Zhu Caihong, Li Bei, Yu Guohua, Chen Jianquan, Yu Huiqing, Chen Juan, Xu Xujun, Wu Youbing, Zhang Aimin, Cheng Guoxiang
School of Life Science and Technology, Tongji University, 1239 Si-Ping Road, Shanghai, 200092, China.
Transgenic Res. 2009 Apr;18(2):163-71. doi: 10.1007/s11248-008-9220-5. Epub 2008 Sep 24.
Homozygous mice devoid of functional Prnp are resistant to scrapie and prion propagation, but heterozygous mice for Prnp disruption still suffer from prion disease and prion deposition. We have previously generated heterozygous cloned goats with one allele of Prnp functional disruption. To obtain goats with both alleles of Prnp be disrupted which would be resistant to scrapie completely, a second-round gene targeting was applied to disrupt the wild type allele of Prnp in the heterozygous goats. By second-round gene targeting, we successfully disrupted the wild type allele of Prnp in primary Prnp (+/-) goat skin fibroblasts and obtained a Prnp (-/-) cell line without Prnp expression. This is the first report on successful targeting modification in primary adult somatic cells of animals. These cells were used as nuclear donors for somatic cell cloning to produce Prnp (-/-) goats. A total of 57 morulae or blastocytes developed from the reconstructed embryos were transferred to 31 recipients, which produced 7 pregnancies at day 35. At 73 days of gestation, we obtained one cloned fetus with Prnp (-/-) genotype. Our research not only indicated that multiple genetic modifications could be accomplished by multi-round gene targeting in primary somatic cells, but also provided strong evidence that gene targeting in adult cells other than fetal cells could be applied to introduce precise genetic modifications in animals without destroying the embryos.
缺乏功能性Prnp的纯合小鼠对瘙痒病和朊病毒传播具有抗性,但Prnp基因破坏的杂合小鼠仍会患朊病毒疾病并出现朊病毒沉积。我们之前已经培育出了具有一个Prnp功能破坏等位基因的杂合克隆山羊。为了获得两个Prnp等位基因均被破坏且对瘙痒病完全具有抗性的山羊,我们应用第二轮基因打靶来破坏杂合山羊中Prnp的野生型等位基因。通过第二轮基因打靶,我们成功破坏了原代Prnp(+/-)山羊皮肤成纤维细胞中Prnp的野生型等位基因,并获得了一个无Prnp表达的Prnp(-/-)细胞系。这是关于在动物原代成体细胞中成功进行靶向修饰的首次报道。这些细胞被用作体细胞核移植的核供体,以生产Prnp(-/-)山羊。从重构胚胎发育而来的总共57个桑椹胚或囊胚被移植到31只受体动物中,在第35天有7只受孕。在妊娠73天时,我们获得了一只具有Prnp(-/-)基因型的克隆胎儿。我们的研究不仅表明可以通过在原代体细胞中进行多轮基因打靶来实现多重基因修饰,还提供了有力证据,即除胎儿细胞外,在成体细胞中进行基因打靶可用于在不破坏胚胎的情况下在动物中引入精确的基因修饰。
