Department of Neurology, Hôpital de la Salpêtrière, Groupement Hospitalier Universitaire Est Pitié-Salpêtrière, Paris, France.
Neurology. 2012 Feb 21;78(8):551-6. doi: 10.1212/WNL.0b013e318247ca69. Epub 2012 Feb 8.
We report the cases of 2 patients with late-onset spinal muscular atrophy (SMA) type III, who were hemizygous for SMN1 deletion and carriers of novel SMN1 intragenic missense mutations, and we investigate the genotype-phenotype relationship.
Patients were tested for SMN1 deletions with standard methodology. Sequencing of all exons, exon-intron junctions, and flanking sequences of SMN1 by nested PCR was used to detect intragenic point mutations. SMN1 and SMN2 quantification was undertaken to investigate the genotype-phenotype relationship.
Two novel point mutations were identified in exon 3 of SMN1 (p.Tyr130Cys and p.Tyr130His) in the highly conserved Tudor domain of the Smn protein.
The genetic basis of SMA in the rare cases of compound heterozygous carriers of SMN1 deletions is complex. Small intragenic SMN1 mutations often lead to severe SMA phenotypes, especially if the point mutations lie in exon 3 that codes for the highly conserved Tudor domain of the Smn protein. Although both our patients were carriers of intragenic SMN1 mutations in the coding region of the Tudor domain, they presented with a mild SMA phenotype despite a low SMN2 copy number. We discuss the possible determinant role of these novel missense mutations in the phenotypic outcome and compensatory mechanisms that may account for the genotype-phenotype discrepancy.
我们报告了 2 例晚发性脊髓性肌萎缩症(SMA)III 型患者的病例,他们均为 SMN1 缺失的半合子,并携带新型 SMN1 基因内错义突变,我们研究了基因型-表型关系。
采用标准方法检测患者的 SMN1 缺失情况。通过巢式 PCR 对 SMN1 的所有外显子、外显子-内含子接头和侧翼序列进行测序,以检测基因内点突变。进行 SMN1 和 SMN2 定量以研究基因型-表型关系。
在 Smn 蛋白高度保守的 Tudor 结构域中,在 SMN1 的外显子 3 中发现了 2 个新的点突变(p.Tyr130Cys 和 p.Tyr130His)。
在 SMN1 缺失的罕见复合杂合子携带者中,SMA 的遗传基础较为复杂。小的基因内 SMN1 突变常导致严重的 SMA 表型,尤其是如果点突变位于编码 Smn 蛋白高度保守的 Tudor 结构域的外显子 3 中。尽管我们的 2 位患者均为 SMN1 突变的基因内携带者在 Tudor 结构域的编码区,尽管 SMN2 拷贝数较低,但他们仍表现出轻度 SMA 表型。我们讨论了这些新型错义突变在表型结果中的可能决定作用以及可能解释基因型-表型差异的补偿机制。
