Instituto de Biomedicina de Valencia, IBV-CSIC, Valencia, Spain.
Hum Mutat. 2013 Aug;34(8):1149-59. doi: 10.1002/humu.22349. Epub 2013 May 28.
The urea cycle disease carbamoyl-phosphate synthetase deficiency (CPS1D) has been associated with many mutations in the CPS1 gene [Häberle et al., 2011. Hum Mutat 32:579-589]. The disease-causing potential of most of these mutations is unclear. To test the mutations effects, we have developed a system for recombinant expression, mutagenesis, and purification of human carbamoyl-phosphate synthetase 1 (CPS1), a very large, complex, and fastidious enzyme. The kinetic and molecular properties of recombinant CPS1 are essentially the same as for natural human CPS1. Glycerol partially replaces the essential activator N-acetyl-l-glutamate (NAG), opening possibilities for treating CPS1D due to NAG site defects. The value of our expression system for elucidating the effects of mutations is demonstrated with eight clinical CPS1 mutations. Five of these mutations decreased enzyme stability, two mutations drastically hampered catalysis, and one vastly impaired NAG activation. In contrast, the polymorphisms p.Thr344Ala and p.Gly1376Ser had no detectable effects. Site-limited proteolysis proved the correctness of the working model for the human CPS1 domain architecture generally used for rationalizing the mutations effects. NAG and its analogue and orphan drug N-carbamoyl-l-glutamate, protected human CPS1 against proteolytic and thermal inactivation in the presence of MgATP, raising hopes of treating CPS1D by chemical chaperoning with N-carbamoyl-l-glutamate.
尿素循环疾病氨甲酰磷酸合成酶缺陷症(CPS1D)与 CPS1 基因中的许多突变有关[Häberle 等人,2011 年。人突变 32:579-589]。这些突变中的大多数的致病潜力尚不清楚。为了测试突变的影响,我们开发了一种用于重组表达、突变和纯化人氨甲酰磷酸合成酶 1(CPS1)的系统,CPS1 是一种非常大、复杂且挑剔的酶。重组 CPS1 的动力学和分子特性与天然人类 CPS1 基本相同。甘油部分取代必需的激活剂 N-乙酰-l-谷氨酸(NAG),为治疗由于 NAG 位点缺陷导致的 CPS1D 开辟了可能性。我们的表达系统用于阐明突变影响的价值,通过八种临床 CPS1 突变得到了证明。其中 5 种突变降低了酶的稳定性,2 种突变严重阻碍了催化作用,1 种突变极大地损害了 NAG 的激活。相比之下,多态性 p.Thr344Ala 和 p.Gly1376Ser 没有检测到明显的影响。有限的蛋白水解证明了用于合理化突变影响的人类 CPS1 结构域架构的工作模型是正确的。NAG 及其类似物和孤儿药物 N-氨甲酰-l-谷氨酸在 MgATP 存在下保护人 CPS1 免受蛋白水解和热失活,通过用 N-氨甲酰-l-谷氨酸进行化学伴侣治疗治疗 CPS1D 的希望。
