References
- Heikkila R.S., Cabbat F.S., Cohen G. The in vivo inhibition of superoxide dismutase in mice by diethyldithiocarbamate. Journal of Biological Chemistry 1976; 251: 2182–2185
- Metchnick S.R., Scott B., Lubin B., Ranz A., Eaton J.W. Anti malarial activity of diethyldithiocarbamate: potentiation by copper. Biochemical Pharmacology 1990; 40: 213–216
- Mankhetorn A.M., Abdenzadeh Z., Houee-Levin C. Antioxidant action of diethyldithiocarbamate reaction with hydrogen peroxide and superoxide. Free Radicals Biology and Medicine 1989; 17: 517–527
- Trombetta L.D., Toulon M., Jamall I.S. Protective effect of glutathione on diethyldithiocarbamate (DDC) cytotoxicity: a possible mechanism. Toxicology and Applied Pharmacology 1989; 93: 154–166
- Kumar K.S., Aancho A.M., Weiss J.F. A novel interaction of diethyldithiocarbamate with glutathione/glutathione peroxidase system. International Journal Radiation Oncology and Biological Biophysics 1986; 12: 1463–1467
- Zanoco A.L., Pavez R., Videla L.A., Lies E. Antioxidant, capacity of diethyldithiocarbamate in metal independent lipid peroxidation. Free Radicals in biology and medicine 1989; 7: 151–156
- Jiankang L., Shigenaga M.K., Junyan L., Mori A., Ames B.N. Antioxidant activity of diethyldithiocarbamate. Free Radical Research 1996; 24: 461–472
- Agar N.S., Mahone J.R., Eaton J.W. Hemolytic and bactericidal action of diethyldithiocarbamic acid. Biochemical Pharmacology 1991; 41: 985–993
- Ginsburg I., Yedgar I.S., Varani J. Diethyldithiocarbamate and nitric oxide synergize with oxidants and with membrane-damaging agents to damage epithelial cells. Free Radical Research 1997; 27: 143–164
- Yedgar S., Dan P., Dagan A., Ginsburg I., Lossos I.S., Breuer R. Control of inflammatory processes by cell-impermeable inhibitor of phosphilipase A2. Agents and Actions Supplement 1995; 46: 77–84
- Ginsburg I., Kohen R. Cell damage in inflammatory and infectious sites might involve a coordinated “cross-talk” among oxidants, microbial hemolysins and amphiphiles, cationic proteins, phospholipases, fatty acids, proteinases and cytokines (an overview). Free Radical Research 1995; 22: 489–517
- Kohen R. The use of cyclic voltammetry for the evaluation of oxidative damage in biological samples. Journal of Pharmacological Toxicology Methods 1993; 29: 185–193
- Shinar E., Navok E.T., Chevion M. The analogous mechanisms of inactivation induced by ascorbate and superoxide in the presence of copper. Journal of Biological Chemistry 1983; 258: 14778–14783
- Clopton D.A., Saltman P. Copper-specific damage in human erythrocytes exposed to oxidative stress. Biology of Trace Elements Research 1997; 56: 231–240
- Chevion M. Protection against free radical-induced and transition metal-mediated damage: the use of “pull” and “push” mechanisms. Free Radical Research Communications 1991; 13: 691–696
- Burkit M.J., Bishop H.S., Milne L., Tsang S.Y., Provan G.J., Nobel C.S., Orrenius S., Slater A.F. Dithiocarbamate toxic toward thymocytes involves the coppercatalyzed conversion to thiuram disulfide, which oxidize glutathione in a redox cycle without the release of reactive oxygen species. Archives of Biochemistry and Biophysics 1998; 353: 73–84
- Elias-Zvi N., Ginsburg I., Heller M. Binding of streptolysin S to red blood cell ghosts and ghost lipids. Israel Journal of Medical Sciences 1966; 2: 382–396
- Ginsburg I. Action of phospholipids on the cytotoxicity of rabbit antibodies against Ehrlich ascites tumor cells. British Journal of Experimental Pathology 1968; 41: 548–557
- Sandhu I.S., Ware K., Grisham M.B. Peroxyl radical-mediated hemolysis: role of lipid, protein and sulfhydryl oxidation. Free Radical Research Communications 1992; 16: 111–122
- Anderson O., Nielse J.B. Effects of diethyldithiocarbamate on the toxicokinetics of cadmium chloride in mice. Toxicology 1989; 55: 1–14
- Anderson O., Nielsen J.B., Jones M.M. The effects of dithiocarbamates on intestinal absorption and organ distribution of cadmium chloride in mice. Pharmacological Toxicology 1989; 64: 239–243
- Anderson O., Nielsen J.B., Svedsen P. Oral cadmium chloride intoxication in mice: diethyldithiocarbamate enhances rather than alleviates acute toxicity. Toxicology 1998; 52: 331–342
- Sunderman F.W., Jr. Therapeutic properties of diethyldithiocarbamate: Its role as an inhibitor in the progression of AIDS. Annals of Clinical Laboratory Sciences 1991; 21: 70–81
- Yang M. Effect of sulfydryl reagents on spectrin states on erythrocyte membrane. Biochemical Biophysical Research Communication 1993; 30: 918–925
- Srivastava R.C., Gupta S., Ahmad N., Hasan S.K., Farookh A., Husain M.M. Comparative evaluation of chelating agents on the mobilization of cadmium: a mechanistic approach. Journal of Toxicology and Environmental Health 1996; 47: 173–182
- Aust S.D. Metal ions oxygen radicals and tissue damage. Bibl Nutr Dieta 1989; 43: 266–277
- Kelnerand M.J., Alexander M. Inhibition of erythrocytes superoxide dismutase by diethyldithiocarbamate also results in oxyhemoglobin-catalyze glutathione depletion and met hemoglobin production. Journal of Biological Chemistry 1986; 261: 1636–1641