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In March 2024, highly pathogenic avian influenza (HPAI) H5N1 was detected in Texas dairy cattle and has since spread to over 500 herds in the United States. Historically, H5N1 transmission to humans has occurred because of contact with infected birds, and over 800 cases have been reported since 2003, with a mortality rate of 52%. Sustained human-to-human transmission of H5N1 has not been observed. HPAI requires physical containment and operational practices to be completed in a containment level 3 (CL-3) laboratory. To safely bring samples containing inactivated HPAI to CL-2 laboratories for further analysis, we tested methods of inactivation for downstream RNA extraction or antibody response assays. Samples containing A/dairy cattle/Texas/24-008749-002/2024 (H5N1 cattle virus) destined for RNA extraction were incubated with Buffer AVL (Qiagen) with 95% ethanol, or Buffer RLT (Qiagen) with 70% ethanol. Samples tested for antibody assays, serum, and milk containing HPAI were incubated with 0.5% vol/vol Triton X-100 at 60°C. We found that Buffer AVL with 95% ethanol inactivated H5N1 cattle virus in supernatant from infected cells, milk, blood, and urine. Buffer RLT with 70% ethanol inactivated H5N1 cattle virus in infected cell pellet, spiked milk, blood, urine, and tissue. Finally, incubation with 0.5% vol/vol Triton X-100 followed by a 30 minute heat treatment at 60°C completely inactivated the H5N1 cattle virus in whey and serum. This work is essential for allowing the safe transfer of H5N1 samples produced in CL-3 to lower containment laboratories for downstream analyses.IMPORTANCEHistorically, human infections from highly pathogenic avian influenza (HPAI) have occurred from contact with infected birds, with estimated mortality rates of 52%. Recently, this virus has spilled over into many mammalian species and has rapidly spread between dairy cattle herds in the United States, causing multiple human infections after exposure to infected cows. Characterization of this virus is imperative for reducing risk to humans. Work with live HPAI virus must be undertaken in containment level 3 facilities, which limits the amount and type of work that can be done due to time-consuming biosafety procedures and lack of equipment. In this article, we outline how to effectively inactivate HPAI to enable safe work in containment level 2 facilities and facilitate more efficient work on this pathogen.

2024年3月，在美国得克萨斯州的奶牛中检测到高致病性禽流感（HPAI）H5N1，此后已传播至美国500多个牛群。从历史上看，H5N1通过与受感染鸟类接触传播给人类，自2003年以来已报告800多例病例，死亡率为52%。尚未观察到H5N1在人际间的持续传播。高致病性禽流感需要在生物安全3级（CL-3）实验室进行物理隔离和操作。为了将含有灭活高致病性禽流感的样本安全运送至CL-2实验室进行进一步分析，我们测试了用于下游RNA提取或抗体反应检测的灭活方法。将用于RNA提取的含有A/奶牛/得克萨斯州/24-008749-002/2024（H5N1牛病毒）的样本与含95%乙醇的AVL缓冲液（Qiagen公司）或含70%乙醇的RLT缓冲液（Qiagen公司）一起孵育。对用于抗体检测的样本、含有高致病性禽流感的血清和牛奶，在60°C下与0.5%（体积/体积）的 Triton X-100一起孵育。我们发现，含95%乙醇的AVL缓冲液可使感染细胞、牛奶、血液和尿液上清液中的H5N1牛病毒灭活。含70%乙醇的RLT缓冲液可使感染细胞沉淀、加标牛奶、血液、尿液和组织中的H5N1牛病毒灭活。最后，与0.5%（体积/体积）的 Triton X-100一起孵育，然后在60°C下热处理30分钟，可使乳清和血清中的H5N1牛病毒完全灭活。这项工作对于将CL-3中产生的H5N1样本安全转移至较低级别的生物安全实验室进行下游分析至关重要。

重要性

从历史上看，人类感染高致病性禽流感是通过与受感染鸟类接触发生的，估计死亡率为52%。最近，这种病毒已传播到许多哺乳动物物种，并在美国奶牛群中迅速传播，导致多人在接触受感染奶牛后被感染。对这种病毒进行特征分析对于降低人类风险至关重要。对活的高致病性禽流感病毒的研究必须在生物安全3级设施中进行，这由于耗时的生物安全程序和设备不足，限制了可以开展的工作数量和类型。在本文中，我们概述了如何有效灭活高致病性禽流感，以便在生物安全2级设施中安全开展工作，并促进对这种病原体进行更高效的研究。