Exact Sciences Corporation, Madison, WI, 53719, USA.
Clin Chem. 2012 Feb;58(2):375-83. doi: 10.1373/clinchem.2011.171264. Epub 2011 Dec 22.
Aberrantly methylated genes represent important markers for cancer diagnosis. We describe a multiplex detection approach to efficiently quantify these markers for clinical applications such as colorectal cancer screening.
Quantitative allele-specific real-time target and signal amplification (QuARTS) combines a polymerase-based target amplification with an invasive cleavage-based signal amplification. The fluorescence signal is detected in a fashion similar to real-time PCR. We measured the dynamic range and analytical sensitivity of multiplex QuARTS reactions with titrated plasmid DNA. We used the QuARTS technology to quantify methylated BMP3, NDRG4, VIM, and TFPI2 genes on 91 DNA samples extracted from colorectal tissues, including 37 cancers, 25 adenomas, and 29 healthy epithelia. The assays were designed in triplex format that incorporated ACTB as a reference gene. Percent methylation was calculated by dividing methylated strands over ACTB strands and multiplying by 100.
The QuARTS method linearly detected methylated or unmethylated VIM gene down to 10 copies. No cross-reactivity was observed when methylated assays were used to amplify 10(5) copies of unmethylated gene and vice versa. The multiplex assay detected methylated genes spiked in unmethylated genes at a 0.01% ratio and vice versa. At a diagnostic specificity cutoff of 95%, methylated BMP3, NDRG4, VIM, and TFPI2 detected 84%, 92%, 86%, and 92% of colorectal cancers and 68%, 76%, 76%, and 88% of adenomas, respectively.
The QuARTS technology provides a promising approach for quantifying methylated markers. The markers assayed highly discriminated colorectal neoplasia from healthy epithelia.
异常甲基化的基因是癌症诊断的重要标志物。我们描述了一种多重检测方法,可有效地定量这些标志物,用于临床应用,如结直肠癌筛查。
基于聚合酶的靶扩增与侵入性切割的信号扩增相结合的定量等位基因特异性实时目标和信号扩增(QuARTS)。荧光信号的检测方式类似于实时 PCR。我们使用滴定质粒 DNA 来测量多重 QuARTS 反应的动态范围和分析灵敏度。我们使用 QuARTS 技术在 91 个从结直肠组织中提取的 DNA 样本中定量检测了甲基化 BMP3、NDRG4、VIM 和 TFPI2 基因,包括 37 例癌症、25 例腺瘤和 29 例健康上皮组织。该测定以三联体格式设计,其中包含 ACTB 作为参考基因。通过将甲基化链除以 ACTB 链并乘以 100 来计算百分比甲基化。
QuARTS 方法可线性检测到低至 10 个拷贝的甲基化或非甲基化 VIM 基因。当使用甲基化测定法扩增 10^5 个拷贝的非甲基化基因时,未观察到交叉反应,反之亦然。在诊断特异性截止值为 95%时,甲基化 BMP3、NDRG4、VIM 和 TFPI2 分别检测到 84%、92%、86%和 92%的结直肠癌和 68%、76%、76%和 88%的腺瘤。
QuARTS 技术为定量检测甲基化标志物提供了一种很有前途的方法。所检测的标志物高度区分了结直肠肿瘤与健康上皮组织。
