Phoenixbio - Academic Adviser Office , 3-4-1, Kagamiyama, Higashihiroshima, Hiroshima 739-0016 , Japan
Expert Opin Drug Metab Toxicol. 2013 Nov;9(11):1419-35. doi: 10.1517/17425255.2013.826649. Epub 2013 Aug 27.
The mouse is a common model used in evaluating drug metabolism and hepatitis infectivity. However, these models have limited value due to species difference in hepatic functions, leading to the creation of the chimeric mouse 12 years ago. These models were unique in that their hepatocytes had been replaced with human (hu) hepatocytes (dubbed the 'first-generation chimeric mouse'). Since then, the chimeric mouse has become a practical tool for this area of studies. However, some shortcomings have also been recognized. One major shortcoming is that the mouse cannot mimic hu-liver diseases due to immunodeficiency and also it is unable to provide sufficient amounts of blood for analysis compared to the rat. There are also issues around donor-to-donor variability of hu-hepatocytes such as variable engraftment efficiency.
This review provides the current status of the first-generation chimeric mouse. Furthermore, the authors review studies intended to create a 'second-generation of the chimeric mouse' in which inflammation/immune-response cells as well as hepatocytes are humanized. A brief comment is also made on studies aiming at producing chimeric rats. Finally, the authors consider induced pluripotent stem cells (iPS cells) as new sources of hu-hepatocytes.
The authors believe that the current rapid progress in the field of biotechnology should enable us to create a mouse model with a humanized liver that is made by iPS-derived hu-hepatocytes and hu-immune cells. This development will provide researchers with a model that will be able to effectively mimic human liver disease under experimental conditions.
小鼠是评估药物代谢和肝炎感染性的常用模型。然而,由于肝脏功能的物种差异,这些模型的价值有限,导致 12 年前创建了嵌合小鼠。这些模型的独特之处在于它们的肝细胞已被人源肝细胞(称为“第一代嵌合小鼠”)取代。从那时起,嵌合小鼠已成为该领域研究的实用工具。然而,也认识到了一些缺点。一个主要的缺点是,由于免疫缺陷,小鼠无法模拟人类肝脏疾病,并且与大鼠相比,它无法提供足够数量的血液进行分析。供体间人源肝细胞的嵌合效率也存在可变性等问题。
本篇综述介绍了第一代嵌合小鼠的现状。此外,作者还综述了旨在创建“第二代嵌合小鼠”的研究,其中炎症/免疫反应细胞和肝细胞都实现了人源化。作者还简要评论了旨在产生嵌合大鼠的研究。最后,作者考虑将诱导多能干细胞(iPS 细胞)作为人源肝细胞的新来源。
作者认为,目前生物技术领域的快速发展应该使我们能够创建一种由 iPS 衍生的人源肝细胞和人源免疫细胞制成的具有人源化肝脏的小鼠模型。这种发展将为研究人员提供一种能够在实验条件下有效模拟人类肝脏疾病的模型。
