KARS1 中的双等位基因突变与神经发育障碍和听力损失有关，这一表型可被敲除斑马鱼重现。

Biallelic variants in KARS1 are associated with neurodevelopmental disorders and hearing loss recapitulated by the knockout zebrafish.

机构信息

Genes & Human Disease Research Program, Oklahoma Medical Research Foundation, Oklahoma City, OK, USA.

Department of Otolaryngology-Head & Neck Surgery, Tübingen Hearing Research Centre, Eberhard Karls University of Tübingen, Tübingen, Germany.

出版信息

Genet Med. 2021 Oct;23(10):1933-1943. doi: 10.1038/s41436-021-01239-1. Epub 2021 Jun 25.

DOI:10.1038/s41436-021-01239-1

PMID:34172899

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC8956360/

Abstract

PURPOSE

Pathogenic variants in Lysyl-tRNA synthetase 1 (KARS1) have increasingly been recognized as a cause of early-onset complex neurological phenotypes. To advance the timely diagnosis of KARS1-related disorders, we sought to delineate its phenotype and generate a disease model to understand its function in vivo.

METHODS

Through international collaboration, we identified 22 affected individuals from 16 unrelated families harboring biallelic likely pathogenic or pathogenic in KARS1 variants. Sequencing approaches ranged from disease-specific panels to genome sequencing. We generated loss-of-function alleles in zebrafish.

RESULTS

We identify ten new and four known biallelic missense variants in KARS1 presenting with a moderate-to-severe developmental delay, progressive neurological and neurosensory abnormalities, and variable white matter involvement. We describe novel KARS1-associated signs such as autism, hyperactive behavior, pontine hypoplasia, and cerebellar atrophy with prevalent vermian involvement. Loss of kars1 leads to upregulation of p53, tissue-specific apoptosis, and downregulation of neurodevelopmental related genes, recapitulating key tissue-specific disease phenotypes of patients. Inhibition of p53 rescued several defects of kars1 knockouts.

CONCLUSION

Our work delineates the clinical spectrum associated with KARS1 defects and provides a novel animal model for KARS1-related human diseases revealing p53 signaling components as potential therapeutic targets.

摘要

目的

赖氨酸 tRNA 合成酶 1（KARS1）中的致病性变异体越来越多地被认为是导致早发性复杂神经表型的原因。为了及时诊断 KARS1 相关疾病，我们试图描绘其表型并生成疾病模型以了解其在体内的功能。

方法

通过国际合作，我们从 16 个无关家庭中确定了 22 名个体，这些个体携带有双等位基因的可能致病性或致病性 KARS1 变体。测序方法从疾病特异性面板到全基因组测序不等。我们在斑马鱼中生成了功能丧失等位基因。

结果

我们在 KARS1 中发现了十个新的和四个已知的双等位基因错义变体，这些变体表现为中度至重度发育迟缓、进行性神经和神经感觉异常以及可变的白质受累。我们描述了新的 KARS1 相关症状，如自闭症、多动行为、脑桥发育不良和小脑萎缩，伴有普遍的蚓部受累。kars1 的缺失导致 p53 的上调、组织特异性细胞凋亡和神经发育相关基因的下调，再现了患者的关键组织特异性疾病表型。p53 的抑制挽救了 kars1 敲除的几个缺陷。

结论

我们的工作描绘了与 KARS1 缺陷相关的临床谱，并提供了一种新的 KARS1 相关人类疾病的动物模型，揭示了 p53 信号传导成分作为潜在的治疗靶点。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/afb1/8956360/95f5fa87a852/nihms-1734679-f0001.jpg

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KARS1 中的双等位基因突变与神经发育障碍和听力损失有关，这一表型可被敲除斑马鱼重现。

Biallelic variants in KARS1 are associated with neurodevelopmental disorders and hearing loss recapitulated by the knockout zebrafish.

机构信息

出版信息

PURPOSE

METHODS

RESULTS

CONCLUSION

目的

方法

结果

结论

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