基于尿液外泌体 mRNA 的肾移植排斥反应监测试验:样本运输和储存以及干扰物质的影响

M. McFaul, Chris Ventura, Sean Evans, Halil Dundar, M.J. Rumpler, C. McCloskey, Dave Lowe, A. Vlassov
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摘要

背景 外泌体是一种 30-150 纳米的纳米囊泡,内含复杂的核酸,由人体内所有细胞主动分泌,大量存在于包括尿液在内的所有体液中。这些细胞外囊泡在下一代诊断中具有巨大潜力,理论上可通过液体活检分析对器官和组织功能进行无创评估。目的 最近,用于器官移植后监测的外泌体分子检验的可行性得到了证实:通过分析尿液外泌体 mRNA 货物,可以早期检测肾移植排斥反应。在此,我们进一步研究了尿液外泌体及其 mRNA 含量,将其作为一种极具前景的诊断方式。研究内容包括尿液样本和外泌体 mRNA 从采集点运输到集中检测机构过程中的稳定性研究、尿液从接收到进行分子检测前在不同条件下的短期储存,以及各种潜在干扰物质对下游定量聚合酶链反应(qPCR)检测的影响。方法 将尿液样本储存在不同条件下,并以不同方式进行预处理。然后,将样本通过小柱以捕获所有细胞外囊泡,裂解囊泡以释放其内容物,在迷你柱上纯化外泌体 RNA,进行反转录,接着进行预扩增,然后对一组 mRNA 标记进行 qPCR 分析。结果 为确保外泌体 RNA 的完整性,采集的尿液标本应冷藏后隔夜运送。接下来,尿液可在检测地点 4 ℃ 下保存 1 周,长期应冷冻至 -80 ℃。尿液标本必须在低离心力下离心,以清除细胞和碎片,确保下游分子检测结果一致。对所有常用药物(他克莫司、环孢素 A、霉酚酸、依维莫司、西罗莫司、阿霉素、特立氟胺)进行了检测,确认它们不会对检测产生干扰。结论 尿液外泌体的 mRNA 在各种条件下都很稳定,通过 qPCR 分析检测肾脏异体移植排斥反应时结果准确。我们确定了整个过程中每一步的最佳条件,确保了分析前样本的完整性和可靠的 qPCR 结果。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Urine exosome mRNA-based test for monitoring kidney allograft rejection: Effects of sample transportation and storage, and interference substances
BACKGROUND Exosomes are 30-150 nm nanovesicles with sophisticated nucleic acids cargo, actively secreted by all cells within human body, and found in abundance in all body fluids, including urine. These extracellular vesicles have tremendous potential for next generation diagnostics, theoretically enabling noninvasive assessment of organ and tissue function via liquid biopsy analysis. AIM Recently, feasibility of an exosomal molecular test was demonstrated for post-organ transplant monitoring: Analysis of urine-derived exosomal mRNA cargo allowed early detection of kidney allograft rejection. Here, we further studied urine-derived exosomes and their mRNA content as a highly promising diagnostic modality. This included stability studies of urine samples and exosomal mRNA upon transportation from the point of collection to a centralized testing facility, short-term storage of urine at different conditions upon receipt till the point molecular assay is performed, and effects of various potentially interfering substances on the downstream quantitative polymerase chain reaction (qPCR) assay. METHODS The urine specimens were stored at various conditions and pre-processed in different ways. Next, samples were passed through the columns to capture all extracellular vesicles, the vesicles were lysed to release their content and the exosomal RNA was purified on the mini-columns, reverse transcription was performed, next pre-amplification, followed by a qPCR analysis for a panel of mRNA markers. RESULTS To ensure exosomal RNA integrity, the harvested urine specimens should be shipped refrigerated, by overnight delivery. Urine can next be stored at the test site for up to 1 wk at 4 °C, and long term should be frozen at -80 °C. Urine specimens must be centrifuge at low G-force to deplete cells and debris, to ensure consistent top results in downstream molecular assays. All commonly used medications (tacrolimus, cyclosporin A, mycophenolic acid, everolimus, sirolimus, ascomycin, teriflunomide) were tested and confirmed that they do not cause assay interference. CONCLUSION mRNA from urine-derived exosomes was shown to be stable across a broad range of conditions and produced accurate results when analyzed via qPCR assay for detection of kidney allograft rejection. We identified the most optimal conditions for every step of the process, ensuring pre-analytical sample integrity and robust qPCR results.
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