Opposite effects of glucocorticoid on hepatic 11 β-hydroxysteroid dehydrogenase mRNA and activity in fetal and adult sheep

in Journal of Endocrinology
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K Yang
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E T M Berdusco
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J R G Challis
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Abstract

The level of 11 β-hydroxysteroid dehydrogenase (11β-HSD) mRNA in the fetal sheep liver increases dramatically between day 130 and term (term=day 145), but the causal factors remain unknown. The present study was designed to determine the effects of exogenous glucocorticoid on the fetal hepatic 11 β-HSD gene expression. Dexamethasone (dex; 2 μg/min over 15 min every 2 h) or saline was infused into chronically-catheterized fetal sheep at day 130 of gestation for 4 days. At the end of infusion, the lower right lobe of the liver was collected, total cellular RNA extracted and subjected to Northern blot analysis. It was found that the level of the hepatic 11 β-HSD mRNA in dex-treated fetuses was about four times higher than that in the saline-treated controls. To examine whether changes occur in the response of hepatic 11 β-HSD gene expression to glucocorticoids in adulthood, we also treated non-pregnant ewes with dex (10 mg/day) for 4 days. By contrast, this treatment regime in adult sheep produced a small but significant decrease in hepatic 11 β-HSD mRNA levels.

We also determined whether age-specific changes in the hepatic level of 11 β-HSD mRNA following dex treatment were reflected in the level of 11 β-HSD enzyme activity. Hepatic 11 β-HSD activity was determined by a standard in vitro conversion assay using cortisol and cortisone as physiological substrates. In both fetal and adult livers, 11-oxoreductase activity (cortisone→cortisol) was predominant. Following dex treatment, there was a significant increase in the fetal hepatic level of both 11β-dehydrogenase (cortisol→cortisone) and 11-oxoreductase activities. Furthermore, the C-11 activation index, an indicator of glucocorticoid net gain, was also increased in the fetal liver by dex. In marked contrast, dex treatment in the adult did not alter the C-11 activation index though it produced a significant decrease in the hepatic level of both 11 β-dehydrogenase and reductase activities. In summary, these results indicate that (1) exogenous glucocorticoid exerts opposite effects on hepatic 11 β-HSD gene expression in fetal and adult sheep; (2) dex-induced age-specific changes in the level of 11β-HSD mRNA are carried though to the level of 11β-HSD protein; and (3) since 11 β-HSD reductase activity is predominant in both fetal and adult sheep livers, the liver may be a potential extra-adrenal source of cortisol. Furthermore, we speculate that (1) the dramatic increase in the fetal hepatic 11 β-HSD mRNA level at term may be due to the elevated fetal plasma concentration of glucocorticoid; and (2) glucocorticoid-induced increases in the fetal hepatic 11β-HSD gene expression and the resultant increase in the C-11 activation index during the last days of fetal life may play a crucial role in fetal organ maturation and in the endocrine mechanisms leading to parturition.

Journal of Endocrinology (1994) 143, 121–126

 

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