Analysis of Structural Variants Previously Associated With ALS in Europeans Highlights Genomic Architectural Differences in Africans.

IF 3 3区医学 Q2 CLINICAL NEUROLOGY

Neurology-Genetics Pub Date : 2023-08-01 DOI:10.1212/NXG.0000000000200077

Nomakhosazana R Monnakgotla, Amokelani C Mahungu, Jeannine M Heckmann, Gerrit Botha, Nicola J Mulder, Gang Wu, Evadnie Rampersaud, Jason Myers, Marka Van Blitterswijk, Rosa Rademakers, J Paul Taylor, Joanne Wuu, Michael Benatar, Melissa Nel

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Abstract

Background and objectives: Amyotrophic lateral sclerosis (ALS) is a degenerative condition of the brain and spinal cord in which protein-coding variants in known ALS disease genes explain a minority of sporadic cases. There is a growing interest in the role of noncoding structural variants (SVs) as ALS risk variants or genetic modifiers of ALS phenotype. In small European samples, specific short SV alleles in noncoding regulatory regions of SCAF4, SQSTM1, and STMN2 have been reported to be associated with ALS, and several groups have investigated the possible role of SMN1/SMN2 gene copy numbers in ALS susceptibility and clinical severity.

Methods: Using short-read whole genome sequencing (WGS) data, we investigated putative ALS-susceptibility SCAF4 (3'UTR poly-T repeat), SQSTM1 (intron 5 AAAC insertion), and STMN2 (intron 3 CA repeat) alleles in African ancestry patients with ALS and described the architecture of the SMN1/SMN2 gene region. South African cases with ALS (n = 114) were compared with ancestry-matched controls (n = 150), 1000 Genomes Project samples (n = 2,336), and H3Africa Genotyping Chip Project samples (n = 347).

Results: There was no association with previously reported SCAF4 poly-T repeat, SQSTM1 AAAC insertion, and long STMN2 CA alleles with ALS risk in South Africans (p > 0.2). Similarly, SMN1 and SMN2 gene copy numbers did not differ between South Africans with ALS and matched population controls (p > 0.9). Notably, 20% of the African samples in this study had no SMN2 gene copies, which is a higher frequency than that reported in Europeans (approximately 7%).

Discussion: We did not replicate the reported association of SCAF4, SQSTM1, and STMN2 short SVs with ALS in a small South African sample. In addition, we found no link between SMN1 and SMN2 copy numbers and susceptibility to ALS in this South African sample, which is similar to the conclusion of a recent meta-analysis of European studies. However, the SMN gene region findings in Africans replicate previous results from East and West Africa and highlight the importance of including diverse population groups in disease gene discovery efforts. The clinically relevant differences in the SMN gene architecture between African and non-African populations may affect the effectiveness of targeted SMN2 gene therapy for related diseases such as spinal muscular atrophy.

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先前与欧洲人ALS相关的结构变异分析强调了非洲人的基因组结构差异。

背景和目的:肌萎缩性侧索硬化症(ALS)是一种大脑和脊髓的退行性疾病，其中已知ALS疾病基因的蛋白质编码变异可以解释少数散发病例。非编码结构变异(SVs)作为ALS风险变异或ALS表型遗传修饰因子的作用越来越受到关注。在欧洲小样本中，SCAF4、SQSTM1和STMN2非编码调控区域的特异性短SV等位基因已被报道与ALS相关，一些研究小组已经研究了SMN1/SMN2基因拷贝数在ALS易感性和临床严重程度中的可能作用。方法:利用短读全基因组测序(WGS)数据，研究非洲裔ALS患者中可能的ALS易感性SCAF4 (3' utr poly-T repeat)、SQSTM1(内含子5 AAAC插入)和STMN2(内含子3 CA repeat)等位基因，并描述SMN1/SMN2基因区域的结构。将南非ALS患者(114例)与血统匹配的对照组(150例)、1000个基因组计划样本(2336例)和H3Africa基因分型芯片计划样本(347例)进行比较。结果:先前报道的SCAF4 poly-T repeat、SQSTM1 AAAC插入和长STMN2 CA等位基因与南非人ALS风险没有关联(p > 0.2)。同样，SMN1和SMN2基因拷贝数在南非ALS患者和匹配人群对照之间没有差异(p > 0.9)。值得注意的是，本研究中20%的非洲样本没有SMN2基因拷贝，这比欧洲报告的频率(约7%)要高。讨论:我们没有在一个小的南非样本中重复报道SCAF4、SQSTM1和STMN2短SVs与ALS的关联。此外，我们在南非样本中没有发现SMN1和SMN2拷贝数与ALS易感性之间的联系，这与最近对欧洲研究的荟萃分析的结论相似。然而，在非洲人身上发现的SMN基因区域重复了以前在东非和西非的结果，并强调了在疾病基因发现工作中包括不同人群的重要性。非洲和非非洲人群中SMN基因结构的临床相关差异可能会影响SMN2基因靶向治疗脊髓性肌萎缩症等相关疾病的有效性。

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.