ASAH1基因中的一种新型内含子变异增强了异常剪接,导致伴有进行性肌阵挛癫痫的脊髓性肌萎缩。
A novel intronic variant in the ASAH1 gene enhances aberrant splicing, causing spinal muscular atrophy with progressive myoclonic epilepsy.
作者信息
Bai Jinli, Li Ping, Jiao Hui, Jin Yuwei, Wang Hong, Jiang Qinglin, Song Fang, Peng Xiaoyin, Qu Yujin
机构信息
Department of Medical Genetics, Capital Institute of Pediatrics, No.2 Yabao Rd, Chao Yang District, Beijing, 100020, China.
Department of Neurology, Capital Center For Children's Health, Capital Medical University, No.2 Yabao Rd, Chao Yang District, Beijing, 100020, China.
出版信息
Ital J Pediatr. 2025 Jul 8;51(1):214. doi: 10.1186/s13052-025-02058-9.
BACKGROUND
Spinal muscular atrophy with progressive myoclonic epilepsy (SMA-PME) is a rare autosomal recessive disorder caused by ASAH1 gene variants. Although ASAH1 coding variants cause SMA-PME, the impact of noncoding variants, particularly noncanonical splice-site variants, is less clear.
METHODS
Whole-exome sequencing (WES) was performed on the proband, and Sanger sequencing was used to confirm the carrier status of the variants in the core family members. Complementary DNA (cDNA) and minigene splicing assays were performed to validate the splicing effects.
RESULTS
Two heterozygous ASAH1 variants were identified through WES: c.304dupA (p.Thr102Asnfs*14) and c.264 + 11A > G. Sanger sequencing confirmed that the variants were bi-parentally segregated in trans: c.304dupA was inherited from the father, and c.264 + 11A > G was inherited from the mother. The c.304dupA variant was classified as pathogenic according to the ACMG guidelines. However, the c.264 + 11A > G variant in intron 3 was reported for the first time, and its functional impact has not yet been fully elucidated. Complementary DNA (cDNA) and minigene splicing assays indicated that the c.264 + 11A > G variant generated two transcripts. Approximately 10% of the ASAH1 transcripts from the allele carrying c.264 + 11A > G were full length, whereas the remaining transcripts lacked exon 3. Exon skipping results from aberrant splicing, which potentially leads to a premature termination codon (PTC, p.Tyr59Ter).
CONCLUSION
To the best of our knowledge, the c.264 + 11A > G is the first likely pathogenic noncanonical splice-site variant identified in this gene. This drives the pathogenesis of SMA-PME through exon 3 skipping. Our findings provide new insights into the intricate splicing mechanisms of noncanonical splice-site variants, emphasizing the unique role of cDNA analysis and minigene splicing assays in the precise diagnosis and genetic counseling of SMA-PME cases.
背景
伴有进行性肌阵挛癫痫的脊髓性肌萎缩症(SMA-PME)是一种由ASAH1基因变异引起的罕见常染色体隐性疾病。虽然ASAH1编码变异会导致SMA-PME,但非编码变异的影响,尤其是非典型剪接位点变异的影响尚不清楚。
方法
对先证者进行全外显子组测序(WES),并使用桑格测序法确认核心家庭成员中变异的携带状态。进行互补DNA(cDNA)和小基因剪接试验以验证剪接效果。
结果
通过WES鉴定出两个杂合的ASAH1变异:c.304dupA(p.Thr102Asnfs*14)和c.264+11A>G。桑格测序证实这些变异以反式双亲分离:c.304dupA从父亲遗传而来,c.264+11A>G从母亲遗传而来。根据美国医学遗传学与基因组学学会(ACMG)指南,c.304dupA变异被分类为致病性变异。然而,内含子3中的c.264+11A>G变异是首次报道,其功能影响尚未完全阐明。cDNA和小基因剪接试验表明,c.264+11A>G变异产生了两种转录本。携带c.264+11A>G的等位基因产生的ASAH1转录本中约10%是全长的,而其余转录本缺少外显子3。外显子跳跃是由异常剪接导致的,这可能会导致提前终止密码子(PTC,p.Tyr59Ter)。
结论
据我们所知,c.264+11A>G是该基因中鉴定出的首个可能致病的非典型剪接位点变异。它通过外显子3跳跃推动SMA-PME的发病机制。我们的研究结果为非典型剪接位点变异复杂的剪接机制提供了新的见解,强调了cDNA分析和小基因剪接试验在SMA-PME病例的精确诊断和遗传咨询中的独特作用。
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