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The role of glutathione in the acute nephrotoxicity of sodium dichromate (1992)

Na, Ki Jung ; Jeong, So Young ; Lim, Chang Hyeong

Springer

Archives of toxicology 66 (1992), S. 646-651

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ISSN: 1432-0738

Keywords: Sodium dichromate ; Nephrotoxicity ; Glutathione ; Ascorbate ; Carbohydrate metabolism

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Abstract Ascorbate treatment 30 min prior to sodium dichromate (20 or 30 mg/kg, s.c.) shows higher potency than that of glutathione (GSH) in protecting against both the metabolic disturbance and nephrotoxicity induced by dichromate. However, ascorbate treatment after 2 h of dichromate intoxication had no effect on dichromate-induced blood urea nitrogen (BUN) elevation 3 days after intoxication. In contrast, dichromate-induced glucosuria, which reached maximum levels at 3 days after treatment, was significantly decreased by GSH or N-acetyl cysteine (NAC) treatment, even if its administration was after 24 h of dichromate intoxication. Pretreatment with GSH depletors such as diethyl maleate (DEM) and buthionine sulfoximine (BSO) had no effect on dichromate-induced nephrotoxicity. GSH levels in the liver and kidney were not affected at 3 h after dichromate treatment. However, dichromate significantly increased tissue GSH levels with a marked increase in liver per kidney GSH ratio at 24 h after treatment, if food was withheld subsequent to dichromate treatment, indicating that GSH biosynthesis resulted from the accelerated protein breakdown. These results suggest that GSH-mediated dichromate reduction is not a kinetically favorable pathway in vivo; however, GSH plays an important role in protection against dichromate-induced nephrotoxicity. In addition, the cellular metabolism of dichromate in the early period after treatment is important in the pathogenesis of its nephrotoxicity.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF01981504

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Erythromycin, lincosamides, peptidyl-tRNA dissociation, and ribosome editing (1994)

Menninger, John R. ; Coleman, Ruth A. ; Tsai, Lee-Na

Springer

Molecular genetics and genomics 243 (1994), S. 225-233

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ISSN: 1617-4623

Keywords: Protein synthesis ; Translation ; Accuracy ; Macrolide antibiotics

Source: Springer Online Journal Archives 1860-2000

Topics: Biology

Notes: Abstract Inaccurate protein synthesis produces unstable β-galactosidase, whose activity is rapidly lost at high temperature. Erythromycin, lincomycin, clindamycin, and celesticetin were shown to counteract the error-inducing effects of streptomycin on β-galactosidase synthesized in the antibiotic-hypersensitive Escherichia coli strain DB-11 Met −. Newly synthesized β-galactosidase was more easily inactivated by high temperatures when synthesized by bacteria partially starved for arginine, threonine, or methionine. Simultaneous treatment with erythromycin or linocomycin yielded β-galactosidase that was inactivated by high temperatures less easily than during starvation alone, an effect attributed to stimulation of ribosome editing. When synthesized in the presence of canavanine, β-galactosidase was inactivated by high temperature more easily but this effect could not be reversed by erythromycin. The first arginine in β-galactosidase occurs at residue 13, so the effect of erythromycin during arginine starvation is probably to stimulate dissociation of erroneous peptidyl-tRNAs of at least that length. Correction of errors induced by methionine starvation is probably due to stimulation of dissociation of erroneous peptidyl-tRNAs bearing peptides at least 92 residues in length. All the effects of erythromycin or the tested lincosamides on protein synthesis are probably the result of stimulating the dissociation from ribosomes of peptidyl-tRNAs that are erroneous or short.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00280320

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