基于长读长全基因组测序发现结构变异及其在印度非综合征性自闭症谱系障碍病因学中的作用。

Long read whole genome sequencing-based discovery of structural variants and their role in aetiology of non-syndromic autism spectrum disorder in India.

作者信息

Shah Jhanvi, Mondal Debasrija, Jain Deepika, Mhatre Priti, Patel Ketan, Iyer Anand, Pandya Manoj, Menghani Bhargavi, Dave Gayatri, Sheth Jayesh, Sheth Frenny, Ramdas Shweta, Sheth Harsh

机构信息

Foundation for Research in Genetics and Endocrinology, Institute of Human Genetics, FRIGE House, Jodhpur Village Road, Ahmedabad, 380015, India.

Centre for Brain Research, Indian Institute of Science Campus, CV Raman Avenue, Bangalore, 560012, India.

出版信息

BMC Med Genomics. 2025 Aug 20;18(1):131. doi: 10.1186/s12920-025-02204-6.

DOI:10.1186/s12920-025-02204-6

PMID:40835948

Abstract

BACKGROUND

Despite having heritability estimates of 80%, ~ 50% cases of autism spectrum disorders (ASD) remain without a genetic diagnosis. Structural variants (SVs) detected using long-read whole genome sequencing (lrWGS) are a relatively new class of variants implicated in neurodevelopmental disorders. Short read sequencing (SRS) and chromosomal microarray (CMA) are unable to resolve these SVs due to their inherent technological limitations. This study was aimed to detect and delineate the role of SVs in children with non-syndromic ASDs using lrWGS in whom prior traditional genetic tests did not yield a definitive genetic diagnosis.

METHODS

A total of 23 patients with no prior genetic diagnosis from karyotyping, Fragile-X analysis, CMA and short read whole exome sequencing (srWES) were selected for lrWGS using Oxford Nanopore based sequencing platform. Samples were sequenced at an average coverage of ~ 7x. Contigs generated from high accuracy base calling were aligned against GRCh38/hg38 human reference genome build. SVs were called using five variant callers- Sniffles2, cuteSV, NanoVar, SVIM, and npInv, and annotated using AnnotSV. Calls from cuteSV were used as benchmark to identify concordant calls across at least three variant callers.

RESULTS

An average whole genome coverage of ~ 7x and N50 read length of 6.65 ± 3.3 kb was obtained across 46 runs (two runs/ sample). On average, a total of approximately 235,163 calls were made across all callers for each sample. The average number of deletions, duplications, insertions, inversions and translocations were 54,787, 3,335, 62,459, 1,286, and 113,296, respectively, were detected across all callers per sample. Of 23 cases, a candidate SV, an inversion of approximately 2.7 Mb in size encompassing SNAP25-AS1 gene was observed. This gene is likely to be involved in the synaptic pathway and has previously been associated with autism.

CONCLUSION

This is the first study from India to assess the role of SVs in the aetiology of non-syndromic ASDs. Despite the small sample size, low-pass genome coverage, and modest N50 read length, the study indicates a modest contribution of SVs in the aetiology of non-syndromic ASD. Dearth of data supporting the role of SVs in non-syndromic ASDs in other cohorts from around the world further supports our conclusion.

摘要

背景

尽管自闭症谱系障碍（ASD）的遗传度估计为80%，但仍有~50%的病例没有基因诊断结果。使用长读长全基因组测序（lrWGS）检测到的结构变异（SVs）是一类相对较新的与神经发育障碍有关的变异。由于其固有的技术局限性，短读长测序（SRS）和染色体微阵列（CMA）无法解析这些SVs。本研究旨在使用lrWGS检测并描述SVs在非综合征性ASD儿童中的作用，这些儿童之前的传统基因检测未得出明确的基因诊断结果。

方法

总共选择了23例之前未通过核型分析、脆性X分析、CMA和短读长全外显子组测序（srWES）进行基因诊断的患者，使用基于牛津纳米孔的测序平台进行lrWGS。样本的平均测序深度约为7倍。从高精度碱基识别生成的重叠群与GRCh38/hg38人类参考基因组构建进行比对。使用五个变异调用程序——Sniffles2、cuteSV、NanoVar、SVIM和npInv来调用SVs，并使用AnnotSV进行注释。以cuteSV的调用结果作为基准，以识别至少三个变异调用程序的一致调用结果。

结果

在46次运行（每个样本两次运行）中，平均全基因组覆盖度约为7倍，N50读长为6.65±3.3 kb。每个样本所有调用程序平均总共进行了约235,163次调用。每个样本所有调用程序检测到的缺失、重复、插入、倒位和易位的平均数量分别为54,787、3,335、62,459、1,286和113,296。在23例病例中，观察到一个候选SV，即一个大小约为2.7 Mb的倒位，包含SNAP25-AS1基因。该基因可能参与突触途径，并且之前与自闭症有关。