分子建模预测的常染色体显性遗传性视神经萎缩和听觉神经病谱系障碍患者中新型OPA1突变的分子损伤机制
Molecular Impairment Mechanisms of Novel OPA1 Mutations Predicted by Molecular Modeling in Patients With Autosomal Dominant Optic Atrophy and Auditory Neuropathy Spectrum Disorder.
作者信息
Namba Kazunori, Mutai Hideki, Takiguchi Yoichiro, Yagi Hirotaka, Okuyama Takahide, Oba Shuntaro, Yamagishi Ryosuke, Kaneko Hiroki, Shintani Tomoko, Kaga Kimitaka, Matsunaga Tatsuo
机构信息
*Laboratory of Auditory Disorders, National Institute of Sensory Organs, National Tokyo Medical Center †Department of Otolaryngology, Eiju General Hospital ‡1st Government and Public Solutions Division, NEC Solution Innovators, Ltd §Graduate School of Integrated Basic Sciences, Nihon University ||Department of Integrated Science in Physics and Biology, College of Humanities and Science, Nihon University, Tokyo ¶Department of Otolaryngology, Sapporo Medical University School of Medicine, Sapporo #National Institute of Sensory Organs, National Tokyo Medical Center, Tokyo, Japan.
出版信息
Otol Neurotol. 2016 Apr;37(4):394-402. doi: 10.1097/MAO.0000000000000978.
HYPOTHESIS
Different missense mutations of the optic atrophy 1 gene (OPA1) identified in optic atrophy patients with auditory neuropathy spectrum disorder (ANSD) induce functional impairment through different molecular mechanisms.
BACKGROUND
OPA1 is the gene responsible for autosomal dominant optic atrophy (ADOA), but some of its mutations are also associated with ANSD. OPA1 is a member of the GTPase family of proteins and plays a key role in the maintenance of mitochondrial activities that are dependent on dimer formation of the protein. There are many reports of OPA1 mutations, but the molecular mechanisms of their functional impairments are unclear.
METHODS
The sequences of coding regions in OPA1 were analyzed from blood samples of ADOA patients with ANSD. Molecular modeling of the protein's ability to form dimers and its GTP-binding ability were conducted to study the effects of structural changes in OPA1 caused by two identified mutations and their resultant effects on protein function.
RESULTS
Two heterozygous mutations, p.T414P (c.1240A>C) and p.T540P (c.1618A>C), located in the GTPase and middle domains of OPA1, respectively, were identified in two patients. Molecular modeling indicated decreased dimer formation caused by destabilization of the association structure of the p.T414P mutant, and decreased GTP-binding caused by destabilization of the binding site structure in the p.T540P mutant.
CONCLUSION
These two different conformational changes might result in decreased GTPase activities that trigger ADOA associated with ANSD, and are likely to be associated with mild clinical features. Molecular modeling would provide useful information in clinical practice.
假说
在患有听觉神经病谱系障碍(ANSD)的视神经萎缩患者中鉴定出的视神经萎缩1基因(OPA1)的不同错义突变通过不同的分子机制导致功能障碍。
背景
OPA1是导致常染色体显性遗传性视神经萎缩(ADOA)的基因,但其一些突变也与ANSD相关。OPA1是GTPase蛋白家族的成员,在维持依赖于该蛋白二聚体形成的线粒体活动中起关键作用。有许多关于OPA1突变的报道,但其功能障碍的分子机制尚不清楚。
方法
从患有ANSD的ADOA患者的血液样本中分析OPA1编码区的序列。对该蛋白形成二聚体的能力及其GTP结合能力进行分子建模,以研究由两个已鉴定的突变引起的OPA1结构变化的影响及其对蛋白质功能的最终影响。
结果
在两名患者中分别鉴定出两个杂合突变,分别位于OPA1的GTPase和中间结构域,即p.T414P(c.1240A>C)和p.T540P(c.1618A>C)。分子建模表明,p.T414P突变体的缔合结构不稳定导致二聚体形成减少,而p.T540P突变体的结合位点结构不稳定导致GTP结合减少。
结论
这两种不同的构象变化可能导致GTPase活性降低,从而引发与ANSD相关的ADOA,并且可能与轻度临床特征有关。分子建模将为临床实践提供有用的信息。
Zotero 插件