Re-evaluation of the 2-Year Chloroform Drinking Water Carcinogenicity Bioassay in Osborne-Mendel Rats Supports Chronic Renal Tubule Injury as the Mode of Action Underlying the Renal Tumor Response

doi:10.1093/toxsci/53.2.237

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Toxicological Sciences 53, 237-244 (2000)
Copyright © 2000 by the Society of Toxicology

Re-evaluation of the 2-Year Chloroform Drinking Water Carcinogenicity Bioassay in Osborne-Mendel Rats Supports Chronic Renal Tubule Injury as the Mode of Action Underlying the Renal Tumor Response

Gordon C. Hard^*^,1, Gary A. Boorman and Douglas C. Wolf

^* American Health Foundation, Valhalla, New York; National Toxicology Program, NIEHS, Research Triangle Park, North Carolina; and U.S. EPA, Research Triangle Park, North Carolina

Chloroform, generally regarded as a non-genotoxic compound,is associated with the induction of liver and/or kidney tumorsin laboratory mice and rats. In particular, chloroform producedrenal tubule tumors in low incidence in male Osborne-Mendelrats when administered by corn-oil gavage or in the drinkingwater. There is a lack of data on intermediate endpoints thatmay be linked to renal cancer development in this strain ofrat, in contrast to mice. Specifically, evidence linking chloroform-inducedliver and kidney tumors in mice with cytotoxicity and regenerativecell proliferation is very strong, but weak in the rat. In thepresent study, kidney tissue from a carcinogenicity bioassayof chloroform in Osborne-Mendel rats was re-evaluated for histologicalevidence of compound-induced cytotoxicity and cell turnover.All rats treated with 1800 ppm (160 mg/kg/day, high-dose group)in the drinking water for 2 years and half the rats treatedwith 900 ppm (81 mg/kg/day) had mild to moderate changes inproximal convoluted tubules in the mid to deep cortex indicativeof chronic cytotoxicity. Tubule alterations specifically associatedwith chronic chloroform exposure included cytoplasmic basophilia,cytoplasmic vacuolation, and nuclear crowding consistent withsimple tubule hyperplasia. Occasional pyknotic cells, mitoticfigures in proximal tubules, and prominent karyomegaly of therenal tubule epithelium were present. These alterations werenot present in control groups or at the 200-ppm (19 mg/kg/day)or 400-ppm (38 mg/kg/day) dose levels. This new informationadds substantially to the weight of evidence that the key eventsin chloroform-induced carcinogenicity in rat kidney includesustained cellular toxicity and chronic regenerative hyperplasia.

Key Words: kidney; rat; adenoma; carcinoma; cytotoxicity; simple tubule hyperplasia; regeneration; karyomegaly; risk assessment..

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