亨廷顿舞蹈病基于片段的基因检测中不间断CAG重复序列长度和疾病修饰变异的确定。

Ascertainment of uninterrupted CAG repeat length and disease-modifying variants in fragment-based genetic testing for Huntington Disease.

作者信息

Findlay Black Hailey, Kay Chris, Dawson Jessica, Bortnick Stephanie, Javier Kyla, Xia Qingwen, Chau Cheuk Hin, Leavitt Tess, Arning Larissa, Nguyen Huu Phuc, Hayden Michael R

机构信息

Centre for Molecular Medicine and Therapeutics, University of British Columbia, Vancouver, BC, Canada.

Department of Human Genetics, Medical Faculty, Ruhr University of Bochum, Bochum, Germany.

出版信息

Genet Med Open. 2024 Aug 2;2:101882. doi: 10.1016/j.gimo.2024.101882. eCollection 2024.

DOI:10.1016/j.gimo.2024.101882

PMID:39669608

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC11613659/

Abstract

PURPOSE

In Huntington disease (HD), synonymous variants causing loss or duplication of the interrupting CAA codon in the CAG repeat modify disease onset. These variants are undetectable during HD genetic testing, resulting in inaccurate diagnostic reporting of uninterrupted CAG repeat length. Inaccurate reporting of CAG repeat length results in misdiagnosis of individuals with alleles near diagnostic cut-offs. We present a method to identify variant alleles during CAG repeat genotyping, allowing accurate diagnostic reporting of uninterrupted CAG repeat length.

METHODS

We used triplet-primed PCR (TP-PCR) to amplify CAG repeat alleles with canonical or noncanonical repeat interruptions and leveraged differences in peak amplification patterns to develop a screening method based on peak height ratio (PHR). We used PHR to screen blood DNA from a cohort of symptomatic individuals with diagnostic CAG repeat lengths of 40 to 41.

RESULTS

TP-PCR enables accurate reporting of uninterrupted CAG repeat length in diagnostic testing by detecting HD alleles with loss or duplication of the CAG repeat interruption.

CONCLUSION

PHR screening of TP-PCR traces is a cost-effective screening method for detection, ascertainment of uninterrupted CAG repeat length, and accurate diagnostic reporting for individuals with disease-modifying noncanonical CAG repeat interruptions.

摘要

目的

在亨廷顿舞蹈病（HD）中，导致CAG重复序列中中断性CAA密码子缺失或重复的同义变异会改变疾病发病年龄。这些变异在HD基因检测过程中无法检测到，导致对不间断CAG重复序列长度的诊断报告不准确。CAG重复序列长度报告不准确会导致对等位基因接近诊断临界值的个体进行误诊。我们提出一种在CAG重复序列基因分型过程中识别变异等位基因的方法，从而能够准确报告不间断CAG重复序列的长度。

方法

我们使用三联体引物PCR（TP-PCR）扩增具有典型或非典型重复序列中断的CAG重复序列等位基因，并利用峰值扩增模式的差异开发了一种基于峰高比（PHR）的筛选方法。我们使用PHR对一组有症状个体（诊断CAG重复序列长度为40至41）的血液DNA进行筛选。

结果

TP-PCR通过检测具有CAG重复序列中断缺失或重复的HD等位基因，能够在诊断测试中准确报告不间断CAG重复序列的长度。

结论

对TP-PCR扩增曲线进行PHR筛选是一种经济高效的筛选方法，可用于检测、确定不间断CAG重复序列的长度，并为具有改变疾病进程的非典型CAG重复序列中断的个体提供准确的诊断报告。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/e594/11613659/dec5abb4abd0/gr1.jpg

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亨廷顿舞蹈病基于片段的基因检测中不间断CAG重复序列长度和疾病修饰变异的确定。

Ascertainment of uninterrupted CAG repeat length and disease-modifying variants in fragment-based genetic testing for Huntington Disease.

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