Abstract
Many sex differences in liver gene expression originate in the brain, depend on GH secretion and may underlie sex disparities in hepatic disease. Because epigenetic mechanisms may contribute, we studied promoter methylation and microRNA abundance in the liver, associated with expression of sexual dimorphic genes in mice with selective disruption of the dopamine D2 receptor in neurons (neuroDrd2KO), which decreases hypothalamic Ghrh, pituitary GH, and serum IGFI and in neonatally androgenized female mice which have increased pituitary GH content and serum IGFI. We evaluated mRNA levels of the female predominant genes prolactin receptor (Prlr), alcohol dehydrogenase 1 (Adh1), Cyp2a4, and hepatocyte nuclear transcription factor 6 (Hnf6) and the male predominant gene, Cyp7b1. Female predominant genes had higher mRNA levels compared to males, but lower methylation was only detected in the Prlr and Cyp2a4 female promoters. In neuroDrd2KO mice, sexual dimorphism was lost for all genes; the upregulation (feminization) of Prlr and Cyp2a4 in males correlated with decreased methylation of their promoters, and the downregulation (masculinization) of Hnf-6 mRNA in females correlated inversely with its promoter methylation. Neonatal androgenization of females evoked a loss of sexual dimorphism only for the female predominant Hnf6 and Adh1 genes, but no differences in promoter methylation were found. Finally, mmu-miR-155-5p, predicted to target Cyp7b1 expression, was lower in males in association with higher Cyp7b1 mRNA levels compared to females and was not modified in neuroDrd2KO or TP mice. Our results suggest specific regulation of gene sexually dimorphic expression in the liver by methylation or miRNAs.
Highlights
Many sex differences in liver gene expression originate in the brain, depend on GH secretory patterns, and are imprinted by neonatal gonadal steroids (Jansson & Frohman 1987)
We showed that impaired GHRH-GH-IGF1 axis disrupts sexual dimorphism of many genes in mice (Ramirez et al 2015), and that high levels of prolactin modify liver prolactin receptor (Prlr) mRNA levels (Ramirez et al 2015)
In female neuroDrd2KO mice there was a significant downregulation of hepatocyte nuclear transcription factor 6 (Hnf6) mRNA expression levels compared to female Drd2loxP/loxP mice, and sexual dimorphism for this gene was lost (Fig. 1C)
Summary
Many sex differences in liver gene expression originate in the brain, depend on GH secretory patterns, and are imprinted by neonatal gonadal steroids (Jansson & Frohman 1987). There is an emerging interest in the epigenetic mechanisms contributing to the maintenance of permanent changes established during hormonally induced sexual differentiation of the brain (Nugent & McCarthy 2011, Lenz et al 2012), which program sexual dimorphism and metabolic function of the liver. The pituitary gland, mostly dictating GH secretory patterns is involved in this sexual dimorphism, while prolactin secretion, which regulates liver Prlr expression in females, may participate
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