Schofield J P, Cox T M, Caskey C T, Wakamiya M
University of Cambridge Department of Medicine, Addenbrooke's Hospital, Hills Road, Cambridge,
Hepatology. 1999 Jan;29(1):181-5. doi: 10.1002/hep.510290112.
Ammonia liberated during amino acid catabolism in mammals is highly neurotoxic and is detoxified by the five enzymes of the urea cycle that are expressed within the liver. Inborn errors of each of the urea cycle enzymes occur in humans. Carbamoyl phosphate synthetase I (CPSase I; EC 6.3.4.16) is located within the inner mitochondrial matrix and catalyzes the initial rate-limiting step of the urea cycle. Unless treated, complete deficiency of CPSase I, a rare autosomal recessive disease, causes death in newborn infants. Survivors are often mentally retarded and suffer frequent hyperammonemic crises during intercurrent illness or other catabolic stresses. Biochemically, CPSase I deficiency is characterized by high levels of blood ammonia, glutamine, and alanine, with low or absent citrulline and arginine levels. As a first step toward the development of gene therapy directed to the hepatocyte, we have generated a CPSase I-deficient mouse by gene targeting. Mice with homozygous disruption of CPSase I (CPSase [-/-] mice) die within 36 hours of birth with overwhelming hyperammonemia, and without significant liver pathology. This animal is a good model of human CPSase I deficiency.
哺乳动物氨基酸分解代谢过程中释放的氨具有高度神经毒性,可通过肝脏中表达的尿素循环的五种酶进行解毒。人类会发生尿素循环中每种酶的先天性缺陷。氨甲酰磷酸合成酶I(CPSase I;EC 6.3.4.16)位于线粒体内基质中,催化尿素循环的初始限速步骤。除非接受治疗,CPSase I完全缺乏症(一种罕见的常染色体隐性疾病)会导致新生儿死亡。幸存者往往智力发育迟缓,在并发疾病或其他分解代谢应激期间频繁发生高氨血症危机。从生化角度来看,CPSase I缺乏症的特征是血氨、谷氨酰胺和丙氨酸水平升高,瓜氨酸和精氨酸水平降低或缺乏。作为针对肝细胞的基因治疗发展的第一步,我们通过基因靶向产生了一只CPSase I缺陷小鼠。CPSase I纯合缺失的小鼠(CPSase [-/-]小鼠)在出生后36小时内死于严重的高氨血症,且没有明显的肝脏病理变化。这种动物是人类CPSase I缺乏症的良好模型。
