Department of Human Molecular Genetics, Max Planck Institute for Molecular Genetics, Berlin, Germany.
Am J Med Genet A. 2013 Aug;161A(8):1915-22. doi: 10.1002/ajmg.a.36030. Epub 2013 Jul 4.
Succinic semialdehyde dehydrogenase (SSADH) deficiency is a disorder of the catabolism of the neurotransmitter gamma-aminobutyric acid (GABA) with a very variable clinical phenotype ranging from mild intellectual disability to severe neurological defects. We report here on a large Iranian family with four affected patients presenting with severe intellectual disability, developmental delay and generalized tonic-clonic seizures. Molecular genetic analysis revealed a missense mutation c.901A>G (p.K301E, RefSeq number NM_001080) in ALDH5A1 co-segregating with the disease in the family. The missense mutation affects an amino acid residue that is highly conserved across the animal kingdom. Protein modeling showed that p.K301E most likely leads to a loss of NAD(+) binding and a predicted decrease in the free energy by 6.67 kcal/mol furthermore suggests a severe destabilization of the protein. In line with these in silico observations, no SSADH enzyme activity could be detected in patient lymphoblasts.
琥珀酸半醛脱氢酶 (SSADH) 缺乏症是一种神经递质 γ-氨基丁酸 (GABA) 分解代谢的疾病,其临床表现非常多样化,从轻度智力残疾到严重的神经缺陷均有涉及。我们在此报告一个大型伊朗家系,其中有 4 名受影响的患者表现为严重的智力残疾、发育迟缓以及全身性强直阵挛性发作。分子遗传学分析显示,在该家系中,ALDH5A1 中的错义突变 c.901A>G(p.K301E,参考序列编号 NM_001080)与疾病共分离。该错义突变影响了一个在整个动物界高度保守的氨基酸残基。蛋白质建模表明,p.K301E 很可能导致 NAD(+) 结合的丧失,以及自由能的预测性下降 6.67 kcal/mol,进一步表明蛋白质的严重失稳。与这些计算机模拟观察结果一致,在患者的淋巴母细胞中无法检测到 SSADH 酶活性。
