2021-2022监测年度枣庄市乙型流感病毒Victoria系全基因组测序分析

为了解山东省枣庄市2021-2022监测年度乙型流感病毒Victoria系的流行情况,分析病毒全基因组遗传特征,了解病毒进化变异特点,分析与疫苗株的相似程度,为流感的防控提供参考依据。从枣庄市流感监测网络实验室分离的流感毒株中随机选取10株B/Victoria系毒株,以WHO推荐的B/Victoria流感疫苗株B/Washington/02/2019(2020-2022北半球疫苗代表株)为参考进行全基因序列测定,利用生物信息学软件构建进化树,并分析分子进化特征。2021年4月-2022年3月,枣庄市流感病毒监测阳性率为17.03%(202/1186),均为B/Victoria系流感。将枣庄市分离的10株B/Victoria系毒株序列与北半球疫苗代表株B/Washington/02/2019相比血凝素（Hemagglutinin,HA）基因核苷酸同源性为99.5%～100%,HA基因氨基酸同源性为99.7%～100%;HA进化树分析中,该10株B/Victoria系毒株与疫苗代表株B/Washington/02/2019同属于1A分支;但发现已有5处抗原表位突变,均发生在120-loop...     

2011～2012年度中国B型流感病毒病原学特征分析

为了解本监测年度我国B型流感病毒的流行特点,明确流行株与国际疫苗株和国内代表株的匹配情况,本文对2011年4月至2012年3月流感监测年度中国大陆流感监测网络分离的B型流感毒株进行了抗原性和基因特性研究。结果表明2011年4月至2012年3月我国大陆B型流感病毒主要以Victoria系流感病毒为主,Victoria系病毒主要位于分支1,并且存在着HA1与NA基因分支间的重配,但不同分支间抗原性无显著差异,72.8%的病毒与本年度使用的疫苗株B/Brisbane/60/2008疫苗株抗原性类似。本监测年度疫苗组分中不含有Yamagata系组分,大部分Yamagata系流感病毒中与国内代表株B/湖北伍家岗/158/2009(97.8%)和B/四川安岳/139/2011(85.2%)抗原性类似;基因特性分析显示绝大部分流行的B型Yamagata系流感病毒均与B/湖北伍家岗/158/2009和B/四川安岳/139/2011在同一分支,且没有发现HA1与NA基因分支间重配的病毒。上述监测结果表明本年度所使用的疫苗株与我国流行的病毒匹配,我们所筛选的国内代表株能够代表我国各地流行株的病原学特征。     

2021-2022年嘉兴市乙型流感病毒序列进化分析

本研究分析了嘉兴市2021-2022年乙型流感病毒基因进化特征。首先采集2021-2022年嘉兴市流感样病例咽拭子标本进行流感病毒核酸检测、病毒分离。然后从嘉兴市2021-2022年流感分离株中共选取27株乙型流感病毒代表毒株进行全基因组高通量测序。最后利用生物信息学软件从核苷酸、氨基酸及分子层面对流感毒株进行分子特征分析。2021年嘉兴市共检测1362例流感样病例标本,阳性标本数98例,阳性率为7.20%,均为乙型流感病毒Victoria系（Influenza B virus Lineage Victoria, BV）。2022年嘉兴市共检测1318例流感样病例标本,阳性标本数335例,其中BV系89例,阳性率为6.75%,H3N2亚型246例,阳性率为18.66%。与疫苗株相比,2021年血凝素（haemagglutinin,HA）核苷酸与氨基酸序列相似性为98.92%±0.24%、98.55%±0.21%,神经氨酸酶（neuraminidase,NA）核苷酸与氨基酸序列相似性为99.25%±0.13%、99.37%±0.22%;2022年HA核苷酸与氨基酸序列相似性为99.12%...     

2010?2011年全球季节性H3N2流感病毒表面蛋白基因的分子遗传特性分析

[目的]分析2010年1月至2011年9月间全球季节性H3N2流感病毒血凝素(Hemagglutinin,HA)和神经氨酸酶(Neuraminidase,NA)基因的演变和分子特征,为流感病毒的防制提供分子信息依据.[方法]搜集期间季节性H3N2流感病毒HA和NA基因的完整核苷酸序列,分别绘制两基因编码序列的进化树;推导出相应的氨基酸序列,统计不同毒株间氨基酸位点差异并分析重要功能位点的变化.[结果]在136条完整的片段4和131条片段6中,2条HA和l条NA序列源自猪群流感病毒,剩余的序列根据进化特征可被分为两群.相比疫苗毒株,发生在HA和NA蛋白抗原位点的平均差异数分别为5.33和2.01个,3个毒株分别在HA宿主受体结合位点和二硫键及NA耐药位点出现突变,多数毒株的糖基化位点增多.江苏毒株和广东毒株分别属于群l和群2,且两省毒株间在HA蛋白抗原位点的差异数从7到13个不等.[结论]2010年1月至2011年9月间的全球季节性H3N2病毒主要呈现两种基因进化特征.因抗原性差异对疫苗开发具有指导作用,而多数毒株的抗原性检测信息仍然未知,但从抗原位点和糖基化位点的变异情况来看,多数毒株的抗原性可能已经变化,为判断是否形成新的流行株,应开展进一步的抗原性检测;并且各地区卫生行政部门应根据耐药位点的变化,制定相应的抗病毒治疗措施.     

广州2006年乙型流感病毒血凝素和神经氨酸酶基因特性分析

为了解2006年广州地区流行的乙型流感病毒株血凝素(HA)和神经氨酸酶(NA)的基因特性,选择病原学监测病毒株和暴发性疫情病毒株,提取病毒RNA并逆转录为cDNA,通过PCR方法扩增乙型流感病毒HA和NA全长基因,将扩增的DNA片段接入T-A克隆载体进行测序,并使用DNAStar软件对测序结果进行分析。结果显示:不同来源的流感病毒株HA的同源性为99%以上,都属于Victoria系;不同来源的病毒株NA同源性为98%以上。HA和NA的种系发生树分析表明:病原学监测毒株同源性更接近,而暴发性疫情毒株的同源性则相对较为分散。所有毒株与WHO推荐的2005~2006年度疫苗株B/Shanghai/361/2002的同源性只有88.9%~89.7%,说明该年度的流感疫苗对乙型流感不能提供最佳的保护。     

2008～2009年珠海市H3N2亚型流感病毒HA1基因特性分析

为了解2008~2009年珠海市H3N2亚型流感病毒HA1基因变异情况,选择珠海市2008~2009年期间不同时间点的经狗肾传代细胞(MDCK)培养分离的H3N2亚型流感毒株20株,提取病毒RNA,通过RT-PCR扩增HA1基因片段,将产物纯化并测序,推导氨基酸序列,进行基因进化特性分析。与同时期的疫苗株比较,2008年珠海市流行的H3N2亚型流感毒株HA1区抗原决定簇的氨基酸位点变异数少于4个;2009年珠海市流行的H3N2亚型流感毒株除09-0056外,HA1区存在5个位于抗原决定簇内的变异氨基酸位点。2008年H3N2亚型流感毒株的HA1区的糖基化位点与疫苗株一致;2009年H3N2亚型流感毒株HA1区丢失第144位糖基化位点。2008~2009年H3N2亚型流感毒株RBS氨基酸序列未见明显变异。与2008年H3N2亚型流感毒株比较,2009年H3N2亚型流感毒株HA1区抗原决定簇内存在多个位点的氨基酸替换。这些说明2008年珠海市流行的H3N2亚型流感病毒不是新变种;2009年流行的H3N2亚型流感病毒为新的变异株,这可能是H3N2亚型流感病毒在2009年6-9月为珠海地区季节性流感流行优势株的原因。     

2009−2015年中国甲型H1N1流感病毒血凝素基因进化分析

【目的】为了解中国地区2009?2015年甲型H1N1流感病毒流行态势,分析血凝素(Hemagglutinin,HA)基因的变异情况及其遗传进化特征。【方法】汇集国家流感中心2009?2015年流感周报的流感流行数据,分析甲型H1N1流感的流行病学特征;从全球共享禽流感数据倡议组织数据库及美国国家生物技术中心数据库下载甲型H1N1流感病毒HA基因序列,采用生物学软件进行系统进化和遗传特性的分析。【结果】2009?2015年全国共发生4次甲型H1N1流感的流行高峰。2009?2015年毒株与参考毒株A/California/07/2009(H1N1)的HA基因同源性逐年降低。遗传进化分析显示同一年份的毒株在系统进化树上基本呈现集中分布,2011年的毒株独立形成2个分支。分子特征表现为HA基因的4个抗原决定簇氨基酸位点均有变异,其中Ca区的203位、Sa区的163位和Sb区的185位氨基酸位点逐渐替换为新的氨基酸。除2010年与2012年,其他年份的毒株通过不同模型均得到正向压力选择HA氨基酸位点240。【结论】甲型H1N1流感在中国地区成为主要流行的亚型之一。HA基因与其编码的氨基酸逐年变异,未来进一步的流感监测能力还需加强。     

广东地区1996年流感暴发的分子变异基础

1996年广东地区流感毒株发生明显的血清学抗原漂移;引起广东地区流感暴发的分子基础是流感毒株HA基因编码的A、B、C、D和E五个抗原决定簇位点变异,尤其是A、C、E位点发生氨基酸改变;而受体结合位点的氨基酸改变对此流感流行未发挥明显影响。HA基因编码氨基酸的第145号和第193号位点变异导致流行毒株的生物学特性改变,即分离毒株适应于MDCK细胞株生长,而难以适应鸡胚生长环境。     

广东地区1996年流感暴发的分子变异基础

1996年广东地区流感毒株发生明显的血清学抗原漂移;引起广东地区流感暴发的分子基础是流感毒株HA基因编码的A、B、C、D和E五个抗原决定簇位点变异,尤其是A、C、E位点发生氨基酸改变;而受体结合位点的氨基酸改变对此流感流行未发挥明显影响。HA基因编码氨基酸的第145号和第193号位点变异导致流行毒株的生物学特性改变,即分离毒株适应于MDCK细胞株生长,而难以适应鸡胚生长环境。     

Molecular Epidemiology and Phylogenetic Analyses of Influenza B Virus in Thailand during 2010 to 2014

Influenza B virus remains a major contributor to the seasonal influenza outbreak and its prevalence has increased worldwide. We investigated the epidemiology and analyzed the full genome sequences of influenza B virus strains in Thailand between 2010 and 2014. Samples from the upper respiratory tract were collected from patients diagnosed with influenza like-illness. All samples were screened for influenza A/B viruses by one-step multiplex real-time RT-PCR. The whole genome of 53 influenza B isolates were amplified, sequenced, and analyzed. From 14,418 respiratory samples collected during 2010 to 2014, a total of 3,050 tested positive for influenza virus. Approximately 3.27% (471/14,418) were influenza B virus samples. Fifty three isolates of influenza B virus were randomly chosen for detailed whole genome analysis. Phylogenetic analysis of the HA gene showed clusters in Victoria clades 1A, 1B, 3, 5 and Yamagata clades 2 and 3. Both B/Victoria and B/Yamagata lineages were found to co-circulate during this time. The NA sequences of all isolates belonged to lineage II and consisted of viruses from both HA Victoria and Yamagata lineages, reflecting possible reassortment of the HA and NA genes. No significant changes were seen in the NA protein. The phylogenetic trees generated through the analysis of the PB1 and PB2 genes closely resembled that of the HA gene, while trees generated from the analysis of the PA, NP, and M genes showed similar topology. The NS gene exhibited the pattern of genetic reassortment distinct from those of the PA, NP or M genes. Thus, antigenic drift and genetic reassortment among the influenza B virus strains were observed in the isolates examined. Our findings indicate that the co-circulation of two distinct lineages of influenza B viruses and the limitation of cross-protection of the current vaccine formulation provide support for quadrivalent influenza vaccine in this region.     

Differing Epidemiological Dynamics of Influenza B Virus Lineages in Guangzhou,Southern China, 2009-2010

The epidemiological and evolutionary dynamics of the two cocirculating lineages of influenza B virus, Victoria and Yamagata, are poorly understood, especially in tropical or subtropical areas of Southeast Asia. We performed a phylogenetic analysis of the hemagglutinin (HA) and neuraminidase (NA) sequences of influenza B viruses isolated in Guangzhou, a southern Chinese city, during 2009 to 2010 and compared the demographic and clinical features of infected patients. We identified multiple viral introductions of Victoria strains from both Chinese and international sources, which formed two phylogenetically and antigenically distinct clades (Victoria 1 and 2), some of which persisted between seasons. We identified one dominant Yamagata introduction from outside China during 2009. Our phylogenetic analysis reveals the occurrence of reassortment events among the Victoria and Yamagata lineages and also within the Victoria lineage. We found no significant difference in clinical severity by influenza B lineage, with the exceptions that (i) the Yamagata lineage infected older people than either Victoria lineage and (ii) fewer upper respiratory tract infections were caused by the Victoria 2 than the Victoria 1 clade. Overall, our study reveals the complex epidemiological dynamics of different influenza B lineages within a single geographic locality and has implications for vaccination policy in southern China.     

Heterogeneous Selective Pressure Acting on Influenza B Victoria- and Yamagata-Like Hemagglutinins

As a consequence of immune pressure, influenza virus hemagglutinin presents some of its amino acids under positive selection. Several authors have reported the existence of influenza A hemagglutinin codons under positive selective pressure (PSP). In this framework, the present work objectives were to demonstrate the presence of PSP and evaluate its effects on Victoria- and Yamagata-like influenza B viruses. Methodology adopted consisted in estimating the acceptance rate of nonsynonymous substitutions (ω = d_N/d_S) that describe the strength of selective pressure and identifying codons that may be positively selected, applying a set of continuous-time Markov chain codon-substitution models. Two groups of HA1 sequences (140 from Yamagata and 60 from Victoria lineage) were used. All the model maximum-likelihood estimates were obtained using codeml software application (PAML 3.15). The hypothesis of no existence of sites under PSP was rejected for both lineages (p < 0.001), using likelihood ratio tests. These results demonstrate the presence of positive selection acting on hemagglutinin of both Yamagata- and Victoria-like influenza B viruses. Several different sites were identified to be under PSP on Yamagata and Victoria hemagglutinins. Sites found with a posterior probability > 0.95 were codons 197 and 199 in both lineages, codon 75 in the Yamagata lineage, and codon 129 in the Victoria lineage. The detected amino acids are located at or near antigenic sites in influenza A virus H3 hemagglutinin. Electronic supplementary material  The online version of this article (doi:) contains supplementary material, which is available to authorized users.     

Spatial,Temporal and Genetic Dynamics Characteristics of Influenza B Viruses in China, 1973–2018

Annual influenza B virus epidemics and outbreaks cause severe influenza diseases in humans and pose a threat to public health. China is an important epidemic area of influenza B viruses. However, the spatial, temporal transmission pathways and the demography history of influenza B viruses in China remain unknown. We collected the haemagglutinin gene sequences sampled of influenza B virus in China between 1973 and 2018. A Bayesian Markov chain Monte Carlo phylogeographic discrete approach was used to infer the spatial and temporal phylodynamics of influenza B virus. The Bayesian phylogeographic analysis of influenza B viruses showed that the North subtropical and South subtropical zones are the origins of the Victoria and Yamagata lineage viruses, respectively. Furthermore, the South temperate and North subtropical zones acted as transition nodes in the Victoria lineage virus dispersion network and that the North subtropical and Mid subtropical zones acted as transition nodes in the Yamagata lineage virus dispersion network. Our findings contribute to the knowledge regarding the spatial and temporal patterns of influenza B virus outbreaks in China.     

Epidemiological and Evolutionary Dynamics of Influenza B Viruses in Malaysia, 2012-2014

Epidemiological and evolutionary dynamics of influenza B Victoria and Yamagata lineages remained poorly understood in the tropical Southeast Asia region, despite causing seasonal outbreaks worldwide. From 2012–2014, nasopharyngeal swab samples collected from outpatients experiencing acute upper respiratory tract infection symptoms in Kuala Lumpur, Malaysia, were screened for influenza viruses using a multiplex RT-PCR assay. Among 2,010/3,935 (51.1%) patients infected with at least one respiratory virus, 287 (14.3%) and 183 (9.1%) samples were tested positive for influenza A and B viruses, respectively. Influenza-positive cases correlate significantly with meteorological factors—total amount of rainfall, relative humidity, number of rain days, ground temperature and particulate matter (PM10). Phylogenetic reconstruction of haemagglutinin (HA) gene from 168 influenza B viruses grouped them into Yamagata Clade 3 (65, 38.7%), Yamagata Clade 2 (48, 28.6%) and Victoria Clade 1 (55, 32.7%). With neuraminidase (NA) phylogeny, 30 intra-clade (29 within Yamagata Clade 3, 1 within Victoria Clade 1) and 1 inter-clade (Yamagata Clade 2-HA/Yamagata Clade 3-NA) reassortants were identified. Study of virus temporal dynamics revealed a lineage shift from Victoria to Yamagata (2012–2013), and a clade shift from Yamagata Clade 2 to Clade 3 (2013–2014). Yamagata Clade 3 predominating in 2014 consisted of intra-clade reassortants that were closely related to a recent WHO vaccine candidate strain (B/Phuket/3073/2013), with the reassortment event occurred approximately 2 years ago based on Bayesian molecular clock estimation. Malaysian Victoria Clade 1 viruses carried H274Y substitution in the active site of neuraminidase, which confers resistance to oseltamivir. Statistical analyses on clinical and demographic data showed Yamagata-infected patients were older and more likely to experience headache while Victoria-infected patients were more likely to experience nasal congestion and sore throat. This study describes the evolution of influenza B viruses in Malaysia and highlights the importance of continuous surveillance for better vaccination policy in this region.     

Evolution of Influenza B Virus in Kuala Lumpur,Malaysia, between 1995 and 2008

Influenza B virus causes significant disease but remains understudied in tropical regions. We sequenced 72 influenza B viruses collected in Kuala Lumpur, Malaysia, from 1995 to 2008. The predominant circulating lineage (Victoria or Yamagata) changed every 1 to 3 years, and these shifts were associated with increased incidence of influenza B. We also found poor lineage matches with recommended influenza virus vaccine strains. While most influenza B virus lineages in Malaysia were short-lived, one circulated for 3 to 4 years.     

2017–2019年我国南方地区高致病性H5N6亚型禽流感病毒血凝素蛋白分子特征分析

【背景】自2014年以来,H5N6禽流感病毒在我国家禽和活禽市场持续进化,成为人类和动物健康的重大威胁。【目的】对2017-2019年中国南方地区93株高致病性H5N6禽流感病毒的HA基因进行分子进化分析。【方法】接种9-11日龄鸡胚分离核酸检测阳性的H5N6标本,运用下一代测序平台对病毒分离物进行全基因组测序,从NCBI和GISAID数据库下载参考序列,利用BLAST、MEGA6.1及Clustal X等软件进行序列分析。【结果】2017-2019年,从189份江苏省H5亚型禽类/环境标本和1名H5N6患者咽拭子标本中共分离到43株病毒,完成了33株H5N6病毒的全基因组测序。下载网上同时期中国其他地区流行的H5N6毒株序列,对总计93株H5N6病毒的HA基因进行分子进化分析。93株H5N6病毒中有78株属于Clade 2.3.4.4h,9株病毒属于Clade 2.3.4.4e,4株H5N6病毒属于Clade 2.3.4.4b,1株属于Clade 2.3.4.4f,1株属于Clade 2.3.4.4g。所有93株病毒HA蛋白的裂解位点含有多个碱性氨基酸,表明它们都属于高致病性禽流感病毒。所有93株病毒HA蛋白的Q222和G224位氨基酸没有发生突变,保留了禽类受体α2-3半乳糖苷唾液酸(SAα2-3Gal)结合特性;158位点丧失糖基化,同时124位出现一个新的潜在糖基化位点。【结论】2017-2019年间中国南方地区H5N6病毒进化活跃,具有明显的基因多样性,需要加强对病毒分子进化的监测。     

A monoclonal antibody targeting a highly conserved epitope in influenza B neuraminidase provides protection against drug resistant strains

All influenza viral neuraminidases (NA) of both type A and B viruses have only one universally conserved sequence located between amino acids 222–230. A monoclonal antibody against this region has been previously reported to provide broad inhibition against all nine subtypes of influenza A NA; yet its inhibitory effect against influenza B viral NA remained unknown. Here, we report that the monoclonal antibody provides a broad inhibition against various strains of influenza B viruses of both Victoria and Yamagata genetic lineage. Moreover, the growth and NA enzymatic activity of two drug resistant influenza B strains (E117D and D197E) are also inhibited by the antibody even though these two mutations are conformationally proximal to the universal epitope. Collectively, these data suggest that this unique, highly-conserved linear sequence in viral NA is exposed sufficiently to allow access by inhibitory antibody during the course of infection; it could represent a potential target for antiviral agents and vaccine-induced immune responses against diverse strains of type B influenza virus.