高致病性h5N1波黑分离株致病性和宿主特异性的分子决定因素

Q4 Medicine
T. Goletić, A. Gagić, V. Savić, E. Rešidbegović, Aida Kavazović, E. Šatrović, T. Harder, S. Prašović, H. Beširović, A. Alić
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Viral RNA extracted using QIAamp viral RNA kit and manufacturer’s protocol (QIAGEN®) was used for PCR amplification. cDNA synthesis and PCR amplification of the coding region, using gene specific primer sets (primer sequences available on request), were carried out for all eight viral RNA segments separately. The Prism Big Dye Terminator v1.1 cycle sequencing kit (Applied Biosystems) was used and products were analyzed on an automatic ABI PRISM 3130 genetic analyzer (Applied Biosystems). Nucleotide sequences were analyzed using Bioedit software (v. 7.0.9.0) with an engine based on the ClustalW 1.4 algorithm. MEGA software (v. 4,0), using the neighbor joining tree inference analysis with the Tamura-Nei γ-model, was used to estimate phylogenies and calculate bootstrap values from the nucleotide sequences.Results: Full-length nucleotide sequences of the A/Cygnus olor/BIH/1/2006 (H5N1) strain were deposited in EMBL Nucleotide Sequence Database under accession nos. FN186008 to FN186014 and FM20943. The pathogenicity and host specificity of this strain, as polygenic traits, are determined in silico by the structure of its proteins, especially surface glycoproteins, HA and NA. Multibasic amino acid stretch PQGERRRKKR/GLF, marker of strains highly pathogenic to poultry, was present at the HA cleavage site of BiH strain. The RBS was typical for avian influenza viruses and contained Gln and Gly at positions 238 and 240 (H5 numbering) that is,226 and 228 according to H3 numbering with seven potential glycosylated sites but with increased binding to alpha2-6 sialoglycans thanks to substitutions, as follows, 110N, 171N, 171N, 172A, 205R and 251P. NA structure assigned this strain to the Z genotype, characterized also by the deletion of the five amino acid residues of the NS1 protein (positions 80-84). Amino acid residues, typical for the avian influenza viruses, were revealed in 40 out of 43 positions of M1, M2, NP, PA, PB2 and HA, determining the host range specificity. Phylogenetic analysis of the HA gene revealed that BiH isolates belonged to genetic clade 2.2., and presence of aspartic acid at the position of 403 of HA locate BiH isolates in 2.2.2. sub-clade.Conclusions: The BiH’s isolates were determined as HPAI virus with genes sequences closely related to A/Cygnus olor/Astrakhan/Ast05-2-10/2005 (H5N1). Three residues (M2 - 28V and 78K, NP - 33I), typical of human influenza viruses, were found, indicating a certain degree of intercurrent evolutionary adaptive changes in BiH isolates. 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引用次数: 1

摘要

背景:为应对可能发生的流感大流行,研究流行的H5N1禽流感病毒株的分子特征至关重要。这些H5N1病毒继续传播,感染动物和人类,并不断进化和多样化,从而构成日益逼近的大流行威胁。目的:鉴定波黑地区H5N1型高致病性禽流感分离株的遗传结构和分子生物学特征,并评估其致病性水平、系统发育起源和宿主特异性。材料与方法:采用SPF鸡胚进行病毒分离。采用QIAamp病毒RNA试剂盒和QIAGEN®生产方案提取病毒RNA进行PCR扩增。使用基因特异性引物(引物序列可根据需要提供)分别对所有8个病毒RNA片段进行cDNA合成和编码区PCR扩增。使用Prism Big Dye Terminator v1.1循环测序试剂盒(Applied Biosystems),产品在全自动ABI Prism 3130遗传分析仪(Applied Biosystems)上进行分析。使用Bioedit软件(v. 7.0.9.0)和基于ClustalW 1.4算法的引擎分析核苷酸序列。MEGA软件(v. 4,0)使用Tamura-Nei γ-模型的邻居连接树推理分析,估计系统发育并计算核苷酸序列的bootstrap值。结果:A/Cygnus olor/BIH/1/2006 (H5N1)毒株的全长核苷酸序列已存入EMBL核苷酸序列数据库,登录号为FN186008 ~ FN186014和FM20943。该菌株的致病性和宿主特异性,作为多基因性状,是由其蛋白质,特别是表面糖蛋白,HA和NA的结构决定的。多碱基氨基酸链链PQGERRRKKR/GLF是禽高致病性菌株的标记,存在于波黑病毒HA裂解位点。禽流感病毒的RBS是典型的,在238位和240位(H5编号)含有Gln和Gly,即根据H3编号为226和228,有7个潜在的糖基化位点,但由于替换,与α - 2-6唾液聚糖的结合增加,依次为110N、171N、171N、172A、205R和251P。NA结构将该菌株定位为Z基因型,NS1蛋白的5个氨基酸残基(80-84位)缺失。在M1、M2、NP、PA、PB2和HA的43个位点中,有40个位点显示了禽流感病毒的典型氨基酸残基,确定了宿主范围特异性。HA基因的系统发育分析表明,波黑分离株属于遗传枝2.2。,以及在HA的403位置存在天冬氨酸,在2.2.2中定位hih分离株。sub-clade。结论:波黑分离株为高致病性禽流感病毒,其基因序列与A/Cygnus olor/Astrakhan/Ast05-2-10/2005 (H5N1)密切相关。发现3个典型的人流感病毒残基(M2 - 28V和78K, NP - 33I),表明在波黑分离株中存在一定程度的交叉进化适应性变化。与GenBank中相关序列的HA和NA片段序列比较显示,波黑分离株和来自俄罗斯南部(阿斯特拉罕地区)的分离株在系统发育上聚在一起,在两个基因中形成一个单系簇,表明这些分离株来自同一起源。NA蛋白(E99、V129、D131、R136、H255和Y256)和M2蛋白(26L、27V、30A、S31和G34)的表型标记显示,分离株具有奥司他韦和金刚烷胺敏感基因型。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Molecular determinants of pathogenicity and host specificity of highly pathogenic h5N1 BiH isolates
ABSTRACT Background: Towards preparation for a possible influenza pandemic, investigation of the molecular characteristics of the circulating avian H5N1 influenza virus strains is of crucial importance. These H5N1 viruses continue to spread, to infect animals and humans and to evolve and diversify providing so an ever-looming pandemic threat.Aim: To identify genetic structure and molecular biological characteristics of BiH's isolates of H5N1 HPAI as well as to assess the level of pathogenicity, phylogenetic origin and host- specificity of the isolates.Material and Methods: SPF embryonated chicken eggs were used for virus isolation. Viral RNA extracted using QIAamp viral RNA kit and manufacturer’s protocol (QIAGEN®) was used for PCR amplification. cDNA synthesis and PCR amplification of the coding region, using gene specific primer sets (primer sequences available on request), were carried out for all eight viral RNA segments separately. The Prism Big Dye Terminator v1.1 cycle sequencing kit (Applied Biosystems) was used and products were analyzed on an automatic ABI PRISM 3130 genetic analyzer (Applied Biosystems). Nucleotide sequences were analyzed using Bioedit software (v. 7.0.9.0) with an engine based on the ClustalW 1.4 algorithm. MEGA software (v. 4,0), using the neighbor joining tree inference analysis with the Tamura-Nei γ-model, was used to estimate phylogenies and calculate bootstrap values from the nucleotide sequences.Results: Full-length nucleotide sequences of the A/Cygnus olor/BIH/1/2006 (H5N1) strain were deposited in EMBL Nucleotide Sequence Database under accession nos. FN186008 to FN186014 and FM20943. The pathogenicity and host specificity of this strain, as polygenic traits, are determined in silico by the structure of its proteins, especially surface glycoproteins, HA and NA. Multibasic amino acid stretch PQGERRRKKR/GLF, marker of strains highly pathogenic to poultry, was present at the HA cleavage site of BiH strain. The RBS was typical for avian influenza viruses and contained Gln and Gly at positions 238 and 240 (H5 numbering) that is,226 and 228 according to H3 numbering with seven potential glycosylated sites but with increased binding to alpha2-6 sialoglycans thanks to substitutions, as follows, 110N, 171N, 171N, 172A, 205R and 251P. NA structure assigned this strain to the Z genotype, characterized also by the deletion of the five amino acid residues of the NS1 protein (positions 80-84). Amino acid residues, typical for the avian influenza viruses, were revealed in 40 out of 43 positions of M1, M2, NP, PA, PB2 and HA, determining the host range specificity. Phylogenetic analysis of the HA gene revealed that BiH isolates belonged to genetic clade 2.2., and presence of aspartic acid at the position of 403 of HA locate BiH isolates in 2.2.2. sub-clade.Conclusions: The BiH’s isolates were determined as HPAI virus with genes sequences closely related to A/Cygnus olor/Astrakhan/Ast05-2-10/2005 (H5N1). Three residues (M2 - 28V and 78K, NP - 33I), typical of human influenza viruses, were found, indicating a certain degree of intercurrent evolutionary adaptive changes in BiH isolates. Sequence comparison of HA and NA segments with relevant sequences in GenBank revealed that the BiH isolates and the ones from the southern Russia (Astrakhan region) group together phylogenetically, forming a monophyleticcluster in both genes indicating that these isolates have evolved from the same origin. Sequence derived phenotype markers of NA protein (E99, V129, D131, R136, H255 and Y256) as well as of M2 protein (26L, 27V, 30A, S31 and G34) showed that the isolates have an oseltamivir and amantadine sensitive genotype. 
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Acta Medica Saliniana
Acta Medica Saliniana Medicine-Medicine (all)
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