Department of Pediatrics, Graduate School of Medical Sciences, Kumamoto University, Kumamoto, Japan.
KM Biologics Co., Ltd, Kumamoto, Japan.
J Hum Genet. 2019 Aug;64(8):741-755. doi: 10.1038/s10038-019-0603-7. Epub 2019 May 10.
A newborn screening program for Pompe disease using dried blood spots (DBSs) was initiated in Japan. Here, we summarized this screening program and described the results of the GAA gene analysis. From April 2013 to November 2016, 103,204 newborns were screened; 71 had low acid alpha-glucosidase (AαGlu) activity. GAA sequencing showed that 32 (45.1%) and 37 (52.1%) of these newborns were homozygous and heterozygous for pseudodeficiency alleles c.[1726G>A; 2965G>A], respectively. Moreover, 24 of 32 newborns with homozygous c.[1726G>A; 2965G>A] alleles had no mutations, and the other eight had one mutation each. Thirty-five of 37 newborns with heterozygous c.[1726G>A; 2965G>A] alleles had one mutation, and the other two had two mutations each. Only one newborn who had two mutations did not harbor c.[1726G>A; 2965G>A] alleles. Thus, it was difficult to distinguish newborns with c.[1726G>A; 2965G>A] alleles from newborns with pre-symptomatic Pompe disease using AαGlu assays in DBSs or fibroblasts; GAA gene sequencing was necessary. Seventy-one newborns had 50 variants, including 21 mutations or predictably pathogenic variants, and 29 polymorphisms or predictably non-pathogenic variants. Four of 21 mutations or predictably pathogenic variants and four of 29 polymorphisms or predictably non-pathogenic variants were novel. No infantile-onset Pompe disease was detected, and three newborns were diagnosed with potential late-onset Pompe disease. In the literature, 156 variants have been reported for 296 patients from 277 families in 41 articles from Japan, Korea, Taiwan, and China. Our results provide insights into GAA gene mutation profiles and the relationship between GAA and Pompe disease in Asian populations.
日本启动了一项使用干血斑(DBS)进行庞贝病新生儿筛查的项目。在这里,我们总结了这个筛查计划,并描述了 GAA 基因分析的结果。从 2013 年 4 月至 2016 年 11 月,共有 103204 名新生儿接受了筛查;其中 71 名新生儿酸性α-葡萄糖苷酶(AαGlu)活性较低。GAA 测序显示,这些新生儿中 32 名(45.1%)和 37 名(52.1%)分别为假缺陷等位基因 c.[1726G>A; 2965G>A]的纯合子和杂合子。此外,32 名纯合子 c.[1726G>A; 2965G>A] 新生儿中,有 24 名无突变,另外 8 名各有 1 个突变。37 名杂合子 c.[1726G>A; 2965G>A] 新生儿中,有 35 名各有 1 个突变,另外 2 名各有 2 个突变。仅有 1 名携带两个突变的新生儿不携带 c.[1726G>A; 2965G>A]等位基因。因此,使用 DBS 或成纤维细胞中的 AαGlu 检测难以区分携带 c.[1726G>A; 2965G>A]等位基因的新生儿与有症状前的庞贝病新生儿;有必要进行 GAA 基因测序。71 名新生儿有 50 种变异,包括 21 种突变或可预测的致病性变异,以及 29 种多态性或可预测的非致病性变异。21 种突变或可预测的致病性变异中的 4 种和 29 种多态性或可预测的非致病性变异中的 4 种是新的。未发现婴儿期起病的庞贝病,有 3 名新生儿被诊断为潜在的晚发型庞贝病。文献中,从日本、韩国、中国台湾和中国的 41 篇文章中,共报道了 296 名患者来自 277 个家系的 156 种变异。我们的结果提供了亚洲人群 GAA 基因突变谱和 GAA 与庞贝病关系的见解。
