High-Depth PRNP Sequencing in Brains With Sporadic Creutzfeldt-Jakob Disease.

IF 3 3区医学 Q2 CLINICAL NEUROLOGY

Neurology-Genetics Pub Date : 2023-01-19 eCollection Date: 2023-02-01 DOI:10.1212/NXG.0000000000200054

Alexander G Murley, Yu Nie, Zoe Golder, Michael John Keogh, Colin Smith, James W Ironside, Patrick F Chinnery

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Abstract

Background and objectives: Sporadic Creutzfeldt-Jakob disease (sCJD) has established genetic risk factors, but, in contrast to genetic and acquired CJD, the initial trigger for misfolded prion aggregation and spread is not known. In this study, we tested the hypotheses that pathologic somatic variants in the prion gene PRNP are increased in sCJD, potentially leading to the seeding of misfolded prion protein.

Methods: High-depth amplicon-based short read sequencing of the PRNP coding region was performed on postmortem brain tissue from patients with a clinical and neuropathologic diagnosis of sCJD (n = 142), Alzheimer disease (AD) (n = 51) and controls with no clinical or neuropathologic diagnosis of a neurodegenerative disease (n = 71). Each DNA sample was sequenced twice, including independent PCR amplification, library preparation, and sequencing. We used RePlow to call somatic variants with high sensitivity and specificity and optimal sequence kernel association test to compare variant burden between groups.

Results: Two sCJD cases had somatic (variant allele frequency 0.5-1%) PRNP variants not previously identified, but with high in silico predicated pathogenicity. However, the pathogenicity of these variants is uncertain, as both located in the octapeptide repeat region where no point variations have previously been associated with sCJD. There was no overall difference in burden somatic PRNP in sCJD compared with controls and a lower burden compared with Alzheimer disease.

Discussion: Somatic variants in PRNP are unlikely to play a major role in sCJD but may contribute to the disease mechanism in a minority of cases.

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散发性克雅氏病大脑的高深度PRNP测序

背景和目的:散发性克雅氏病(sCJD)已经确定了遗传危险因素，但是，与遗传性和获得性克雅氏病相比，错误折叠的朊病毒聚集和传播的初始触发因素尚不清楚。在这项研究中，我们验证了一种假设，即朊病毒基因PRNP的病理性体细胞变异在sCJD中增加，可能导致错误折叠的朊病毒蛋白的播种。方法:对临床和神经病理诊断为sCJD (n = 142)、阿尔茨海默病(AD) (n = 51)和未临床或神经病理诊断为神经退行性疾病的对照组(n = 71)的死后脑组织进行基于高深度扩增子的PRNP编码区短读测序。每个DNA样本测序两次，包括独立PCR扩增、文库制备和测序。采用RePlow高灵敏度、高特异性的体细胞变异检测和最优序列核关联试验比较各组间的变异负担。结果:2例sCJD病例有体细胞(变异等位基因频率0.5-1%)PRNP变异，以前未发现，但具有高硅预测致病性。然而，这些变异的致病性尚不确定，因为它们都位于八肽重复区，在此之前没有发现与sCJD相关的点变异。与对照组相比，sCJD的负担躯体PRNP没有总体差异，与阿尔茨海默病相比，负担较低。讨论:PRNP的体细胞变异不太可能在sCJD中起主要作用，但在少数病例中可能有助于疾病机制。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Neurology-Genetics Medicine-Neurology (clinical)

CiteScore

6.30

自引率

3.20%

发文量

107

审稿时长

15 weeks

期刊介绍： Neurology: Genetics is an online open access journal publishing peer-reviewed reports in the field of neurogenetics. Original articles in all areas of neurogenetics will be published including rare and common genetic variation, genotype-phenotype correlations, outlier phenotypes as a result of mutations in known disease-genes, and genetic variations with a putative link to diseases. This will include studies reporting on genetic disease risk and pharmacogenomics. In addition, Neurology: Genetics will publish results of gene-based clinical trials (viral, ASO, etc.). Genetically engineered model systems are not a primary focus of Neurology: Genetics, but studies using model systems for treatment trials are welcome, including well-powered studies reporting negative results.