寨卡病毒在尿液中的稳定性：样本处理注意事项及对尿液中RNA靶点检测的影响

Stability of Zika virus in urine: Specimen processing considerations and implications for the detection of RNA targets in urine.

作者信息

Tan Susanna K, Sahoo Malaya K, Milligan Stephen B, Taylor Nathaniel, Pinsky Benjamin A

机构信息

Department of Medicine, Division of Infectious Diseases and Geographic Medicine, Stanford University School of Medicine, Stanford, CA, USA.

Department of Pathology, Stanford University School of Medicine, Stanford, CA, USA.

出版信息

J Virol Methods. 2017 Oct;248:66-70. doi: 10.1016/j.jviromet.2017.04.018. Epub 2017 May 1.

DOI:10.1016/j.jviromet.2017.04.018

PMID:28472623

Abstract

BACKGROUND

Detection of Zika virus (ZIKV) RNA in urine is of increasing interest for the diagnosis of ZIKV infection. Pre-analytical variables can significantly impact the stability of RNA in urine.

METHODS

To determine optimal specimen processing protocols that would maximize detection of ZIKV RNA in urine by real-time, reverse transcriptase PCR, we investigated the effect of temperature, initial ZIKV concentration, use of nucleic acid stabilizers, and time on ZIKV RNA levels. Urine samples from healthy donors were spiked with ZIKV using the Exact Diagnostics ZIKV Verification Panel, a commercially available panel composed of heat-inactivated ZIKV, at concentrations of 5.0 log copies/mL (ZIKV-high) and 4.0 log copies/mL (ZIKV-low). Samples were stored at room temperature, 4°C, or -80°C and frozen aliquots were exposed to no stabilizer (urine), Buffer ATL (Qiagen, Germantown, MD), or DNA/RNA Shield (Zymo Research, Irvine, CA).

RESULTS

ZIKV RNA levels in urine declined steadily at room temperature, though was not significant by 48h (ZIKV-high, p=0.09; ZIKV-low, p=0.20). ZIKV RNA titers were consistently higher when stored at 4°C, suggesting that storage at 4°C can slow the progression of RNA degradation. Freezing urine samples at -80°C resulted in a significant loss of detectable ZIKV RNA in the ZIKV-low group. ZIKV RNA was detected in 5/6 replicates at 3days, 1/6 replicates at 10days, and 1/3 replicates at 30days, with findings reproducible on repeat testing. Presence of either nucleic acid stabilizer in urine corrected this effect, and resulted in recovery of ZIKV RNA in all replicates. Use of a nucleic acid stabilizer in the ZIKV-high group did not add incremental benefit for the detection or quantitation of ZIKV RNA.

CONCLUSIONS

ZIKV RNA is prone to degradation in urine with loss of detectable virus even when specimens are frozen at -80°C for 10days. Detection of ZIKV-positive urine samples, particularly those containing low ZIKV titers may be aided with the addition of a nucleic acid stabilizer during urine specimen processing.

摘要

背景

尿液中寨卡病毒（ZIKV）RNA的检测对于寨卡病毒感染的诊断越来越受到关注。分析前变量会显著影响尿液中RNA的稳定性。

方法

为了确定能通过实时逆转录PCR最大化尿液中ZIKV RNA检测的最佳样本处理方案，我们研究了温度、初始ZIKV浓度、核酸稳定剂的使用以及时间对ZIKV RNA水平的影响。使用Exact Diagnostics ZIKV验证试剂盒将寨卡病毒添加到健康供体的尿液样本中，该试剂盒是一种市售试剂盒，由热灭活的寨卡病毒组成，浓度分别为5.0 log拷贝/毫升（ZIKV-高）和4.0 log拷贝/毫升（ZIKV-低）。样本在室温、4℃或-80℃下储存，冷冻的等分试样不添加稳定剂（尿液）、缓冲液ATL（Qiagen，马里兰州日耳曼敦）或DNA/RNA Shield（Zymo Research，加利福尼亚州欧文）。

结果

尿液中的ZIKV RNA水平在室温下稳步下降，不过在48小时时下降不显著（ZIKV-高，p = 0.09；ZIKV-低，p = 0.20）。在4℃储存时，ZIKV RNA滴度始终较高，这表明在4℃储存可减缓RNA降解的进程。在-80℃冷冻尿液样本导致ZIKV-低组中可检测到的ZIKV RNA显著损失。在第3天，6个重复样本中有5个检测到ZIKV RNA，第10天为1/6个重复样本，第30天为1/3个重复样本，重复检测结果可重现。尿液中添加任何一种核酸稳定剂均可纠正这种影响，并使所有重复样本中都能检测到ZIKV RNA。在ZIKV-高组中使用核酸稳定剂对ZIKV RNA的检测或定量没有额外益处。

结论

即使样本在-80℃冷冻10天，尿液中的ZIKV RNA仍易于降解，导致可检测到的病毒丢失。在尿液样本处理过程中添加核酸稳定剂可能有助于检测ZIKV阳性尿液样本，尤其是那些ZIKV滴度较低的样本。

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寨卡病毒在尿液中的稳定性：样本处理注意事项及对尿液中RNA靶点检测的影响

Stability of Zika virus in urine: Specimen processing considerations and implications for the detection of RNA targets in urine.

作者信息

机构信息

出版信息

BACKGROUND

METHODS

RESULTS

CONCLUSIONS

背景

方法

结果

结论

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