Kummer Sebastian, Venghaus Andreas, Schlune Andrea, Leube Barbara, Eggermann Thomas, Spiekerkoetter Ute
Department of General Pediatrics, Neonatology and Pediatric Cardiology, University Children's Hospital, Moorenstr. 5, 40225, Dusseldorf, Germany,
Pediatr Nephrol. 2014 Jan;29(1):155-9. doi: 10.1007/s00467-013-2617-2. Epub 2013 Sep 19.
Cystinuria is an inherited disorder of a renal tubular amino acid transporter and leads to increased cystine excretion with the risk of urinary stone formation. Phenotypical classification is based on urinary amino acid concentration as type I (silent), type non-I (hyper-excretors), mixed or untyped. Genotypic classification is based on mutations in SLC3A1 (type A) or SLC7A9 (type B).
CASE-DIAGNOSIS/TREATMENT: We present six family members with a complex phenotypic profile based on mutations in both genes. The index patient presents a known homozygous mutation (p.T189M) in SLC3A1 and a homozygous mutation (c.225C > T) in SLC7A9. Based on a bioinformatics analysis and published findings, we considered p.T189M to be pathogenic and initially classified c.225C > T as a silent variant. However, segregation analysis detected homozygosity for p.T189M also in non-affected individuals, whereas homozygous c.225C > T segregated with the phenotype. RNA studies confirmed c.225C > T to cause aberrant splicing.
Based on our findings, we conclude that c.225C > T in SLC7A9 determines the clinical phenotype in this family, whereas additional SLC3A1 mutations aggravate the phenotype in heterozygotes for c.225C > T in SLC7A9 without resulting in cystinuria in the homozygous state. Our results underline the need for careful biochemical characterization of family members of an index case of cystinuria. Genetic analysis of both cystinuria genes may be necessary due to the synergistic effects of mutations in two genes.
胱氨酸尿症是一种肾小管氨基酸转运蛋白的遗传性疾病,导致胱氨酸排泄增加,有形成尿路结石的风险。表型分类基于尿氨基酸浓度分为I型(无症状型)、非I型(高排泄型)、混合型或未分型。基因型分类基于SLC3A1(A型)或SLC7A9(B型)基因的突变。
病例诊断/治疗:我们报告了六名家庭成员,他们具有基于两个基因均发生突变的复杂表型特征。索引患者在SLC3A1基因中有一个已知的纯合突变(p.T189M),在SLC7A9基因中有一个纯合突变(c.225C>T)。基于生物信息学分析和已发表的研究结果,我们认为p.T189M是致病性的,最初将c.225C>T分类为沉默变异。然而,分离分析在未受影响的个体中也检测到p.T189M的纯合性,而纯合的c.225C>T与表型分离。RNA研究证实c.225C>T导致异常剪接。
基于我们的研究结果,我们得出结论,SLC7A9基因中的c.225C>T决定了这个家族的临床表型,而额外的SLC3A1突变会加重SLC7A9基因中c.225C>T杂合子的表型,在纯合状态下不会导致胱氨酸尿症。我们的结果强调了对胱氨酸尿症索引病例家庭成员进行仔细生化特征分析的必要性。由于两个基因中突变的协同作用,对两个胱氨酸尿症基因进行遗传分析可能是必要的。
