Your search keyword '"Timothy P. Coogan"' showing total 2 results

1. Enhanced metallothionein gene expression is associated with protection from cadmium‐induced genotoxicity in cultured rat liver cells

Author

Robert M. Bare, Michael P. Waalkes, Timothy P. Coogan, and Erik J. Bjornson

Subjects

inorganic chemicals, Time Factors, DNA damage, chemistry.chemical_element, Mutagen, Biology, Toxicology, medicine.disease_cause, Gene expression, medicine, Animals, Metallothionein, Cells, Cultured, Cadmium, DNA, Pollution, Rats, Inbred F344, Rats, Gene Expression Regulation, Liver, Biochemistry, chemistry, Cell culture, Toxicity, Genotoxicity, DNA Damage

Abstract

Metallothioneins (MTs) are low-molecular-weight, cysteine-rich proteins that appear to play an important role in the cellular defense system against cadmium toxicity. Although substantial evidence exists demonstrating a reduction in cadmium toxicity concomitant with MT induction, little is known about the possible effects of stimulation of MT synthesis on cadmium-induced genotoxicity. Thus, the alkaline elution technique was used to assess single-strand DNA damage (SSD) in TRL-1215 cells, a liver-derived cell line shown to have inducible MT Gene expression. The SSD accumulated over a 2-h time period in a time-dependent manner following exposure to 500 [mu]M CdCl[sub 2]. Low concentration cadmium pretreatment (10 [mu]M CdCl[sub 2], 24 h) provided protection against the genotoxicity of high-concentration cadmium (500 [mu]M CdCl[sub 2], 2 h). A 2-h exposure to 500 [mu]M CdCl[sub 2], had no effect on viability, as assessed using a tetrazolium-dye based assay, in cells from either the pretreated or nonpretreated group. Metallothionein was induced in a time-dependent manner by low-concentration cadmium pretreatment: Exposure for 24 and 48 h resulted in 3.3- and 6.4-fold increases, respectively. In addition, a 24-h exposure to low-concentration cadmium resulted in an increase in MT-I gene expression. Cadmium accumulation was 2.6-fold greater in low-concentration cadmium-pretreated cells as comparedmore » to non-pretreated cells. These data demonstrate that low-concentration cadmium pretreatment provides protection against cadmium-induced single-strand DNA damage and support the hypothesis that this protection is due to stimulation of MT gene expression. 38 refs., 6 figs.« less

Published

1994

2. Protective effects of selenium on cadmium toxicity in rats: Role of altered toxicokinetics and metallothionein

Author

Steven W. Rhodes, Timothy P. Coogan, Zakaria Z. Wahba, and Michael P. Waalkes

Subjects

Male, inorganic chemicals, Cadmium Poisoning, medicine.medical_specialty, Injections, Subcutaneous, chemistry.chemical_element, Urine, Toxicology, Excretion, Selenium, Internal medicine, medicine, Animals, Toxicokinetics, Metallothionein, Tissue Distribution, Rats, Wistar, Carcinogen, Cadmium, food and beverages, Pollution, Rats, Endocrinology, chemistry, Biochemistry, Toxicity

Abstract

Selenium prevents the toxicity of the carcinogenic metal cadmium through undefined mechanisms. In this study, we determined the effects of selenium on cadmium toxicokinetics and on the ability of cadmium to induce metallothionein, a metal-binding protein that is thought to confer tolerance to cadmium toxicity. To assess the acute protective effects of selenium, male Wistar (WF/NCr) rats were given selenium (as SeO2; 10 mumol/kg, sc) at -24, 0, and +24 h relative to cadmium (as CdCl2; 45 mumol/kg, sc). Over a 14-d period this dose of cadmium killed 6 out of 10 rats, while 100% of the cadmium-treated rats given concurrent selenium treatments survived. The acute increases in testicular weight that were seen with cadmium, indicative of edematous damage, were also prevented by concurrent selenium treatments. Further studies assessed the distribution and excretion of cadmium and its ability to induce metallothionein in rats given 40 mumol Cd/kg, sc, at time 0 and selenium (10 mumol/kg, sc) at -24 and 0 h. Selenium treatments enhanced cadmium accumulation at 24 h in the liver (23%), testes (145%), and epididymis (35%) but reduced renal accumulation by more than half. Urine samples, collected at 0-3, 3-6, and 6-24 h following cadmium administration, indicated a markedly reduced excretion of cadmium in selenium treated rats during all time periods. The synthesis of metallothionein was stimulated to a much lesser extent by cadmium in selenium-treated rat kidney (41% decrease) but was unaffected in liver. The levels of cadmium-binding proteins within the testes were markedly reduced by cadmium treatment, an effect unmodified by selenium treatments. These results suggest selenium prevents acute cadmium toxicity through a mechanism that does not involve induction of metallothionein and in spite of a markedly enhanced retention of cadmium.

Published

1993