长沙A(H1N1)亚型季节性流感暴发疫情的实验室诊断及其HA基因特性分析

对2009 年长沙麓山国际学校流感暴发疫情进行实验室诊断, 并探索新分离的A(H1N1)亚型流感病毒血凝素(HA)的基因特性。对流感暴发疫情的25 份鼻/咽拭子标本进行RT-PCR检测和流感病毒分离, 然后利用CEQ?8000 Genetic Analysis System对病毒分离株(A/Yuelu/314/2009)进行测序, 测序结果提交至GenBank(登录号: FJ912843)并用ClustalX和Mega4.1软件进行序列分析。结果显示, 分离出A(H1N1)亚型流感毒株18株, 检出21份A(H1N1)亚型流感病毒核酸阳性; A/Yuelu/314/2009(H1N1) HA基因序列与2008~2009 年疫苗株(A/Brisbane/59/2007)比较显示: 核苷酸和氨基酸同源性均为99%, 有6个位点的氨基酸发生了变异(V148A、S158N、G202A、I203D、A206T、W435R), 其中一个S158N氨基酸变异位于B抗原表位, HA基因序列上共有潜在糖基化位点9 个(27、28、40、71、151、176、303、497、536), 与A/Brisbane/59/2007相同且氨基酸序列保守。本实验诊断出此次流感暴发疫情的病原体为A(H1N1)型季节性流感病毒, 研究还发现A/Yuelu/314/2009(H1N1)长沙分离株与A/Brisbane/59/2007 疫苗株基因序列比较显示并未形成一个新的变种, 推测是由于分离株与疫苗株之间基因特性的改变和人群对A(H1N1)亚型流感病毒免疫力降低导致了此次长沙麓山国际学校A(H1N1)亚型流感的暴发。     

Localization Analysis of Heterophilic Antigen Epitopes of H1N1 Influenza Virus Hemagglutinin

Previous studies have indicated that two monoclonal antibodies(mAbs; A1-10 and H1-84) of the hemagglutinin(HA)antigen on the H1 N1 influenza virus cross-react with human brain tissue. It has been proposed that there are heterophilic epitopes between the HA protein and human brain tissue(Guo et al. in Immunobiology 220:941–946, 2015). However,characterisation of the two mAbs recognising the heterophilic epitope on HA has not yet been performed. In the present study, the common antigens of influenza virus HA were confirmed using indirect enzyme-linked immunosorbent assays and analysed with DNAMAN software. The epitopes were localized to nine peptides in the influenza virus HA sequence and the distribution of the peptides in the three-dimensional structure of HA was determined using PyMOL software. Key amino acids and variable sequences of the antibodies were identified using abYsis software. The results demonstrated that there were a number of common antigens among the five influenza viruses studied that were recognised by the mAbs. One of the peptides, P2(LVLWGIHHP191–199), bound both of the mAbs and was located in the head region of HA. The key amino acids of this epitope and the variable regions in the heavy and light chain sequences of the mAbs that recognised the epitope are described. A heterophilic epitope on H1 N1 influenza virus HA was also introduced. The existence of this epitope provides a novel perspective for the occurrence of nervous system diseases that could be caused by influenza virus infection, which might aid in influenza prevention and control.     

Comparison of the evolution of recent and late phase of old influenza A (H1N1) viruses

A comparison of the evolutionary tree of new influenza A (H1N1) viruses to that of old H1N1 viruses which disappeared in 1957 was performed. The evolutionary trees of the hemagglutinin (HA) molecule based on amino acid sequences of the HA1 polypeptide were constructed with old and new H1N1 viruses isolated from 1947 to 1957 and 1986 to 2000, respectively. The evolutionary history of recent H1N1 viruses was similar to that of old H1N1 viruses just before the disappearance in two respects. Firstly, both viruses did not originate from the viruses of the previous H1N1 epidemic season but originated from the viruses branched off at the same point on the mainstream stem as the viruses of two H1N1 epidemic seasons earlier. Secondly, recent H1N1 viruses mainly circulating in Japan have a deletion at amino acid residue 134, located close to residue 131, which was deleted in old H1N1 viruses at the time of the disappearance. However, different from the evolutionary history of old H1N1 viruses, in the 1999/2000 H1N1 epidemic season, the H1N1 viruses which were located on the same lineage as the previous epidemic viruses were also isolated sporadically in Japan.     

甲型H1N1流感病毒HA蛋白结构和功能研究进展

自2009年3月,甲型H1N1流感疫情相继在包括我国在内的许多国家暴发,对人体健康和社会经济发展造成了严重危害。血凝素（HA）蛋白是重要的病毒表面糖蛋白,主要有3种功能：①与宿主细胞表面受体结合;②引起病毒包膜与靶细胞间的膜融合;③刺激机体产生中和性抗体。本文综合了近年来的研究成果,对甲型H1N1流感病毒HA蛋白结构、主要功能、进化、抗原性的研究进展进行了综述。     

共表达H5N1流感病毒M1和HA基因的DNA疫苗与腺病毒载体疫苗的小鼠免疫评价

为评价在小鼠体内表达流感病毒M1和HA基因诱导的免疫反应,制备共表达H5N1亚型禽流感病毒 (A/Anhui/1/2005) 全长基质蛋白1 (M1) 基因和血凝素 (HA) 基因的重组DNA疫苗pStar-M1/HA和重组腺病毒载体疫苗Ad-M1/HA,将其按初免-加强程序免疫BALB/c小鼠,共免疫4次,每次间隔14 d。第1、3次用DNA疫苗,第2、4次用重组腺病毒载体疫苗,每次免疫前及末次免疫后14 d采集小鼠血清用于检测体液免疫应答,末次免疫后14 d采集小鼠脾淋巴细胞用于检测细胞免疫应答。血凝     

密码子优化的人H5N1流感病毒HA基因在哺乳动物细胞中获得高效表达

为了提高人禽流感病毒血凝素HA的表达量,应对流感大流行疫苗的需求,按照人的偏爱密码子将H5N1(A/Anhui/1/2005)流感病毒的HA基因进行优化改造,经全基因合成后插人到真核表达载体pDC315中,构建了真核表达质粒pDC315-Mod.HA;将此质粒和含野生HA基因的真核表达质粒pDC315-Wt.HA分别转染293T细胞,比较HA蛋白的表达量.结果表明:经间接免疫荧光实验及Western blot实验比较和鉴定,密码子优化后,HA蛋白在293T细胞中的表达水平显著提高,为流感大流行疫苗的研究打下了基础.     

海南省2016-2018年A(H1N1)pdm09亚型流感病毒基因特性分析

2009年A(H1N1)pdm09亚型流感病毒在墨西哥暴发,之后在全世界流行。为了解海南省2016-2018年A(H1N1)pdm09亚型流感病毒流行态势,分析血凝素(HA)与神经氨酸酶(NA)基因遗传进化特征与变异情况,本研究从中国流感监测信息系统获取海南省2016-2018年流感病毒病原学监测数据,选取5家流感监测网络实验室分离鉴定的37株A(H1N1)pdm09亚型流感毒株进行HA与NA基因测序,利用MEGA 10.1.8构建HA与NA基因种系进化树,并分析其氨基酸变异情况。结果显示,2016-2018年共出现3次A(H1N1)pdm09亚型流感病毒活动高峰。2017年10月份以后的分离株(4/8)与2018年大部分分离株(21/22)独立于疫苗株A/Michigan/45/2015聚为一个小支,发生20余处HA与NA氨基酸位点变异。与疫苗株A/California/7/2009(2010-2016)相比,2016-2018年流感病毒分离株在HA基因抗原决定簇上发生7处氨基酸变异并有一个潜在糖基化位点,未发现HA基因受体结合位点变异与NA基因耐药性变异。本研究提示,2016-2018年,A(H1N1)pdm09亚型流感病毒逐步发生规律性进化,氨基酸变异频率有增加趋势,今后应持续加强流感病毒病原学监测,密切追踪A(H1N1)pdm09亚型流感病毒基因变异情况,为科学防控提供理论依据。     

Diagnosis of influenza viruses with special reference to novel H1N1 2009 influenza virus

On 15 April and 17 April 2009, novel swineorigin influenza A (H1N1) virus was identifi ed in specimens obtained from two epidemiologically unlinked patients in the United States. The ongoing outbreak of novel H1N1 2009 influenza (swine influenza) has caused more than 3,99,232 laboratory confi rmed cases of pandemic influenza H1N1 and over 4735 deaths globally. This novel 2009 influenza virus designated as H1N1 A/swine/California/04/2009 virus is not zoonotic swine flu and is transmitted from person to person and has higher transmissibility then that of seasonal influenza viruses. In India the novel H1N1 virus infection has been reported from all over the country. A total of 68,919 samples from clinically suspected persons have been tested for influenza A H1N1 across the country and 13,330 (18.9%) of them have been found positive with 427 deaths. At the All India Institute of Medical Sciences, New Delhi India, we tested 1096 clinical samples for the presence of novel H1N1 influenza virus and seasonal influenza viruses. Of these 1096 samples, 194 samples (17.7%) were positive for novel H1N1 influenza virus and 197 samples (18%) were positive for seasonal influenza viruses. During outbreaks of emerging infectious diseases accurate and rapid diagnosis is critical for minimizing further spread through timely implementation of appropriate vaccines and antiviral treatment. Since the symptoms of novel H1N1 influenza infection are not specifi c, laboratory confi rmation of suspected cases is of prime importance.     

A/H1N1流感—世界关注的焦点

2009年4月,A/H1N1流感在墨西哥和美国暴发。随后,疫情迅速蔓延到美洲、欧洲、亚洲多个国家。A/H1N1流感病毒是一种以前在人或动物身上从未观测到的新病毒。遗传进化和抗原特性分析表明该病毒和猪流感病毒密切相关,与人类的季节性流感病毒有明显区别。但是流行病学信息表明A/H1N1流感病毒只攻击人类,并在人与人之间传播,尚未发现动物向人类传播的情况。本文从A/H1N1流感病毒的生物学特性、临床特征、公共卫生意义等方面全面阐述了A/H1N1流感的最新研究进展,为正确认识和科学防控A/H1N1流感提供参考。     

1981～2005年中国H1N1甲型流感病毒血凝素基因的HA1演变特征

为了解1981~2005年我国H1N1甲型流感病毒血凝素基因的HA1演变特征,选取H1N1甲型流感病毒370株,提取病毒RNA,经逆转录和聚合酶链反应扩增HA1并测序,测定的序列用生物信息软件分析,与GenBank中相关序列比较,并对推导的编码氨基酸序列进行基因特性分析。结果表明:HA1氨基酸的变异表现为抗原决定簇4个区均有变异,Sb区和Ca区变化较大;HA1受体结合位点(RBS)的前壁130环的第134位赖氨酸从1991年起在部分毒株HA1序列上开始缺失,以后缺失株逐步增多,自2000年起测定的所有毒株上该氨基酸全部缺失,同时这些缺失株的第137位氨基酸也全部由苏氨酸替换为丝氨酸;糖基化位点从增多到减少,最后稳定在7个;1981~2004年我国H1N1甲型流感病毒血凝素HA1编码的氨基酸在种系发育树上同年代基本呈现集中分布,与时间和地域无关,2005年毒株分成两个分支在时间上有明显差异。     

Isolation and genetic characterization of avian-like H1N1 and novel ressortant H1N2 influenza viruses from pigs in China

As pigs are susceptible to both human and avian influenza viruses, they have been proposed to be intermediate hosts or mixing vessels for the generation of pandemic influenza viruses through reassortment or adaptation to the mammalian host. In this study, we reported avian-like H1N1 and novel ressortant H1N2 influenza viruses from pigs in China. Homology and phylogenetic analyses showed that the H1N1 virus (A/swine/Zhejiang/1/07) was closely to avian-like H1N1 viruses and seemed to be derived from the European swine H1N1 viruses, which was for the first time reported in China; and the two H1N2 viruses (A/swine/Shanghai/1/07 and A/swine/Guangxi/13/06) were novel ressortant H1N2 influenza viruses containing genes from the classical swine (HA, NP, M and NS), human (NA and PB1) and avian (PB2 and PA) lineages, which indicted that the reassortment among human, avian, and swine influenza viruses had taken place in pigs in China and resulted in the generation of new viruses. The isolation of avian-like H1N1 influenza virus originated from the European swine H1N1 viruses, especially the emergence of two novel ressortant H1N2 influenza viruses provides further evidence that pigs serve as intermediate hosts or “mixing vessels”, and swine influenza virus surveillance in China should be given a high priority.     

Recent avian H5N1 viruses exhibit increased propensity for acquiring human receptor specificity

Adaptation of avian influenza viruses for replication and transmission in the human host is believed to require mutations in the hemagglutinin glycoprotein (HA) which enable binding to human α2-6 sialosides and concomitant reduction in affinity for avian α2-3 linked sialosides. Here, we show by glycan microarray analyses that the two mutations responsible for such specificity changes in 1957 H2N2 and 1968 H3N2 pandemic viruses, when inserted into recombinant HAs or intact viruses of some recent avian H5N1 isolates (clade 2.2), impart such attributes. This propensity to adapt to human receptors is primarily dependent on arginine at position 193 within the receptor-binding site, as well as loss of a vicinal glycosylation site. Widespread occurrence of these susceptible H5N1 clade 2.2 influenza strains has already occurred in Europe, the Middle East, and Africa. Thus, these avian strains should be considered high-risk, because of their significantly lower threshold for acquiring human receptor specificity and, therefore, warrant increased surveillance and further study.     

新甲型H1N1(2009)病毒的早期分子特征

摘要：【目的】本世纪首次流感大流行的病原属于甲型H1N1流感病毒,在遗传特性和抗原等方面都有别于人群中流行多年的季节性H1N1流感病毒。为了深入了解病毒的遗传特性,跟踪病毒的演化趋势,及时发现具有流行病学意义的变异株,本研究对早期分离的甲型H1N1(2009)病毒的分子特性进行了详细分析。【方法】通过GenBank的流感资源中心下载相关毒株的基因组信息, 序列分析采用DNAStar软件包的EditSeq和MegAlign比较与病毒致病性和宿主特异性相关的氨基酸变化情况。以A/California/07/2009（H1N1）作为新甲型H1N1(2009)的代表株进行详细的分子特征分析。【结果】A/California/07/2009不具备高致病性流感病毒的分子特征;病毒编码的11个蛋白大部分保留有猪流感病毒的分子特征,同时也具有一些禽和人流感病毒的特征;PB1-F2在11aa,57aa和87aa后发生断裂,具有古典猪H1N1和人H1N1双重特点,这是甲型H1N1（2009）病毒一个特有的分子特征。【结论】首次详细分析了新甲型H1N1（2009）病毒的分子特征。随着病毒在人群中的进一步适应和持续存在,这些分子特征将发生变化,应该特别关注这些变化对病毒的传播力和致病性的影响。     

Hemagglutinin and neuraminidase matching patterns of two influenza A virus strains related to the 1918 and 2009 global pandemics

The current pandemic influenza A (H1N1) virus has revealed a complicated reassortment of various influenza A viruses. The biological study of these viruses, especially of the viral envelope proteins hemagglutinin (HA) and neuraminidase (NA), is urgently needed for the control and prevention of H1N1 viruses. We have generated H1N1-2009 and H1N1-1918 pseudotyped particles (pp) with high infectivity. Combinations of HA1918 + NA2009 and HA2009 + NA1918 also formed infectious H1N1pps, among which the HA2009 + NA1918 combination resulted in the most highly infectious pp. Our study demonstrated that some reassortments of H1N1 viruses may hold the potential to produce higher infectivity than do their ancestors.     

新甲型H1N1流感病毒小鼠致死模型的建立

建立新甲型H1N1流感病毒小鼠致死模型,为研究致病性、宿主适应性以及疫苗保护性提供动物模型,并寻找病毒在适应宿主过程中影响毒力和适应性的关键位点。将新甲型H1N1流感病毒A/四川/SWL1/2009 H1N1在小鼠中连续传15代,各代次毒株均在MDCK细胞上增殖后进行测序,根据序列分析结果选择6个传代毒株感染小鼠,连续监测14 d体重和死亡情况;并对第14代和15代病毒在噬斑实验纯化后克隆和测序分析。原代病毒不致死BABL/C小鼠,经动物体内连续传代适应宿主动物后,其毒力增强,具体表现为所选的6个传代毒株中第7、11、15代毒株可以100%致死试验小鼠;分析这6个传代毒株的全基因组表明这些毒株的部分氨基酸位点发生突变。新甲型H1N1流感病毒经小鼠体内连续传代后,建立了小鼠致死模型,病毒毒力增强可能与某些氨基酸位点的改变有关。     

Influenza A: From highly pathogenic H5N1 to pandemic 2009 H1N1. Epidemiology and clinical features

The last decade has seen the emergence of two new influenza A subtypes and they have become a cause of concern for the global community. These are the highly pathogenic H5N1 influenza A virus (H5N1) and the Pandemic 2009 influenza H1N1 virus. Since 2003 the H5N1 virus has caused widespread disease and death in poultry, mainly in south East Asia and Africa. In humans the number of cases infected with this virus is few but the mortality has been about 60%. Most patients have presented with severe pneumonia and acute respiratory distress syndrome. The second influenza virus, the pandemic H1N1 2009, emerged in Mexico in March this year. This virus acquired the ability for sustained human to human spread and within a few months spread throughout the world and infected over 4 lakh individuals. The symptoms of infection with this virus are similar to seasonal influenza but it currently affecting younger individuals more often. Fortunately the mortality has been low. Both these new influenza viruses are currently circulating and have different clinical and epidemiological characteristics.     

Oseltamivir boosts 2009 H1N1 virus infectivity in vitro

The neuraminidase inhibitor oseltamivir has been identified to have significant anti-influenza activity in clinical practice. However, its efficacy has not been verified in enough subtypes of influenza A virus, particularly, the current pandemic virus, H1N1. In vitro, using our influenza pseudotyped particle system, oseltamivir displayed significant inhibitory effects on viral NA activity and pp release. Conversely, a boosting effect on viral infection was observed, particularly with the 2009 H1N1 pp at oseltamivir concentrations above 0.025 μM. Further testing on two wild 2009 H1N1 virus strains, A/California/07/09 and A/Sichuan/1/09, as well as a seasonal flu virus, A/Baoan/51/2008, confirmed these findings.     

Analysis of synonymous codon usage bias in 09H1N1

A novel subtype of influenza A virus 09H1N1 has rapidly spread across the world. Evolutionary analyses of this virus have revealed that 09H1N1 is a triple reassortant of segments from swine, avian and human influenza viruses. In this study, we investigated factors shaping the codon usage bias of 09H1N1 and carried out cluster analysis of 60 strains of influenza A virus from different subtypes based on their codon usage bias. We discovered that more preferentially used codons of 09H1N1 are A-ended or U-ended, and the intra-genomic codon usage bias of 09H1N1 is quite low. Base composition constraint, dinucleotide biases and translational selection are the main factors influencing the codon usage bias of 09H1N1. At the genome level, we find that the codon usage bias of 09H1N1 is similar to H1N1 (A/swine/Kansas/77778/2007H1N1), H9N2 from Asia, H1N2 from Asia and North America and H3N2 from North America. Our results provide insight for understanding the processes governing evolution, regulation of gene expression, and revealing the evolution of 09H1N1.     

Epidemiology and Genotypic Diversity of Eurasian Avian-Like H1N1 Swine Influenza Viruses in China

Eurasian avian-like H1 N1(EA H1 N1) swine influenza virus(SIV) outside European countries was first detected in Hong Kong Special Administrative Region(Hong Kong, SAR) of China in 2001. Afterwards, EA H1 N1 SIVs have become predominant in pig population in this country. However, the epidemiology and genotypic diversity of EA H1 N1 SIVs in China are still unknown. Here, we collected the EA H1 N1 SIVs sequences from China between 2001 and 2018 and analyzed the epidemic and phylogenic features, and key molecular markers of these EA H1 N1 SIVs. Our results showed that EA H1 N1 SIVs distributed in nineteen provinces/municipalities of China. After a long-time evolution and transmission, EA H1 N1 SIVs were continuously reassorted with other co-circulated influenza viruses, including 2009 pandemic H1 N1(A(H1 N1)pdm09), and triple reassortment H1 N2(TR H1 N2) influenza viruses, generated 11 genotypes. Genotype 3 and 5, both of which were the reassortments among EA H1 N1, A(H1 N1)pdm09 and TR H1 N2 viruses with different origins of M genes, have become predominant in pig population. Furthermore, key molecular signatures were identified in EA H1 N1 SIVs. Our study has drawn a genotypic diversity image of EA H1 N1 viruses, and could help to evaluate the potential risk of EA H1 N1 for pandemic preparedness and response.     

Analysis of Synonymous Codon Usage Bias in 09H1N1

A novel subtype of influenza A virus 09H1N1 has rapidly spread across the world. Evolutionary analyses of this virus have revealed that 09H1N1 is a triple reassortant of segments from swine, avian and human influenza viruses. In this study, we investigated factors shaping the codon usage bias of 09H1N1 and carried out cluster analysis of 60 strains of influenza A virus from different subtypes based on their codon usage bias. We discovered that more preferentially used codons of 09H1N1 are A-ended or U-ended...