Effect of Sodium Diethyldithiocarbamate on Blood Copper-levels and Pregnancy in the Rabbit

Dietary Copper Reduces the Hepatotoxicity of (-)-Epigallocatechin-3-Gallate in Mice

We developed Cu-deficient, -sufficient and -super nutrition mice models by feeding them with diet containing 1.68, 11.72 or 51.69 mg of Cu/kg for 28 days, respectively. Then, the mice were treated to (−)-epigallocatechin-3-gallate (EGCG, 750 mg/kg BW) by oral in order to assess the acute toxicity of the drug. Following EGCG treatment, the survival rates were 12.5%, 50% and 100% in the Cu-deficient, -sufficient and Cu-super nutrition groups of mice, respectively. Cu level and ceruloplasmin activity in serum were significantly increased with the increase of dietary Cu. However, the Cu supplementation did not produce any obvious impact on serum superoxide dismutase activity. Furthermore, ceruloplasmin, in vitro, significantly promotes EGCG oxidation accompanied with increasing oxidation products and decreasing levels of reactive oxygen species. These results, therefore, suggest that Cu can relieve EGCG hepatotoxicity, possibly by up-regulating ceruloplasmin activity, which can be used to promote EGCG applications.

Diethyldithiocarbamate, copper and neurological disorders

Diethyldithiocarbamate (DEDTC) given orally to rats without any addition of copper considerably increased the concentration of Cu in the brain without any change in the other tested tissues. Cysteine, comparatively studied, did not induce any change in the brain Cu level. Based on these findings and the literature data concerning DEDTC effects in animal and human, we put forward the hypothesis that the main effect of DEDTC is to provoke in the brain not a deficiency but an excess of Cu liberated from the lipophilic complex Cu-DEDTC. Cu is then engaged in an oscillatory oxido reduction giving a Cu++ cation radical able to induce deleterious effects on tissues in a similar way as paraquat. The practical consequences of this hypothesis are considered.

Favorable influences of imuthiol on mouse reproduction and immune system of offspring

A physiological immature immune system in newborns is a common feature frequently associated with increased susceptibility to infections. The properties of imuthiol (purified sodium diethyldithiocarbamate), an agent specifically active on the T-cell lineage, and virtually devoid of toxicity for man or animals, encouraged us to determine whether imuthiol administered to the dams could increase the immune capability of offspring without altering fecundability and birth rate. Experiments performed either in histocompatible or histoincompatible mating systems, show that chronic administration of imuthiol prior to mating and/or during pregnancy stimulated newborn mice to increased T-cell-dependent responses, without altering birth rates and growth curves in progenies. The data suggest that imuthiol has no teratogenicity or deleterious influences on mouse gametes, and might be useful to prevent immunodepression-associated infections in newborns.

Effect of metal chelators on excretion and tissue levels of essential trace elements

The influence of one, three, and six doses of ethylenediaminetetraacetic acid (EDTA), diethylenetriaminepentaacetic acid (DTPA), and triethylenetetramine (TETA) on the urinary excretion of Ca, Cu, Fe, and Zn, and on their levels in liver, kidneys, heart, and serum in rats, was investigated to ascertain their suitability in amelioration of metal intoxication. While excretion of all the essential trace metals examined was enhanced significantly, the tissue and serum levels of some of them either increased or decreased after administration of the chelators. The results suggest depletion of some of the endogenous trace metals from the body and their intertissue redistribution following treatment with these chelating agents.