The influence of zinc status on the kinetics of zinc uptake into cultured endothelial cells

To better understand cellular zinc homeostasis and characterize the zinc transport process, a mammalian cell culture model was utilized to investigate the influence of zinc status on the kinetics of zinc uptake. Culturing conditions were optimized to induce moderate zinc deficiency and zinc excess while still sustaining the general health of the cells. Cells were grown in (1) control medium of 10% fetal bovine serum (FBS) in minimum essential medium (MEM; 5.0 micromol zinc/L), (2) low zinc medium (10% dialyzed FBS in MEM; 1.5 micromol zinc/L), or (3) zinc back medium (10% dialyzed FBS in MEM with zinc added as ZnCl(2); 5.0 micromol zinc/L). Bovine pulmonary artery endothelial cells (BPAEC), porcine aortic endothelial cells (PAEC), and porcine venous endothelial cells (PVEC) were evaluated as to their responsiveness to our zinc-deficient conditions. Zinc uptake was faster (P < 0.001) in all three cell types when they were grown in low zinc medium compared with controls; the increases were 32% in PAEC, 37% in PVEC, and 66% in BPAEC. Further kinetic analysis with BPAEC demonstrated a 31% increase (P < 0.05) in the maximum rate of zinc uptake (Jmax) grown in low zinc medium compared with controls, but no difference (P > 0.05) between the low zinc group and the control group in the concentration at which uptake was half-maximal (K). Zinc uptake into BPAEC grown in excess zinc conditions was not different (P > 0.05) unless the medium contained greater than 50 micromol zinc/L. In conclusion, BPAEC increased their ability for zinc uptake in response to moderate zinc deficiency, but did not change their kinetics of zinc uptake during moderate zinc excess.     

Similarity of the nocturnal profile of serum melatonin at early puberty and early adulthood.

In the present study we determined the nocturnal profile of serum melatonin (MT) concentrations in 10 short normal children at Tanner stage I-II of pubertal development (12.5-14.9 yrs) and in 6 young adults (24-29 yrs). Blood was collected every 30 min from 00(00) to 06(00). We did not find any significant difference in the nocturnal profile of serum MT, as gauged by the comparison of MT concentrations at any time-point tested as well as of the transverse means (84.2 +/- 36.0 pg/ml [M +/- SD] in the children vs 78.7 +/- 10.8 pg/ml in the adults). Mean serum melatonin concentration was not correlated to sex hormone concentration or body surface area. Our findings do not support the view that MT concentrations fall at the beginning of pubertal development and that changes in body size may be the reason for age-dependent changes of serum MT concentrations.     

Longitudinal changes in zinc transport kinetics, metallothionein and zinc transporter expression in a blood-brain barrier model in response to a moderately excessive zinc environment

A blood-brain barrier (BBB) model composed of porcine brain capillary endothelial cells (BCEC) was exposed to a moderately excessive zinc environment (50 micromol/L Zn) in cell culture, and longitudinal measurements were made of zinc transport kinetics, ZnT-1 (SLC30A1) expression and changes in the protein concentration of metallothionein (MT), ZnT-1, ZnT-2 (SLC30A2) and Zip1 (SLC39A1). Zinc release by cells of the BBB model significantly increased after 12-24 h of exposure, but decreased back to control levels after 48-96 h, as indicated by transport across the BBB from both the ablumenal (brain) and the lumenal (blood) directions. Expression of ZnT-1, the zinc export protein, increased by 169% within 12 h, but was no longer different from controls after 24 h. Likewise, ZnT-1 protein content increased transiently after 12 h of exposure, but returned to control levels by 24 h. Capacity for zinc uptake and retention increased from both the lumenal and the ablumenal directions within 12-24 h of exposure and remained elevated. MT and ZnT-2 were elevated within 12 h and remained elevated throughout the study. Zip1 was unchanged by the treatment. The BBB's response to a moderately high zinc environment was dynamic and involved multiple mechanisms. The initial response was to increase the cells' capacity to sequester zinc with additional MT and to increase zinc export with the ZnT-1 protein. But the longer-term strategy involved increasing ZnT-2 transporters, presumably to sequester zinc into intracellular vesicles as a mechanism to protect the brain and to maintain brain zinc homeostasis.     

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

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

Renal metallothionein responds rapidly and site specifically to zinc repletion in growing rats

Metallothionein (MT) is important for heavy metals and free radical protection in the kidney. MT is responsive to zinc and primarily localized within the renal cortex. However, site-specific renal responses to dietary zinc repletion are understudied. The objective of this study was to examine the effects of dietary zinc deficiency and repletion on renal MT concentration and immunolocalization in rats. Weanling male Sprague Dawley rats were randomly assigned to either a zinc-deficient, zinc control, or pair-fed to zinc-deficient group. Half of the zinc-deficient and pair-fed rats were repleted with the control diet ad libitum for an additional 24 h. Renal tissue samples were assessed for total zinc, MT concentrations and MT immunostaining. Dietary zinc deficiency reduced renal zinc and MT concentrations, and attenuated intensity and localization of MT. Dietary zinc repletion for 24 h restored renal zinc and MT concentrations, the latter primarily in the proximal convoluted tubules of the cortex. Concentrations of renal MT, but not zinc, were elevated by diet restriction and MT (μg/mg protein) and partially normalized by 24 h diet repletion. In conclusion, renal MT modification due to zinc deficiency or diet restriction can be rapidly normalized in a site-specific manner with normal dietary zinc intake. The results support a role for MT in kidney homeostasis, in particular at the level of the proximal tubules in the cortex. The speed of MT repletion may have clinical implications for dietary zinc in the treatment of acute and chronic renal pathology due to toxins and free radicals.     

Tissue Metallothionein Concentrations in Mice and Humans with Hyperglycemia

Besides participating in tissue zinc homeostasis and protecting against heavy metal toxicities, metallothionein (MT) is known as an antioxidant. Increased MT activity can ameliorate diabetic hyperglycemia, and subjects with less MT synthesis are more prone to diabetic complications. However, whether tissue MT status is varied in the subjects with diabetes mellitus remains unclear. This study was undertaken to measure tissue MT levels in laboratory mice (serum, liver, and epididymal adipose tissue) and humans (serum) with hyperglycemia. Tissue MT levels were measured by enzyme-linked immunosorbent assay. The results showed that MT status in serum and adipose tissue did not markedly differ between the subjects with and without hyperglycemia. In addition, streptozotocin- and high-fat-diet-induced hyperglycemic mice had higher while ob/ob mice had lower liver MT levels than that of normal control mice. Furthermore, serum MT levels tended to correlate with glycemia values in mice. The results of this study indicate that serum MT value does not differ in subjects with hyperglycemia and cannot be used as an index to evaluate the susceptibility or progress of diabetes mellitus.     

Pregnancy Alters Renal and Blood Burden of Mercury in Females

The concentrations of copper and zinc in the tissues of alcohol-addicted people can significantly correlate with the variables describing their mental state. Studies on the homeostasis of zinc in alcohol-dependent patients have often been characterized by low hypozincemia detection. This may be caused by a low content of zinc in blood serum (1%) compared to the average zinc level in the body. Unfortunately, most authors have identified extracellular zinc in their studies. In the available literature, data on the level of copper in patients suffering from alcohol dependence are inconsistent. Our study included 100 alcohol-addicted patients (the study group) and 50 healthy subjects (the control group). Mental state was measured using appropriate psychometric scales. We used inductively coupled plasma mass spectrometry (ICP-MS) to determine copper and zinc content. Our results confirm the purposefulness of the use of zinc concentration in erythrocytes as a diagnostic parameter for low zinc status in alcohol-dependent patients. Alcohol-dependent patients with reduced concentrations of zinc in erythrocytes/copper in blood plasma differed significantly from alcohol-dependent patients with normal concentrations in terms of clinical parameters. With regard to zinc in blood plasma and copper in erythrocytes, this situation has not been found. The clinical symptoms of hypozincemia and copper deficiency in patients addicted to alcohol usually relate to disorders in central nervous system functioning, and they result in a decreased quality of physical and mental life.     

锌诱导金属硫蛋白在文蛤不同组织中的表达

采用体外暴露法对文蛤Meretrixmeretrix进行锌(0、1.5mg/L、3mg/L、6mg/L)染毒,研究不同染毒浓度的锌离子在不同染毒时间下,诱导金属硫蛋白(metallothionein,MT)在文蛤足、肝胰腺、鳃、外套膜组织中的表达差异。取经不同浓度的锌溶液在染毒2d及4d后的不同组织匀浆、离心后经Bio-GelP-10凝胶柱层析纯化,用TU-1810紫外可见分光光度计测定每个样品中金属硫蛋白的吸光值。实验结果显示:同一浓度锌离子染毒后,MT在文蛤4个不同组织中的表达量差异较显著,一般为足>肝胰腺>外套膜>鳃;不同染毒浓度的锌离子在不同染毒时间下诱导MT在不同组织中的表达也不同,具有一定的组织差异性和规律性。     

A critical role for increased labile zinc in reducing sensitivity of cultured sheep pulmonary artery endothelial cells to LPS-induced apoptosis

We previously noted an important signaling role for decreased labile intracellular zinc ([ Zn ] (i)) in LPS-induced apoptosis in cultured sheep pulmonary artery endothelial cells (SPAEC) (Tang ZL, Wasserloos KJ, Liu X, Stitt MS, Reynolds IJ, Pitt BR, St Croix CM. Mol Cell Biochem 234-235: 211-217, 2002; Thambiayya K, Wasserloos KJ, Huang Z, Kagan VE, St Croix CM, Pitt BR. Am J Physiol Lung Cell Mol Physiol 300: L624-632, 2011). In the present study, we used small interfering RNA (siRNA) to important contributors of zinc homeostasis [ SLC39A14 or Zrt/Irt-like protein 14 (ZIP14), a zinc importer; metallothionein (MT), a zinc binding protein ] to define molecular pathways by which extracellular zinc or nitric oxide (NO) increase labile [ Zn ] (i) [ e.g., zinc-sensitive fluorophore (FluoZin-3) detectable and/or chelatable by N,N,N',N'-tetrakis(2-pyridylmethyl)ethylenediamine ] and reduce the sensitivity of SPAEC to LPS. Addition of 10 μM zinc to serum-free medium of SPAEC increased [ Zn ] (i) and abolished LPS-induced apoptosis (e.g., increased annexin V binding). The increase in [ Zn ] (i) and the protective effect of extracellular zinc were sensitive to reduction in ZIP14 expression (by siRNA), but not affected by collectively knocking down major isoforms of sheep MT (sMT-Ia, -Ib, -Ic, and -II). Pretreatment of wild-type SPAEC with 250 μM of the NO donor S-nitroso-N-acetylpenicillamine (SNAP) increased labile zinc in a relatively similar fashion to addition of extracellular zinc and reduced sensitivity of SPAEC to LPS-induced apoptosis (e.g., caspase-3/7 activation) in a N,N,N',N'-tetrakis(2-pyridylmethyl)ethylenediamine-sensitive fashion. The antiapoptotic effects of SNAP were insensitive to siRNA knockdown of ZIP14, but were abolished (along with SNAP-induced increase in [ Zn ] (i)) when SPAEC were pretreated with siRNA to sheep MT. Zinc was able to directly inhibit recombinant caspase-3 activity in an in vitro assay. Collectively, these data show that increases in labile [ Zn ] (i) are an important component of ZIP14- or NO-mediated resistance to LPS-induced apoptosis. Cytoprotection via ZIP14 appeared to be secondary to transcellular movement of extracellular zinc, whereas NO-mediated protection was secondary to S-nitrosation of MT and redistribution of [ Zn ] (i).     

Degradation of zinc-metallothionein in monolayer cultures of rat hepatocytes

The degradation of zinc-metallothionein (MT) was studied in monolayer cultures of adult rat hepatocytes. Hepatocytes were incubated overnight in serum-free medium containing either [35S]cysteine or [3H]leucine and 100 microM zinc to induce MT synthesis. Total cellular 35S-MT was measured in the heat-stable extract of cell homogenate and quantified by fast protein liquid chromatography. When zinc was removed from the medium, 35S-MT turnover was almost 3-fold faster than that of [3H]Leu protein (t1/2 = 11 and 29 hr, respectively). The decrease in the cellular level of 35S-MT reflected degradation since less than 1% of total cellular 35S-MT was secreted into the medium. The rate of MT degradation was inversely proportional to cellular zinc content. In contrast, the degradation of [3H]Leu protein was not affected by changes in cellular zinc concentration. Chloroquine, a lysosomotrophic amine, and tosyl lysine chloromethyl ketone, an inhibitor of trypsin-like neutral protease activity, inhibited 35S-MT degradation by 65% and 50%, respectively, when cells were incubated in medium with 1 microM zinc. Turnover of [3H]Leu protein, but not 35S-MT, was enhanced by insulin deprivation. These data suggest that the degradation of hepatic MT (i) is primarily regulated by cellular zinc content and (ii) occurs in both lysosomal and nonlysosomal compartments.     

Metallothionein is part of a zinc-scavenging mechanism for cell survival under conditions of extreme zinc deprivation

Metallothionein (MT) is a small cysteine-rich protein thought to play a critical role in cellular detoxification of inorganic species by sequestering metal ions that are present in elevated concentrations. We demonstrate here that metallothionein can play an important role at the other end of the homeostatic spectrum by scavenging an essential metal in a mouse fibroblast cell line that has been cultured under conditions of extreme zinc deprivation (LZA-LTK-). These cells unexpectedly produce constitutively high levels of metallothionein mRNA; however, the MT protein accumulates only when high concentrations of zinc are provided in the media. Until this MT pool is saturated, no measurable zinc remains in the external media. In this case, zinc deprivation leads to amplification of the MT gene locus in the LZA-LTK- cell line. Furthermore, the intracellular zinc levels in the fully adapted cells remain at the normal level of 0.4 fmol zinc/cell, even when extracellular zinc concentration is decreased by 2 orders of magnitude relative to normal media.     

Serum zinc in healthy Belgian children

Many reports mention marginal zinc status in childhood. Information on serum zinc (Zn) in Belgian children since the last reports are old and feeding habits are changing. Four hundred fifty-seven healthy children (0-14 yr, 262 boys) had a venipuncture after an overnight fast during a vaccination campaign. Serum Zn, alpha-tocopherol (alpha-T), cholesterol, low-density lipoprotein cholesterol (LDL-C), high-density lipoprotein cholesterol (HDL-C), apolipoprotein B (Apo B), Apo A, and malondialdehyde (MDA) were determinated. The median Zn value is lower in infants than in older children (respectively 11.6 micromol/L vs 12.8 micromol/L). The type of infant feeding does not influence the serum Zn concentrations (breast-feeding, adapted, hypoallergenic, soy, or thickened). No children had increased serum MDA concentrations and the value is not influenced by the Zn concentration. Children presenting higher serum Zn values also have significantly higher serum alpha-T levels. In infants, there is a significant positive correlation between serum Zn and cholesterol, LDL-C, and Apo B. In this apparently healthy population, no signs of abnormal in vivo peroxidation of fatty acids are observed, even in the children with low serum Zn. More sensitive methods for the detection of peroxidation are necessary for determination of in vivo effects of marginal trace element status.     

Zinc–gene interaction related to inflammatory/immune response in ageing

The pivotal role played by zinc-gene interaction in affecting some relevant cytokines (IL-6 and TNF-alpha) and heat shock proteins (HSP70-2) in ageing, successful ageing (nonagenarians) and the most common age-related diseases, such as atherosclerosis and infections, is now recognized. The polymorphisms of genes codifying proteins related to the inflammation are predictive on one hand in longevity, on the other hand they are associated with atherosclerosis or severe infections. Since the health life-span has a strong genetic component, which in turn also affected by nutritional factors like zinc, the association of these polymorphisms with innate immune response, zinc ion bioavailability and Metallothioneins (MT) homeostasis is an useful tool to unravel the role played by zinc-gene interactions in longevity, especially due to the inability of MT in zinc release in ageing and chronic inflammation. In ageing, this last fact leads to depressed innate immune response for host defence. In contrast, in very old age the inflammation is lower with subsequent more zinc ion bioavailability, less MT gene expression and satisfactory innate immunity. Therefore, the zinc-gene (IL-6, TNF-alpha, Hsp70-2) interactions, via MT homeostasis, are crucial to achieve successful ageing.     

Zinc resistance impairs sensitivity to oxidative stress in HeLa cells: protection through metallothioneins expression.

To analyze the effects of high concentrations of zinc ions on oxidative stress protection, we developed an original model of zinc-resistant HeLa cells (HZR), by using a 200 microM zinc sulfate-supplemented medium. Resistant cells specifically accumulate high zinc levels in intracellular vesicles. These resistant cells also exhibit high expression of metallothioneins (MT), mainly located in the cytoplasm. Exposure of HZR to Zn-depleted medium for 3 or 7 d decreases the intracellular zinc content, but only slightly reduces MT levels of resistant cells. No changes of the intracellular redox status were detected, but zinc resistance enhanced H2O2-mediated cytotoxicity. Conversely, zinc-depleted resistant cells were protected against H2O2-induced cell death. Basal- and oxidant-induced DNA damage was increased in zinc resistant cells. Moreover, measurement of DNA damage on zinc-depleted resistant cells suggests that cytoplasmic metal-free MT ensures an efficient protection against oxidative DNA damage, while Zn-MT does not. This newly developed Zn-resistant HeLa model demonstrates that high intracellular concentrations of zinc enhance oxidative DNA damage and subsequent cell death. Effective protection against oxidative damage is provided by metallothionein under nonsaturating zinc conditions. Thus, induction of MT by zinc may mediate the main cellular protective effect of zinc against oxidative injury.     

Chronic treatment with zinc and antidepressants induces enhancement of presynaptic/extracellular zinc concentration in the rat prefrontal cortex

Zinc exhibits antidepressant-like activity in preclinical tests/models. Moreover, zinc homeostasis is implicated in the pathophysiology of affective disorders. The aim of the present study was to examine the effect of chronic zinc, citalopram and imipramine intraperitoneal administration on the presynaptic and extracellular zinc concentration in the rat prefrontal cortex and hippocampus. We used two methods: zinc–selenium histochemistry (which images the pool of presynaptic-vesicle zinc) and anodic stripping voltammetry (ASV) for zinc determination in microdialysate (which assays the extracellular zinc concentration). We report that chronic (14×) zinc (hydroaspartate, 10 and 65 mg/kg) and citalopram (20 mg/kg) administration increased the pool of presynaptic zinc (by 34, 50 and 37%, respectively) in the rat prefrontal cortex. The 21% increase induced by imipramine (20 mg/kg) was marginally significant. Likewise, zinc (hydroaspartate, 65 mg/kg), citalopram and imipramine increased the extracellular zinc (although with a different pattern: time point, area under the curve and/or basal level) in this brain region. Furthermore, zinc induced an increase in presynaptic (by 65%) and extracellular zinc (by 90%) in the hippocampus, while both citalopram and imipramine did not. These results indicate that all of the treatments increase presynaptic/extracellular zinc concentrations in the rat prefrontal cortex, which may then contribute to their antidepressant mechanisms. Alterations induced by zinc (but not antidepressants) administration in the hippocampus may be related to specific zinc mechanisms. All the data (previous and present) on the effect of antidepressant treatments on the presynaptic/extracellular zinc concentrations suggest the involvement of this biometal presynaptic/synaptic homeostasis in the antidepressant mechanism(s).     

Apocynin Alleviates Renal Ischemia/Reperfusion Injury Through Regulating the Level of Zinc and Metallothionen

The purpose of this research was to evaluate the protective effects of apocynin on renal ischemia/reperfusion (I/R) injury (RI/RI) in rats. Rats preconditioned with apocynin were subjected to renal I/R. Zinc levels in serum and renal tissues, blood urea nitrogen (BUN), and serum creatinine (Scr) were detected. We further measured the activity of superoxide dismutase (SOD); the content of malondialdehyde (MDA), IL-4, IL-6, IL-10, and TNF-α; and the expression of metallothionein (MT) in the renal tissues. Results indicated that the levels of MDA, IL-4, IL-6, IL-10, TNF-α, and MT in the kidney tissue and serum BUN and Scr levels in RI/RI group were significantly higher than those in sham-operated group, while the levels of serum Zn and kidney Zn and SOD were reduced in RI/RI group. Apocynin treatment further decreased the levels of MDA, IL-6, TNF-α, and serum BUN and Scr, whereas it significantly increased the levels of Zn, SOD, IL-4, IL-10, and MT in the kidney tissue and serum Zn. These findings suggest that apocynin might play a protective role against RI/RI in rats through regulating zinc level and MT expression involving in oxidative stress.     

Early effects of surgery on zinc and metallothionein levels in female rats

Time-response effects of experimental surgery on zinc (Zn) and metallothionein (MT) homeostasis were investigated in female rats up to 24 h. Hepatic Zn content increased at 20 and 24 h postsurgery, whereas serum Zn levels decreased. Hepatic MT increased significantly by 9 h postsurgery and peaked at up to twofold of control at 12 h after surgery. Following the peak at 12 h, hepatic MT content decreased with time but did not reach control levels at the end of this study. When MT isoforms were evaluated, MT-II levels were elevated to the highest extent by 12 h after surgery, whereas MT-I levels started to decrease after 3 h postsurgery but then increased by 20 h. The early increases in MT content are probably mediated by nonmetallic mediators released during the postsurgical inflammatory process, favoring the plasma/tissue mobilization of Zn. This process might be part of the overall mechanisms occurring in the inflammation.     

Presence of acute phase changes in zinc, iron, and copper metabolism in turkey embryos

Acute phase changes in trace mineral metabolism were examined in turkey embryos. An endotoxin injection resulted in increased concentrations of serum copper and liver zinc and decreased concentrations of serum zinc in embryos incubated either in ovo or ex ovo. Changes in zinc and copper metabolism occurred when endotoxin either was injected intramuscularly, into the amnionic fluid, or administered onto the chorioallantoic membrane. Unlike poults, embryos did not respond to an inflammatory challenge with decreased serum iron concentrations. Acute phase changes in embryo serum zinc and copper as well as liver zinc concentrations were similar to those in poults. Increased liver zinc concentrations were associated with increased zinc in metallothionein (MT). An injection of a crude interleukin 1 preparation into embryos resulted in similar increases in hepatic zinc and MT concentrations as an endotoxin injection, suggesting a role for this cytokine in mediating the acute phase changes in embryonic zinc metabolism.     

Cd/Zn exposure interactions on metallothionein response in Eisenia fetida (Annelida, Oligochaeta)

We studied metallothionein (MT) response in the manure worm Eisenia fetida after exposures to cadmium (Cd), zinc (Zn) or cadmium and zinc spiked media. MT was studied both at the protein level by Dot Immunobinding Assay, (DIA) and at the expression level by Northern blotting. Cd was highly accumulated by worms whereas Zn body concentration was regulated. In addition, Zn would limit Cd accumulation in worms exposed to low Cd concentrations (1 and 8 mg Cd kg(-1) of dry soil). Exposure to a mixture of Cd and Zn at high concentrations increased cytosolic MT levels. This increase would allow worms to regulate body Zn concentrations and also to limit Cd toxicity. Cd exposures increased gene expression of Cd-binding MT isoform (MT 2A) whereas Zn did not. However, when both metals were at high concentrations in the exposure medium, this expression was further increased. Several hypotheses are proposed to explain the results and the best approach to estimate metal exposure of this earthworm species is given. Further experiments have now to be performed to evaluate the usefulness of these MT responses for field contaminated soils toxicity assessment using this earthworm species.     

Differential effects of copper and zinc on human peripheral blood monocyte cytokine secretion

The addition of copper and zinc salts to human peripheral blood leukocytes cultured in complete medium containing endotoxin and fetal calf serum stimulated tumor necrosis factor (TNF) secretion in a concentration-dependent manner. The secretion of interleukin-1 beta (IL-1 beta) and interleukin-6 (IL-6) was inhibited by copper under the same culture conditions, while zinc stimulated IL-1 beta secretion in a concentration-dependent manner and had no effect on leukocyte IL-6 release. Both copper and zinc induced increases in TNF mRNA (54 and 14%, respectively) when compared to cells cultured in complete medium alone. In serum-free, low endotoxin medium (less than 6 pg/ml), both copper and zinc failed to stimulate either TNF or IL-1 beta secretion. Under the same conditions the addition of lipopolysaccharide (LPS), at concentrations above 0.01 micrograms/ml, induced a concentration-dependent release of both cytokines. When either copper or zinc were combined with 0.01 micrograms/ml LPS, a synergistic stimulation of TNF secretion resulted. IL-1 beta secretion, unlike TNF, was not synergistically stimulated by combining metals and LPS in serum-free medium. Combining copper and zinc with inhibitors of TNF secretion, transforming growth factor beta, prostaglandin E2, and plasma alpha-globulins, resulted in a reduction of the suppressive effects of each of these agents. This study suggests that the trace metals copper and zinc may play important and possibly distinct roles in regulating leukocyte secretion of TNF, IL-1 beta, and IL-6.