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Original Article
E ffect of Nitric Oxide (NO) or Hydrogen Peroxide (H2O2) in the Nickel Induced cytotoxicity in RAW 264.7 Cell
Gyung Jae Oh, Keun Sang Kwon
Korean Journal of Occupational and Environmental Medicine 2003;15(1):61-71.   Published online March 31, 2003
DOI: https://doi.org/10.35371/kjoem.2003.15.1.61
AbstractAbstract PDF
OBJECTIVES
Nickel (Ni) is present in many industrial working environments and consumer products, and is one of the leading cause of allergic contact dermatitis, which is a typical delayed (type IV) hypersensitivity reaction. However, the mechanism by which nickel causes this pathology is not well known. The contact dermatitis induced by nickel is mediated, primarily, through macrophages. This property was similar to autotoxicity related nitric oxide (NO) production. NO mediated cytotoxicity was dependent on both H2O2 and peroxynitrite (OONO-). The purpose of this study was to elucidate the role of NO/H2O2 in the cytotoxicity induced by nickel. Therefore, this study was designed to examine whether nickel could modulate NO/H2O2 production and how the Ni may affect ATP production, intracellular GSH level, and cell viability.
METHODS
This study was based on the observations of cultures of RAW 264.7 cells, which originated from a tumor in a Balb/c mouse that had been induced by the Abelson murine leukemia virus. RAW 264.7 cells were treated with either Ni, N- onomethyl-L- arginine (NMLA), catalase, and DTT for 24-72 h. The cytotoxicity of the nickel was measured via the cell viability and NO2-, H2O2, GSH, and the mitochondrial function was evaluated by the adenosine triphosphate (ATP) production in the RAW 264.7 cells.
RESULTS
The NO2- synthesis of RAW 264.7 cells increased with the increase in concentrations of Ni up to 50-micrometer, after 24 and 48 h of exposure, but then decreased at concentrations greater than 50-micrometer, and with time periods exceeding 48 h. In contrast, viability of cells and intracellular GSH level decreased in the presence of Ni in a dose and time dependent manner. However, the H2O2 synthesis of RAW 264.7 cells was not changed in the all experimental conditions. The NO2- synthesis of the cells was higher than control, whereas ATP, GSH and viability were lower than control in addition of Ni and the pretreatment of catalase or DTT prior to addition of Ni.
CONCLUSIONS
These results suggest that NO plays an important role in the cytotoxicity of Ni. Cytotoxicity of Ni may exert through modulation of NO production and associate with a decrease in intracellular GSH levels.

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Original Article
Role of Nitric Oxide in the Nickel and Cobalt Induced Cytotoxicity in RAW 264.7 cell
Jung Ho Youm, Gyung Jae Oh, Young Cheun Yoo
Korean Journal of Occupational and Environmental Medicine 2001;13(3):274-285.   Published online September 30, 2001
DOI: https://doi.org/10.35371/kjoem.2001.13.3.274
AbstractAbstract PDF
OBJECTIVES
The nickel and cobalt present in many industrial working environments and consumer products. They are two of the leading causes of allergic contact dermatitis, which is a typical delayed(type IV) hypersensitivity reaction. However, the mechanism by which nickel and cobalt causes this pathology is not well known. The nickel and cobalt induced contact dermatitis is mediated primarily through macrophages. This mechanism is similar to the autotoxicity procedure for NO. Therefore, this study was designed to examine whether the metals could modulate NO production and how the metals may affect ATP production and cell viability. In summary, the purpose of this study was to elucidate the role of NO in the nickel and cobalt induced cytotoxicity.
METHODS
This study is based on observations of cultures of RAW 264.7 cells which are originated from a tumor of Balb/c mouse that was induced by Abelson murine leukemia virus. RAW 264.7 cells were treated with either Ni, Co, Ni plus Co, or Nmonomethyl-L- arginine(NMLA) for 24-72 h. The cytotoxicity of the nickel and cobalt was measured by cell viability and NO2-, and mitochondrial function was evaluated by adenosine triphosphate(ATP) production in RAW 264.7 cells. In addition, the morphology of cells was observed using an inverted microsope.
RESULTS
The NO2- synthesis of RAW 264.7 cells increased with increasing concentrations of Ni and Co up to 50 microM after 24 and 48 h of exposure to Ni and Co but then decreased if the concentration was greater than 50 microM and the time period was greater than 48 h. However, the viability of cells was decreased by Ni and Co exposure in a dose and time dependent manner. Therefore, 50 microM Ni or Co and 48 h of treatment were used in this study. A complete inhibition of NO2- synthesis by Ni or/and Co occurred when iNOS inhibitor, NMLA, were pretreated prior to addition of Ni or/and Co, whereas Ni or/and Co induced decrease of synthesis of ATP and viability completely recovered when NMLA were pretreated prior to addition of Ni or/and Co. Ni or/and Co(50 microM) induced the characteristic morphological features of cytotoxicity which is characterized by a shrinkage of cytoplasm and irregular shape of the cells, but the pretreatment of NMLA resulted in a recovered morphological change of the cells to their normal appearance.
CONCLUSIONS
These results suggest that NO plays an important role in the pathogenesis of the cytotoxicity of nickel and cobalt, and nickel and cobalt may exert their toxicities by means of modulation of NO production. The results from this study may facilitate further understanding the role of NO on nickel and cobalt induced immune and inflammatory processes.

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Original Article
A Study of Protective Effect of Selenium Against Cytotoxicity of Methylmercury Chloride
Dai Ha Koh, Jung Ho Youm, Young Sang Koh, Sun Hwan Joh, Tak Soon Oh
Korean Journal of Occupational and Environmental Medicine 1998;10(3):310-319.   Published online August 31, 1998
DOI: https://doi.org/10.35371/kjoem.1998.10.3.310
AbstractAbstract PDF
The purpose of the present study was to elucidate the cytotoxical influence of mercurial compounds and the protective effect of selenium against mercurial compounds. The effects of mercury compounds and selenium on the syntheses of nitrite(NO2-) and ATP were observed in the cell cultures of EMT-6 cells and peritoneal macrophages from Balb/c mouse. The viabilities of EMT-6 cells and peritoneal macrophages at the end of culture were significantly decreased in dose-dependent manner by methylmercury chloride (CH3HgCl) added into the media. NO2- and ATP syntheses of the cells were dose-dependently inhibited by CH3HgCl. Simultaneous addition of the equimolar dose of selenium completely prevented mercury-induced inhibitions of NO2- and ATP syntheses, which were observed in both of EMT-6 cells and peritoneal macrophages. But these effects of selenium were not appeared in the new medium containing mercurials only which were removed the selenium after the pretreatment of selenium for 6 hours. These results suggest that protective effect of selenium against mercurial compounds was archived by the formation of a complex consisting of Se-Hg or Se-Hg-protein. Though its mechanism was not clear, the protective role of selemium against the mercury toxicity would be exhibited in the immunological system.

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