Showing papers in "Biological Trace Element Research in 1982"

In vitro assessment of the toxicity of metal compounds

Abstract: A review of the activity of metal compounds in mammalian cell transformation assays has been completed. Results from these assays appear to correlate well with the known carcinogenic activity displayed by specific metal compounds in vivo. Studies of cell transformation in vitro may provide information pertaining to the mechanism of the induction of carcinogenesis by certain metals.

Interactions among nickel, copper, and iron in rats : Liver and plasma content of lipids and trace elements.

Abstract: In two fully crossed, three-way, two by three by three, factorially arranged experiments, female weanling rats were fed a basal diet supplemented with iron at 15 and 45 μg/g, nickel at 0, 5, and 50 μg/g and copper at 0, 0.5, and 5 μg/g (Expt. 1) or 0, 0.25, and 12 μg/g (Expt. 2). Expt. 1 was terminated at 11 weeks, and Expt. 2 at 8 weeks because, at those times, some rats fed no supplemental copper and the high level of nickel began to lose weight, or die from heart rupture. The experiments showed that nickel interacted with copper and this interaction was influenced by dietary iron. If copper deficiency was neither very severe or mild, copper deficiency signs of elevated levels of total lipids and lipid phosphorus in liver and plasma, and cholesterol in plasma, were made more severe by supplemental dietary nickel. Rats in which nickel supplementation exacerbated copper deficiency did not exhibit a depressed level of copper in liver and plasma. Also, although iron deprivation enhanced the interaction between nickel and copper, iron deprivation did not significantly depress the level of copper in liver and plasma. The findings confirmed that, in rats, a complex relationship exists between nickel, copper, and iron, thus indicating that both the iron and copper status of experimental animals must be controlled before data about nickel nutriture and metabolism can be compared among studies.

Selenium concentration and glutathione peroxidase activity in cow's milk.

Abstract: Samples of raw or pasteurized cow’s milk and infant formula were assayed for glutathione peroxidase (GSH-Px) activity, selenium (Se), and total protein. GSH-Px activity was detected in raw milk, but not in market-pasteurized milk or infant formula. The correlation between GSH-Px activity and Se levels was significant, even when the influence of protein level was removed. This result implies a role of GSH-Px as one of biologically active forms of Se in raw milk. Absence of GSH-Px activity in pasteurized milk and infant formula result from the heating process in these productions, because the heating of raw milk gave an irreversible inactivation of GSH-Px. Both GSH-Px activity and Se levels had significant correlation with protein level, but not so when the respective influences of Se and GSH-Px levels were removed. In raw cow’s milk, Se content was 23 ng/mL and GSH-Px activity was 20 U/mL. About 12% of Se was bound to GSH-Px, and 0.003% of protein was GSH-Px. Raw milk obtained in July contained higher levels of Se, GSH-Px, and protein than that in November. Data for cow’s milk were discussed in relation to those for human milk and those in New Zealand.

The effect of albumin, ceruloplasmin, and other serum constitutents on Fe(II) oxidation

Abstract: This study has analyzed the role of several serum constituents, that have been proposed to effect the following reactionin situ: {fx1-1} {fx1-2} These reactions were monitored by measuring the rate of Fe(II) oxidation in the presence of apo-transferrin (reaction A) and Fe(III)-transferrin formation (reaction B) at 465 nm. Reactions A and B were found to be kinetically equivalent. The results show that, singly or in combination, bicarbonate, orthophosphate, citrate, apo-transferrin, and/or albumin have less than one-tenth of the ability to enhance the oxidation of Fe(II) compared to the serum enzyme, ceruloplasmin. It was also found that the rate of Fe(II) oxidation by serum Fe-ligands was influenced by the efficiency of oxygen utilization. Whereas ceruloplasmin produces a 4∶1 ratio of Fe(II) oxidized to oxygen utilized, the non-enzymic components yield a 2∶1 or 3.09∶1 ratio. These data support the role of ceruloplasmin as an antioxidant that prevents the formation of the intermediate active oxygen species O 2 − · and H2O 2 · through the Fe(II) auto-oxidation reaction. A hitherto unrecognized factor in the control of nonenzymic oxidation of Fe(II) was serum albumin. This protein, at >25 μM, was found to sharply dampen the rate of Fe(II) oxidation in the presence of a physiological concentration of bicarbonate, citrate, and transferrin Albumin did not appear to affect the ceruloplasmin catalyzed oxidation of Fe(II) at pH 7.0. The addition of ceruloplasmin effected up to a 44 × increase in the rate of Fe(II) oxidation and Fe(III)-transferrin formation even in the presence of 0.60 mM albumin.

In vitro assessment of the toxicity of metal compounds : II. Mutagenesis.

Abstract: A review of in vitro mutagenesis assessment of metal compounds in mammalian and nonmammalian test systems has been compiled. Prokaryotic assays are ineffective or inconsistent in their detection of most metals as mutagens, with the notable exception of hexavalent chromium. Mammalian assay systems appear to be similarly inappropriate for the screening of metal compounds based upon the limited number of studies that have employed those compounds having known carcinogenic activity. Although of limited value as screening tests for the detection of potentially carcinogenic metal compounds, the well-characterized in vitro mutagenesis systems may prove to be of significant value as a means to elucidate mechanisms of metal genotoxicity.

The regulation of ionic nickel uptake and cytotoxicity by specific amino acids and serum components.

Abstract: The effects of serum components and amino acids on the uptake and cytotoxicity of NiCl2 were examined in cultured Chinese hamster ovary (CHO) cells. CHO cells maintained in a minimal salts/glucose medium accumulated 10-fold more63Ni than did cells maintained in complete medium supplemented with 10% fetal bovine serum. Cell-surface binding of63Ni appeared to account for the majority of this increased accumulation of cell-associated nickel observed in the simple maintenance medium since such increases were reduced 70% by trypsin treatment. The addition of the Ni2+-binding amino acids cysteine or histidine to the salts/glucose medium markedly decreased63Ni accumulations, an effect not observed following addition of any of several amino acids that do not bind Ni2+. Supplementation of the salts/glucose medium with fetal bovine serum decreased in a concentration dependent fashion both the63Ni2+ uptake and cell detachment caused by Ni2+, while dialyzed (amino acid-free) serum was 3–5-fold less effective than undialyzed serum at reducing63Ni2+ uptake and similarly exhibited only a slight protective effect against nickel-induced cytotoxicity. Supplementation of dialyzed serum with cysteine at levels approximating those in whole serum partially restored its inhibitory activity toward nickel uptake by cells and restored completely its inhibition of nickel's cytotoxicity, indicating the predominant role of specific amino acids over serum proteins in regulating the uptake and subsequent cytotoxicity of Ni2+. Addition of cysteine to the salts/glucose medium during a 2 h exposure of cells to either 100 μM HgCl2 or 1 mM NiCl2 masked the cytotoxic effects of these metal ions. These results demonstrate the importance of extracellular small molecular weight metal ion chelators in altering the biological effects of metal ions at the level of metal uptake.

Lead increases urinary zinc excretion in rats.

Abstract: The major purpose of this study was to determine whether acute or chronic Pb exposure would increase urinary excretion of zinc in the rat. Four groups of unanesthetized rats were given 0, 0.03, 0.3, or 3 mg Pb (as acetate) kg intravenously, and urinary excretion of zinc, sodium, and potassium was monitored for 6 h. Only at the highest dose was urinary Zn excretion significantly elevated; there were no significant changes in sodium and potassium excretion at any dose. Two other groups of rats were studied for 9 weeks in metabolism cages before and during administration of either 500 ppm Pb (as acetate) or equimolar Na acetate in the drinking water. Two days after Pb treatment and continuing through day 35, Zn excretion was elevated in the Pb-exposed animals; beyond this day, zinc excretion became similar in the two groups. The difference in Zn excretion was not the result of lower water intake by the Pb-treated animals. At sacrifice (70 days after starting Pb exposure), Pb-exposed animals had lower Zn content of the plasma and testis, but there was no difference in kidney Zn. Plasma renin activity was significantly higher in Pb-exposed animals. We conclude that chronic Pb exposure in rats can result in some degree of decreased tissue zinc, which is, at least in part, secondary to increased urinary losses of zinc.

Analysis of trace elements in animal tissues : III. Determination of managanese by graphite furnace atomic absorption spectrophotometry.

Abstract: Graphite furnace atomic absorption spectrophotometry is a method used for the measurement of low concentrations of manganese (ppb range). Despite the widespread use of this technique, there is considerable inconsistency concerning sample preparation and choice of instrumental parameters. In this paper, we determined manganese concentrations of National Bureau of Standards (NBS) bovine liver by both graphite furnace (Instrumentation Laboratory IL 555B) and flame atomic absorption following wet digestion of the sample with nitric acid. The following instrumental parameters for the graphite furnace were found optimal for the measurement of manganese in digested NBS bovine liver: inert gas flow=14 SCFH, drying temperature 100°C/15 s (step 1), 125°C/15 s (step 2), pyrolysis temperature 500°C/15 s (step 3), and 1000°C/15 s (step 4); atomization temperature 2250°C/10 s (step 5). For optimal results, the nitric acid concentration of the sample should be between 2 and 4M. There were no significant differences found for manganese concentrations determined by either peak height or peak area measurement. Additionally, no significant differences were found in manganese concentrations determined by flame or furnace methods. Assuming proper sample preparation and choice of instrumental parameters, values obtained for manganese concentration by graphite furnace and flame atomic absorption spectrophotometry are similar. Therefore, data obtained by these two methods can be compared directly.

Cadmium, copper, and zinc levels in the rice and rice field soil of Houston, Texas.

Abstract: Fifty-one pairs of hulled rice samples and the soil from which each rice sample was grown were analyzed for heavy metals in August, 1979, in order to estimate the background contamination of cadmium (Cd), copper (Cu), and zinc (Zn) in rice grown in the Houston, Texas area. Both samples were divided into three groups by soil types and colors. The cadmium concentration in Texas rice was only one-half to one-quarter lower than that of Asian rice. However, the levels of Cu and Zn in rice in Texas were similar to those reported. Soil heavy metals were lower than ever reported, but these values were consistent with the geochemical characteristics of the Texas Houston area. No particular relationship was found between the three metals in rice and the metals in soil where the sampled rice was grown.

The zinc, copper, and manganese status of children with malabsorption syndromes and inborn errors of metabolism.

Abstract: The zinc, copper, and manganese status of seven children with malabsorption syndromes of varied etiology (MVE) and 12 with inborn errors of metabolism (IEM) receiving semi-synthetic diets was investigated using serum and hair trace element concentrations, dietary trace element intakes, and anthropometric measurements as the principal indices. The hair zinc levels of both test groups and hair manganese levels of the IEM group were significantly lower (p<0.05) than those of their respective healthy controls matched by age, sex, and geographic location, despite comparable dietary zinc and manganese intakes in test and control subjects. Four subjects from the malabsorption and five from the inborn errors group had hair zinc levels below 100 μg/g (range 30–88 μg/g). Of these nine subjects, serum zinc levels were determined for six, and five were less than normal (range 64–74 μg/dL). In contrast, the copper status of the MVE and IEM subjects, as indicated by hair and dietary copper levels, was not lower than the controls. Mean serum copper levels were 136±30 and 171±40 μg/dL for the IEM and MVE groups, respectively. Levels for the MVE subjects were higher than published normal values. The suboptimal zinc and manganese status observed in some of these test subjects probably arose from malabsorption and decreased availability of dietary zinc and manganese. However, the zinc depletion was not severe enough to result in linear growth retardation.

Effects of dietary tin and aluminum on selenium utilization by adult males.

Abstract: The main purpose of these studies was to determine whether the amounts of tin and aluminum that can enter foods during processing and storage are sufficient to affect the utilization of selenium by human subjects. Two 40-day balance studies were conducted. The eight adult males who participated in the first study lost significantly more selenium in their feces when fed a test diet containing 50 mg tin daily than when fed the control diet containing 0.1 mg tin daily. During the first study subjects tended to excrete less selenium in the urine when fed the test diet rather than the control diet. In the second study, the dietary treatments (5 and 125 mg aluminum daily) had no effect on the excretion and apparent retention of selenium by eight adult males.

The antimutagenic effect of selenium on 7,12-dimethylbenz(a)anthracene and metabolites in the amesSalmonella/microsome system.

Abstract: The antimutagenic effect of selenium as sodium selenite, sodium selenate, selenium dioxide, and seleno-methionine was studied in the AmesSalmonella/microsome mutagenicity test using 7,12-dimethylbenz(a)anthracene (DMBA) and some of its metabolites. Selenium (20 ppm) as sodium selenite reduced the number of histidine revertants on plates containing up to 100 μg DMBA/plate. Increasing concentrations of selenium as sodium selenite, sodium selenate, and selenium dioxide up to 40 ppm Se progressively decreased the number of revertants caused by 50 μg DMBA. DMBA and its metabolites 7-hydroxymethyl-12-methylbenz(a)anthracene, 12-hydroxymethyl-7-methylbenz(a)anthracene, and 3-hydroxy-7,12-dimethylbenz(a)anthracene were mutagenic forSalmonella typhimurium TA100 in the presence of an S-9 mixture. Selenium supplementation as Na2SeO3 reduced the number of revertants induced by these metabolites to background levels. The antimutagenic effect of inorganic selenium compounds cannot be explained by toxicity of selenium as determined by viability tests withSalmonella typhimurium TA100. Selenium supplementation in all forms examined, except sodium selenate, decreased the rate of spontaneous reversion. Selenium as sodium selenate was slightly mutagenic at concentrations of 4 ppm or less. Higher concentration of Na2SeO4 inhibited the mutagenicity of DMBA. The present studies support the anticarcinogenic potential of selenium and indicate that form and concentration are important factors in this trace element's efficacy.

Platelet selenium in children with normal and low selenium intake

Abstract: The concentration of selenium was determined by instrumental neutron activation analysis in erythrocytes, platelets, and plasma of eight dietetically treated children with phenylketonuria (n=6) or maple-syrup-urine disease (n=2) with low selenium intake and for ten children with normal selenium intake. The normal selenium concentration in platelets was about 600 ng/g and about five times higher than in erythrocytes of the same children. A decreased selenium concentration in platelets was seen only when the corresponding concentrations in erythrocytes and plasma were very low. This suggests a special role of selenium in platelets.

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

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

Zinc Concentrations in Hair, Plasma, and Saliva and Changes in Taste Acuity of Adults Supplemented with Zinc

Abstract: The effect of zinc supplementation as zinc acetate (15 mg Zn/day for 5 weeks) was determined on stimulated parotid salivary zinc levels and taste acuity. In addition, zinc and copper levels of hair and plasma in 10 healthy subjects (five male and five female) between the ages of 17 and 37 years were studied. Presupplementation and 5 weeks postsupplementation levels were evaluated as well. Taste acuity for sweet improved with zinc supplementation and returned to presupplementation levels after supplementation ceased. No changes in plasma copper or salivary zinc levels were found with zinc supplementation although stimulated parotid saliva flow rate increased. Plasma zinc levels increased significantly while hair copper increased slightly with supplementation. All indices returned to presupplementation levels by 5 weeks after cessation of supplementation.

Zinc and copper in human cerebrospinal fluid.

Abstract: Zinc and copper have been estimated in CSF of 14 normal volunteers, nine men and five women. Zinc was analyzed by limited-aspiration flame atomic absorption spectrophotometry using a deuterium continuum light source. Copper was analyzed in 0.1% HNO3 by flameless atomic absorption spectrophotometry with a graphite cuvette on a flameless atomizer. Recovery of added zinc varied less than 5% and that of the added copper varied less than 8%. CSF zinc was 31.5±19.8 μg/L (mean ± 1 SD); CSF copper, 7.5±3.1 μ/L. Values obtained for CSF zinc are about 1/2 those we and others obtained previously, the decrease related almost exclusively to removal of interference by the CSF matrix, which produced spuriously elevated values without use of the deuterium light source. Values obtained for CSF copper were approximately one-tenth those we and others had obtained previously. The decrease related, in part, to the removal of matrix effects, but also to improvement of the signal-to-noise ratio present in other techniques.

Copper, manganese, zinc, and cadmium in tissues from New Zealanders.

Abstract: Concentrations of Cu, Mn, Zn, and Cd were measured in 13 different tissues collected at autopsy from 55 New Zealanders, aged 1 week to 74 years. All analyses were done by atomic absorption spectrophotometry. In general, concentrations of Mn and Zn were similar to those reported elsewhere but Cu levels were slightly lower. Concentrations of Cd were low in all tissues except kidney. Median values were in accordance with those reported for other “unexposed” populations. A significant trend of increasing concentrations with age was found for Cu in cartilage, Zn in kidney cortex and medulla, and Cd in all tissues except bone, fat, and hair. Declines with age were observed for Cu in liver, aorta, and skeletal muscle, for Mn in heart, aorta, and cartilage and for Zn in lung and muscle. There were no obvious relationships between tissue trace element levels and cause of death assigned according to three groups: sudden accidental, cardiovascular, or respiratory.

Consecutive zinc balance trials in growing rats.

Abstract: 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.

The effect of copper on glutathione metabolism in human leukocytes.

Abstract: Leukocytes incubated with Cu(II) showed a decrease in both glutathione reductase activity and reduced glutathione content. The glucose 6-phosphate dehydrogenase activity under the same conditions was not affected. Serum albumin added to mixtures prevented the loss of enzyme activity, whiled-penicillamine andl-histidine had little effect. Prior oxidation of the cell-reduced glutathione did not diminish the enzyme inhibitory action of Cu(II). The amount of regeneration of reduced glutathione in leukocytes previously treated with diamide to oxidize their reduced glutathione was a function of Cu(II) concentration in the media. No evidence was obtained that elevated serum ceruloplasmin levels in rabbits, nor incubation of leukocytes in vitro with ceruloplasmin, affect leukocyte glutathione reductase activity. It was proposed that the major mechanism by which copper affects glutathione metabolism in leukocytes is by inhibition of glutathione reductase.

Kinetics of selenite uptake by mononuclear cells from peripheral human blood.

Abstract: The present study deals with the kinetics and thermodynamics of the uptake of(75)Se-labeled SeO 3 (2-) from incubation media to lymphocytes cultivated from eight normal individuals (14-55 years of age, two females).The uptake of SeO 3 (2-) was evaluated on the assumption of pseudo-first-order kinetics with regard to a reacting cellular receptor pool. On the basis of the experimental observations, it was assumed that the suggested pool of receptor molecules-symbolically represented by "£H4"-reacts with SeO 3 (2-) in the hypothetical reaction:[Formula: see text] The mean value of the change in standard free energy at 25°C was calculated to be ΔG (o)=-141.6±1.3 kJ/mol, while the corresponding mean value of the free energy of activation at 25°C was calculated to be ΔG (2+)=-7.8±0.9 kJ/mol for the forward reaction.The calculated values of the corresponding individual changes in the respective standard enthalpies and entropies were mutually interdependent for all eight donors. ΔH (o)=-152+315ΔS (o)(kJ/mol) corresponding to the common value ΔG (o)≅-152 kJ/mol at 315°K. These mutual interdependencies are possibly the effect of variable conformational states (e.g., the macromolecular compactness) of the cellular receptor pools. This suggestion may furthermore be supported by the correlation traced between ΔH (o) vs the biological age in years of the donors: △H (°)≃76.7-1.0 (age)kJ/mol (r = -0.92)The calculated values of activation enthalpy ΔH (2+) kJ/mol and activation entropy ΔS (2+) (kJ/mol K) also mutually correlated linearly (r=0.998); the regression line was: △H (2+) = -8.9 + 305△S(2+) (kJ/mol) corresponding to the common value △H (2+) △ -8.9 (kJ/mol) at 305°KSimilarly the activation enthalpy ΔH (2+) vs the biological age in years correlated linearly: ΔH (2+)=67.4-0.73(age) (kJ/mol) (r=-0.76)The range of ΔH (2+) studied was from 13.8 to 53.9 kJ/mol with a linearly corresponding range in ΔS (2+) from 73 to 205 J/mol K.The thermodynamic data reveal the selenite uptake during the hypothetical standard reaction to be exergonic and endothermic. Critical pH dependencies of the selenite uptake were explained.

Postnatal accumulation of zinc by the rat hippocampus.

Abstract: Timm's staining material has been detected in the rat hippocampus as early as day 1 postnatally. However, staining was diffuse and widespread and light granulation was observed only in the mossy fiber layer. By day 6 postnatally most diffuse staining had disappeared and the characteristic pattern of granulation had intensified in the mossy fiber layer. Pronounced staining of the mossy fibers became apparent from day 6. Electron microscopic autoradiography indicated that65Zn injected intraperitoneally into suckling pups became localized largely in the axons and axon terminals of the mossy fiber layer in the CA3 and CA4 regions of the Horn of Ammon. In vitro studies with hippocampal slices have demonstrated that zinc is accumulated by an active transport system, but the kinetic characteristics of this uptake do not appear to alter with age. Zinc located intracellularly in the hippocampus appears to be associated mainly with large molecular weight ligands, with more than 75% of newly acquired zinc being bound to substances having molecular weights greater than 70,000 Daltons.

Distribution and metabolism of iron in muscles of iron-deficient rats.

Abstract: Iron-deficiency anemia leads directly to both reduced hemoglobin levels and work performance in humans and experimental animals. In an attempt to observe a direct link between work performance and insufficient iron at the cellular level, we produced severe iron deficiency in female weanling Sprague-Dawley rats following five weeks on a low-iron diet. Deficient rats were compared with normal animals to observe major changes in hematological parameters, body weight, and growth of certain organs and tissues. The overall growth of iron-deficient animals was approximately 50% of normal. The ratio of organ weight: body weight increased in heart, liver, spleen, kidney, brain, and soleus muscle in response to iron deficiency. Further, mitochondria from heart and red muscle retained their iron more effectively under the stress of iron deficiency than mitochondria from liver and spleen.

Synthesis of enantiomeric pureCis-dichloroplatinum(II) amino acid complexes.

Abstract: The reaction of potassium tetrachloroplatinate(II) with six representative sulfurcontaining amino acids, namely,d- andl-cysteine,d- andl-methionine and its methyl ester hydrochloride gives the corresponding enantiomerically purecis-dichloroplatinum(II) complexes This represents the first reported series of well-characterized enantiomerically pure platinum(II) complexes for bothd- andl-amino acids The spectroscopic properties, including IR,1H-NMR, and13C NMR, of these complexes and their configuration are discussed

Magnesium, calcium, copper, and zinc in meals : Correlations related to the epidemiology of ischemic heart disease.

Abstract: Meals of 12 diets were prepared from conventional foods with precautions against contamination by metallic elements because of epidemiologic associations between ischemic heart disease and the metabolism of magnesium, calcium, copper, and zinc. Magnesium, calcium, copper, and zinc were measured by atomic absorption spectrometry with satisfactory accuracy and precision.The mean daily amount of copper in the diets was less than the apparent adult requirement. Mean amounts of magnesium and zinc were close to apparent requirements; however, adults consuming amounts less than one standard deviation below these means may be depleting body stores and be at risk of pathology.Magnesium and copper were highly correlated (r=0.849,P=0.0001) in meals. This and other significant correlations probably will prevent the relationships of these elements to ischemic heart disease from being elucidated by epidemiology. Metabolic experiments will be necessary to differentiate among several hypotheses.

Inhibitory effect of ethylenediaminetetraacetate (EDTA) on the porcine lymphocyte response to mitogens and reversal of the effect with metal ions

Abstract: The effect of ethylenediaminetetraacetate (EDTA) on the mitogen response of porcine lymphocytes and the role of metal ions in reversal of the inhibitory effect of EDTA were determined. Porcine lymphocyte responses to mitogens were totally suppressed when serum used to supplement Ca2+, Mg2+-free minimum essential medium (MEM) was dialyzed against saline or saline with 0.2 or 0.60 mM EDTA, but the responses were only partially reduced when the same serum was added to RPMI-1640 medium. The inhibition observed in MEM could be reversed by adding 1×10−3 M Ca2+ and 1×10−3 M Mg2+ to the dialyzed serum. Serum treated directly with 0.60 mM EDTA completely suppressed blastogenesis in lymphocyte cultures maintained in RPMI-1640 or Ca2+, Mg2+ free MEM. The inhibitory effect of EDTA-treated serum could be completely reversed by adding Zn2+ or a combination of Zn2+ with other cationic ions, or partially reversed by adding Ni2+ or Fe3+. Zn2+ was the most effective ion, in that it was the only ion that, when alone added to the serum, could completely restore lymphocyte responses to phytohemagglutinin (PHA) or pokeweed mitogen (PWM).

The interaction of iron and ascorbic acid with lead in the chick.

Abstract: Three experiments were conducted with chicks to examine the effects of dietary iron and ascorbic acid on the accumulation of lead in various organs. Lead was fed as PbCl2, 500 or 1000 ppm Pb, iron as FeSO4·7H2O, 1000 ppm Fe, and ascorbic acid at 0.5%. Iron was effective in reducing the accumulation of lead in the femur and kidneys at both levels of lead. Ascorbic acid reduced the lead level in the kidneys when the concentration of lead in the diet was 500 ppm, but not at 1000 ppm. The effects of ascorbic acid on bone accumulation was variable. In two experiments the lead concentration was increased and in one it was decreased. These findings may reflect two influences of ascorbic acid found by others, namely an increase in absorption and an increase in urinary excretion. The rapid accumulation of lead in chick bones suggests that it may be an excellent experimental animal for lead studies.

Cadmium, cobalt, chromium, and experimental myocardial infarction.

Abstract: In the case of experimental heart muscle infarction, the infarcted tissue of 18 pigs had a cadmium content of 0.38 μg/g dry weight and a cobalt content of 0.45 μg/g dry weight. In 25 non-infarcted pig hearts, the cadmium concentration amounted to 0.27 μg/g dry weight and the cobalt concentration to 0.37 μg/g dry weight. Thus, as far as the infarcted heart muscle tissue is concerned, there is a highly significant increase in the cadmium content (p<0.01) and a significant increase in cobalt content (p<0.05) compared to a non-infarcted heart. No differences were established with regard to chromium concentrations.

Rat liver metabollothionein interactions of silver, zinc, and cadmium.

Abstract: Weanling rats were fed diets either alone or with combinations of silver, elevated zinc, or elevated cadmium for 7 weeks. The rats were then killed, and the silver, zinc, and cadmium proteins isolated from the livers by gel filtration and ion exchange chromatography. When silver was fed alone in diet, low levels of this metal were eluted as two peaks from the ion exchange column. In contrast, when silver was fed with cadmium or elevated zinc, three metal-containing peaks were eluted from this ion exchange column. Amino acid analysis revealed that the major proteins binding these metals are metallothioneins, as judged by high cysteine content.

Anomalous antioxidant effects in selenium- and vitamin E-deficient liver mitochondria.

Abstract: In this study, we investigate the mechanisms of two anomalous protective effects of exogenous vitamin E that had previously been postulated to involve either a specific antioxidant effect or a non-antioxidant function of the vitamin. These atypical vitamin E effects were observed during the prevention of NAD-induced respiratory decline occurring in homogenates and mitochondria prepared from vitamin E- and selenium-deficient rat liver. The study showed neither hypothesis to be true; rather, the two effects, one in homogenates and the other in isolated mitochondria, were explained by other mechanisms. The protective effect against respiratory decline in homogenates was found to result from interference in the thiobarbituric acid assay for lipid peroxidation by ethanol (the conventional solvent for vitamin E addition). With other non-interfering solvents, inhibition of lipid peroxidation by vitamin E, in contrast to previous studies, correlated perfectly with prevention of respiratory decline. The atypical vitamin E effect occurring in isolated mitochondria—and consisting of a requirement for cytosol proteins for the prevention of respiratory decline by exogenous vitamin E—was found to be caused by the prevention of adverse glass effects and not by the action of vitamin E-specific binding proteins. Frequent failures in the combined protective effect of vitamin E and cytosol, which had been a major complication of respiratory decline studies, were found to be caused by phospholipase activity generated during isolation procedures. Irreversible deactivation of respiratory enzymes by lipid peroxidation was found not to be involved in the respiratory decline mechanism.

Heavy metal composition of polysomal fractions following cadmium challenge.

Abstract: Endogeneous levels of zinc and copper were found to be 1.2±0.1×10−2 and 0.3±0.1×10−2 μg/A260 unit, respectively, in polysomal fractions from control animals; cadmium, however, was undetectable. In experimental animals (injected with cadmium) zinc, copper, and cadmium were found in polysomal fractions isolated by two different methods. One hour after a cadmium injection there was a rise in both the zinc and copper content of the polysomal fractions, which then declined steadily to below control levels by 16 h. Neither zinc nor cadmium were dialyzable from these fractions by a TRIS buffer; however, addition of 0.01M EDTA to the buffer resulted in removal of 75% of the zinc and all of the detectable cadmium.