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Xenobiotica
the fate of foreign compounds in biological systems
Volume 44, 2014 - Issue 1
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General Xenobiochemistry

Metabolic detoxification pathways for 5-methoxy-sterigmatocystin in primary tracheal epithelial cells

, , , &
Pages 1-9 | Received 12 Mar 2013, Accepted 08 May 2013, Published online: 11 Jun 2013
 

Abstract

1. The health effects of inhaled mycotoxins remain poorly documented despite their presence in bioaerosols. 5-methoxy-sterigmatocystin is produced in association with sterigmatocystin by some Aspergillus spp., sometimes in larger amounts than sterigmatocystin. Whereas sterigmatocystin can be metabolized through cytochromes P450 (CYP), UDP-glucuronosyltransferases and sulfotransferases in airway epithelial cells, little is known about 5-methoxy-sterigmatocystin.

2. The 5-methoxy-sterigmatocystin metabolites were analyzed using human recombinant CYP and porcine tracheal epithelial cell (PTEC) primary cultures at an air–liquid interface. The induction of xenobiotic-metabolizing enzymes was examined by real-time quantitative PCR for mRNA expression and 7-ethoxyresorufin O-deethylation activity.

3. CYP1A1 metabolized 5-methoxy-sterigmatocystin into hydroxy-nor-methoxy-sterigmatocystin, nor-methoxy-sterigmatocystin and dihydroxy-methoxy-sterigmatocystin. CYP1A2 led to monohydroxy-methoxy-sterigmatocystin. In PTEC, 5-methoxy-sterigmatocystin metabolism resulted into a glucuroconjugate of 5-methoxy-sterigmatocystin, a sulfoconjugate and a glucuroconjugate of monohydroxy-methoxy-sterigmatocystin. The exposure of PTEC for 24 h to 1 µM 5-methoxy-sterigmatocystin induced a significant increase in the mRNA levels of CYP1A1, without significant induction of the 7-ethoxyresorufin O-deethylation activity.

4. These data suggest that 5-methoxy-sterigmatocystin is mainly detoxified in airway cells through conjugation, as sterigmatocystin. However, while CYP produced a reactive metabolite of sterigmatocystin, no such metabolite was detected with 5-methoxy-sterigmatocystin. Nevertheless, 5-methoxy-sterigmatocystin increases the CYP1A1 mRNA levels. The long-term consequences remain unknown.

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