Dorin J R, Dickinson P, Alton E W, Smith S N, Geddes D M, Stevenson B J, Kimber W L, Fleming S, Clarke A R, Hooper M L
MRC Human Genetics Unit, Western General Hospital, Edinburgh, UK.
Nature. 1992 Sep 17;359(6392):211-5. doi: 10.1038/359211a0.
Cystic fibrosis is a fatal genetic disorder which afflicts 50,000 people worldwide. A viable animal model would be invaluable for investigating and combating this disease. The mouse cystic fibrosis transmembrane conductance regulator gene was disrupted in embryonal stem cells using an insertional gene targeting vector. Germ-line chimaeras were derived and the offspring of heterozygous crosses studied. These homozygous mutant mice survive beyond weaning. In vivo electrophysiology demonstrates the predicted defect in chloride ion transport in these mice and can distinguish between each genotype. Histological analysis detects important hallmarks of human disease pathology, including abnormalities of the colon, lung and vas deferens. This insertional mouse mutation provides a valid model system for the development and testing of therapies for cystic fibrosis patients.
囊性纤维化是一种致命的遗传性疾病,全球有5万人受其折磨。一个可行的动物模型对于研究和对抗这种疾病将非常宝贵。使用插入基因靶向载体在胚胎干细胞中破坏了小鼠囊性纤维化跨膜传导调节基因。获得了种系嵌合体,并对杂合子杂交的后代进行了研究。这些纯合突变小鼠能存活到断奶后。体内电生理学证明了这些小鼠氯离子转运存在预期的缺陷,并且可以区分每种基因型。组织学分析检测到人类疾病病理学的重要特征,包括结肠、肺和输精管的异常。这种插入性小鼠突变提供了一个有效的模型系统,用于开发和测试针对囊性纤维化患者的治疗方法。
