二甲基亚砜提高临床样本中高分辨率熔解曲线分析的突变扫描检测灵敏度。
DMSO Increases Mutation Scanning Detection Sensitivity of High-Resolution Melting in Clinical Samples.
作者信息
Song Chen, Castellanos-Rizaldos Elena, Bejar Rafael, Ebert Benjamin L, Makrigiorgos G Mike
机构信息
Department of Radiation Oncology, Dana-Farber Cancer Institute, Brigham and Women's Hospital, Harvard Medical School, Boston, MA;
Division of Hematology and Oncology, UCSD Moores Cancer Center, La Jolla, CA;
出版信息
Clin Chem. 2015 Nov;61(11):1354-62. doi: 10.1373/clinchem.2015.245357. Epub 2015 Oct 2.
BACKGROUND
Mutation scanning provides the simplest, lowest-cost method for identifying DNA variations on single PCR amplicons, and it may be performed before sequencing to avoid screening of noninformative wild-type samples. High-resolution melting (HRM) is the most commonly used method for mutation scanning. With PCR-HRM, however, mutations less abundant than approximately 3%-10% that can still be clinically significant may often be missed. Therefore, enhancing HRM detection sensitivity is important for mutation scanning and its clinical application.
METHODS
We used serial dilution of cell lines containing the TP53 exon 8 mutation to demonstrate the improvement in detection sensitivity for conventional-PCR-HRM in the presence of DMSO. We also conducted coamplification at lower denaturation temperature (COLD)-PCR with an extra step for cross-hybridization, followed by preferential denaturation and amplification at optimized critical temperature (full-COLD-PCR), to further enrich low-level mutations before HRM with or without DMSO, and we used droplet-digital PCR to derive the optimal conditions for mutation enrichment. Both conventional PCR-HRM and full-COLD-PCR-HRM with and without DMSO were used for mutation scanning of TP53 exon 8 in cancer samples containing known mutations and myelodysplastic syndrome samples with unknown mutations. Mutations in other genes were also examined.
RESULTS
The detection sensitivity of PCR-HRM scanning increases 2- to 5-fold in the presence of DMSO, depending on mutation type and sequence context, and can typically detect mutation abundance of approximately 1%. When mutation enrichment is applied during amplification with full-COLD-PCR followed by HRM in the presence of DMSO, mutations with 0.2%-0.3% abundance in TP53 exon 8 can be detected.
CONCLUSIONS
DMSO improves HRM mutation scanning sensitivity with saturating dyes. When full-COLD-PCR is used, followed by DMSO-HRM, the overall improvement is about 20-fold compared with conventional PCR-HRM.
背景
突变扫描提供了一种用于识别单个PCR扩增子上DNA变异的最简单、成本最低的方法,并且可以在测序之前进行以避免对无信息价值的野生型样本进行筛查。高分辨率熔解曲线分析(HRM)是最常用的突变扫描方法。然而,对于PCR-HRM而言,丰度低于约3%-10%但仍具有临床意义的突变常常可能被漏检。因此,提高HRM检测灵敏度对于突变扫描及其临床应用很重要。
方法
我们使用含有TP53基因第8外显子突变的细胞系进行系列稀释,以证明在存在二甲基亚砜(DMSO)的情况下常规PCR-HRM检测灵敏度的提高。我们还进行了低温共扩增(COLD)-PCR,并增加了一步交叉杂交步骤,随后在优化的临界温度下进行优先变性和扩增(完全COLD-PCR),以便在有或没有DMSO的情况下进行HRM之前进一步富集低水平突变,并且我们使用液滴数字PCR来确定突变富集的最佳条件。使用常规PCR-HRM以及有或没有DMSO的完全COLD-PCR-HRM对含有已知突变的癌症样本和具有未知突变的骨髓增生异常综合征样本中的TP53基因第8外显子进行突变扫描。还检查了其他基因的突变。
结果
在存在DMSO的情况下,PCR-HRM扫描的检测灵敏度根据突变类型和序列背景提高2至5倍,通常可以检测到约1%的突变丰度。当在完全COLD-PCR扩增期间进行突变富集,随后在存在DMSO的情况下进行HRM时,可以检测到TP53基因第8外显子中丰度为0.2%-0.3%的突变。
结论
DMSO可提高饱和染料的HRM突变扫描灵敏度。当使用完全COLD-PCR,随后进行DMSO-HRM时,与常规PCR-HRM相比,总体改善约为20倍。
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