Key laboratory of Analytical Chemistry for Life Science of Shaanxi Province, Key laboratory of Applied Surface and Colloid Chemistry, Ministry of Education, School of Chemistry and Chemical Engineering , Shaanxi Normal University , Xi'an , Shaanxi Province 710119 , P. R. China.
ACS Sens. 2018 Dec 28;3(12):2667-2674. doi: 10.1021/acssensors.8b01169. Epub 2018 Dec 3.
MicroRNAs (miRNAs) have been considered as promising cancer biomarkers. However, the simple but sensitive detection of low levels of miRNAs in biological samples still remains challenging. Herein, we wish to report an entirely enzyme-free, simple, and highly sensitive miRNA assay based on the counting of cycling click chemical ligation (3CL)-illuminated fluorescent magnetic nanoparticles (MNPs) with a total internal reflection fluorescence microscopy (TIRFM). In this strategy, each miRNA molecule can trigger many cycles of click chemical ligation reactions to produce plentiful ligated oligonucleotides (ODNs) with both 5'-biotin and 3'-fluorophore, resulting in efficient signal amplification. It is worth noting that only the ligated ODNs can bring fluorophores onto streptavidin-functionalized MNPs (STV-MNPs). Notably, merely 10 fluorescent molecules on each 50 nm MNP can make it bright enough to be clearly visualized by the TIRFM, which can significantly improve the detection sensitivity for miRNA. Through fluorescence counting of individual MNPs and integrating their fluorescence intensities, the amount of target miRNA can be quantitatively determined. This miRNA assay can be accomplished in a mix-and-read manner just by simply mixing the enzyme-free 3CL reaction system with the MNPs before TIRFM imaging, which avoids tedious immobilization, washing, and purification steps. Despite the extremely simple operation, this strategy exhibits high sensitivity with a quite low detection limit of 50 fM target miRNA as well as high specificity to well discriminate miRNA sequences with a single-base variation. Furthermore, the applicability of this method in real biological samples is also verified through the accurate detection of the miRNA target in cancer cells.
微小 RNA(miRNA)已被认为是有前途的癌症生物标志物。然而,在生物样本中简单但灵敏地检测低水平的 miRNA 仍然具有挑战性。在此,我们希望报告一种完全无酶、简单且高度灵敏的 miRNA 测定方法,该方法基于循环点击化学连接(3CL)-荧光磁性纳米粒子(MNPs)的计数,并用全内反射荧光显微镜(TIRFM)进行检测。在该策略中,每个 miRNA 分子可以触发许多轮点击化学连接反应,产生大量带有 5'-生物素和 3'-荧光团的连接寡核苷酸(ODN),从而实现有效的信号放大。值得注意的是,只有连接的 ODN 才能将荧光团带到链霉亲和素功能化的 MNPs(STV-MNPs)上。值得注意的是,每个 50nm 的 MNP 上只有 10 个荧光分子就能使其足够亮,从而可以通过 TIRFM 清晰地可视化,这可以显著提高 miRNA 的检测灵敏度。通过对单个 MNPs 进行荧光计数并整合它们的荧光强度,可以定量测定目标 miRNA 的量。这种 miRNA 测定方法可以通过在 TIRFM 成像之前将无酶 3CL 反应体系与 MNPs 简单混合即可完成,从而避免了繁琐的固定、洗涤和纯化步骤。尽管操作极其简单,但该策略具有很高的灵敏度,其检测限低至 50fM 目标 miRNA,并且具有很高的特异性,可以很好地区分具有单个碱基变异的 miRNA 序列。此外,还通过在癌细胞中准确检测 miRNA 靶标验证了该方法在真实生物样本中的适用性。
