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  • Title: Differential regulation of individual sulfotransferase isoforms by phenobarbital in male rat liver.
    Author: Runge-Morris M, Rose K, Falany CN, Kocarek TA.
    Journal: Drug Metab Dispos; 1998 Aug; 26(8):795-801. PubMed ID: 9698295.
    Abstract:
    Xenobiotics that induce the cytochromes P450 also produce changes in rat hepatic sulfotransferase (SULT) gene expression. In the present study, male Sprague-Dawley rats were treated for 3 consecutive days with doses of phenobarbital (PB) that induce cytochrome P450 2B1/2 expression. The effects of PB treatment on hepatic aryl SULT (SULT1) and hydroxysteroid SULT (SULT2) mRNA and immunoreactive protein levels and on mRNA expression of individual SULT1 and SULT2 enzyme isoforms were characterized. PB suppressed SULT1A1 mRNA levels, increased the expression of the SULT-Dopa/tyrosine isoform, and did not produce significant changes in SULT1C1 and SULT1E2 mRNA expression. In rats injected with the highest test dose of PB (100 mg/kg), hepatic SULT1A1 mRNA levels were decreased to approximately 42% of control levels and SULT-Dopa/tyrosine mRNA levels were increased to approximately 417% of vehicle-treated control levels. Like the SULT1 subfamily, individual members of the SULT2 gene subfamily were differentially affected by PB treatment. PB (35, 80, and 100 mg/kg) suppressed SULT20/21 mRNA expression to approximately 61, approximately 30, and approximately 41% of vehicle-treated control levels, respectively. In contrast, SULT60 mRNA levels were increased to approximately 162% of control levels and SULT40/41 mRNA levels were increased to approximately 416% of vehicle-treated control levels in rats treated with 100 mg/kg PB. These studies support a complex role for PB-mediated effects on the SULT multigene family in rat liver. Because individual SULT1 and SULT2 enzyme isoforms are known to metabolize a variety of potentially toxic substrates, varied responses to PB among members of the SULT multigene family might have important implications for xenobiotic hepatotoxicity.
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