Wangensteen Kirk J, Wilber Andrew, Keng Vincent W, He Zhiying, Matise Ilze, Wangensteen Laura, Carson Corey M, Chen Yixin, Steer Clifford J, McIvor R Scott, Largaespada David A, Wang Xin, Ekker Stephen C
The Arnold and Mabel Beckman Center for Transposon Research, Department of Genetics, Cell Biology and Development, University of Minnesota, Minneapolis, MN, USA.
Hepatology. 2008 May;47(5):1714-24. doi: 10.1002/hep.22195.
Current techniques for the alteration of gene expression in the liver have a number of limitations, including the lack of stable somatic gene transfer and the technical challenges of germline transgenesis. Rapid and stable genetic engineering of the liver would allow systematic, in vivo testing of contributions by many genes to disease. After fumaryl acetoacetate hydrolase (Fah) gene transfer to hepatocytes, selective repopulation of the liver occurs in FAH-deficient mice. This genetic correction is readily mediated with transposons. Using this approach, we show that genes with biological utility can be linked to a selectable Fah transposon cassette. First, net conversion of Fah(-/-) liver tissue to transgenic tissue, and its outgrowth, was monitored by bioluminescence in vivo from a luciferase gene linked to the FAH gene. Second, coexpressed short hairpin RNAs (shRNAs) stably reduced target gene expression, indicating the potential for loss-of-function assays. Third, a mutant allele of human alpha1-antitrypsin (hAAT) was linked to Fah and resulted in protein inclusions within hepatocytes, which are the histopathological hallmark of hAAT deficiency disorder. Finally, oncogenes linked to Fah resulted in transformation of transduced hepatocytes.
Coexpression with FAH is an effective technique for lifelong expression of transgenes in adult hepatocytes with applicability to a wide variety of genetic studies in the liver.
目前用于改变肝脏基因表达的技术存在许多局限性,包括缺乏稳定的体细胞基因转移以及种系转基因的技术挑战。肝脏的快速稳定基因工程将允许对许多基因在疾病中的作用进行系统的体内测试。在将富马酰乙酰乙酸水解酶(Fah)基因转移到肝细胞后,FAH缺陷小鼠的肝脏会发生选择性再填充。这种基因校正很容易通过转座子介导。使用这种方法,我们表明具有生物学效用的基因可以与可选择的Fah转座子盒相连。首先,通过与FAH基因相连的荧光素酶基因在体内进行生物发光监测,观察Fah(-/-)肝脏组织向转基因组织的净转化及其生长情况。其次,共表达的短发夹RNA(shRNA)稳定地降低了靶基因的表达,表明了功能丧失分析的潜力。第三,人α1-抗胰蛋白酶(hAAT)的突变等位基因与Fah相连,并在肝细胞内导致蛋白质包涵体形成,这是hAAT缺乏症的组织病理学特征。最后,与Fah相连的癌基因导致转导的肝细胞发生转化。
与FAH共表达是一种在成年肝细胞中实现转基因终身表达的有效技术,适用于肝脏中广泛的各种基因研究。