Studies of zinc metabolism in the rat. I. Dose-response effects of cadmium

Environmental chemical-wide associations with immune biomarkers in US adults: A cross-sectional analysis

Environmental chemical exposures influence immune system functions, and humans are exposed to a wide range of chemicals, termed the chemical "exposome". A comprehensive, discovery analysis of the associations of multiple chemical families with immune biomarkers is needed. In this study, we tested the associations between environmental chemical concentrations and immune biomarkers. We analyzed the United States cross-sectional National Health and Nutrition Examination Survey (NHANES, 1999-2018). Chemical biomarker concentrations were measured in blood or urine (196 chemicals, 17 chemical families). Immune biomarkers included counts of lymphocytes, neutrophils, monocytes, basophils, eosinophils, red blood cells, white blood cells, and mean corpuscular volume. We conducted separate survey-weighted, multivariable linear regressions of each log2-transformed chemical and immune measure, adjusted for relevant covariates. We accounted for multiple comparisons using a false discovery rate (FDR). Among 45,528 adult participants, the mean age was 45.7 years, 51.4% were female, and 69.3% were Non-Hispanic White. 71 (36.2%) chemicals were associated with at least one of the eight immune biomarkers. The most chemical associations (FDR<0.05) were observed with mean corpuscular volume (36 chemicals) and red blood cell counts (35 chemicals). For example, a doubling in the concentration of cotinine was associated with 0.16 fL (95% CI: 0.15, 0.17; FDR<0.001) increased mean corpuscular volume, and a doubling in the concentration of blood lead was associated with 61,736 increased red blood cells per μL (95% CI: 54,335, 69,138; FDR<0.001). A wide variety of chemicals, such as metals and smoking-related compounds, were highly associated with immune system biomarkers. This environmental chemical-wide association study identified chemicals from multiple families for further toxicological, immunologic, and epidemiological investigation.

Effects of micronutrients on metal toxicity

There is growing evidence that micronutrient intake has a significant effect on the toxicity and carcinogenesis caused by various chemicals. This paper examines the effect of micronutrient status on the toxicity of four nonessential metals: cadmium, lead, mercury, and arsenic. Unfortunately, few studies have directly examined the effect of dietary deficiency or supplementation on metal toxicity. More commonly, the effect of dietary alteration must be deduced from the results of mechanistic studies. We have chosen to separate the effect of micronutrients on toxic metals into three classes: interaction between essential micronutrients and toxic metals during uptake, binding, and excretion; influence of micronutrients on the metabolism of toxic metals; and effect of micronutrients on secondary toxic effects of metals. Based on data from mechanistic studies, the ability of micronutrients to modulate the toxicity of metals is indisputable. Micronutrients interact with toxic metals at several points in the body: absorption and excretion of toxic metals; transport of metals in the body; binding to target proteins; metabolism and sequestration of toxic metals; and finally, in secondary mechanisms of toxicity such as oxidative stress. Therefore, people eating a diet deficient in micronutrients will be predisposed to toxicity from nonessential metals.

Cadmium suppresses delta 9 desaturase activity in rat hepatocytes

The effects of cadmium (Cd) on the fatty acid composition and delta 9 desaturation activity were studied in hepatocytes which had been cultured in serum-free medium. The aim of this study was to determine whether the inhibition of delta 9 desaturase seen in Cd-treated rat liver (Kudo et al. (1991) Toxicology, 68, 133-142) is the direct effect of Cd or not. When hepatocytes were cultured in serum-free medium, increases in the proportions of monounsaturated fatty acids such as oleic acid (18:1) were observed in the phospholipid (PL) and triacylglycerol (TG) fractions of hepatocytes, suggesting that delta 9 desaturase was induced. By contrast, essential fatty acids such as linoleic acid (18:2) and arachidonic acid (20:4) decreased. These changes were similar to those seen in the livers of essential fatty acid (EFA)-deficient rats. When hepatocytes were cultured in the presence of CdCl2, the changes in the fatty acid composition were suppressed. The effect of CdCl2 was concentration-dependent. The rate of the conversion of 18:0 to 18:1, which is catalyzed by delta 9 desaturase, was reduced by treatment with Cd, whereas the rate of conversion of 18:2 to 20:4, which is catalyzed by delta 6 desaturase, was slightly increased. Cd did not inhibit liver microsomal delta 9 desaturase activity in vitro. We concluded that Cd suppressed the induction of delta 9 desaturase in cultured hepatocytes. These phenomena can explain the selective inhibition of delta 9 desaturase in the livers of Cd-treated rats.

Kinetic characterization of zinc binding to brush border membranes from rat kidney cortex: interaction with cadmium

Extravesicular and intravesicular zinc bindings were evaluated in brush border membrane vesicles isolated from rat kidney cortex. The process was found to be time-, temperature- and substrate concentration-dependent and displayed saturability. Zn2+ influx measurements revealed a progressive uptake and massive accumulation at equilibrium which was 50 times higher than the amount that could have been accommodated by the intravesicular space calculated from the equilibrium uptake of D-glucose. Initial (5 s) and equilibrium uptakes (2 h) were found not to be osmotically sensitive as modified by adding mannitol to the medium. It was concluded from these results that the uptake involved massive binding of the Zn2+ to the brush border membranes components. The ionophore A23187 enhanced the rates of uptake and efflux of Zn2+ without affecting equilibrium values, suggesting binding of Zn2+ to interior sites of the membranes. Zn2+ flux measurements led to the conclusion that two vesicular pools of Zn2+ bindings existed: a small external pool, accessible to cation chelator (EGTA) or competitive cation cadmium and large intravesicular pool. Accumulated 65Zn was quickly removed from its internal sites only after the membrane had been permeabilized by the cation ionophore A23187 in association with exchangeable ions like zinc and cadmium. Scatchard plot analysis revealed two distinct types of extravesicular binding sites. High affinity extravesicular zinc binding sites reached saturation at 1.6 mM zinc, had a Kd of 137 microM and the number of binding sites were 12 nmol/mg protein. Low affinity extravesicular zinc binding sites could not be saturated under experimental conditions up to 3.2 mM zinc. It had a Kd of 526 microM and the number of binding sites 28 nmol/mg protein. Interestingly intravesicular binding of zinc revealed only one type of high affinity binding sites (Kd of 104 microM and number of maximal binding sites 400 nmol/mg protein). Furthermore, kinetic analysis of inhibitory effect of Cd2+ on extravesicular zinc bindings showed an increase in Kd of both types of binding sites but there was no significant change in number of maximal binding sites. Extravesicular zinc binding was temperature-sensitive. Arrhenius plot showed the break point at 30 degrees C. The apparent energies of activation were 13.36 Kcal/mol and 3.1 Kcal/mol below and above the break points respectively. The inhibitory effect of sulfhydryl blocking agents on extravesicular zinc binding suggest the involvement of -SH groups in zinc translocation. An increase in initial zinc uptake was observed in the presence of outwardly directed proton gradient. Intravesicular pool of 65Zn was displaced by unlabelled 2 mM Zn2+ or 2 mM Cd2+ but not by calcium present in the bathing medium. It is inferred that intravesicular binding sites have a high affinity and are specific for zinc. It is concluded from the present study that in the first instance the binding of zinc to the exofacial zinc binding component and concomitantly its translocation across the membrane, and subsequently massive binding of zinc to interior sites of brush border membranes occurs.

Trace metal (Cu and Zn) adaptation of organ systems of the american eel, Anguilla rostrata, to external concentrations of cadmium

1. The impact of external cadmium on the concentrations of cadmium (Cd), copper (Cu) and zinc (Zn) in seven tissues of the American eel, Anguilla rostrata was investigated. Even after a week in freshwater with undetectable levels of Cd, the tissues of eels caught in fresh and/or brackish waters of the United States east coast contained Cd in kidney, liver, gut, and brain. 2. When the eels were exposed up to 16 weeks to low and high sublethal concentrations of Cd (75 and 150 micrograms/l, respectively), the highest tissue concentrations of Cd were found after two weeks of exposure. The accumulation was dose-related in all tissues studied except for the kidney. After 8 weeks of Cd exposure, the tissue levels of Cd were markedly reduced, and they were in a similarly low range after 16 weeks. At this time, the highest Cd concentrations were found in the gills and kidney. 3. After two weeks of Cd exposure, there was a drop of the tissue concentrations of Cu in liver and heart, and of Zn in gut and liver. The low concentrations of the two metals in other organs did not allow an evaluation of the Cd impact. After 16 weeks, the Cu concentrations in all tissues, with the exception of the liver, were similar to, or even higher than control levels. At the same time, Zn concentrations exceeded the control levels in heart and kidney of eels exposed to 75 and 150 micrograms Cd/l, respectively. 4. It is clear that some tissues of the eel are able to maintain or restore normal levels of Cu and Zn, up to 16 weeks, despite concomitant Cd accumulation.

Effect of chronic dietary zinc deficiency on cadmium toxicity and carcinogenesis in the male Wistar [Hsd: (WI)BR] rat

Though it is known that excess zinc will prevent cadmium carcinogenesis, the impact of zinc deficiency on cadmium carcinogenesis has not been defined. This study assessed the effect of dietary zinc deficiency on the carcinogenic potential of cadmium in rats. Groups (n = 28 each) of male Wistar [Hsd: (WI)BR] rats were fed diets adequate (60 ppm) or deficient (7 ppm) in zinc and received a single sc dose of cadmium (5, 10, or 30 mumol Cd/kg). Lesions were assessed over the next 92 weeks. All cadmium doses increased the incidence of testicular interstitial cell tumors. The incidence of cadmium-induced testicular tumors was unaffected by dietary zinc status. However, when multiplicity of testicular lesions was considered, zinc-deficient diets markedly increased the number of testicular interstitial cell adenomas generated by cadmium exposure while significantly reducing the number of preneoplastic lesions (interstitial cell hyperplasias). The combined total number of neoplastic and preneoplastic lesions of the testes was independent of zinc status clearly indicating a shift from hyperplasia to neoplasia within the testes of zinc-deficient rats. The highest cadmium dose (30 mumol/kg) increased injection site sarcomas in zinc-deficient rats (7 tumors/27 rats at risk) but not zinc-adequate rats (3/26) when compared to control (0/49). Chronic progressive renal nephropathy was accelerated by cadmium in zinc-deficient rats. Results indicate that dietary zinc deficiency enhances carcinogenic response at the injection site of cadmium, promotes the neoplastic progression of cadmium-induced testicular lesions, and enhances chronic progressive nephropathy. Thus, dietary zinc deficiency appears to cause a generalized increase in the chronic toxic effects of cadmium.

The effect of cadmium on the composition and metabolism of hepatic fatty acids in zinc-adequate and zinc-deficient rats

Exposure to cadmium (Cd) caused changes in the fatty acid composition of phospholipids, such as increases in levels of saturated and (n-6) fatty acids and decreases in levels of (n-9) fatty acids, in the liver phospholipids of rats fed a fat-free diet. These changes were similar to those caused by dietary zinc deficiency. The changes in fatty acid composition after administration of Cd were greater in zinc-deficient (ZD) rats than zinc-adequate (ZA) rats. When [14C]18:0 was injected intravenously in order to examine the metabolism of (n-9) fatty acids, a decrease in the rate of conversion of [14C]18:0 to [14C]18:1 was observed in liver phospholipids after treatment of ZD rats with Cd. These results suggested that Cd can affect the metabolism of fatty acids in relation to zinc status and, in particular, causes a reduction in the activity of delta 9-desaturase which converts 18:0 to 18:1.

Non-metallothionein-bound cadmium in the pathogenesis of cadmium nephrotoxicity in the rat

Male rats were injected SC with 0.6 mg Cd/kg/day for 5 days per week for 2, 4, 6, and 8 weeks. Liver and kidney were examined morphologically and analyzed for metallothionein, cadmium, zinc, and copper. Morphologic changes were found in kidney but not in liver. The earliest ultrastructural change consisted of myelin figures in vacuoles in cytoplasm of proximal tubular lining cells reflecting degeneration of membranes. This change occurred after 4 weeks with 801 +/- 25 nmol/g (89.9 micrograms/g) total kidney cadmium or 390 nmol/g (43.7 micrograms/g) of cadmium not bound to metallothionein. Similar changes were observed after 6 weeks but after 8 weeks pathological changes consisted of focal cellular necrosis and interstitial fibrosis. Other ultrastructural changes included altered mitochondria and increased numbers of microbodies. Renal cadmium after 8 weeks exposure was 1827 +/- 48 nmol/g (215.3 +/- 5.8 micrograms/g) or 628 nmol/g (70.2 micrograms/g) of cadmium not bound to metallothionein. Total cadmium was higher in liver than in kidney but partitioning between bound and nonbound cadmium differed in the two organs. The fraction not bound to metallothionein increased with time of exposure in both liver and kidney. However, total cadmium in the liver did not exceed potentially available binding sites of metallothionein, whereas total cadmium did exceed potentially available binding sites of metallothionein in the kidney where pathologic changes occurred. The results indicated that degeneration of cellular membranes is an early cellular effect of cadmium exposure followed later by toxicity to organelles, cellular necrosis, and interstitial fibrosis. Cadmium-induced cellular toxicity is more directly related to the fraction of cadmium in the kidney that is not bound to metallothionein than is total cadmium per se.

Induction of hepatic metallothionein in male B6C3F1 mice exposed to hepatic tumor promoters: effects of phenobarbital, acetaminophen, sodium barbital, and di(2-ethylhexyl) phthalate

The effects of various compounds known to be hepatic tumor promoters and toxins in the male B6C3F1 mouse liver, including di(2-ethylhexyl)phthalate (DEHP), acetaminophen (ACT), barbital (BB), and phenobarbital (PB) on hepatic metallothionein (MT) concentrations were assessed after chronic exposure. From 6 weeks of age, male mice were maintained on diets containing DEHP at 12,000 or 6000 ppm, ACT at 10,000 or 5000 ppm, BB at 1,000 ppm, or drinking water with PB at 500 ppm for up to 24 weeks. MT was measured in hepatic cytosol at 0, 2, 8, and 24 weeks of exposure. DEHP proved a very effective inducer, producing elevations of MT as high as 11-fold. The increases in hepatic MT with DEHP were both dose- and time-related. ACT was likewise effective in producing hepatic MT elevations (maximum 6.7-fold) in a dose- and time-related fashion. BB and PB, however, had no effect on hepatic MT levels at any time point. While DEHP, BB, and PB treatments produced hepatomegaly, histopathological analysis at 24 weeks revealed that in both DEHP- and ACT-treated livers hepatocellular proliferation was prominent while livers exposed to BB or PB showed predominantly hepatocellular hypertrophy. Gel-filtration of DEHP-treated liver cytosol revealed that zinc was associated with the MT peak. This peak also bound cadmium in vitro and could be extracted by heat treatment and selective acetone precipitation, both typical characteristics of MT. Further confirmation of the presence of MT after DEHP treatment was obtained by sodium dodecyl sulfate-polyacrylamide gel electrophoresis (10 to 20% acrylamide). Results indicate that some, but not all, tumor promoters can induce target organ MT and that such an induction appears associated with those promoters inducing persistent cellular hyperplasia but not those inducing cellular hypertrophy.

Electron microscopic results on the ventral prostate of the rat after CdCl2 administration. A contribution towards etiology of the cancer of the prostate

The prostate epithelium of rats which received repeated cadmium chloride (CdCl2) injections showed a gradual disruption of structural differentiation. Electron microscopy studies revealed severe changes in the ultrastructure affecting all epithelial cell organelles, particularly the nuclei, rough endoplasmatic reticulum, the golgi apparatus, and mitochondria. The cells infiltrating the stroma contained secretory vacuoles and their nuclear evaginations on the invasion front showed similarities to ultrastructural pathological changes in man. Examinations of the ventral prostate following oral CdCl2 administration revealed changes ranging in severity up to dysplasia, but there was no evidence of carcinoma.

Cadmium, zinc and copper relationships in kidney and liver of humans exposed to environmental cadmium

Cadmium, copper and zinc have been determined in kidney cortex, kidney medulla and liver from 51 cadmium-polluted and 122 nonpolluted autopsied subjects. Liver cadmium and zinc were significantly higher in the cadmium-polluted subjects than in the nonpolluted subjects. Kidney cadmium, copper and zinc were lower in the cadmium-polluted subjects because of renal damage. Significant correlations of the three metals were found in the kidney. In the liver the correlation coefficients were significant only between cadmium and zinc.

Mutagenicity, carcinogenicity and teratogenicity of zinc

Zinc is a common element in the human environment and constitutes an important trace element intervening in many biological processes. Toxicity of zinc is low; zinc deficiency represents, however, a hazard for human health. Zinc is not mutagenic and has little, if any, clastogenic properties. Zinc can induce tumours but only following local application, and does not represent a carcinogenic risk to man. It is still uncertain whether zinc can cause malignant transformation but zinc is needed for cellular proliferation of existing tumours and tumour growth is retarded by zinc deficiency. Zinc is not teratogenic; it can, in fact, avert teratogenicity of other agents. Conversely, zinc deficiency may be harmful to the developing organism.

Effect of dietary zinc deficiency on the accumulation of cadmium and metallothionein in selected tissues of the rat

The effect of continuous dietary zinc deficiency on the metabolism of the toxic heavy metal cadmium has not been widely studied. This investigation was designed to assess the effects of subadequate dietary zinc intake on the accumulation of dietary cadmium and on metallothionein (MT) and zinc concentrations in target organs of cadmium toxicity. Adult male Wistar rats (180-200 g) were allowed, ad libitum, diets either adequate (60 ppm) or deficient (7 ppm) in zinc for a total of 9 wk. The zinc-deficient diet resulted in an approximately 40% reduction in plasma zinc (assessed at 3, 6, and 9 wk) in the absence of overt signs of zinc deficiency (i.e., reduced weight gain, alopecia, etc.). Separate groups of rats were also maintained on zinc-defined diets for a total of 9 wk, but cadmium was added to the diet (0, 12.5, 25, 50, 100, and 200 ppm) at the end of wk 3 and maintained at that level throughout the remaining 6 wk of the study, when the rats were killed. The feeding of the zinc-deficient diet markedly enhanced the accumulation of cadmium in the liver, kidney, and testes. Hepatic, renal, and testicular zinc concentrations were not affected by suboptimal zinc intake alone. However, marked reductions in renal and testicular zinc concentrations were caused by zinc deficiency in concert with cadmium exposure. MT levels, when related to tissue cadmium concentrations, were elevated to a significantly lesser extent in the kidneys of zinc-deficient animals. These results indicate that marginal zinc deficiency markedly increases cadmium accumulation in various organs and reduces zinc content and MT induction in some organs.

Carcinogenic effects of cadmium on the prostate of the rat

The carcinogenic effects of cadmium were tested in an animal experiment to check the results of epidemiological studies showing that the incidence of prostatic carcinoma is above average in workers industrially exposed to high cadmium levels. For this purpose 1.9 mg CdCl2 (1.2 mg Cd/kg body weight) was injected into the right ventral prostatic lobe of 12-month-old male inbred rats of the Okamoto-toki strain. Simple hyperplasia was found in 38, atypical hyperplasia in 29, atypical hyperplasia with severe dysplasia in 11 and invasive prostatic carcinoma in 5 of 100 animals 270 days after the injection. Various mechanisms are discussed in connection with the carcinogenic action of cadmium.

Copper and zinc levels in serum and urine of cadmium-exposed people with special reference to renal tubular damage

Urinary copper and zinc concentrations and their serum levels were determined in women environmentally exposed to cadmium, including "itai-itai" disease patients and suspected patients, for evaluating the effect of cadmium exposure on metabolism of such essential metals as copper and zinc in human beings. Copper concentrations in the urine of cadmium-exposed women, especially "itai-itai" patients and suspected patients, were much higher than those of nonexposed women. Zinc concentrations in the urine of cadmium-exposed women, however, were not different from those of nonexposed women. Zinc levels in the serum of the "itai-itai" patients were somewhat lower than those of the nonexposed women. On the other hand, serum copper was almost equal in the cadmium-exposed and the nonexposed women. The correlation coefficient between beta 2-microglobulin amounts and copper concentrations in the urine of all women examined was as high as 0.95. It is concluded that exposure to cadmium will cause an increase in the excretion of copper in urine, which is attributable to renal tubular damage due to the cadmium exposure, and that urinary zinc excretion is not increased by cadmium exposure, even in the patients who suffer from severe renal tubular damage.

Absorption and distribution of cadmium in mice fed diets containing either inorganic or oyster-incorporated cadmium

To determine the absorption, organ distribution, and retention of organically bound cadmium (Cd) and the effects of dietary zinc (Zn) on Cd metabolism, groups of mice were fed five different diets. The organic Cd used in the diets was in the form of lyophilized oyster (Crassostrea virginica) that had accumulated radiolabeled 109Cd through a plankton food chain. The mice were fed either a standard basal mouse diet (AIN-76) or diets containing five or eight times the Zn concentration of the basal diet. The source of Zn was either oyster tissue or ZnCO3. The concentration of organic and inorganic Cd provided a dose of approximately 0.4 mg/kg. Diets prepared from oyster tissue probably contained all of the Cd and 85% of the Zn in organic form. Diets prepared with inorganic metals contained about the same Cd and Zn concentrations as the diets prepared with oyster. There was very little difference between the retention of Cd by mice that ingested organic (oyster bound) Cd and those fed inorganic Cd (CdCl2). However, when the Cd retained in the intestine was excluded, retention of organic Cd was significantly greater than that of inorganic Cd. The organ distribution of Cd differed significantly according to the chemical form of Cd fed (organic or inorganic) and the Zn level in the diet. The kidneys of mice fed organically bound Cd retained a higher percentage of the metal than the kidneys of those fed inorganic Cd. On the other hand, the livers of animals fed a low-Zn diet retained a higher percentage of the Cd than the livers of those fed a high-Zn diet, regardless of the dietary source of Cd.

The effect of treatment on zinc, copper and calcium status in children with phenylketonuria

The trace element status of 25 children receiving a low phenylalanine diet for a treatment of phenylketonuria was studied using hair and serum samples. Hair trace element and calcium concentrations were assayed using X-ray microanalysis and compared with samples from sibling controls. Plasma, zinc and copper levels were compared with unselected hospital attenders. PKU patients were found to have significantly lower hair zinc (P less than 0.001) and calcium (P less than 0.01) concentrations and significantly hair copper (P less than 0.001) concentrations compared with controls. Plasma zinc levels were below the lower limit of normal (9.6 mumol l-1) in 8 of 19 patients (42%) in whom it was measured. The relative zinc deficiency in PKU patients may result from a competitive inhibition of absorption by copper or other metals supplemented in the diet.

Effect of interaction between 65Zn, mercury and selenium in rats (retention, metallothionein, endogenous copper)

Interaction of zinc with mercuric chloride and sodium selenite was studied in the rat at the organ and subcellular levels (liver and kidneys). Zinc chloride was administered subcutaneously at dose of 5 mg Zn/kg, mercury chloride into the tail vein at a dose of 0.5 mg Hg/kg (both metals every other day during 2 weeks) and sodium selenite intragastrically, at doses of 0.1 mg Se/kg, every day. Zinc retention in the rat did not exceed 20% and was unchanged in the presence of mercury. An interaction effect was reflected by an increased whole-body retention of zinc by selenium, mercury, and selenium. In the presence of selenium no peak of metallothionein-like proteins stimulated by zinc or mercury was found in the soluble fraction of the kidneys. The metallothionein level did not differ from that typical for control group animals, too. A significant increase in the level of endogenous copper was found only in the kidneys of rats exposed to zinc in the presence of mercury and selenium.

Consecutive zinc balance trials in growing rats

Rats were fed a purified egg white-based diet containing 5 ppm Cu and 2, 14, or 57 ppm Zn. Zinc and copper balances were determined for eight consecutive weekly trial periods. The zinc-deficient group almost ceased to gain weight and was in slightly negative zinc balance. Groups of rats fed 14 and 57 ppm Zn gained weight at equal rates. These groups were in strongly positive zinc balance for four weeks; thereafter, they fed 57 ppm Zn retained about two times as much zinc as did the group fed the diet containing 14 ppm Zn. All groups were in null or slightly negative copper balance throughout the trial. These results suggest that zinc accumulation may be homeostatically controlled to a level in excess of that needed for maximum growth.

Effect of acute administration of cadmium on distribution of zinc in the hamster

Acute administration of sc doses of Cd (1mg/kg . d, 3 or 6 d) to male golden hamsters resulted in a remarkable dose-dependent increase of Zn in the liver and kidney. In contrast, Zn contents in the heart and testes showed a significant dose-dependent decrease. No change was found in Zn contents of the bone. The correlation coefficients between contents of Cd and Zn in the liver and kidney were much higher in metallothionein fractions than in the corresponding whole organs. These results suggest that Cd induces the synthesis of metallothionein in the liver and kidney, leading to simultaneous accumulation of Cd and Zn in the organs; this in turn decreases the Zn contents in other organs, where weak or no induction of metallothionein synthesis takes place. Therefore Cd might induce Zn deficiency in humans or animals whose pool size and intake of Zn are marginal.

Cadmium nephropathy: monitoring for early evidence of renal dysfunction

Prospective studies in humans comparing various tests of cadmium-induced nephropathy have not been reported. Consequently, it is not possible to ascertain which screening methods should be followed in order to detect early nephropathy at a reversible stage. To obtain such data, the authors studied 23 cadmium workers with periodic analyses of blood/urine cadmium levels, hair cadmium content, urinary cytologies, creatinine clearance and urinary levels of lysozyme, beta-2-microglobulins, immunoglobulins, and aminoacids. Blood/urine levels were useful only as indices of acute environmental exposure and not as predictors of total body content or possible nephropathy. Hair content was elevated in most workers. Urine cytology was not reliable. Until further data are available, it is suggested that all five measures of renal function be used in screening and follow-up of cadmium workers for preventing nephropathy.

The influence of high dietary zinc on tissue disposition and urinary excretion of cadmium, zinc, copper and iron after repeated parenteral administration of cadmium to rats

The administration of a high dietary supplement of zinc sulphate (2000 ppm) to rats for 28 days produced no effect upon growth rate of the animals but caused in increased food intake. The supplement had no effect upon the reduction of growth rate caused by the daily injection of cadmium chloride (1.5 mg/kg). Zinc-supplemented animals showed an increased accumulation of zinc in the liver and kidney, plasma zinc levels were significantly increased and there was an elevated excretion of zinc in the urine compared to control animals. Cadmium-treated, zinc-supplemented animals had a higher concentration of cadmium in the liver compared to animals treated only with cadmium. The high dietary zinc did not interfere with tissue or plasma concentration of copper and iron, nor did it influence the cadmium-induced changes in these metals. There was some indication however of a decreased urinary excretion of copper.

[Interaction among the trace elements zinc, copper and iron after depletion and repletion of dairy cows with zinc]

Imbalances in the supply with trace elements may be caused by the excessive administration of one or several elements or the insufficient administration in relation to other trace elements. This article deals with the interactions between the trace elements zinc and copper resp. zinc and iron under the conditions of the insufficient supply with Zn (6 mg per kg dry matter of the fodder) and the supply according to the demand with other trace elements (14 mg copper resp. 83 mg iron per dry matter of the fodder). For this purpose we investigated the copper, iron and zinc content of the milk and the serum of cows that were first depleted of zinc through a semi-synthetic zinc deficiency diet and then repleted with extra allowances of zinc. The closest connections exist between the copper and zinc content of the milk. Thus extreme Zn-deficiency feeding conditions the decreased Zn-content on the one hand and increased Cu-content on the other. In contrast to this, the cows' Zn-excretion in the milk increases after Zn-repletion whereas the Cu-content decreases. This shows a distinctly negative correlation. A loose connection could only be detected for the Cu- and Zn-content of the serum. Though the Zn-content changed considerably in dependence on the Zn-supply, the Cu-content remained largely uninfluenced. The Fe-content of both milk and serum shows no interaction with the nutritive Zn-supply. Only after 19 test weeks of extreme Zn-deficiency could a slight increase of the Fe-concentration be indicated.

Antagonistic effect in vivo of zinc on inhibition of delta-aminolevulinic acid dehydratase by lead

Delta-aminolevulinic acid dehydratase (ALAD) is an enzyme involved in the biosynthesis of heme, in which it catalyzes the condensation of two molecules of delta-aminolevulinic acid to one molecule of porphobilinogen. It is a sulfhydryl enzyme, which means, among other things, that its activity is inhibited by many heavy metals. In the present investigation rabbits were given either zinc or lead or both. Zinc had a strong activating effect on ALAD in vivo, and the inhibitory effect of lead was almost completely eliminated. A close positive correlation was found between ALAD in the red blood cells and zinc in the plasma, but there was no correlation between ALAD and zinc in the red blood cells. These observations are of particular interest in the light of recent findings, suggesting that zinc is an essential metal for ALAD.