一份关于通过靶向基因分析对遗传性视网膜营养不良进行分子诊断检测的报告。
A Report on Molecular Diagnostic Testing for Inherited Retinal Dystrophies by Targeted Genetic Analyses.
作者信息
Ramkumar Hema L, Gudiseva Harini V, Kishaba Kameron T, Suk John J, Verma Rohan, Tadimeti Keerti, Thorson John A, Ayyagari Radha
机构信息
1 Shiley Eye Institute, Jacobs Retina Center, University of California , San Diego, La Jolla, California.
2 Department of Pathology, University of California , San Diego, La Jolla, California.
出版信息
Genet Test Mol Biomarkers. 2017 Feb;21(2):66-73. doi: 10.1089/gtmb.2016.0251. Epub 2016 Dec 22.
AIM
To test the utility of targeted sequencing as a method of clinical molecular testing in patients diagnosed with inherited retinal degeneration (IRD).
METHODS
After genetic counseling, peripheral blood was drawn from 188 probands and 36 carriers of IRD. Single gene testing was performed on each patient in a Clinical Laboratory Improvement Amendment (CLIA) certified laboratory. DNA was isolated, and all exons in the gene of interest were analyzed along with 20 base pairs of flanking intronic sequence. Genetic testing was most often performed on ABCA4, CTRP5, ELOV4, BEST1, CRB1, and PRPH2. Pathogenicity of novel sequence changes was predicted by PolyPhen2 and sorting intolerant from tolerant (SIFT).
RESULTS
Of the 225 genetic tests performed, 150 were for recessive IRD, and 75 were for dominant IRD. A positive molecular diagnosis was made in 70 (59%) of probands with recessive IRD and 19 (26%) probands with dominant IRD. Analysis confirmed 12 (34%) of individuals as carriers of familial mutations associated with IRD. Thirty-two novel variants were identified; among these, 17 sequence changes in four genes were predicted to be possibly or probably damaging including: ABCA4 (14), BEST1 (2), PRPH2 (1), and TIMP3 (1).
CONCLUSIONS
Targeted analysis of clinically suspected genes in 225 subjects resulted in a positive molecular diagnosis in 26% of patients with dominant IRD and 59% of patients with recessive IRD. Novel damaging mutations were identified in four genes. Single gene screening is not an ideal method for diagnostic testing given the phenotypic and genetic heterogeneity among IRD cases. High-throughput sequencing of all genes associated with retinal degeneration may be more efficient for molecular diagnosis.
目的
测试靶向测序作为诊断遗传性视网膜变性(IRD)患者临床分子检测方法的效用。
方法
经过遗传咨询后,从188例IRD先证者和36例携带者中采集外周血。在一个临床实验室改进修正案(CLIA)认证的实验室中对每位患者进行单基因检测。分离DNA,并对感兴趣基因的所有外显子以及侧翼内含子序列的20个碱基对进行分析。基因检测最常针对ABCA4、CTRP5、ELOV4、BEST1、CRB1和PRPH2进行。通过PolyPhen2和从耐受中筛选不耐受(SIFT)预测新序列变化的致病性。
结果
在进行的225次基因检测中,150次针对隐性IRD,75次针对显性IRD。70例(59%)隐性IRD先证者和19例(26%)显性IRD先证者获得了阳性分子诊断。分析确认12例(34%)个体为与IRD相关的家族性突变携带者。鉴定出32个新变体;其中,四个基因中的17个序列变化被预测可能或很可能具有损害性,包括:ABCA4(14个)、BEST1(2个)、PRPH2(1个)和TIMP3(1个)。
结论
对225名受试者临床怀疑基因的靶向分析,在26%的显性IRD患者和59%的隐性IRD患者中得出了阳性分子诊断。在四个基因中鉴定出了新的有害突变。鉴于IRD病例之间的表型和遗传异质性,单基因筛查不是诊断检测的理想方法。对所有与视网膜变性相关的基因进行高通量测序可能对分子诊断更有效。
Zotero 插件