Center for Medical Genetics, Keio University School of Medicine, Tokyo, Japan.
Department of Pediatrics, Tokyo Teishin Hospital, Tokyo, Japan.
Am J Med Genet A. 2021 Jun;185(6):1836-1840. doi: 10.1002/ajmg.a.62152. Epub 2021 Mar 1.
Some mammalian genes contain both major and minor introns, the splicing of which require distinctive major and minor spliceosomes, respectively; these genes are referred to as minor intron containing-genes. RNPC3 (RNA-binding domain-containing protein 3) is one of the proteins that are unique to the minor spliceosome U11/U12 di-snRNP. Only two families with biallelic pathogenic variants in the RNPC3 gene encoding the protein have been reported so far, and the affected members in both families had proportional short stature. While the affected members of the originally identified family did not have intellectual disability, the patients from the other family exhibited intellectual disability. Here, we report on a patient with severe primordial microcephalic dwarfism and intellectual disability who carried compound heterozygous variants in RNPC3 (NM_017619.3): c.261dup, p.Leu88Thrfs*11 and c.1228T>G, p.Phe410Val. The single nucleotide substitution c.1228T>G had a very high predictive score for pathogenicity: the p.Phe410 residue is highly conserved down to fish. Based on ACMG (American College of Medical Genetics and Genomics) guideline, this non-synonymous variant was scored as likely pathogenic. This documentation of yet another patient with biallelic RNPC3 variants exhibiting intellectual disability lends further support to the notion that intellectual disability is a key feature of the spectrum of RNPC3-related disorders.
一些哺乳动物基因包含主要内含子和次要内含子,分别需要独特的主要剪接体和次要剪接体来剪接;这些基因被称为含有次要内含子的基因。RNPC3(RNA 结合域蛋白 3)是唯一存在于 U11/U12 二 snRNP 中的次要剪接体中的蛋白质之一。迄今为止,只报道了两个编码该蛋白的 RNPC3 基因具有双等位致病性变异的家族,两个家族的受影响成员均存在比例性身材矮小。虽然最初确定的家族中的受影响成员没有智力残疾,但另一个家族的患者则存在智力残疾。在这里,我们报告了一名患有严重原始性小头畸形侏儒症和智力残疾的患者,该患者携带 RNPC3(NM_017619.3)的复合杂合变异:c.261dup,p.Leu88Thrfs*11 和 c.1228T>G,p.Phe410Val。单核苷酸替换 c.1228T>G 具有非常高的致病性预测评分:p.Phe410 残基高度保守,甚至在鱼类中也是如此。根据 ACMG(美国医学遗传学和基因组学学院)指南,这个非同义变异被评为可能致病性。这进一步证明了另一名具有双等位 RNPC3 变异的患者存在智力残疾,这进一步支持了智力残疾是 RNPC3 相关疾病谱的关键特征的观点。
