Slow Elimination of Nonylphenol from Rat Intestine

doi:10.1124/dmd.105.007229

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Drug Metabolism and Disposition Fast Forward
First published on October 21, 2005; DOI: 10.1124/dmd.105.007229

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Received for publication September 12, 2005.
Revised October 13, 2005.
Accepted for publication October 19, 2005.

Slow Elimination of Nonylphenol from Rat Intestine

Tomo Daidoji ¹, Mihoko Ozawa ¹, Hirokazu Sakamoto ¹, Toshiro Sako ¹, Hiroki Inoue ¹, Ryo Kurihara ², Shinya Hashimoto ², Hiroshi Yokota ¹^*

¹ Rakuno Gakuen University ² University of Shizuoka

^* Address correspondence to: E-mail: h-yokota{at}rakuno.ac.jp

Abstract

Nonylphenol, a possible endocrine disrupter, tends to persistin rat liver tissue after detoxification as a glucuronide conjugateby UDP-glucuronosyltransferase 2B1 expressed in the liver. Inthe intestine, however, the metabolism and dynamics of nonylphenolremain to be elucidated. The objectives of this study were toclarify the metabolism and excretion of nonylphenol having along alkyl chain in the first barrier intestine, and to estimatewhether the nonylphenol alkyl chain governs the speed of excretionfrom intestinal tissue. Organ tissue glucuronidation activitytoward alkylphenols (C2, C9) was investigated using microsomesprepared from intestinal tissue. To elucidate the eliminationpathway of alkylphenols (C2, C4, C6, C9), a perfusion studywas conducted on everted intestine. After oral administration(5 mg) of alkylphenols (C2, C9) to rats, gastrointestinal contentsand related organ-tissues (gastrointestinal tissue, liver, kidney),blood, and urine were analyzed for alkylphenols (C2, C9) andglucuronides. The intestine showed strong glucuronidation activitytoward alkylphenols (C2, C9). In everted intestinal assay, nonylphenolwas glucuronidated within the intestinal wall, as is the casefor other alkylphenols (C2, C4, C6), but nonylphenol-glucuronidewas not excreted from intestinal tissue. Orally administerednonylphenol remained for long periods in gastrointestinal tissueas both the parent compound and glucuronide. The present studyconfirmed that intestinal tissue possesses an alkylphenol eliminationsystem employing UDP-glucuronosyltransferase; however, thissystem is impaired by the marginal transport of alkylphenol-glucuronidepossessing long alkyl chain, such as nonylphenol.

Key words: drug disposition, drug transport, excretion, extrahepatic drug metabolism, gastrointestinal pharmacology, UDP glucuronyltransferases