Concept Life Sciences (formerly CXR Biosciences Ltd.), 2, James Lindsay Place, Dundee Technopole, Dundee, DD1 5JJ, United Kingdom.
Concept Life Sciences (formerly CXR Biosciences Ltd.), 2, James Lindsay Place, Dundee Technopole, Dundee, DD1 5JJ, United Kingdom.
Toxicology. 2018 Mar 1;396-397:23-32. doi: 10.1016/j.tox.2018.02.001. Epub 2018 Feb 6.
Phenobarbital (PB), a constitutive androstane receptor (CAR) activator, produces liver tumours in rodents by a mitogenic mode of action involving CAR activation. In this study, the hepatic effects of sodium phenobarbital (NaPB) were compared in male C57BL/6J wild type (WT) mice and in humanized mice, where both the mouse CAR and pregnane X receptor (PXR) have been replaced by their human counterparts (hCAR/hPXR mice). Investigations were also performed in cultured male C57BL/6J and CD-1 mouse, male Sprague-Dawley rat and male and female human hepatocytes. The treatment of WT and hCAR/hPXR mice with 186-984 ppm NaPB in the diet for 7 days resulted in increased relative liver weight, hypertrophy and induction of cytochrome P450 (CYP) enzyme activities. Treatment with NaPB also produced dose-dependent increases in hepatocyte replicative DNA synthesis (RDS), with the effect being more marked in WT than in hCAR/hPXR mice. While the treatment of cultured C57BL/6J and CD-1 mouse, Sprague-Dawley rat and human hepatocytes with 100 and/or 1000 μM NaPB for 4 days induced CYP enzyme activities, increased RDS was only observed in mouse and rat hepatocytes. However, as a positive control, epidermal growth factor increased RDS in hepatocytes from all three species. In summary, although human hepatocytes are refractory to the mitogenic effects of NaPB, treatment with NaPB induced RDS in vivo in hCAR/hPXR mice, which is presumably due to the human CAR and PXR receptors operating in a mouse hepatocyte regulatory environment. As the response of the hCAR/hPXR mouse to the CAR activator NaPB differs markedly from that of human hepatocytes, the hCAR/hPXR mouse is thus not a suitable animal model for studies on the hepatic effects of nongenotoxic rodent CAR activators.
苯巴比妥(PB)是一种组成型雄烷受体(CAR)激活剂,通过涉及 CAR 激活的有丝分裂作用模式在啮齿动物中产生肝肿瘤。在这项研究中,比较了雄性 C57BL/6J 野生型(WT)小鼠和人源化小鼠中苯巴比妥钠(NaPB)的肝效应,其中小鼠 CAR 和妊娠相关 X 受体(PXR)已被其人类对应物(hCAR/hPXR 小鼠)取代。还在培养的雄性 C57BL/6J 和 CD-1 小鼠、雄性 Sprague-Dawley 大鼠和雄性和雌性人肝细胞中进行了研究。用饮食中 186-984 ppm 的 NaPB 处理 WT 和 hCAR/hPXR 小鼠 7 天,导致相对肝重增加、肥大和细胞色素 P450(CYP)酶活性增加。NaPB 处理还导致肝细胞复制 DNA 合成(RDS)呈剂量依赖性增加,WT 小鼠的效果比 hCAR/hPXR 小鼠更为明显。虽然用 100 和/或 1000 μM NaPB 处理培养的 C57BL/6J 和 CD-1 小鼠、Sprague-Dawley 大鼠和人肝细胞 4 天可诱导 CYP 酶活性,但仅在小鼠和大鼠肝细胞中观察到 RDS 增加。然而,作为阳性对照,表皮生长因子增加了来自所有三种物种的肝细胞的 RDS。总之,尽管人肝细胞对 NaPB 的有丝分裂作用有抗性,但 NaPB 处理在 hCAR/hPXR 小鼠体内诱导了 RDS,这可能是由于人 CAR 和 PXR 受体在小鼠肝细胞调节环境中起作用。由于 hCAR/hPXR 小鼠对 CAR 激活剂 NaPB 的反应与人类肝细胞明显不同,因此 hCAR/hPXR 小鼠不是研究非遗传毒性啮齿动物 CAR 激活剂对肝脏影响的合适动物模型。
