Sun Chong, Song Jie, Jiang Yanjun, Zhao Chongbo, Lu Jiahong, Li Yuxin, Wang Yin, Gao Mingshi, Xi Jianying, Luo Sushan, Li Meixia, Donaldson Kevin, Oprescu Stephanie N, Slavin Thomas P, Lee Sansan, Magoulas Pilar L, Lewis Andrea M, Emrick Lisa, Lalani Seema R, Niu Zhiyv, Landsverk Megan L, Walkiewicz Magdalena, Person Richard E, Mei Hui, Rosenfeld Jill A, Yang Yaping, Antonellis Anthony, Hou Ya-Ming, Lin Jie, Zhang Victor W
Department of Neurology (C.S., J.S., C.Z., J. Lu, J.X., S. Luo, J. Lin), Huashan Hospital, Fudan University, Shanghai, China; Baylor Genetic Laboratories (Y.J., Z.N., M.L.L., M.W., R.E.P., H.M., Y.Y.), Houston, TX; Department of Radiology (Y.L.), Huashan Hospital, Fudan University; Department of Pathology (Y.W., M.G.), Huashan Hospital, Fudan University, Shanghai, China; Department of Biochemistry and Molecular Pharmacology (M.L., K.D., Y.-M.H.), Thomas Jefferson University, Philadelphia, PA; Department of Human Genetics (S.N.O., A.A.), University of Michigan Medical School, Ann Arbor, MI; Department of Pediatrics and Department of Obstetrics and Gynecology (S.L.), University of Hawaii School of Medicine, Honolulu, HI; Department of Medical Oncology and Therapeutics Research (T.P.S.), Division of Clinical Cancer Genetics, City of Hope National Medical Center, Duarte, CA; Department of Molecular and Human Genetics (P.L.M., A.L.M., L.E., S.R.L., Z.N., M.L.L., J.A.R., M.W., R.E.P., H.M., J.A.R., Y.Y., V.W.Z.), Baylor College of Medicine, Houston, TX; and AmCare Genomics Lab (V.W.Z.), Guangzhou, China.
Neurol Genet. 2019 Apr 18;5(2):e565. doi: 10.1212/NXG.0000000000000316. eCollection 2019 Apr.
To expand the clinical spectrum of lysyl-tRNA synthetase () gene-related diseases, which so far includes Charcot-Marie-Tooth disease, congenital visual impairment and microcephaly, and nonsyndromic hearing impairment.
Whole-exome sequencing was performed on index patients from 4 unrelated families with leukoencephalopathy. Candidate pathogenic variants and their cosegregation were confirmed by Sanger sequencing. Effects of mutations on KARS protein function were examined by aminoacylation assays and yeast complementation assays.
Common clinical features of the patients in this study included impaired cognitive ability, seizure, hypotonia, ataxia, and abnormal brain imaging, suggesting that the CNS involvement is the main clinical presentation. Six previously unreported and 1 known mutations were identified and cosegregated in these families. Two patients are compound heterozygous for missense mutations, 1 patient is homozygous for a missense mutation, and 1 patient harbored an insertion mutation and a missense mutation. Functional and structural analyses revealed that these mutations impair aminoacylation activity of lysyl-tRNA synthetase, indicating that defective KARS function is responsible for the phenotypes in these individuals.
Our results demonstrate that patients with loss-of-function mutations can manifest CNS disorders, thus broadening the phenotypic spectrum associated with KARS-related disease.
扩大赖氨酰 - tRNA合成酶(KARS)基因相关疾病的临床谱,该疾病谱目前包括夏科 - 马里 - 图斯病、先天性视力障碍和小头畸形以及非综合征性听力障碍。
对来自4个无关的白质脑病家庭的先证者进行全外显子测序。通过桑格测序确认候选致病变异及其共分离情况。通过氨酰化测定和酵母互补测定检查突变对KARS蛋白功能的影响。
本研究中患者的常见临床特征包括认知能力受损、癫痫发作、肌张力减退、共济失调和脑成像异常,提示中枢神经系统受累是主要临床表现。在这些家庭中鉴定并共分离出6个先前未报道的和1个已知的突变。2例患者为错义突变的复合杂合子,1例患者为错义突变纯合子,1例患者携带插入突变和错义突变。功能和结构分析表明,这些突变损害了赖氨酰 - tRNA合成酶的氨酰化活性,表明KARS功能缺陷是这些个体表型的原因。
我们的结果表明,功能丧失性KARS突变患者可表现出中枢神经系统疾病,从而拓宽了与KARS相关疾病相关的表型谱。
Zotero 插件
