在疫苗免疫选择压力下H9N2亚型禽流行性感冒病毒HA基因的遗传变异

为了解H9N2亚型禽流行性感冒(流感)病毒在同亚型灭活疫苗的选择压力下的遗传变异情况,对某鸡场的感染鸡群进行连续4年的跟踪监测,对使用疫苗前和持续使用疫苗后不同时段分离到的H9N2亚型禽流感病毒的HA基因进行全序列分析.结果表明,在使用第一次分离的病毒株制备的疫苗后8个月分离到的病毒株,其HA基因仅发生一个氨基酸的差异;但在继续使用该疫苗的第二个和第三个年头分离的病毒株,它们的HA基因则一直在发生较大的变化.这一发现对进一步研究禽流感病毒在不断使用疫苗的选择压力下发生变异的规律,指导制定正确的禽流感防制对策具有重要意义.     

一株H3N2亚型猪流感病毒广东分离株的基因组序列分析

从广东省疑似流感发病猪分离到1株H3N2亚型猪流感病毒(A/Swine/Guangdong/01/2005(H3N2)),对其各个基因进行克隆与测序,并与GenBank中收录的其它猪流感、禽流感和人流感的相关基因进行比较,结果表明,HA全基因与广东2003~2004年分离的H3N2猪流感毒株的核苷酸序列同源性在99%以上,与纽约90年代末分离的H3N2人流感毒株同源性在98.5%以上;NA基因与纽约1998~2000年分离的H3N2人流感毒株的核苷酸序列同源性在99%以上;NS基因、M基因的核苷酸序列与H1N1亚型猪流感毒株A/swine/HongKong/273/1994(H1N1)的核苷酸序列同源性较高,分别为97.9%、98.4%,与美洲A/swine/Iowa/17672/1988(H1N1)的核苷酸序列同源性分别为96.7%、97.1%;其他基因的核苷酸序列与H3N2人流感毒株具有很高的同源性。因此,推测其M和NS基因来源于H1N1亚型猪流感病毒,HA、NA及其他基因均来源于H3N2亚型人流感病毒。表明此H3N2亚型猪流感病毒为H3N2亚型人流感病毒和H1N1亚型猪流感病毒经基因重排而得到的重组病毒。     

表达H3N2亚型猪流感病毒血凝素蛋白的重组腺病毒在猪体内的免疫试验

摘要:【目的】本研究旨在评价表达H3N2亚型猪流感病毒血凝素蛋白的重组腺病毒在猪体内的免疫效果。【方法】以10-8 TCID50、2×10-8 TCID50和4×10-8 TCID50的剂量经肌肉注射接种后2到6周每周检测血凝抑制（HI）抗体;比较肌肉注射、滴鼻、灌胃三种接种途径对仔猪免疫效果的影响,并通过攻毒保护试验进一步考察重组腺病毒rAd-HA-GFP在猪体内的免疫效力。【结果】以不同的剂量分别经肌肉注射免疫后, HI抗体水平与接种剂量呈正相关。三种接种途径均能刺激仔猪产生特异性抗体,肌肉注射组的HI抗体要高于其他两组,差异显著（P<0.01）。通过滴鼻和肌注注射方式进行攻毒后,阴性对照组仔猪在攻毒2d后出现体温升高、打喷嚏、咳嗽、流鼻液、精神沉郁、体重减轻等症状;而各免疫组仔猪未观察到明显的临床症状,各免疫组的病毒分离率也明显低于阴性对照组。【结论】重组腺病毒rAd-HA-GFP诱导的HI抗体达到1:320可以有效抵抗H3N2亚型猪流感病毒的侵袭,可以作为候选疫苗株。     

鸡源H9N2亚型流行性感冒病毒神经氨酸酶基因序列分析

对1996～2001年间自中国部分养鸡场发病鸡或死亡鸡分离鉴定的8株H9N2亚型禽流感病毒的神经氨酸酶基因(NA),进行了扩增和序列测定,并分析和比较了其核苷酸和氨基酸的同源性.结果表明,NA基因核苷酸和氨基酸同源性分别为97.1%～99.8%和95.7%～99.7%,说明NA基因稳定遗传,高度保守.与A/chicken/HongKong/G9/97相比较,发现中国大陆鸡源H9N2分离株的神经氨酸酶蛋白在其茎部的第63、64、65位点上都有3个氨基酸的丢失,而与中国邻近的韩国、巴基斯坦鸡源H9N2分离株的神经氨酸酶没有氨基酸的丢失,因此这些部位的氨基酸丢失可初步认为是中国大陆H9N2流感病毒分离株的一个标记.系统进化树分析表明,该8株病毒的NA基因属于相同的进化分支,即A/duck/HongKong/Y280/97-like分支,尚未发现NA基因属于A/quail/HongKong/G1/97-like分支的分离株.中国的H9N2分离株与韩国、巴基斯坦等地的H9N2分离株隶属于不同的进化亚分支,说明H9N2亚型禽流感的发生与流行和地域有一定的相关性.     

H3N2亚型猪流感病毒的拯救及HA与NA基因的替换

摘要：【目的】为研究流感病毒突破种间屏障分子机制,筛选流感基因工程疫苗株。【方法】本实验以猪流感病毒A/Swine/Henan/S4/01(H3N2)为亲本株,利用反向遗传学操作技术,采用RT-PCR技术对该病毒的8个基因片段分段进行扩增,通过与双向转录载体pHW2000连接, 重组质粒转染293T和MDCK共培养细胞,拯救出全部基因均来自于亲本株的猪流感病毒rgH3N2,并分别以人流感病毒A/ PR/8/34(H1N1)、禽流感病毒A/Duck/Nanchang /4-165/2000 (H4N6 )、马流感病毒A/Equine/Fuyun/2008/(H3N8)的HA和NA基因替换A/Swine/Henan/S4/01的相应基因,【结果】生物学实验结果表明rgH3N2在鸡胚半数感染量、组织培养半数感染量、稳定性试验等方面都与亲本株保持一致。rgH3N2经鸡胚多次传代后血凝价最高可达到1:256,接种MDCK细胞60 h后,血凝价可以达到1:64。基因替换后成功拯救出的重组病毒rgH1N1、rgH4N6和rgH3N8在鸡胚和细胞上均具有较高的增殖能力。【结论】病毒的成功拯救为流感病毒突破种间屏障分子机制,HA、NA基因在流感病毒跨种属传播中所扮演角色的研究和流感基因工程疫苗株的筛选奠定了基础。     

用8质粒病毒拯救系统产生H9N2/WSN重组A型流行性感冒病毒

把禽流行性感冒(流感)病毒A／Chicken／Shanghai／F／98(H9N2)的血凝素(HA)和神经氨酸酶(NA)基因cDNA克隆至polⅠ-pol Ⅱ双向转录和表达载体pHW2000,用这两种质粒与8质粒病毒拯救系统中流感病毒A／WSN／33(H1N1)6个内部基因cDNA的质粒组合(6 2重排),共转染COS-1细胞,产生了能在鸡胚中高滴度增殖的H9N2／、WSN重组病毒。用A／WSN／33的8个基因cDNA质粒作对照,也产生了转染子病毒。经过EID50测定和MDCK感染实验,新基因型H9N2／WSN病毒感染鸡胚的能力强(EID50为10^-11／0．2m1),而且对鸡胚的毒力弱,在不加胰酶的情况下不使MDCK细胞产牛病变。经电镜观察,两个转染子病毒的形态与野生型流感病毒相似。反向遗传操作技术的建立,为对禽流感病毒基因功能和疫苗构建等方面的研究提供了新的手段。     

2013～2014年度中国H3N2亚型流感病毒病原学特征分析

为分析2013~2014流感监测年度中国大陆地区H3N2亚型流感病毒的抗原性和基因变异情况,本文选择了本监测年度中国分离的H3N2亚型流感病毒,利用标准雪貂抗血清进行抗原性分析,利用Sanger测序法进行病毒基因测序,采用邻位相临法(Neighbor-Joining,N-J)方法进行种系进化分析,分析我国H3N2亚型流感病毒的变异情况,进一步比较其与疫苗株的匹配性。抗原分析显示,本监测年度H3N2亚型流感病毒大部分为疫苗株A/Victoria/361/2011细胞株的类似株(99.6%),但以A/Texas/50/2012鸡胚株为参考抗原,只有15.1%为类似株,仅有11.9%与中国流行株的鸡胚分离株A/Shanghai-Changning/1507/2012抗原性类似。HA基因特性分析显示我国毒株均位于同一大分支,NA基因没有发现与耐药性相关的氨基酸位点突变。总之,2013~2014流感监测年度我国H3N2亚型流感病毒在流行过程中未发生明显变异,但病毒在鸡胚中传代会导致关键氨基酸位点变异。应及时分析并发现我国病毒的抗原性和基因特性变异情况,推选出更适合我国的疫苗株。     

H9N2亚型禽流感病毒基因组全长序列测定和各基因的遗传分析

用RTPCR技术及cDNA末端快速扩增法获得禽流感病毒分离株A/Chicken/Shanghai/F/98（H9N2）代表基因组全长的8个基因片段。基因组序列比较及遗传进化分析结果表明,Chicken/Shanghai/F/98的8个基因均不属于Quail/Hong Kong/G1/97亚系,与香港禽流感事件没有直接关系。它与Chicken/Beijing/1/94的HA、NA、M、NS基因同源率分别为96.7%、96.4%、97.5%和98.0%,这4个基因属于Chicken/Beijing/1/94亚系,其中,NA基因与Duck/Hong Kong/Y280/97的同源率为97.4%,而且它们均在205位后缺失9个核苷酸。而PB2、PB1、PA和NP基因与已知的3个亚系关系较远,分别在相应的进化树上另成分支。因此,Chicken/Shanghai/F/98是两个以上不同基因亚系间发生自然重排的产物。     

H9N2亚型禽流感病毒NS1基因的进化分析

利用RT-PCR方法,扩增了1998～2005年间分离的9株H9N2亚型禽流感病毒的NS1基因,对其进行了序列测定和进化分析.序列分析表明,9株AIV NS1基因完整的阅读框均为654bp,编码217个氨基酸,其核苷酸和推导的氨基酸同源性分别为95.4%～99.8%和93.6%～100%;9株病毒的NS1蛋白的C端均有13个氨基酸的缺失;进化分析表明,9株AIV属于A群,且形成一个独立分支,在该分支中,只有Ck/HN/A3/98株属于Ck/HK/Y280/97-like亚类,且与Ck/BJ/8/98的进化关系最近,其余8株属于Ck/SH/F/98-like亚类,说明Ck/SH/F/98-like亚类的H9N2亚型AIV在中国大陆的鸡群中广泛存在.NS1基因的进化及其编码产物的特性分析,为AIV的毒力变异、致病机制、药物靶位点的设计及鉴别诊断的研究奠定了基础.     

Duvira Antarctic polysaccharide inhibited H1N1 influenza virus-induced apoptosis through ROS mediated ERK and STAT-3 signaling pathway

Background

The H1N1 influenza virus causes acute respiratory tract infection, and its clinical symptoms are very similar to those of ordinary influenza. The disease develops rapidly. If the flu is not treated, complications such as pneumonia, respiratory failure, and multiple organ damage can occur, resulting in a high fatality rate. Influenza virus mutates rapidly. At present, there is no specific drug for H1N1, so it is an urgent need for clinical care to find new drugs to treat H1N1.

Materials and methods

The polysaccharide derived from Durvillaea Antarctica green algae has a certain antiviral effect. In this study, the results of CCK-8, apoptosis cycle detection, JC-1 and Western blotting proved that Duvira Antarctic polysaccharide (DAPP) has the ability to inhibit H1N1 infection.

Results

CCK-8 test showed that the DAPP with concentration at 32 μg/mL had no toxicity to MDCK cells. In addition, DAPP reduced cell apoptosis by inhibiting the ERK signaling pathway. Meanwhile, DAPP could increase the expression of STAT3 and significantly inhibited proinflammatory cytokines.

Conclusions

In summary, these results suggested that DAPP may be potential with the ability to resist the H1N1 influenza virus.

     

Viral replication and innate host responses in primary human alveolar epithelial cells and alveolar macrophages infected with influenza H5N1 and H1N1 viruses

Highly pathogenic influenza H5N1 virus continues to pose a threat to public health. Although the mechanisms underlying the pathogenesis of the H5N1 virus have not been fully defined, it has been suggested that cytokine dysregulation plays an important role. As the human respiratory epithelium is the primary target cell for influenza viruses, elucidating the viral tropism and innate immune responses of influenza H5N1 virus in the alveolar epithelium may help us to understand the pathogenesis of the severe pneumonia associated with H5N1 disease. Here we used primary cultures of differentiated human alveolar type II cells, alveolar type I-like cells, and alveolar macrophages isolated from the same individual to investigate viral replication competence and host innate immune responses to influenza H5N1 (A/HK/483/97) and H1N1 (A/HK/54/98) virus infection. The viral replication kinetics and cytokine and chemokine responses were compared by quantitative PCR (qPCR) and enzyme-linked immunosorbent assay (ELISA). We demonstrated that influenza H1N1 and H5N1 viruses replicated productively in type II cells and type I-like cells although with different kinetics. The H5N1 virus replicated productively in alveolar macrophages, whereas the H1N1 virus led to an abortive infection. The H5N1 virus was a more potent inducer of proinflammatory cytokines and chemokines than the H1N1 virus in all cell types. However, higher levels of cytokine expression were observed for peripheral blood monocyte-derived macrophages than for alveolar macrophages in response to H5N1 virus infection. Our findings provide important insights into the viral tropisms and host responses of different cell types found in the lung and are relevant to an understanding of the pathogenesis of severe human influenza disease.     

Characteristics of the influenza type A (H3N2) epidemic in Omsk in January 1985

The work presents the data obtained in analysis of the epidemic situation among the population of Omsk in January-February 1985 and the characterization of the isolated strains of influenza A (H3N2) virus, determines the specific features of the course of the influenza epidemic process among different social and age groups, evaluates anti-influenza measures.     

African swine fever virus-induced polypeptides in porcine alveolar macrophages and in Vero cells: two-dimensional gel analysis

High-resolution two-dimensional electrophoresis followed by computer analysis has been used to study quantitatively the patterns of protein synthesis produced in porcine alveolar macrophages and in Vero cells infected with African swine fever virus (ASFV). Initially, a protein database for each cell type was constructed. The porcine alveolar macrophage database includes 995 polypeptides (818 acidic, isoelectric focusing (IEF) and 177 basic, nonequilibrium pH gradient electrophoresis (NEPHGE)) whereas the Vero database contains 1,398 polypeptides (1,127 acidic, IEF and 271 basic, NEPHGE). Taking these databases as reference, ASFV highly virulent strain E70 induces 57 acid and 43 basic polypeptides in porcine alveolar macrophages, which account for most of the information content of the virus DNA. The kinetics of synthesis of the virus-induced polypeptides showed the existence of three classes of proteins: one whose synthesis starts early after infection, continues for a period and then switches off; another whose synthesis also starts early but continues for prolonged periods; and a third which requires DNA replication. The attenuated, cell adapted, strain BA71V induces 92 acidic and 37 basic proteins in Vero cells. Significant differences were observed when comparing the patterns of polypeptides induced by the two viral strains. In both cell systems studied, ASFV infection produces a general shutoff of protein synthesis that affects up to 65% of the cellular proteins. Interestingly, 28 proteins of porcine alveolar macrophages and 48 proteins of Vero cells are stimulated at least two times by ASFV infection.     

猪圆环病毒2型与猪细小病毒共感染对猪肺泡巨噬细胞吞噬功能及其干扰素表达水平的影响

【目的】分析猪圆环病毒2型(PCV2)与猪细小病毒(PPV)共感染对猪肺泡巨噬细胞(PAM)吞噬功能及其干扰素表达水平的影响,为进一步阐明猪断奶后多系统衰减综合征的发病机制提供实验依据。【方法】将48头5周龄健康仔猪随机分为PCV2组、PPV组、PCV2/PPV组和对照组,每组12头。PCV2和PPV组经口鼻途径分别接种PCV2或PPV,PCV2/PPV组同时接种PCV2和PPV,对照组接种细胞营养液。感染后3、7、14和35d(dpi)从每组随机选择3头剖杀,检测PAM的存活率、吞噬活性及其α1型干扰素(IFN-α1)、γ干扰素(IFN-γ)mRNA的表达水平。【结果】PCV2组和PCV2/PPV组PAM的存活率于3、7、14dpi均低于对照组,35dpi均与对照组PAM的存活率接近,PCV2与PCV2/PPV两组之间差异不显著(P>0.05);3个病毒感染组PAM的吞噬功能均显著下降(P<0.01),其中PCV2/PPV组的吞噬功能低于PCV2组(P<0.05);PCV2/PPV组PAM中IFN-α1和IFN-γ mRNA的水平持续低于PCV2、PPV组和对照组的水平(P<0.01)。【结论】PCV2与PPV共感染没有引起PAM的活力进一步下降,但导致其吞噬功能及IFN-α1和IFN-γmRNA的表达水平持续降低。     

N-linked glycosylation attenuates H3N2 influenza viruses

Over the last four decades, H3N2 subtype influenza A viruses have gradually acquired additional potential sites for glycosylation within the globular head of the hemagglutinin (HA) protein. Here, we have examined the biological effect of additional glycosylation on the virulence of H3N2 influenza viruses. We created otherwise isogenic reassortant viruses by site-directed mutagenesis that contain additional potential sites for glycosylation and examined the effect on virulence in na?ve BALB/c, C57BL/6, and surfactant protein D (SP-D)-deficient mice. The introduction of additional sites was consistent with the sequence of acquisition in the globular head over the past 40 years, beginning with two sites in 1968 to the seven sites found in contemporary influenza viruses circulating in 2000. Decreased morbidity and mortality, as well as lower viral lung titers, were seen in mice as the level of potential glycosylation of the viruses increased. This correlated with decreased evidence of virus-mediated lung damage and increased in vitro inhibition of hemagglutination by SP-D. SP-D-deficient animals displayed an inverse pattern of disease, such that more highly glycosylated viruses elicited disease equivalent to or exceeding that of the wild type. We conclude from these data that increased glycosylation of influenza viruses results in decreased virulence, which is at least partly mediated by SP-D-induced clearance from the lung. The continued exploration of interactions between highly glycosylated viruses and surfactant proteins may lead to an improved understanding of the biology within the lung and strategies for viral control.     

Molecular epidemiology of influenza A/H3N2 viruses circulating in Uganda

The increasing availability of complete influenza virus genomes is deepening our understanding of influenza evolutionary dynamics and facilitating the selection of vaccine strains. However, only one complete African influenza virus sequence is available in the public domain. Here we present a complete genome analysis of 59 influenza A/H3N2 viruses isolated from humans in Uganda during the 2008 and 2009 season. Isolates were recovered from hospital-based sentinel surveillance for influenza-like illnesses and their whole genome sequenced. The viruses circulating during these two seasons clearly differed from each other phylogenetically. They showed a slow evolution away from the 2009/10 recommended vaccine strain (A/Brisbane/10/07), instead clustering with the 2010/11 recommended vaccine strain (A/Perth/16/09) in the A/Victoria/208/09 clade, as observed in other global regions. All of the isolates carried the adamantane resistance marker S31N in the M2 gene and carried several markers of enhanced transmission; as expected, none carried any marker of neuraminidase inhibitor resistance. The hemagglutinin gene of the 2009 isolates differed from that of the 2008 isolates in antigenic sites A, B, D, and to a lesser extent, C and E indicating evidence of an early phylogenetic shift from the 2008 to 2009 viruses. The internal genes of the 2009 isolates were similar to those of one 2008 isolate, A/Uganda/MUWRP-050/2008. Another 2008 isolate had a truncated PB1-F2 protein. Whole genome sequencing can enhance surveillance of future seasonal changes in the viral genome which is crucial to ensure that selected vaccine strains are protective against the strains circulating in Eastern Africa. This data provides an important baseline for this surveillance. Overall the influenza virus activity in Uganda appears to mirror that observed in other regions of the southern hemisphere.