar (<Emphasis Type="Italic">P. nigra</Emphasis>) clones with different tolerance to cadmium

Callus cultures of two parental clones of Populus nigra L., Poli and 58-861, originating from contrasting environments, were exposed to different cadmium concentrations (0, 150 and 250 μM CdSO₄). Clones showed different growth responses to cadmium, evaluated by the tolerance index (Ti), with Poli being more tolerant to the metal at both concentrations. The cadmium concentration at the end of the treatment was very similar between clones at 150 μM CdSO₄, while a higher value in 58-861 compared to Poli was detected at 250 μM CdSO₄. The bioconcentration factor evidenced the lowest value in Poli at 250 μM CdSO₄. Unlike 58-861, cadmium provoked a strong induction of thiols and phytochelatins in clone Poli. In both clones, organic acid concentration differed notably in untreated calli and cadmium treatment induced a general lowering of these compounds. A notably higher antioxidant enzyme activity (ascorbate peroxidase, APX; catalase, CAT; guaiacol peroxidase, GPX) was measured in control calli of clone Poli compared to 58-861. Cadmium induced a remarkable enhancement of APX and CAT, but not GPX, activity at 150 μM CdSO₄ in Poli. Conversely, in 58-861 at 150 μM CdSO₄, and in both clones at 250 μM CdSO₄, a decrease in the antioxidant activity occurred. This investigation provided evidence that these two contrasting genotypes of P. nigra are characterised by a different response to cadmium in callus cultures. In particular, in Poli, the higher tolerance to cadmium is associated with a higher activity of antioxidative enzymes and the ability to strongly increase thiol and PC concentration in response to metal exposure.     

Influence of cadmium on resistance to antibiotics in salmonellæ isolated from pigs

Repeated cultivations (4 passages) of salmonellæ (18 strains) resistant to cadmium, streptomycin and β-lactam antibiotics in Müller-Hinton Broth (MHB) and Mac-Conkey Broth (MCB) without and with CdSO₄ (2, 20 and 100 mg/L) showed a higher toxic effect of cadmium in MCB. The strains survived at CdSO₄ 100 mg/L in MHB for four transfers, in MCB only a single transfer. In dependence on the medium used and amount of metal added, the increase of resistance to antibiotics was different. In MHB, the same levels of resistance to carbenicillin and streptomycin were induced by CdSO₄ (20 and 100 mg/L), in MCB it was by 2 and 20 mg/L. Simultaneous stop of the growth of a control cultureS. typhimurium with chromosomal resistance to streptomycin, isolates with and without plasmid in MCB which contained CdSO₄ 100 mg/L, and the results of conjugal transfer of resistance suggest that changes of resistance to antibiotics were not medated by determinants of resistance to antibiotics. The binding of cadmium to outer membrane protein can cause a decreased permeability to these antibiotics as a resistance mechanism.     

Glutamate-induced swelling of cultured astrocytes is mediated by metabotropic glutamate receptor

The effects of glutamate and its agonists and antagonists on the swelling of cultured astrocytes were studied. Swelling of astrocytes was measured by [3H]-O-methyl-D-glucose uptake. Glutamate at 0.5, 1 and 10mmol/L and irons-l-aminocyclopentane-1,3-dicarboxylic acid (trans-ACPD), a metabotropic glutamate receptor (mGluR) agonist, at 1 mmol/L caused a significant increase in astrocytic volume, whereas alpha-amino-3-hydroxy-5-methyl-4-isoxazole proprionic acid (AMPA) was not effective. L-2-amino-3-phosphonopropionic acid (L-AP3), an antagonist of mGluR, blocked the astrocytic swelling induced by trans-ACPD or glutamate. In Ca2+-free condition, glutamate was no longer effective. Swelling of astrocytes induced by glutamate was not blocked by CdCl2 at 20 μmol/L, but significantly reduced by CdCl2 at 300 μmol/L and dantrolene at 30 μmol/L. These findings indicate that mGluR activation results in astrocytic swelling and both extracellular calcium and internal calcium stores play important roles in the genes     

Genotoxic effect of cadmium is associated with apoptotic changes in tobacco cells

This work explores the influence of cadmium on a suspension cell culture of Nicotiana tabacum (TBY‐2) by examining cell morphology, viability and DNA integrity. Changes in these parameters were strikingly dependent on concentration of cadmium in the culture medium: a concentration of 50–100 mmol m ^{? 3} CdSO₄ induced apoptotic changes including DNA fragmentation into oligonucleosomal units, while 1 mol m ^{? 3} Cd^{2 +} showed strong cytotoxicity, but no fragmentation of DNA. Low cadmium concentrations (below 10 mmol m ^{? 3}) affected neither cell viability nor DNA integrity. A detailed kinetic study showed a significant delay in the onset of apoptosis after the application of high concentrations of cadmium. From days 0–3 after the application of 50 mmol m ^{? 3} CdSO₄, the morphology of the cells, their viability and growth were indistinguishable between control and treated cells, and ‘domain’ DNA fragmentation into 50–200 kb fragments was observed at the DNA level. After this (days 4–7), there was a characteristic and rapid decrease in cell viability, distinct changes in cell morphology and oligonucleosomal fragmentation. The results suggest that chronic exposure of plant cells to cadmium can trigger programmed cell death.     

Effects of cadmium,lead, and sodium salts on nitrification in a mull soil

Summary Increasing amounts of Cd, Pb, and Na salts were added to a fresh mull soil and the NO₃ and NH₄ concentrations measured after 2–8 weeks of incubation. The highest amounts used (CdCl₂ 9–18 mol/g dry weight, CdAc₂ 9–22 mol/g, PbAc₂ 121 mol/g and NaAc 250 mol/g) significantly increased NO₃ accumulation. Lower concentrations had either no effect or caused a slight decrease. re]19730529     

Stimulation of HCO3− secretion by the prostaglandin E2 analog enprostil: Studies in human stomach and rat duodenum

This study investigated the action of enprostil, a synthetic analog of PGE₂, on gastric HCO₃⁻ secretion in humans and on duodenal HCO₃⁻ secretion in the anesthetized rat. A previously validated 2-component model was used to calculate gastric HCO₃⁻ and H⁺ secretion in 10 human subjects. Compared to placebo, a single 70 μg oral dose of enprostil increased basal gastric HCO₃⁻ secretion from 1810 +- 340 to 3190 ± 890 μmol/hr (P < 0.05). In addition, enprostil reduced basal gastric H⁺ secretion from 5240 ± 1140 to 1680 ± 530 μmol/hr (P < 0.02). Enprostil also increased HCO₃⁻ and reduced H⁺ secretion during intravenous pentagastrin infusion. In the rat, duodenal HCO₃⁻ secretion was measured by direct titration in situ using perfused segments of duodenum just distal to the Brunner gland area dn devoid of pancreatic and biliary secretions. Addition of enprostil(10 μg/ml) to the duodenal bathing solution increased duodenal HOC₃⁻ secretion from 6.3 ± 1.3 to 15.1 ± 2.0 μmol/cm·hr (P < 0.01, n = 6). The stimulatory action of enprostil on duodenal HCO₃⁻ secretion at 10 μg/ml was comparable in magnitude and duration to that of 10 μg/ml natural PGE₂. In summary, the PGE₂ analog enprostil stimulated gastroduodenal HCO₃⁻ secretion, effects which may be beneficial in protection of the gastroduodenal mucosa against luminal acid.     

Pattern of cadmium accumulation and essential cations during growth of cadmium-tolerant fungi

The present study evaluates the growth response of two strains of filamentous fungi; a Fusarium sp. and Alternaria tenuis, grown on both solid and liquid Czapek Dox medium amended with different concentrations of CdCl₂. Colony extension and the mycelial dry weight of both fungi were significantly inhibited by high concentrations of cadmium. Extended lag phases and low growth rates resulted from cadmium administration. Cadmium drastically affected fungal morphogenesis by the production of stunted sterile thick mycelial filaments of the Fusarium sp. and chains of uncharacterized swellings instead of conidia in A. tenuis. Experiments showed that cadmium accumulation by the Fusarium sp. grown in liquid medium was a concentration dependent, and over the incubation time it displayed a plateau pattern. The cells grown on medium containing 0.25 mmol l^–1 CdCl₂ accumulated up to 89 ± 12 mol Cd (gm dw)^–1 after two days, falling to 29 ± 10 mol Cd (gm dw)^–1 after five days. At 0.5 mmol l^–1 CdCl₂ treatment the maximum cellular cadmium content was 132 ± 14 mol (gm dw)^–1, attained after 3 days, and decreased to 98 ± 9 mol (gm dw)^–1 at the end of the incubation time. There was a simultaneous marked drop in cadmium content and pH of the growth medium during the first few days. The presence of cadmium markedly altered the cellular essential cations; K⁺ and Mg²⁺ being decreased while Na⁺ increased during the growth period. Such findings resulted a reverse pattern of cellular Na⁺/K⁺ ratio for cells grown on cadmium-containing medium in respect to the control treatment. The results are discussed in relation to a further dimension of cadmium effects that might reflect its toxicity, as well as the implication of cadmium extrusion for tolerance during fungal growth.     

Ultrastructural Changes in the Kidney of Rats with Acute Exposure to Cadmium and Effects of Exogenous Metallothionein

Ultrastructural changes in the kidneys of rats after acute cadmium exposure and the effects of exogenous metallothionein (MT) were studied by transmission electron microscopy. Thirty-six adult Wistar rats were divided into three groups. Cadmium chloride (CdCl₂) (3.5 mg/kg/day) was injected subcutaneously in the first group. In the second group, 30 μmol/kg MT was administered in addition to CdCl₂. Control rats received 0.5 ml subcutaneous saline solution. Four rats from each group were killed on days 1, 3, 5, and 7 after administration of the compounds. Kidney tissues were taken and fixed in 2.5% glutaraldehyde solution for electron microscopic observations. Tissue damage in kidney increased as time passed since the administration of CdCl₂ in the first group. Degeneration in the proximal and distal tubules was observed. Increased apoptosis was seen in the proximal tubules epithelium, especially on day 7. Peritubular capillaries became dilated, there was degeneration of the endothelial cells, and the amount of intertubular collagen fibers was increased. On day 1, irregular microvilli in the proximal tubules, deepening of the basal striations, and myelin figures; on day 3, multiple vesicular mitochondria and regions of edema around tubules; on days 5 and 7, increased apoptotic cell in the proximal tubules and widened rough endoplasmic reticulum of the endothelial cells of glomerular capillaries were observed. We observed that the structural alterations that increased depending on the day of Cd administration decreased after exogenous MT administration, the dilation of the peritubular capillaries persisted, and there were degenerated proximal tubules. It was established that cadmium chloride was toxic for kidney cortex and caused structural damage. Exogenous MT partly prevents CdCl₂-induced damage.     

Effect of cadmium on glutathione reductase in potato tubers

Short-term treatment of potato tuber (Solanum tuberosum L.) discs with CdCl₂ changed glutathione reductase (GR) activity depending on cadmium ions concentrations, kind of tuber and time of incubation. The increase of GR activity at 10 and 100 μmol·dcm⁻³ of CdCl₂ solutions was marked in less resistant tissues of cv. Bintje after 24 hrs, and was slight in more resistant tissues of cv. Bzura after 72 hrs. At 1 mmol·dcm⁻³ concentration of CdCl₂ rapid and total inactivation in both kind of tissues was observed, which disappeared after a few days. However this elevation was faster in more resistant tissues. These inhibition effects come from the inactivation process of GR by cadmium. The values of K_I for cadmium and K_M for GSSG of GR from potato tuber tissues indicated that enzyme from more resistant tissues possessed lower affinity to toxic metal and higher affinity to substrate.     

Cadmium and oxidative stress influence on phytochelatin synthase activity in potato tuber

Short-term treatment of potato tuber (Solanum tuberosum L.) discs with CdCl₂ induced biosynthesis of phytochelatin synthase (PCS). The intensity of this process depended on the concentration of cadmium ions (0.01 – 1 mmol·dm⁻³), time and cadmium resistance of tissues. In more resistant tissues, PCS activity was much higher and PCS was more resistant to oxidative stress. It seems that these tissues possessed more efficient cadmium detoxification system.     

Prostacyclin and steroidogenesis in goat ovari cell types in vitro

Granulosa, theca and corpus luteum cells of the goat ovary were isolated and incubated separately for 6 hours, with or without various modulators. Arachidonic acid (AA, 10 ng to 100 μg/ml), the precursor for prostaglandin synthesis, produced a dose-dependent increase in progesterone (P₄) and estradiol-17β (E₂) productin by all the cell types. Prostaglandin synthetase inhibitors, aspirin (10⁻⁶−10⁻³M) and indomethacin (100 ng−1 mg/ml), produced a dose-dependent decrease in arachidonic acid-stimulated (100 μ/ml) steroid production. Prostacyclin synthetase stimulators, trapidil (1.6 μg− 1 mg/ml) and dipyridamole (10⁻⁶−10⁻³M), when added alone or along with AA, did not effect steroid production. Up to 100 μg/ml of U-51605 (9,11-azoprosta-5, 13-dienoic acid), a prostacyclin synthetase inhibitor, did not inhibit basal or AA-stimulated steroid production. Prostacyclin (PGl₂) and its stable analog 6βPGl₁(0.01–10μg/ml) produced a dose-dependent increase in P₄ and E₂ production in all three cell types. Increase at 1 and 10μg/ml was significant in all cases. 6-keto-PGE₁ (an active metabolite of PGl₂ in certain systems) produced an increase in steroid production which was significant in theca at 1μg/ml concentrations but had no significant effect on granulosa and corpus luteum cells at any dose level. 6-keto-PGf₁ alpha (stable metabolite of PGl₂) was without effect inthe present system. The lack of effect of PGl₂ at lower concentrations was not altered by either differentiation of the cells with FSH and testosterone or addition of steroid precursors, testosterone and pregnenolene. The present results indicate that AA- stimualted steroid production in the goat ovarian cell type is mediated by prostaglandins other than PGl₂ though PGl₂ itself can positively modulate the steroid production.     

Genotoxic effects of heavy metals in rat hepatocytes

The genotoxic interaction of metals, which are common environmental contaminants, was studied in cultured hepatocytes. Freshly isolated rat hepatocytes were exposed to concentrations of cadmium, copper, silver and lead salts ranging from non-cytotoxic to moderately cytotoxic (as determined by LDH release), and the incorporation of [³H]thymidine into the DNA, as a measure of repair synthesis, was followed. In addition, the uptake of metals by the nuclear fraction was determined using Inductively Coupled Plasma/Mass Spectrometry or atomic absorption spectrophotometry. The evaluation of binding of ¹⁰⁹Cd to the DNA in situ was also attempted. It was observed that after a 20 h exposure period, all the metals investigated were found in the nuclear fraction of hepatocytes, with Ag apparently being accumulated less efficiently. In parallel, Cd (0.18 to 1.8 µM) and Cu (7.9 to 78.5 µM) consistently produced a statistically significant stimulation of [³H]thymidine incorporation into the DNA, in the presence or absence of hydroxyurea while Ag was active only at the highest concentration tested (18.5 µM). In contrast, Pb failed to induce a UDS response at the levels used. Moreover, exposure of hepatocytes to 1.8 µM ¹⁰⁹CdCl₂ for 20 h led to a DNA binding ratio of 0.98 ± 0.23 ng Cd/ µg DNA. The present results support the view that the nucleus may be an important target organelle for metal toxicity.Abbreviations 2-AAF 2-acetylaminofluorene - Cd cadmium - HU hydroxyurea - lCP/MS inductively coupled plasma/mass spectrometry - Hg mercury - Ni nickel - UDS unscheduled DNA synthesis     

Cadmium alteration of root physiology and potassium ion fluxes

Segments of oat (Avena sativa L.) roots which had been exposed to 1 millimolar CdSO₄ in quarter-strength Hoagland No. 1 solution exhibited decreased respiratory rates, ATP levels, membrane-bound ATPase activity, and reduced K⁺ fluxes. Respiration and ATP levels were decreased after a 2-hour treatment with 1 millimolar CdSO₄ to 65 and 75%, respectively, of control rates. A membrane-bound, Mg²⁺-dependent, K⁺-stimulated acid ATPase was rapidly inhibited to 12% of control activity in the presence of 1 millimolar CdSO₄. Potassium uptake into root segments was inhibited to 80% of control values after 30 minutes in the presence of CdSO₄. A 2-hour pretreatment of root segments with CdSO₄ inhibited K⁺ uptake to 15% of control values. Cytoplasmic K⁺ efflux was inhibited with 1 millimolar CdSO₄.

The rates and the degree of Cd²⁺ inhibition of the parameters listed above suggest that one of the first sites of Cd²⁺ action is the plasmalemma K⁺ carrier (ATPase) in oat roots.

     

Heat shock proteins are induced by cadmium in Drosophila cells

Drosophila cells were treated with increasing concentrations of CdCl₂ (10 μM-1 mM). The toxicity of cadmium, as observed by cellular death and the ability of the cells to survive after removal of CdCl₂, depended on concentration and duration of treatment. The overall synthesis of protein, measured by incorporation of [³⁵S]methionine, decreased. It fell to 66% of the controls after 24 h of exposition to 50 μM CdCl₂ and to 29% after 48 h. We showed that cadmium induced the synthesis of ‘heat shock proteins’ (hsps), which started after 6 h and was maximal after 24 h of 50–100 μM CdCl₂ treatment.