Department of Molecular Genetics, Oncode Institute, Erasmus University Medical Center, University Medical Center Rotterdam, 3015 GD Rotterdam, the Netherlands.
Istituto di Genetica Molecolare, Consiglio Nazionale delle Ricerche, 27100 Pavia, Italy.
Am J Hum Genet. 2019 Aug 1;105(2):434-440. doi: 10.1016/j.ajhg.2019.06.017.
Brittle and "tiger-tail" hair is the diagnostic hallmark of trichothiodystrophy (TTD), a rare recessive disease associated with a wide spectrum of clinical features including ichthyosis, intellectual disability, decreased fertility, and short stature. As a result of premature abrogation of terminal differentiation, the hair is brittle and fragile and contains reduced cysteine content. Hypersensitivity to UV light is found in about half of individuals with TTD; all of these individuals harbor bi-allelic mutations in components of the basal transcription factor TFIIH, and these mutations lead to impaired nucleotide excision repair and basal transcription. Different genes have been found to be associated with non-photosensitive TTD (NPS-TTD); these include MPLKIP (also called TTDN1), GTF2E2 (also called TFIIEβ), and RNF113A. However, a relatively large group of these individuals with NPS-TTD have remained genetically uncharacterized. Here we present the identification of an NPS-TTD-associated gene, threonyl-tRNA synthetase (TARS), found by next-generation sequencing of a group of uncharacterized individuals with NPS-TTD. One individual has compound heterozygous TARS variants, c.826A>G (p.Lys276Glu) and c.1912C>T (p.Arg638), whereas a second individual is homozygous for the TARS variant: c.680T>C (p.Leu227Pro). We showed that these variants have a profound effect on TARS protein stability and enzymatic function. Our results expand the spectrum of genes involved in TTD to include genes implicated in amino acid charging of tRNA, which is required for the last step in gene expression, namely protein translation. We previously proposed that some of the TTD-specific features derive from subtle transcription defects as a consequence of unstable transcription factors. We now extend the definition of TTD from a transcription syndrome to a "gene-expression" syndrome.
脆性和“虎尾”样毛发是先天性毛发硫营养不良症(TTD)的诊断特征,这是一种罕见的隐性遗传病,与广泛的临床特征相关,包括鱼鳞癣、智力障碍、生育力下降和身材矮小。由于末端分化的过早终止,毛发脆弱易碎,并且含有减少的半胱氨酸含量。大约一半的 TTD 患者存在对 UV 光的过敏反应;所有这些个体都在基本转录因子 TFIIH 的成分中存在双等位基因突变,这些突变导致核苷酸切除修复和基本转录受损。已发现不同的基因与非光敏性 TTD(NPS-TTD)相关;这些包括 MPLKIP(也称为 TTDN1)、GTF2E2(也称为 TFIIEβ)和 RNF113A。然而,相当大一部分具有 NPS-TTD 的个体在遗传上仍未被描述。在这里,我们通过对一组未被描述的 NPS-TTD 个体进行下一代测序,发现了一个与 NPS-TTD 相关的基因,即苏氨酰-tRNA 合成酶(TARS)。一个个体存在复合杂合 TARS 变体 c.826A>G(p.Lys276Glu)和 c.1912C>T(p.Arg638),而另一个个体是 TARS 变体的纯合子:c.680T>C(p.Leu227Pro)。我们表明,这些变体对 TARS 蛋白稳定性和酶功能有深远影响。我们的结果将参与 TTD 的基因谱扩展到包括涉及 tRNA 氨基酸加载的基因,这是基因表达的最后一步,即蛋白质翻译所必需的。我们之前提出,一些 TTD 特异性特征源自不稳定转录因子的微妙转录缺陷。我们现在将 TTD 的定义从转录综合征扩展到“基因表达”综合征。
