Yang Genyan, Hodges Erin N, Winter Jörn, Zanders Natosha, Shcherbik Svetlana, Bousse Tatiana, Murray Janna R, Muraduzzaman A K M, Rahman Mahbubur, Alamgir A S M, Flora Meerjady Sabrina, Blanton Lenee, Barnes John R, Wentworth David E, Davis C Todd
Influenza Division, National Center for Immunization and Respiratory Diseases, Centers for Disease Control and Prevention, Atlanta, Georgia, USA
Influenza Division, National Center for Immunization and Respiratory Diseases, Centers for Disease Control and Prevention, Atlanta, Georgia, USA.
J Clin Microbiol. 2020 May 26;58(6). doi: 10.1128/JCM.00252-20.
Replication of influenza A virus (IAV) from negative-sense viral RNA (vRNA) requires the generation of positive-sense RNA (+RNA). Most molecular assays, such as conventional real-time reverse transcriptase PCR (rRT-PCR), detect total RNA in a sample without differentiating vRNA from +RNA. These assays are not designed to distinguish IAV infection versus exposure of an individual to an environment enriched with IAVs but wherein no viral replication occurs. We therefore developed a strand-specific hybridization (SSH) assay that differentiates between vRNA and +RNA and quantifies relative levels of each RNA species. The SSH assay exhibited a linearity of 7 logs with a lower limit of detection of 6.0 × 10 copies of molecules per reaction. No signal was detected in samples with a high load of nontarget template or influenza B virus, demonstrating assay specificity. IAV +RNA was detected 2 to 4 h postinoculation of MDCK cells, whereas synthesis of cold-adapted IAV +RNA was significantly impaired at 37°C. The SSH assay was then used to test IAV rRT-PCR positive nasopharyngeal specimens collected from individuals exposed to IAV at swine exhibitions ( = 7) or while working at live bird markets ( = 2). The SSH assay was able to differentiate vRNA and +RNA in samples collected from infected, symptomatic individuals versus individuals who were exposed to IAV in the environment but had no active viral replication. Data generated with this technique, especially when coupled with clinical data and assessment of seroconversion, will facilitate differentiation of actual IAV infection with replicating virus versus individuals exposed to high levels of environmental contamination but without virus infection.
甲型流感病毒(IAV)从负链病毒RNA(vRNA)进行复制需要生成正链RNA(+RNA)。大多数分子检测方法,如传统的实时逆转录聚合酶链反应(rRT-PCR),检测样本中的总RNA,而不区分vRNA和+RNA。这些检测方法并非设计用于区分IAV感染与个体暴露于富含IAV但无病毒复制的环境。因此,我们开发了一种链特异性杂交(SSH)检测方法,可区分vRNA和+RNA,并定量每种RNA种类的相对水平。SSH检测方法的线性范围为7个对数,每个反应的检测下限为6.0×10个分子拷贝。在高负荷非靶标模板或乙型流感病毒的样本中未检测到信号,证明了检测的特异性。在接种MDCK细胞后2至4小时检测到IAV +RNA,而在37°C时冷适应IAV +RNA的合成明显受损。然后,SSH检测方法用于检测从在猪展(n = 7)或活禽市场工作(n = 2)时接触IAV的个体中收集的IAV rRT-PCR阳性鼻咽标本。SSH检测方法能够区分从感染且有症状的个体与暴露于环境中的IAV但无活跃病毒复制的个体所收集样本中的vRNA和+RNA。用该技术生成的数据,特别是与临床数据和血清转化评估相结合时,将有助于区分实际的IAV感染与复制病毒与暴露于高水平环境污染但无病毒感染的个体。