Reference Laboratory for Veterinary Quality Control on Poultry Production, Animal Health Research Institute, Agriculture Research Center, Giza, 12618, Egypt.
Arch Virol. 2020 Jun;165(6):1357-1366. doi: 10.1007/s00705-020-04621-7. Epub 2020 Apr 13.
Since the incursion of avian influenza virus subtype H5N8 in Egypt in late 2016, it has spread rapidly, causing severe losses in poultry production. Multiple introductions of different reassorted strains were observed in 2017. In this study, a genetic characterization of the HA gene was carried out with 31 isolates selected from different governorates and sectors. Fifteen isolates were selected for NA gene sequence analysis. The HA and NA genes were divided into two subgroups (I and II) with positive selection pressure identified at positions 174 and 29, respectively. The HA gene contained two novel mutations in the antigenic sites, A and E. The HA nucleotide sequence identity ranged from 77 to 90% with different vaccine seeds. Full-genome sequence analysis was carried out for eight viruses, representing different governorates and sectors, to identify the predominant reassorted strain in Egypt. All viruses were similar to a reassorted strain of clade 2.3.4.4b that has been identified in Germany, among other countries. Analysis of these viruses revealed mutations specific to Egyptian strains and not the original virus characterized in 2017 (A/duck/Egypt/F446/2017), with a novel antiviral resistance marker, V27A, indicating resistance to amantadine in the M2 protein of two strains. The results indicate increased variability of circulating H5N8 viruses compared to earlier viruses sequenced in 2016 and 2017. The predominant reassorted virus circulating in 2017 and 2018 originated from an early 2017 strain. It is important to continue this surveillance of avian influenza viruses to monitor the evolution of circulating viruses.
自 2016 年底埃及发生 H5N8 亚型禽流感病毒侵袭以来,该病毒迅速传播,给家禽生产造成严重损失。2017 年观察到多次不同重组株的引入。在本研究中,对从不同省和部门选择的 31 个分离株进行了 HA 基因的遗传特征分析。选择了 15 个分离株进行 NA 基因序列分析。HA 和 NA 基因分为两个亚群(I 和 II),分别在位置 174 和 29 处检测到正选择压力。HA 基因在抗原位点 A 和 E 处包含两个新的突变。HA 核苷酸序列与不同疫苗种子的同源性在 77%至 90%之间。对来自不同省和部门的 8 个病毒进行了全基因组序列分析,以鉴定埃及的主要重组株。所有病毒与在德国等国鉴定的 2.3.4.4b 分支的重组株相似。对这些病毒的分析显示出埃及株特有的突变,而不是 2017 年特征化的原始病毒(A/duck/Egypt/F446/2017),具有新的抗病毒耐药性标记 V27A,表明两种株的 M2 蛋白对金刚烷胺的耐药性。结果表明,与 2016 年和 2017 年测序的早期病毒相比,循环 H5N8 病毒的变异性增加。2017 年和 2018 年循环的主要重组病毒源自 2017 年初的一个早期毒株。继续监测禽流感病毒以监测循环病毒的演变非常重要。
