人类FARS2致病突变诱导的HsmtPheRS中的动力学和结构变化

Kinetic and structural changes in HsmtPheRS, induced by pathogenic mutations in human FARS2.

作者信息

Kartvelishvili Ekaterine, Tworowski Dmitry, Vernon Hilary, Moor Nina, Wang Jing, Wong Lee-Jun, Chrzanowska-Lightowlers Zofia, Safro Mark

机构信息

Department of Structural Biology, Weizmann Institute of Science, Israel.

McKusick-Nathans Institute of Genetic Medicine, Johns Hopkins School of Medicine, Baltimore.

出版信息

Protein Sci. 2017 Aug;26(8):1505-1516. doi: 10.1002/pro.3176. Epub 2017 May 3.

DOI:10.1002/pro.3176

PMID:28419689

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5521548/

Abstract

Mutations in the mitochondrial aminoacyl-tRNA synthetases (mtaaRSs) can cause profound clinical presentations, and have manifested as diseases with very selective tissue specificity. To date most of the mtaaRS mutations could be phenotypically recognized, such that clinicians could identify the affected mtaaRS from the symptoms alone. Among the recently reported pathogenic variants are point mutations in FARS2 gene, encoding the human mitochondrial PheRS. Patient symptoms range from spastic paraplegia to fatal infantile Alpers encephalopathy. How clinical manifestations of these mutations relate to the changes in three-dimensional structures and kinetic characteristics remains unclear, although impaired aminoacylation has been proposed as possible etiology of diseases. Here, we report four crystal structures of HsmtPheRS mutants, and extensive MD simulations for wild-type and nine mutants to reveal the structural changes on dynamic trajectories of HsmtPheRS. Using steady-state kinetic measurements of phenylalanine activation and tRNA aminoacylation, we gained insight into the structural and kinetic effects of mitochondrial disease-related mutations in FARS2 gene.

摘要

线粒体氨酰 - tRNA合成酶（mtaaRSs）的突变可导致严重的临床表现，并已表现为具有非常选择性组织特异性的疾病。迄今为止，大多数mtaaRS突变在表型上是可以识别的，因此临床医生仅通过症状就能识别出受影响的mtaaRS。最近报道的致病变异包括编码人类线粒体苯丙氨酰 - tRNA合成酶（PheRS）的FARS2基因中的点突变。患者症状从痉挛性截瘫到致命的婴儿型阿尔珀斯脑病不等。尽管氨基酰化受损被认为是可能的疾病病因，但这些突变的临床表现与三维结构和动力学特征的变化之间的关系仍不清楚。在这里，我们报告了HsmtPheRS突变体的四个晶体结构，并对野生型和九个突变体进行了广泛的分子动力学（MD）模拟，以揭示HsmtPheRS动态轨迹上的结构变化。通过对苯丙氨酸活化和tRNA氨基酰化的稳态动力学测量，我们深入了解了FARS2基因中线粒体疾病相关突变的结构和动力学效应。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/360e/5521548/85631dd6eab2/PRO-26-1505-g001.jpg

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人类FARS2致病突变诱导的HsmtPheRS中的动力学和结构变化

Kinetic and structural changes in HsmtPheRS, induced by pathogenic mutations in human FARS2.

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