Wang Kiarong, Zhao Xiao, Chan Shelly, Cil Onur, He Ning, Song Xuewen, Paterson Andrew D, Pei York
Divisions of Nephrology and Genomic Medicine, University Health Network and University of Toronto, Toronto, Ontario Canada.
Clin J Am Soc Nephrol. 2009 Feb;4(2):442-9. doi: 10.2215/CJN.00980208. Epub 2009 Jan 21.
Mutation-based molecular diagnostics of autosomal dominant polycystic kidney disease (ADPKD) is complicated by locus and allelic heterogeneity, large multi-exon gene structure and duplication in PKD1, and a high level of unclassified variants. Comprehensive screening of PKD1 and PKD2 by two recent studies have shown that atypical splice mutations account for 3.5% to 5% of ADPKD. We evaluated the role of bioinformatic prediction of atypical splice mutations and determined the pathogenicity of an atypical PKD2 splice variant from a multiplex ADPKD (TOR101) family.
DESIGN, SETTING, PARTICIPANTS, & MEASUREMENTS: Using PubMed, we identified 17 atypical PKD1 and PKD2 splice mutations. We found that bioinformatics analysis was often useful for evaluating the pathogenicity of these mutations, although RT-PCR is needed to provide the definitive proof.
Sequencing of both PKD1 and PKD2 in an affected subject of TOR101 failed to identify a definite mutation, but revealed several UCVs, including an atypical PKD2 splice variant. Linkage analysis with microsatellite markers indicated that TOR101 was PKD2-linked and IVS8 + 5G-->A was shown to cosegregate only with affected subjects. RT-PCR of leukocyte mRNA from an affected subject using primers from exons 7 and 9 revealed six splice variants that resulted from activation of different combinations of donor and acceptor cryptic splice sites, all terminating with premature stop codons.
The data provide strong evidence that IVS8 + 5G-->A is a pathogenic mutation for PKD2. This case highlights the importance of functional analysis of UCVs.
常染色体显性多囊肾病(ADPKD)基于突变的分子诊断因基因座和等位基因异质性、PKD1基因大的多外显子结构及重复以及大量未分类变异而变得复杂。最近两项对PKD1和PKD2进行全面筛查的研究表明,非典型剪接突变占ADPKD的3.5%至5%。我们评估了非典型剪接突变的生物信息学预测作用,并确定了来自一个ADPKD复合家系(TOR101)的一个非典型PKD2剪接变异体的致病性。
设计、地点、参与者和测量方法:通过PubMed,我们鉴定出17个非典型PKD1和PKD2剪接突变。我们发现生物信息学分析通常有助于评估这些突变的致病性,不过需要逆转录聚合酶链反应(RT-PCR)来提供确凿证据。
对TOR101家系一名患病个体的PKD1和PKD2进行测序未能鉴定出明确的突变,但发现了几个未分类变异(UCV),包括一个非典型PKD2剪接变异体。使用微卫星标记进行连锁分析表明TOR101与PKD2连锁,并且IVS8 + 5G→A仅与患病个体共分离。使用外显子7和9的引物对一名患病个体的白细胞mRNA进行RT-PCR,发现了六个剪接变异体,这些变异体是由供体和受体隐蔽剪接位点不同组合的激活产生的,均以提前终止密码子结束。
数据提供了有力证据,表明IVS8 + 5G→A是PKD2的致病突变。该病例突出了对未分类变异进行功能分析的重要性。