demecolcine and methylmercury-hydroxide

demecolcine has been researched along with methylmercury-hydroxide* in 1 studies

Other Studies

1 other study(ies) available for demecolcine and methylmercury-hydroxide

Article	Year
Spindle disturbances in mammalian cells. I. Changes in the quantity of free sulfhydryl groups in relation to survival and C-mitosis in V79 Chinese hamster cells after treatment with colcemid, diamide, carbaryl and methyl mercury. Chemico-biological interactions, 1983, Sep-01, Volume: 46, Issue:2 Asynchronously growing V79 Chinese hamster cells were treated with colcemid, diamide, carbaryl and methyl mercury, which are all known to be spindle disturbing agents. For each compound the dose response for c-mitosis, survival and level of free sulfhydryl groups was investigated under comparable conditions. Diamide, carbaryl and methyl were all found to give a significant increase of c-mitosis at a dose giving a decrease of non-protein sulfhydryl groups (NPSH, mainly glutathione) of 30-40% suggesting that a decrease of this magnitude may have a predictive value for spindle disturbances. Despite this similarity at concentrations close to the respective thresholds it was found that the c-mitotic activity at higher concentrations was not a simple function of average NPSH decrease. Diamide, which rapidly oxidizes glutathione to glutathione disulfide, was a less efficient c-mitotic agent than carbaryl and methyl mercury in relation to average NPSH decrease at higher concentrations. Protein bound sulfhydryl groups (PSH) were not significantly affected with diamide and carbaryl at their lowest c-mitotic concentrations while methyl mercury caused a significant decrease already at concentrations below the lowest c-mitotic concentration. With colcemid a significant decrease of average NPSH (14%) and PSH (12%) was observed only with concentrations giving close to 100% c-mitotic cells. Concentrations giving more than 20% c-mitosis gave a pronounced decrease of survival with carbaryl, diamide and methyl mercury while no toxic effects were obtained with colcemid, not even with concentrations giving close to 100% c-mitosis. Carbaryl, diamide and methyl mercury caused increased glutathione peroxidase activity indicating that these compounds cause increased lipid peroxidation. The possible connection between peroxidative damage of membranes and c-mitosis is discussed. Topics: Animals; Azo Compounds; Carbaryl; Cell Line; Cell Survival; Cricetinae; Cricetulus; Demecolcine; Diamide; Kinetics; Lung; Methylmercury Compounds; Mitosis; Sulfhydryl Compounds	1983

Article

Year

Spindle disturbances in mammalian cells. I. Changes in the quantity of free sulfhydryl groups in relation to survival and C-mitosis in V79 Chinese hamster cells after treatment with colcemid, diamide, carbaryl and methyl mercury.

Chemico-biological interactions, 1983, Sep-01, Volume: 46, Issue:2

Asynchronously growing V79 Chinese hamster cells were treated with colcemid, diamide, carbaryl and methyl mercury, which are all known to be spindle disturbing agents. For each compound the dose response for c-mitosis, survival and level of free sulfhydryl groups was investigated under comparable conditions. Diamide, carbaryl and methyl were all found to give a significant increase of c-mitosis at a dose giving a decrease of non-protein sulfhydryl groups (NPSH, mainly glutathione) of 30-40% suggesting that a decrease of this magnitude may have a predictive value for spindle disturbances. Despite this similarity at concentrations close to the respective thresholds it was found that the c-mitotic activity at higher concentrations was not a simple function of average NPSH decrease. Diamide, which rapidly oxidizes glutathione to glutathione disulfide, was a less efficient c-mitotic agent than carbaryl and methyl mercury in relation to average NPSH decrease at higher concentrations. Protein bound sulfhydryl groups (PSH) were not significantly affected with diamide and carbaryl at their lowest c-mitotic concentrations while methyl mercury caused a significant decrease already at concentrations below the lowest c-mitotic concentration. With colcemid a significant decrease of average NPSH (14%) and PSH (12%) was observed only with concentrations giving close to 100% c-mitotic cells. Concentrations giving more than 20% c-mitosis gave a pronounced decrease of survival with carbaryl, diamide and methyl mercury while no toxic effects were obtained with colcemid, not even with concentrations giving close to 100% c-mitosis. Carbaryl, diamide and methyl mercury caused increased glutathione peroxidase activity indicating that these compounds cause increased lipid peroxidation. The possible connection between peroxidative damage of membranes and c-mitosis is discussed.

Topics: Animals; Azo Compounds; Carbaryl; Cell Line; Cell Survival; Cricetinae; Cricetulus; Demecolcine; Diamide; Kinetics; Lung; Methylmercury Compounds; Mitosis; Sulfhydryl Compounds

1983