High-Throughput, Purification-Free, Multiplexed Profiling of Circulating miRNA for Discovery, Validation, and Diagnostics

J. Quintana, I. Stoner, M. Tackett, G. Doran, Conor Rafferty, A. Windemuth, J. Tytell, D. Pregibon
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Abstract

To address the needs for circulating miRNA biomarker validation, we developed the Multiplexed Circulating microRNA assay. This assay enables the detection of up to 68 microRNA targets per sample in 96-well format with readout on standard flow cytometers and analysis with an included bioinformatics software package. The Circulating microRNA assay combines particle-based multiplexing, using patented Firefly hydrogel particles, with single-step RT-PCR signal amplification using universal primers. Thus, the Circulating microRNA assay leverages PCR sensitivity while eliminating the need for separate reverse transcription reactions and mitigating amplification biases introduced by target-specific qPCR. Furthermore, the ability to multiplex targets in each well eliminates the need to split valuable samples into multiple reactions. Results from the Circulating microRNA assay are displayed and interpreted using our included Firefly Analysis Workbench, which allows visualization, normalization, and export of experimental data with only a few mouse clicks. To aid discovery and validation of biomarkers, we have generated fixed panels for Oncology, Cardiology, Neurology, Immunology, and Liver Toxicology. These carefully curated panels include hemolysis markers to assess sample quality, as well as critical normalization factors. Here we present the data from several studies investigating circulating and tumor microRNA profiles using the Firefly Circulating microRNA Assay Fixed Panels. Together, this novel combination of bioinformatics tools and multiplexed, high-sensitivity assays enables rapid discovery and validation of microRNA biomarker signatures from fluid specimens. Citation Format: Jessica Tytell, Issac Stoner, Michael Tackett, Graeme Doran, Conor Rafferty, Andreas Windemuth, Daniel Pregibon. High-throughput,purification-free, multiplexed profiling of circulating miRNA for discovery,validation, and diagnostics. [abstract]. In: Proceedings of the 107th Annual Meeting of the American Association for Cancer Research; 2016 Apr 16-20; New Orleans, LA. Philadelphia (PA): AACR; Cancer Res 2016;76(14 Suppl):Abstract nr 1082.
用于发现、验证和诊断的循环miRNA的高通量、无纯化、多路分析
为了满足循环microRNA生物标志物验证的需求,我们开发了多重循环microRNA测定。该检测方法可检测多达68个microRNA靶标,每个样品96孔格式,在标准流式细胞仪上读出,并附带生物信息学软件包进行分析。循环microRNA检测结合了基于颗粒的多路复用,使用专利的Firefly水凝胶颗粒,以及使用通用引物的单步RT-PCR信号扩增。因此,循环microRNA分析利用PCR敏感性,同时消除了对单独的逆转录反应的需要,并减轻了靶标特异性qPCR引入的扩增偏差。此外,在每口井中多重目标的能力消除了将有价值的样品分成多个反应的需要。循环microRNA分析的结果显示和解释使用我们的萤火虫分析工作台,它允许可视化,规范化和导出实验数据,只需点击几下鼠标。为了帮助发现和验证生物标志物,我们已经为肿瘤学、心脏病学、神经学、免疫学和肝脏毒理学制作了固定的面板。这些精心策划的面板包括溶血标志物,以评估样品质量,以及关键的正常化因素。在这里,我们介绍了几项研究的数据,这些研究使用萤火虫循环microRNA测定固定板调查循环和肿瘤microRNA谱。总之,这种生物信息学工具和多路、高灵敏度分析的新组合可以快速发现和验证流体标本中的microRNA生物标志物特征。引文格式:Jessica Tytell, Issac Stoner, Michael Tackett, Graeme Doran, Conor Rafferty, Andreas Windemuth, Daniel Pregibon。用于发现、验证和诊断的循环miRNA的高通量、无纯化、多路分析。[摘要]。摘自:第107届美国癌症研究协会年会论文集;2016年4月16-20日;新奥尔良,洛杉矶。费城(PA): AACR;癌症杂志2016;76(14增刊):摘要第1082期。
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