Paediatric Neurology Unit and Laboratories, Meyer Children's Hospital, Firenze, Italy.
Department of NEUROFARBA, University of Florence, Firenze, Italy.
Clin Chim Acta. 2018 Jun;481:25-33. doi: 10.1016/j.cca.2018.02.021. Epub 2018 Feb 21.
Allelic heterogeneity is an important feature of the GLA gene for which almost 900 known genetic variants have been discovered so far. Pathogenetic GLA variants cause alpha-galactosidase A (α-Gal A) enzyme deficiency leading to the X-linked lysosomal storage disorder Fabry disease (FD). Benign GLA intronic and exonic variants (e.g. pseudodeficient p.Asp313Tyr) have also been described. Some GLA missense variants, previously deemed to be pathogenetic (e.g. p.Glu66Gln and p.Arg118Cys), they have been reclassified as benign after re-evaluation by functional and population studies. Hence, the functional role of novel GLA variants should be investigated to assess their clinical relevance.
We identified six GLA variants in 4 males and 2 females who exhibited symptoms of FD: c.159C>G p.(Asn53Lys), c.400T>C p.(Tyr134His), c.680G>C (p.Arg227Pro), c.815A>T p.(Asn272Ile), c.907A>T p.(Ile303Phe) and c.1163_1165delTCC (p.Leu388del). We evaluated their impact on the α-Gal A protein by bioinformatic analysis and homology modelling, by analysis of the GLA mRNA, and by site-directed mutagenesis and in vitro expression studies. We also measured their responsiveness to the pharmacological chaperone DGJ.
The six detected GLA variants cause deficient α-Gal A activity and impairment or loss of the protein wild-type structure. We found p.Asn53Lys and p.Ile303Phe variants to be susceptible to DGJ.
等位基因异质性是 GLA 基因的一个重要特征,迄今为止,已经发现了近 900 种已知的遗传变异。致病性 GLA 变异导致 α-半乳糖苷酶 A(α-Gal A)酶缺乏,导致 X 连锁溶酶体贮积症法布里病(FD)。良性 GLA 内含子和外显子变异(例如假缺陷 p.Asp313Tyr)也有描述。一些以前被认为是致病性的 GLA 错义变异(例如 p.Glu66Gln 和 p.Arg118Cys),在经过功能和人群研究的重新评估后,已被重新归类为良性。因此,应该研究新的 GLA 变异的功能作用,以评估其临床相关性。
我们在 4 名男性和 2 名女性中发现了 6 种 GLA 变异,这些人表现出 FD 的症状:c.159C>G p.(Asn53Lys),c.400T>C p.(Tyr134His),c.680G>C(p.Arg227Pro),c.815A>T p.(Asn272Ile),c.907A>T p.(Ile303Phe)和 c.1163_1165delTCC(p.Leu388del)。我们通过生物信息学分析和同源建模、GLA mRNA 分析以及定点突变和体外表达研究评估了它们对 α-Gal A 蛋白的影响。我们还测量了它们对药理学伴侣 DGJ 的反应性。
检测到的 6 种 GLA 变异导致 α-Gal A 活性缺乏和蛋白质野生型结构的损伤或丧失。我们发现 p.Asn53Lys 和 p.Ile303Phe 变异对 DGJ 敏感。
