Sakuma Tsutomu, Bhadhprasit Wattanaporn, Hashita Tadahiro, Nemoto Nobuo
Department of Toxicology, Graduate School of Medicine and Pharmaceutical, Sciences, University of Toyama, 2630 Sugitani, Toyama 930-0194 Japan.
Drug Metab Dispos. 2008 May;36(5):878-84. doi: 10.1124/dmd.107.019935. Epub 2008 Feb 6.
CYP3A44 and CYP3A41 are female-specific CYP3A in the mouse liver. In primary cultured mouse hepatocytes, dexamethasone concentration-dependently induced CYP3A44 mRNA, and the highest response was seen at 10(-5) M. In contrast, CYP3A41 mRNA expression was highest at lower concentrations (10(-7) or 10(-6) M). At submicromolar concentration (10(-7) M), the induction of CYP3A44 mRNA was very slight, but strongly enhanced induction was observed by the simultaneous addition of growth hormone (GH). Similar enhancement was also observed in CYP3A41 mRNA expression. Continuous exposure to GH, which mimics female-type secretion from the pituitary gland, was effective to enhance the expression of both mRNAs, but discontinuous exposure (male-type) was not. This synergistic induction of CYP3A44 mRNA was further enhanced by the transfection of glucocorticoid receptor (GR) expression plasmid or by the cotransfection of pregnane X receptor (PXR) and retinoid X receptor (RXR) alpha expression plasmids. Similar synergistic induction was seen in CYP3A41 mRNA by the transfection of GR expression plasmid but was not enhanced by cotransfection of PXR and RXR expression plasmids. These observations suggest that functional cross-talk between signaling pathways of female-type GH secretion and glucocorticoid hormone might be involved in the female-predominant expression of both genes. Additionally, one or more nuclear receptors mediating induction by glucocorticoid hormone are employed for collaboration with GH.
CYP3A44和CYP3A41是小鼠肝脏中雌性特异性的CYP3A。在原代培养的小鼠肝细胞中,地塞米松浓度依赖性地诱导CYP3A44 mRNA表达,在10^(-5) M时观察到最高反应。相比之下,CYP3A41 mRNA表达在较低浓度(10^(-7)或10^(-6) M)时最高。在亚微摩尔浓度(10^(-7) M)下,CYP3A44 mRNA的诱导非常轻微,但同时添加生长激素(GH)可观察到诱导作用显著增强。在CYP3A41 mRNA表达中也观察到类似的增强。持续暴露于模拟垂体腺雌性型分泌的GH可有效增强两种mRNA的表达,但间断暴露(雄性型)则无效。转染糖皮质激素受体(GR)表达质粒或共转染孕烷X受体(PXR)和视黄酸X受体(RXR)α表达质粒可进一步增强CYP3A44 mRNA的这种协同诱导作用。转染GR表达质粒在CYP3A41 mRNA中也观察到类似的协同诱导作用,但共转染PXR和RXR表达质粒并未增强这种作用。这些观察结果表明,雌性型GH分泌和糖皮质激素信号通路之间的功能性相互作用可能参与了这两个基因的雌性优势表达。此外,一种或多种介导糖皮质激素诱导作用的核受体与GH协同发挥作用。
