Selection of Drugs to Test the Specificity of the Tg.AC Assay by Screening for Induction of the gadd153 Promoter in Vitro

doi:10.1093/toxsci/kfg113

ToxSci Advance Access originally published online on May 2, 2003

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Toxicological Sciences 74, 260-270 (2003)
Copyright © 2003 by the Society of Toxicology

CARCINOGENICITY

Selection of Drugs to Test the Specificity of the Tg.AC Assay by Screening for Induction of the gadd153 Promoter in Vitro

Karol L. Thompson¹ and Frank D. Sistare

Division of Applied Pharmacology Research, Office of Testing and Research, Office of Pharmaceutical Sciences, Center for Drug Evaluation and Research, Food and Drug Administration, Laurel, Maryland 20708

Short-term assays for carcinogenicity testing of chemicals thatuse transgenic mice designed to have altered expression of genesmechanistically relevant to carcinogenesis are attractive alternativesto two-year dosing studies in rodents. The models that havebeen the received the greatest level of performance evaluationinclude p53(+/-), rasH2, Xpa/p53(+/-), and Tg.AC mice. For useof these models in a regulatory setting to evaluate the carcinogenicpotential of pharmaceuticals, it is important to establish anassurance of assay specificity and positive predictivity basedon studies using drugs with a wide spectrum of pharmacologicactivity. For this purpose, 99 noncarcinogenic drugs were prioritizedbased on their activity in an in vitro induction assay correlativewith a positive response in the Tg.AC assay (induction of thegadd153 promoter in HepG2 cells). Activities in two assays lesspredictive of Tg.AC activity (induction of c-fos and ${zeta}$ -globingene promoters) were also measured. Nine percent of the screeneddrugs induced the gadd153 promoter by at least fourfold. Severalcriteria were used to select candidates for subsequent in vivotesting in the Tg.AC assay: (1) sufficient drug solubility inappropriate skin paint vehicles to elicit systemic toxicity,(2) the level of induction of the gadd153 promoter by the drug,(3) the in vitro potency of the drug, and (4) the cost of thedrug required for a 6-month study. Based on these criteria,amiloride, dipyridamole, and pyrimethamine were selected from99 rodent noncarcinogens in a drug database for testing thespecificity of the Tg.AC assay.

Key Words: Tg.AC; gadd153; c-fos; ${zeta}$ -globin; HepG2; K562.

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