分析 Sco2 基因突变导致的细胞色素 c 氧化酶缺乏症的小鼠模型。
Analysis of mouse models of cytochrome c oxidase deficiency owing to mutations in Sco2.
机构信息
Department of Neurology, Columbia University Medical Center, Berrie-303A, New York, NY 10032, USA.
出版信息
Hum Mol Genet. 2010 Jan 1;19(1):170-80. doi: 10.1093/hmg/ddp477.
Abstract
Mutations in SCO2, a protein required for the proper assembly and functioning of cytochrome c oxidase (COX; complex IV of the mitochondrial respiratory chain), cause a fatal infantile cardioencephalomyopathy with COX deficiency. We have generated mice harboring a Sco2 knock-out (KO) allele and a Sco2 knock-in (KI) allele expressing an E-->K mutation at position 129 (E129K), corresponding to the E140K mutation found in almost all human SCO2-mutated patients. Whereas homozygous KO mice were embryonic lethals, homozygous KI and compound heterozygous KI/KO mice were viable, but had muscle weakness; biochemically, they had respiratory chain deficiencies as well as complex IV assembly defects in multiple tissues. There was a concomitant reduction in mitochondrial copper content, but the total amount of copper in examined tissues was not reduced. These mouse models should be of use in further studies of Sco2 function, as well as in testing therapeutic approaches to treat the human disorder.
摘要
SCO2 基因突变会导致细胞色素 c 氧化酶(COX;线粒体呼吸链复合物 IV)组装和功能异常,从而引起致命的婴儿期心脑肌病伴 COX 缺乏症。我们已经生成了携带 Sco2 敲除(KO)等位基因和 Sco2 敲入(KI)等位基因的小鼠,该等位基因在 129 位(E129K)表达 E-->K 突变,对应于几乎所有人类 SCO2 突变患者中发现的 E140K 突变。虽然纯合 KO 小鼠是胚胎致死的,但纯合 KI 和复合杂合 KI/KO 小鼠是存活的,但存在肌肉无力;从生化角度来看,它们在多个组织中均存在呼吸链缺陷和复合物 IV 组装缺陷。同时,线粒体铜含量降低,但检查组织中的铜总量并未减少。这些小鼠模型应该有助于进一步研究 Sco2 功能,以及测试治疗人类疾病的治疗方法。
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