引发2009年流感暴发的H1N1新型流感病毒的研究进展

引起流感世界性大流行的主要原因与流感病毒表面抗原血凝素(HA)和神经氨酸酶(NA)频发的变异有很大关系,抗原的变异使得流感病毒可以逃逸机体的免疫防御,而且使许多应用中的疫苗失去防御效果。综述2009年世界暴发的H1N1新型流感病毒的结构在进化过程中发生的变异,有助于增加人们对流感病毒的了解,从而有效的治疗和预防流感大流行。     

2009年中国流行的甲型流感病毒（H1N1）血凝素特征分析

目的研究甲型流感病毒（H1N1）暴发流行以来中国各地甲型流感病毒血凝素（HA）的特征。方法搜索甲型流感病毒（H1N1）暴发流行以来中国各地报道的血凝素（HA）的氨基酸序列,比较当年不同时期血凝素（HA）的氨基酸序列的变化,并比较2009年报道的血凝素（HA）的氨基酸序列和2008年、2007年报道的血凝素（HA）的氨基酸序列作比较,以分析和前2年血凝素（HA）氨基酸序列相比所发生的变化。结果2009年中国各地甲型流感病毒（H1N1）的血凝素（HA）的氨基酸序列（人源）的同源性为99%-100%,但和2008年以及2007年的同源性非常低,分别为70%-77%和71%-90%。结论2009年暴发流行的甲型流感病毒（H1N1）的血凝素氨基酸序列较往年发生了很大程度的变异,这可能是今年甲型流感病毒（H1N1）暴发流行的主要原因。     

新的猪源性甲型H1N1流感病毒

2009年3月在美国和墨西哥流感样患者的呼吸道标本中鉴定出新的猪源性甲型H1N1流感病毒。该病毒可人一人传播,已蔓延到172个国家和地区。现就猪源性甲型H1N1流感病毒的鉴定、基因组结构特征做一综述。     

抗击甲型H1N1流感大流行第一线的中国企业

自2009年3月18日墨西哥发现人感染甲型H1N1病毒疑似病例以来,一种新的猪源性H1N1型流感病毒开始在墨西哥和美国蔓延开来．并在数周内扩散到很多国家和地区．不断引起人类感染和死亡。伴随着流感疫情在全球范围内的迅速蔓延,6月初,世界卫生组织宣布把甲型H1N1流感警戒级别升至6级．甲型H1N1流感疫情已经发展成为全球性“流感大流行”。甲型H1N1流感疫情成为了全球高度关注的突发公共卫生事件。     

甲型H1N1流感临床特征与诊疗研究

目的:探讨我国本土新型甲型H1N1流感临床特征和诊疗经验.方法:310例新型甲型H1N1流感确诊病例为对象,进行前瞻性临床诊治研究.结果:本组患者以青少年为主,主要症状体征包括发热(98.4％)、咳嗽(85.2％)、咽痛(60.3％)、咽部充血(96.1％)和扁桃体肿大(50.3％).总体预后良好.约20％患者在疾病初期白细胞降低.68.7％患者C-RP升高、75.8％患者血清铁降低.31.3％患者CK升高.危重患者可出现低钾血症.肺部炎症恢复滞后于临床症状恢复.年龄≤10岁和奥司他韦在起病48小时后服用是H1N1流感病毒清除延迟的独立影响因素(P＜0.01).结论:新型甲型H1N1流感发病以青少年为主,多数病情温和,C-反应蛋白和血清铁变化与病程相关,早期服用奥司他韦能较快清除病毒.     

猪源性甲型H1N1流感病毒研究概况

2009年3月在美国和墨西哥流感样患者的呼吸道标本中鉴定出新的猪源性甲型H1N1流感病毒。该病毒可人-人传播,已蔓延到112个国家和地区。为了遏制不断重组或重配的流感病毒,各国学者对甲型H1N1流感病毒的分子生物学特征、复制周期及实验室诊断做了细致的研究,以研发相应的药物或疫苗,这些成就为世界各国防控今年新鉴定的猪源性甲型H1N1流感病毒感染发挥了重要作用。现就猪源性甲型H1N1流感病毒的鉴定、基因组结构特征做一综述。     

新世纪流感大流行的思考

2009年从墨西哥开始暴发了一场席卷全世界的流感疫情．此次大流行的毒株,甲型H1N1病毒,包含了猪源、禽源和人源流感病毒的基因片段．研究该毒株的基因重配、进化历程及其生物学特性,将对防控此次流行具有重要意义．目前,该毒株的遗传进化关系已明确,通过遗传性状分析可获知该毒株可能的生物学性状,但流感大流行动向、毒株遗传变化、毒力及致病性变化仍在密切监控中．流感病毒生态系统具有复杂性,其基因组易突变、易重配、易在自然宿主保存,使得流感大流行存在一定的必然性．正视流感大流行的威胁,积极提高流感病毒在生态系统中的监控,加强流行病学调查,发展疫苗与药物,建立有效公共卫生保障体系,才能降低流感大流行的破坏性．     

H1N1感染背景对H9N2感染家猪的免疫保护作用

为了探索H1N1病毒感染史对H9N2病毒感染家猪的影响,本研究采用H9N2病毒分别感染有/无H1N1病毒感染史的家猪,比较两组家猪鼻腔泄毒滴度及血清转阳情况。研究发现:与无感染背景的家猪相比,H1N1病毒预感染过的家猪在接种了H9N2病毒后未检测到呼吸道泄毒。尽管两组家猪都产生了H9N2抗体,但有H1N1感染史的家猪体内的H1N1抗体水平在H9N2接种后快速显著上升,这些H1N1抗体与H9N2病毒并无血清学交叉反应。本研究提示,在自然界中,H1N1病毒在猪群中的流行极有可能为H9N2病毒在猪中的感染及传播构筑了天然的屏障,从而延缓了H9N2禽流感病毒通过家猪这一宿主获得哺乳动物适应性的进程。     

甲型流感病毒H5N1的系统进化分析简评

美国加州大学Robert G.Wallace,Richard H.Lathrop和Walter M.Fitch等人在2007年3月7日电子版(13日正式出版)的PNAS上发表文章,题目是:甲型流感病毒H5N1的系统进化地理学统计分析学(Astatistical phylogeography of influenza A H5N1)。该文发表以后,国内外流感病毒学者对此发生浓厚的兴趣,提出了一些对该文的评论。采用先进的生物信息学、数学模型等跨学科的先进方法进行病毒学的研究,特别是用来指导传染病预防和控制,是值得提倡和鼓励的,我国科学家应当认真学习;但是任何采用生物信息学方法做出的预测,还须经过病毒学实验研究的验证。以下发表的评述,仅供参考。百家争鸣才有利于科学的进步。     

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。     

Reassortant swine influenza viruses isolated in Japan contain genes from pandemic A(H1N1) 2009

In 2013, three reassortant swine influenza viruses (SIVs)—two H1N2 and one H3N2—were isolated from symptomatic pigs in Japan; each contained genes from the pandemic A(H1N1) 2009 virus and endemic SIVs. Phylogenetic analysis revealed that the two H1N2 viruses, A/swine/Gunma/1/2013 and A/swine/Ibaraki/1/2013, were reassortants that contain genes from the following three distinct lineages: (i) H1 and nucleoprotein (NP) genes derived from a classical swine H1 HA lineage uniquely circulating among Japanese SIVs; (ii) neuraminidase (NA) genes from human‐like H1N2 swine viruses; and (iii) other genes from pandemic A(H1N1) 2009 viruses. The H3N2 virus, A/swine/Miyazaki/2/2013, comprised genes from two sources: (i) hemagglutinin (HA) and NA genes derived from human and human‐like H3N2 swine viruses and (ii) other genes from pandemic A(H1N1) 2009 viruses. Phylogenetic analysis also indicated that each of the reassortants may have arisen independently in Japanese pigs. A/swine/Miyazaki/2/2013 were found to have strong antigenic reactivities with antisera generated for some seasonal human‐lineage viruses isolated during or before 2003, whereas A/swine/Miyazaki/2/2013 reactivities with antisera against viruses isolated after 2004 were clearly weaker. In addition, antisera against some strains of seasonal human‐lineage H1 viruses did not react with either A/swine/Gunma/1/2013 or A/swine/Ibaraki/1/2013. These findings indicate that emergence and spread of these reassortant SIVs is a potential public health risk.     

Close relationship between the 2009 H1N1 virus and South Dakota AIV strains

Although previous publications suggest the 2009 pandemic influenza A (H1N1) virus was reassorted from swine viruses of North America and Eurasia, the immediate ancestry still remains elusive due to the big evolutionary distance between the 2009 H1N1 virus and the previously isolated strains. Since the unveiling of the 2009 H1N1 influenza, great deal of interest has been drawn to influenza, consequently a large number of influenza virus sequences have been deposited into the public sequence databases. Blast analysis demonstrated that the recently submitted 2007 South Dakota avian influenza virus strains and other North American avian strains contained genetic segments very closely related to the 2009 H1N1 virus, which suggests these avian influenza viruses are very close relatives of the 2009 H1N1 virus. Phylogenetic analyses also indicate that the 2009 H1N1 viruses are associated with both avian and swine influenza viruses circulating in North America. Since the migrating wild birds are preferable to pigs as the carrier to spread the influenza viruses across vast distances, it is very likely that birds played an important role in the inter-continental evolution of the 2009 H1N1 virus. It is essential to understand the evolutionary route of the emerging influenza virus in order to find a way to prevent further emerging cases. This study suggests the close relationship between 2009 pandemic virus and the North America avian viruses and underscores enhanced surveillance of influenza in birds for understanding the evolution of the 2009 pandemic influenza.     

Cytokine and chemokine responses in pediatric patients with severe pneumonia associated with pandemic A/H1N1/2009 influenza virus

Severe pneumonia and leukocytosis are characteristic, frequently observed, clinical findings in pediatric patients with pandemic A/H1N1/2009 influenza virus infection. The aim of this study was to elucidate the role of cytokines and chemokines in complicating pneumonia and leukocytosis in patients with pandemic A/H1N1/2009 influenza virus infection. Forty‐seven patients with pandemic A/H1N1/2009 influenza virus infection were enrolled in this study. Expression of interleukin (IL)‐10 (P = 0.027) and IL‐5 (P = 0.014) was significantly greater in patients with pneumonia than in those without pneumonia. Additionally, serum concentrations of interferon‐γ (P = 0.009), tumor necrosis factor‐α (P = 0.01), IL‐4 (P = 0.024), and IL‐2 (P = 0.012) were significantly lower in pneumonia patients with neutrophilic leukocytosis than in those without neutrophilic leukocytosis. Of the five serum chemokine concentrations assessed, only IL‐8 was significantly lower in pneumonia patients with neutrophilic leukocytosis than in those without leukocytosis (P = 0.001). These cytokines and chemokines may play important roles in the pathogenesis of childhood pneumonia associated with A/H1N1/2009 influenza virus infection.     

Phylogenetic analyses of pandemic influenza A (H1N1) virus in university students at Tobetsu, Hokkaido, Japan

Pandemic influenza H1N1 virus (A[H1N1]pdm09) emerged in 2009. To determine the phylogeography of A(H1N1)pdm09 in a single population, 70 strains of the virus were isolated from university students or trainee doctors at Tobetsu, Hokkaido, Japan, between September and December 2009. The nucleotide sequences of the HA1 region of the HA genes and described phylogenetic relationships of the strains circulating among them were analyzed. It was found that the 70 isolates could be phylogenetically separated into three groups and that two epidemics were caused by different groups of the virus. The three groups were also distinguishable from each other by three amino acid changes: A197T, S203T and Q293H. The substitution of S203T, which is located in the antigenic site, suggests antigenic drift of the virus.     

Susceptibility of antiviral drugs against 2009 influenza A (H1N1) virus

The recent outbreak of the novel strain of influenza A (H1N1) virus has raised a global concern of the future risk of a pandemic. To understand at the molecular level how this new H1N1 virus can be inhibited by the current anti-influenza drugs and which of these drugs it is likely to already be resistant to, homology modeling and MD simulations have been applied on the H1N1 neuraminidase complexed with oseltamivir, and the M2-channel with adamantanes bound. The H1N1 virus was predicted to be susceptible to oseltamivir, with all important interactions with the binding residues being well conserved. In contrast, adamantanes are not predicted to be able to inhibit the M2 function and have completely lost their binding with the M2 residues. This is mainly due to the fact that the M2 transmembrane of the new H1N1 strain contains the S31N mutation which is known to confer resistance to adamantanes.