Optimization of Conditions for Production of Channel Catfish Ovary Cells and Channel Catfish Virus DNA

Medium supplements were examined for their effect on the growth of channel catfish ovary cells. It was found that the usual serum supplement of 10% fetal calf serum could be successfully replaced with a combination of 5% fetal calf serum and a mixture of insulin, transferrin, and selenous acid. It was also found that these cells could be grown in a more efficient manner on microcarrier beads. This type of culture produced 14 times the number of cells per milliliter of total medium used compared with the usual tissue culture flasks used for cell growth. The microcarrier system also provided for greater production efficiency of DNA from channel catfish virus, a virus that infects this cell line.     

Purification of an equine apotransferrin variant (thyromedin) essential for thyroid hormone dependent growth of GH1 rat pituitary tumor cells in chemically defined culture

Pituitary tumor cells require thyroid hormones for growth in vivo [Sorrentino, J. M., Kirkland, W. L., & Sirbasku, D. A. (1976) J. Natl. Cancer Inst. 56, 1155-1158]. In vitro, GH1 rat pituitary tumor cells were studied in a serum-free defined medium (PCM-10) formulated with Ham's F12 and Dulbecco's modified Eagle's media (1:1, v/v) supplemented with 2.2 g/L sodium bicarbonate, 15 mM 4-(2-hydroxy-ethyl)-1-piperazineethanesulfonic acid (pH 7.2), 10 micrograms/mL human transferrin, 50 microM ethanolamine, 10 micrograms/mL insulin, 10 ng/mL selenous acid, 0.1 nM 3,5,3'-triiodothyronine (T3) and 500 micrograms/mL bovine serum albumin and in the same medium without T3 (PCM-0). The cells only grew in PCM-10 when low concentrations of horse serum were added. Attempts to replace the serum factor requirement with known growth factors and adhesion proteins were unsuccessful. The Mr 65,000-72,000 serum factor regulating T3-induced growth (thyromedin) was purified to homogeneity and identified as equine transferrin R and/or D by amino acid sequencing. The ED50 in PCM-10 was 17-40 micrograms/mL (260-620 nM) while in PCM-0 half-maximum growth was not achieved at 200 micrograms/mL. Concentrations of 75 micrograms/mL in PCM-10 caused 80% of serum-stimulated growth rate. Removal of iron from thyromedin, and assay in iron salts reduced PCM-10, increased the specific activity 110-270-fold to ED50 150 ng/mL (2.3 nM); at 1.0 micrograms/mL, growth in PCM-10 was 16-fold greater than in PCM-0. Iron saturation of thyromedin caused total loss of biological activity. We conclude that the horse transferrin variant isolated in this report is active as apotransferrin.     

Effects of ferrous iron and transferrin on cell proliferation of human diploid fibroblasts in serum-free culture

Summary Iron-free RITC 80-7 defined medium was used to examine effects of ferrous iron and transferrin on cell proliferation of human diploid fibroblasts. Both ferrous iron and holotransferrin stimulated cell proliferation in the medium, but apotransferrin did not. When 5 g/l human serum albumin (HSA) was added to the defined medium, excellent growth was obtained under hypoxic conditions, whereas a reduction of cellular growth during the culture periods was observed under aerobic conditions. When ferrous iron was added to the HSA medium alone, the reduction in growth increased in proportion to the concentrations, whereas the addition of transferrin prevented this reduction in a concentration-dependent manner. This suggests that the ferrous iron concentration in media causes a reduction in growth under aerobic conditions and transferrin prevents this reduction because it decreases the ferrous iron concentration. Further, serum albumin seems to be a source of iron in media.     

Glutathione content and growth in A549 human lung carcinoma cells

The relationship between glutathione content and cell growth was investigated in A549 human lung carcinoma cells. A decreased cellular glutathione content was achieved by exposing the cells to L-buthionine-SR-sulfoximine (BSO). It also occurred in these cells as they approached their plateau phase of growth. During exponential growth, a lower initial glutathione content correlated with a longer lag phase in subcultured cells. Further, depletion of cellular glutathione by BSO inhibited cell growth. This inhibition became apparent 36 h after the addition of BSO. These observations raise the possibility that a critical concentration of GSH may be required for optimal growth of A549 human lung carcinoma cells.     

Effects of selenium and serum on selenoprotein W in cultured L8 muscle cells

When rat L8 muscle cells were cultured to examine the effects of serum and selenium concentration on selenoprotein W levels and glutathione peroxidase (GPX) activities, no significant differences (P > 0.05) were found in selenoprotein W levels and GPX activities during differentiation. With three different forms of selenium, selenoprotein W levels and GPX activities were shown to increase in L8 myotubes cultured in media with these selenocompounds. Selenite was utilized more efficiently than selenocysteine for both selenoprotein W and GPX activity, but selenium as selenomethionine was less available. Both the protein content and mRNA levels for selenoprotein W were affected by the selenium content of the media. Northern blot data indicated that the expression of selenoprotein W mRNA increased significantly when L8 myotubes were cultured with selenium (P > 0.05). L8 myotubes cultured in 10% calf serum (CS) versus 2% CS with or without addition of 10 m selenium indicated that the increase of selenoprotein W level in L8 myotubes cultured with higher serum concentration (10% CS) is due to the higher selenium concentration in media rather than serum itself.     

Heme regulation of HeLa cell transferrin receptor number

The number of diferic transferrin receptors on HeLa cells decreases when cells are grown in iron-supplemented media. The experiments reported here suggest that heme is the iron-containing compound which serves as the signal for receptor number regulation. When HeLa cells were grown in the presence of hemin, transferrin receptor number decreased to a greater degree than when cells were grown in equivalent amounts of iron supplied as ferric ammonium citrate. Incubation of cells in conditions which increased cellular heme content resulted in a decrease in cellular transferrin receptors. Incubating cells with 5-aminolevulinic acid (thus bypassing the rate-limiting step in heme biosynthesis, 5-aminolevulinic acid synthase) led to a decrease in transferrin receptor number. Incubation of cells with an inhibitor of heme oxygenase, Sn-protoporphyrin IX, also led to a decrease in transferrin receptor number. When cellular heme content was decreased by inhibiting heme synthesis with succinylacetone (an inhibitor of 5-aminolevulinic acid dehydratase), or by depriving cells of iron with deferoxamine, an increase in HeLa cell transferrin receptor number was seen. When HeLa cells were incubated with inducers of heme oxygenase (CoCl2, SnCl2, Co-protoporphyrin IX), transferrin receptor number also increased. The effects of all compounds which alter transferrin receptor number were dependent on the concentration of the supplement, as well as the duration of the supplementation. These experiments suggest that intracellular heme content may be an important signal controlling transferrin receptor number.     

Zinc toxicity in various lung cell lines is mediated by glutathione and GSSG reductase activity

In a previous work, it was shown that in cells after a decrease of cellular glutathione content, toxic zinc effects, such as protein synthesis inhibition or GSSG (glutathione, oxidized form) increases, were enhanced. In this study, zinc toxicity was determined by detection of methionine incorporation as a parameter of protein synthesis and GSSG increase in various lung cell lines (A549, L2, 11Lu, 16Lu), dependent on enhanced GSSG reductase activities and changed glutathione contents. After pretreatment of cells with dl-buthionine-[R,S]-sulfoximine (BSO) for 72 h, cellular glutathione contents were decreased to 15–40% and GSSG reductase activity was increased to 120–135% in a concentration-dependent manner. In BSO pretreated cells, the IC₅₀ values of zinc for methionine incorporation inhibition were unchanged as compared to cells not pretreated. The GSSG increase in BSO pretreated cells by zinc was enhanced in L2, 11Lu, and 16Lu cells, whereas in A549 cells, the GSSG increase by zinc was enhanced only after pretreatment with the highest BSO concentration. Inhibition of GSSG reductase in alveolar epithelial cells was observed at lower zinc concentrations than needed for methionine incorporation inhibition, whereas in fibroblastlike cells, inhibition of GSSG reductase occurred at markedly higher zinc concentrations as compared to methionine incorporation inhibition. These results demonstrate that GSSG reductase is an important factor in cellular zinc susceptibility. We conclude that reduction of GSSG is reduced in zinc-exposed cells. Therefore, protection of GSH oxidation by various antioxidants as well as enhancement of GSH content are expected to be mechanisms of diminishing toxic cellular effects after exposure to zinc.     

Regulation of growth and differentiation of a rat hepatoma cell line by the synergistic interactions of hormones and collagenous substrata

Serum-free, hormonally defined media have been developed for optimal growth of a rat hepatoma cell line. The cells' hormonal requirements for growth are dramatically altered both qualitatively and quantitatively by whether they were plated onto tissue culture plastic or collagenous substrata. On collagenous substrata, the cells required insulin, glucagon, growth hormone, prolactin, and linoleic acid (bound to BSA), and zinc, copper, and selenium. For growth on tissue culture plastic, the cells required the above factors at higher concentrations plus several additional factors: transferrin, hydrocortisone, and triiodothyronine. To ascertain the relative influence of hormones versus substratum on the growth and differentiation of rat hepatoma cells, various parameters of growth and of liver-specific and housekeeping functions were compared in cells grown in serum-free, hormonally supplemented, or serum-supplemented medium and on either tissue culture plastic or type I collagen gels. The substratum was found to be the primary determinant of attachment and survival of the cells. Even in serum-free media, the cells showed attachment and survival efficiencies of 40-50% at low seeding densities and even higher efficiencies at high seeding densities when the cells were plated onto collagenous substrata. However, optimal attachment and survival efficiencies of the cells on collagenous substrata still required either serum or hormonal supplements. On tissue culture plastic, there was no survival of the cells at any seeding density without either serum or hormonal supplements added to the medium. A defined medium designed for cells plated on tissue culture plastic, containing increased levels of hormones plus additional factors over those in the defined medium designed for cells on collagenous substrata, was found to permit attachment and survival of the cells plated into serum-free medium and onto tissue culture plastic. Growth of the cells was influenced by both substrata and hormones. When plated onto collagen gel substrata as compared with tissue culture plastic, the cells required fewer hormones and growth factors in the serum-free, hormone-supplemented media to achieve optimal growth rates. Growth rates of the cells at low and high seeding densities were equivalent in the hormonally and serum-supplemented media as long as comparisons were made on the same substratum and the hormonally supplemented medium used was the one designed for that substratum. For a given medium, either serum or hormonally supplemented, the saturation densities were highest for tissue culture plastic as compared with collagen gels.(ABSTRACT TRUNCATED AT 400 WORDS)     

Optimisation of media for the culture of normal human epithelial cells from oesophageal mucosa

A technique has been developed which allows growth and histology/cytochemistry of primary oesophageal mucosal explant cultures to be monitored over four weeks. The paper describes experiments designed to optimise media and culture conditions. The results suggest that optimal growth can be obtained in media containing RPMI 1640, and 10% horse or newborn calf serum. McCoy's 5A medium or Dulbecco's modified MEM could be substituted for RPMI but Iscove's serum-free medium or Ham's nutrient mixture inhibited growth or promoted fibroblast contamination. The essential additive appeared to be insulin while selenium was highly toxic to the cells. Hydrocortisone or EGF improved growth slightly under some conditions. Neither transferrin nor cholera toxin had any beneficial effect. None of the cell culture flask coating agents improved attachment or growth.     

Enhancement of human T-lymphocyte growth by human transferrin in the presence of fetal bovine serum

All dividing cells require transferrin as a growth factor. During in vitro culture of human lymphocytes, transferrin is usually supplied in the form of serum, either synergic or xenogenic (usually fetal bovine serum (FBS)). In the present work the growth of certain human T-cell lines was examined; these lines were derived from the synovium of rheumatoid arthritis patients and maintained in 10% FBS and 1% synovial fluid. Their growth especially at limiting dilutions was found to be strongly dependent on the presence of synovial fluid at low concentration (0.05-0.1%) in culture medium containing 10% FBS. Further studies indicated that this effect of synovial fluid was duplicated by human serum or plasma, and was due to the presence of human transferrin. A significant effect on T-cell growth was observed using 2 micrograms/ml human transferrin with optimal growth at 10-20 micrograms/ml. This requirement for human transferrin was not a peculiarity of the synovium-derived T-cell lines, but was observed with all T-cell lines tested irrespective of phenotype or function. These observations suggest that bovine transferrin is inadequate for T-cell growth, and that the growth enhancing properties of FBS do not primarily reflect the provision of transferrin. Since some T cells have recently been shown to be capable of secreting transferrin upon activation, endogenous synthesis of transferrin may be an important factor in the in vitro growth of T cells so that such cells would be selected when FBS is the source of serum used to grow human T-cell lines or clones.     

Iron depletion without anemia is not associated with impaired selenium status in college-aged women

Iron-deficiency anemia has been shown to alter body mineral concentrations and activities of iron- and non-iron-containing enzymes, especially those with antioxidant functions. These effects, however, have been less studied in nonanemic iron-depleted individuals. Thus, this study assessed indices of selenium status in 12 college-aged females with adequate iron stores and 15 college-aged females with low iron stores before and after iron therapy. Blood samples were drawn at baseline for both groups and following iron supplementation in the low-iron-stores group. Hematocrit, hemoglobin, and serum ferritin concentrations of the low-iron-stores group were significantly lower than those of the control group. The serum transferrin receptor-to-serum ferritin ratio in the low-iron-stores group was significantly greater than that of the control group. Serum selenium and glutathione peroxidase concentrations of the low-iron-stores group were not significantly different from those of the controls. Iron supplementation significantly increased hemoglobin, hematocrit, and serum ferritin concentrations and significantly decreased the serum transferrin receptor concentration and serum transferrin receptor:serum ferritin ratio in the low-iron-stores group posttreatment compared to pretreatment. Serum selenium and glutathione peroxidase concentrations did not differ significantly from pretreatment to posttreatment in the low-iron-stores group. Results of this study indicate that low iron stores without anemia are not associated with impaired selenium status in college-aged females.     

Increased saturated phospholipid in cultured cells grown with linoleic acid

Summary We found that fetal bovine serum supplementation of culture medium provided limited quantities of linoleic acid, an essential fatty acid, to cells grown in culture (2.8 ± 0.3% of total fatty acids in 12 lots). Supplementation of the medium with additional linoleic acid resulted in altered phospholipid acyl composition in cells of two established lines, A549, a putative model of the pulmonary Type II epithelial cell, and SIRC, a line derived from rabbit corneal epithelium. In particular, linoleic acid supplementation induced a relative increase in disaturated choline phosphoglycerides of 33 and 36%, respectively, in cells of the two lines. This observation may be relevant to design of media for primary culture of Type II cells, in which disaturated phospholipid synthesis is used as an index of differentiated function (surfactant production). Linoleate supplementation did not alter growth or size (protein content) of cells of either line and caused a slight increase in accumulation of neutral lipid, in the form of cytoplasmic droplets, in A549 cells. Supplementation of cell cultures with equivalent concentrations of the nonessential fatty acids palmitic and oleic acid did not significantly alter the growth, morphologic appearance, or lipid composition of the cells. However, it was demonstrated in cells of one line that palmitic acid supplementation temporarily stimulated synthesis of disaturated choline phosphoglyceride from radiolabeled choline. This work was supported by Grants HL-24817 and HL-21251 from the National Institutes of Health, USPHS, and by a grant from the Alexandrine and Alexander L. Sinsheimer Fund.     

Effects of artificially enhanced levels of ascorbate and glutathione on the enzymes monodehydroascorbate reductase, dehydroascorbate reductase, and glutathione reductase in spinach (Spinacia oleracea)

Effect of high intracellular concentrations of the antioxidants ascorbate and glutathione on the extractable activity of the reducting enzymes dehydroascorbate reductase, monodehydroascorbate reductase, and glutathione reductase were investigated with spinach cells ( Spinacia oleracea ). An elevated ascorbate concentration was obtained by treatment with the ascorbate biosynthesis precursor L-galactono-1,4-lactone (GAL). To increase the intracellular level of glutathione, cells were treated with the 5-oxo-L-proline analog L-2-oxothiazolidin-4-carboxylate (OTC), or with the peroxidative herbicide acifluorfen (sodium 5-[2-chloro-4-(trifluoromethyl)phenoxy]-2-nitrobenzoic acid). Extractable monodehydroascorbate reductase activity increased in the presence of a high level of ascorbate or glutathione, and enzyme activity was at maximum when cells were treated with acifluorfen + OTC, or acifluorfen + GAL. Extractable dehydroascorbate reductase activity decreased when the intracellular concentration of glutathione was high and non-enzymatic reduction of dehydroascorbate by glutathione was the dominant reaction. Maximal decrease of enzyme activity was found in cells treated with acifluorfen + OTC. Extractable activity of glutathione reductase (GR) increased after treatment of cells with acifluorfen alone, or acifluorfen + OTC, but enzyme activity was unaffected by a high intracellular concentration of glutathione obtained by treatment of cells with OTC alone, or by treatment with acifluorfen + GAL. The degree of GR activation seemed to be controlled by several factors including inhibition by a high concentration of glutathione and possibly oxidative damage to the enzyme. Overall, the enzymes tested in this study, which provide the reduced forms of ascorbate and glutathione, were differently affected by high antioxidant levels.     

Reduced and oxidized glutathione contents in adult rat hepatocytes under various culture conditions

Reduced and oxidized glutathione contents of adult rat hepatocytes in pure culture and in co-culture with rat epithelial cells were measured under various medium conditions. To the standard medium fetal calf serum, nicotinamide, H₂SeO₃, dimethylsulphoxide or no supplements were added. For freshly isolated hepatocytes, intracellular contents of 24 ± 7 nmol reduced and 0.7 ± 0.2 nmol oxidized glutathione/mg cellular protein were obtained, respectively. In pure culture as well as in co-culture and regardless of th medium conditions involved, the protein content stays constant during the culture time with the exception of a decrease in protein content after 6 days of pure culture, caused by deterioration and loss of the hepatocytes. In both culture systems, an initial increase in intracellular reduced glutathione levels was observed, followed by a decrease and a quick normalisation in co-culture. On the contrary, in pure culture, the decrease was slower, but not transient and a stabilized situation was never reached. The various supplementations of the culture media had no significant effect on the intracellular reduced glutathione contents of both culture systems. As far as the intra- and the extracellular oxidized glutathione contents and the extracellular reduced form are concerned, these were only present in small amounts.Abbreviations BSA bovine serum albumin - DMSO medium supplemented with 2% dimethylsulphoxide - FCS- medium without fetal calf serum - FCS+ medium supplemented with 10% fetal calf serum - GSH reduced glutathione - GSSG oxidized glutathione - HPLC high performance liquid chromatography - MEM minimal essential medium - Nic medium supplemented with 25 mM nicotinamide - PBS phosphate buffered saline - Se medium supplemented with 0.1 µM selenium - st standard medium     

Growth of seminal vesicle epithelial cells in serum-free collagen gel culture

Summary Epithelial cells from mouse seminal vesicles were enzymatically dissociated enriched by gradient centrifugation, and maintained in collagen gel cultures with defined (serum-free) media. The epithelial origin of the cells was determined morhologically, immunocytochemically, and biochemically. Cells formed three-dimensional colonies with a lumen in collagen gels. Cell number was increased eight-fold within a 8 to 12-d culture period in a medium supplemented with epidermal growth factor (EGF) (10 ng/ml), insulin (10 μg/ml), transferrin (10 μg/ml), cholera toxin (10 ng/ml), and hydrocortisone (0.1 μg/ml). The cells required eGF and insulin; the growth-promoting effects of these two peptide hormones were optimized by transferrin, cholera toxin, and hydrocortisone. Fetal bovine serum did not support growth; rather, it suppressed the stimulated growth observed in serum-free media. A time-course study revealed that a lag period preceded rapi growth. The collagen gel, serum-free culture provides a powerful tool to study the effects of hormones on proliferation and differentiation of androgen sensitive cells.     

Comparison of different selenocompounds with respect to nutritional value vs. toxicity using liver cells in culture

The essential micronutrient selenium (Se) exerts its biological effects mainly through enzymatically active selenoproteins. Their biosynthesis depends on the 21st proteinogenic amino acid selenocysteine and thus on dietary Se supply. Hepatically derived selenoprotein P (SEPP) is the central selenoprotein in blood controlling Se transport and distribution. Kidney-derived extracellular glutathione peroxidase is another relevant serum selenoprotein depending on SEPP for biosynthesis. Therefore, secretion of SEPP by hepatocytes is crucial to convert nutritional sources into serum Se, supporting Se status and selenoprotein biosynthesis in other tissues.In order to compare the bioactivity of 10 different selenocompounds, their dose-dependent toxicities and nutritional qualities to support SEPP and glutathione peroxidase biosynthesis were determined in a murine and two human liver cell lines. Characteristic dose- and time-dependent effects on viability and SEPP production were observed. Incubations with 100 nM sodium selenite, l- or dl-selenocystine, selenodiglutathione or selenomethyl-selenocysteine increased SEPP concentrations in the culture medium up to 6.5-fold over control after 72 h. In comparison, sodium selenate, l- or dl-selenomethionine or methylseleninic acid was less effective and increased SEPP by 2.5-fold under these conditions. As expected, ebselen did not increase selenoprotein production, supporting its classification as a stable selenocompound. Methylseleninic acid, l-selenocystine, selenodiglutathione or selenite induced cell death in micromolar concentrations, whereas selenomethionine or ebselen was not toxic within the concentration range tested.Our results indicate that hepatic selenoprotein production and toxicity of selenocompounds do not correlate with and rather represent compound-specific properties. The favourable profile of selenomethylselenocysteine warrants its consideration as a promising option for supplementation purposes.     

Influence of glutathione on zinc-mediated cellular toxicity

The effect of zinc on various pulmonary cell lines has been studied by measuring the depletion of total cellular glutathione after exposure to zinc(II) chloride at different concentrations. Total cellular glutathione (cGS) was measured at 31 ± 3 nmol/mg, 3.8 ± 0.6 nmol/mg, and 3.7 ±1.2 nmol/mg protein in A549, L2, and 11Lu cells, respectively. After treatment with buthionine sulfoximine (BSO), the cGS levels decreased by 20% in A549 cells and below 0.2 nmol/mg in L2 and 11Lu cells. Exposure of A549 cells to 25–200 μM ZnCl₂ for 4 h alone decreased the cGS content to 60–80%. There was little additional effect in BSO-pretreated cells. In L2 and 11Lu cells, the decrease of cGS was 70–85% following exposure to 15–150 μM ZnCl₂ for 2 h. If BSO was also used, the decrease in cGS was 85–95% in L2 cells and 75–85% in 11Lu cells. Exposure to 25–250 μM ZnCl₂ for 2 h diminished protein synthesis as determined by radiolabeled methionine incorporation, with half-maximum inhibition (EC₅₀) from 40–160 μM ZnCl₂. To attain similar EC₅₀ values in BSO-pretreated cells, only about half the zinc concentrations were required as compared to cells without pretreatment. The decrease of cGS was accompanied by an increased ratio of oxidized : reduced glutathione that was more pronounced in cells with low glutathione content.     

The metabolic function of hepatocytes differentiated from human mesenchymal stem cells is inversely related to cellular glutathione levels

Differentiation of mesenchymal stem cells (MSCs) to hepatocytes‐like cells is associated with alteration in the level of reactive oxygen species (ROS) and antioxidant defense system. Here, we report the role of glutathione in the functions of hepatocytes derived from MSCs. The stem cells undergoing differentiation were treated with glutathione modifiers [buthionine sulfoxide (BSO) or N‐acetyl cysteine (NAC)], and hepatocytes were collected on day 14 of differentiation and analysed for their biological and metabolic functions. Differentiation process has been performed in presence of glutathione modifiers viz. BSO and NAC. Depending on the level of cellular glutathione, the proliferation rate of MSCs was affected. Glutathione depletion by BSO resulted in increased levels of albumin and ROS in hepatocytes. Whereas, albumin and ROS were inhibited in cells treated with glutathione precursor (NAC). The metabolic function of hepatocytes was elevated in BSO‐treated cells as judged by increased urea, transferrin, albumin, alanine transaminase and aspartate transaminase secretions in the media. However, the metabolic activity of the hepatocytes was inhibited when glutathione was increased by NAC. We conclude that the efficiency of metabolic function of hepatocytes is inversely related to the levels of cellular glutathione. These data may suggest a novel role of glutathione in regulation of metabolic function of hepatocytes. Copyright © 2013 John Wiley & Sons, Ltd.     

The effect of copper on glutathione metabolism in human leukocytes

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.