用于常染色体隐性多囊肾病的具有成本效益的PKHD1基因检测

Cost-effective PKHD1 genetic testing for autosomal recessive polycystic kidney disease.

作者信息

Krall Paola, Pineda Cristina, Ruiz Patricia, Ejarque Laia, Vendrell Teresa, Camacho Juan Antonio, Mendizábal Santiago, Oliver Artur, Ballarín José, Torra Roser, Ars Elisabet

机构信息

Molecular Biology Laboratory, Fundació Puigvert, Instituto de Investigaciones Biomédicas Sant Pau (IIB-Sant Pau), Universitat Autònoma de Barcelona, REDinREN, Instituto de Investigación Carlos III, C/Cartagena, 340-350, 08025, Barcelona, Spain.

出版信息

Pediatr Nephrol. 2014 Feb;29(2):223-34. doi: 10.1007/s00467-013-2657-7. Epub 2013 Oct 27.

DOI:10.1007/s00467-013-2657-7

PMID:24162162

Abstract

BACKGROUND

Genetic diagnosis of autosomal recessive polycystic kidney disease (ARPKD) is challenging due to the length and allelic heterogeneity of the PKHD1 gene. Mutations appear to be clustered at specific exons, depending on the geographic origin of the patient. We aimed to identify the PKHD1 exons most likely mutated in Spanish ARPKD patients.

METHODS

Mutation analysis was performed in 50 ARPKD probands and nine ARPKD-suspicious patients by sequencing PKHD1 exons arranged by their reported mutation frequency. Haplotypes containing the most frequent mutations were analyzed. Other PKD genes (HNF1B, PKD1, PKD2) were sequenced in PKHD1-negative cases.

RESULTS

Thirty-six different mutations (concentrated in 24 PKHD1 exons) were detected, giving a mutation detection rate of 86%. The screening of five exons (58, 32, 34, 36, 37) yielded a 54% chance of detecting one mutation; the screening of nine additional exons (3, 9, 39, 61, 5, 22, 26, 41, 57) increased the chance to 76%. The c.9689delA mutation was present in 17 (34%) patients, all of whom shared the same haplotype. Two HNF1B mutations and one PKD1 variant were detected in negative cases.

CONCLUSIONS

Establishing a PKHD1 exon mutation profile in a specific population and starting the analysis with the most likely mutated exons might significantly enhance the efficacy of genetic testing in ARPKD. Analysis of other PKD genes might be considered, especially in suspicious cases.

摘要

背景

由于PKHD1基因的长度和等位基因异质性，常染色体隐性多囊肾病（ARPKD）的基因诊断具有挑战性。根据患者的地理来源，突变似乎集中在特定外显子上。我们旨在确定西班牙ARPKD患者中最可能发生突变的PKHD1外显子。

方法

通过对按报道的突变频率排列的PKHD1外显子进行测序，对50例ARPKD先证者和9例疑似ARPKD患者进行了突变分析。分析了包含最常见突变的单倍型。在PKHD1阴性病例中对其他多囊肾病基因（HNF1B、PKD1、PKD2）进行了测序。

结果

检测到36种不同的突变（集中在24个PKHD1外显子中），突变检出率为86%。对5个外显子（58、32、34、36、37）进行筛查，检测到一个突变的概率为54%；再对另外9个外显子（3、9、39、61、5、22、26、41、57）进行筛查，该概率增加到76%。17例（34%）患者存在c.9689delA突变，所有这些患者都具有相同的单倍型。在阴性病例中检测到2个HNF1B突变和1个PKD1变异。

结论

在特定人群中建立PKHD1外显子突变谱，并从最可能发生突变的外显子开始分析，可能会显著提高ARPKD基因检测的效率。可考虑对其他多囊肾病基因进行分析，尤其是在疑似病例中。

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用于常染色体隐性多囊肾病的具有成本效益的PKHD1基因检测

Cost-effective PKHD1 genetic testing for autosomal recessive polycystic kidney disease.

作者信息

机构信息

出版信息

BACKGROUND

METHODS

RESULTS

CONCLUSIONS

背景

方法

结果

结论

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