禽流感血凝素基因的原核表达及其在H9亚型诊断中的应用

根据H9N2亚型禽流感病毒血凝素基因序列设计并合成引物 ,从本室分离并保存的H9N2亚型禽流感病毒中扩增了预计约 16 83bp的血凝素基因 ,将此扩增产物克隆进pMD18-T载体 ,限制性酶切及序列测定后 ,进一步将其亚克隆到pGEX-KG中 ,与GST蛋白融合表达。SDS-PAGE和Western印迹表明缺失信号肽后的HA基因在大肠杆菌中获得了表达 ,表达产物具有免疫学活性 ,融合蛋白的分子量约为 90kD,位于包涵体中。包涵体经变性、复性处理 ,利用复性产物作为抗原包被酶标板建立了检测H9亚型禽流感抗体ELISA方法。结果表明应用HA重组蛋白作为诊断H9亚型禽流感抗原具有特异性强、敏感性高、重复性好的特点 ,可用于H9亚型禽流感抗体的检测。     

2017年河北省蛋鸡养殖场H9N2亚型禽流感病毒的遗传演化和抗原性分析

【背景】H9N2亚型禽流感病毒在鸡群中广泛流行,引起巨大损失。【目的】了解河北省蛋鸡养殖场H9N2亚型禽流感病毒(avian influenza virus,AIV)的基因序列和抗原性的变异情况,为该病原的科学防控提供理论依据。【方法】于2017年从河北省部分蛋鸡养殖场分离鉴定出7株H9N2亚型AIV,对其HA基因进行序列测定,并进行遗传演化、关键氨基酸位点及抗原性分析。【结果】7株分离毒株HA基因同源性在95.5%?97.2%之间;与2016年前的流行毒株相比,分离病毒HA裂解位点均为典型低致病性AIV特征,在受体结合区域出现变异,潜在糖基化位点无明显差异;抗原分析结果显示分离毒株与早期分离株相比抗原性发生了变异,形成了新的抗原群;抗原性相关位点分析显示,分离毒株在9个位点发生了较为明显的突变,可能是导致抗原性变异的分子基础。【结论】河北省蛋鸡养殖场H9N2亚型AIV中的流行毒株在关键功能区发生基因突变,并且抗原性发生变异,提示应持续监测H9N2亚型AIV的遗传变异情况,并及时更换疫苗株。     

禽流感病毒H7N2血凝素HA1基因在大肠杆菌中的表达

目的　表达H7N2亚型禽流感病毒 (AIV)HA1基因 ,用于感染H7亚型禽流感病毒抗体的检测和HA1蛋白功能研究。方法　采用RT PCR方法对H7N2亚型AIVHA1基因进行扩增 ,将PCR产物克隆于pGEM T Easy载体 ,将该基因插入pGEX 4T 2中构建HA1基因原核表达载体 ,转化BL2 1大肠杆菌后 ,在IPTG诱导下表达HA1蛋白 ,Westernblot鉴定表达HA1蛋白。电洗脱方法纯化表达HA1蛋白 ,建立间接ELISA方法 ,对感染AIVH7、H9、H5亚型AIV阳性血清进行检测。结果　成功克隆H7N2亚型AIV的HA1基因 ,其核苷酸序列长度 96 6bp ,编码 32 2个氨基酸残基。构建HA1基因原核表达载体在大肠杆菌内表达出约 6 1× 10 3的HA1融合蛋白。Westernblot和ELISA方法鉴定表明 :表达HA1蛋白与感染H7亚型AIV鸡血清有反应 ,与H5、H9亚型AIV阳性血清没有反应。结论　本研究在大肠杆菌中成功表达了H7N2亚型AIVHA1基因蛋白 ,具有与感染H7亚型AIV阳性血清反应原性 ,不与H5和H9亚型AIV感染阳性血清发生反应。     

H9N2亚型禽流感病毒HA基因在昆虫细胞中的表达

为了获得具有良好免疫活性的H9N2亚型禽流感病毒HA蛋白,本研究利用Bac-to-Bac昆虫-杆状病毒表达系统对H9N2亚型禽流感病毒HA蛋白进行表达。运用PCR对H9N2亚型禽流感病毒HA基因进行扩增,将HA基因连接于转移载体pFastBacDual的BamHⅠ和HindⅢ两个酶切位点之间,构成pFastBacDual-HA重组载体;将pFastBacDual-HA转化至大肠杆菌DH10Bac感受态细胞,利用蓝白斑筛选法和PCR方法对阳性菌落筛选重组杆粒Bacmid-HA;重组杆粒Bacmid-HA对Sf9昆虫细胞进行了转染,获得重组杆状病毒rBV-HA;运用SDS-PAGE电泳和Western blotting分析rBV-HA感染的细胞和细胞上清。结果表明,重组HA蛋白大小约为65 kD;Western blotting分析显示,HA蛋白与免疫H9N2禽流感病毒后获得的阳性血清具有良好的特异性反应,为进一步研制针对HA蛋白的H9N2亚型AIV亚单位疫苗和研发H9亚型ELISA抗体检测试剂盒奠定了基础。     

一种更灵敏的特异性检测H9亚型禽流感抗体的间接ELISA方法的建立

H9亚型禽流感在全球范围内广泛流行,控制其传播需监测H9亚型禽流感病毒的感染情况及疫苗的免疫效果。为了建立便于检测且灵敏特异的H9亚型禽流感抗体间接ELISA方法,本实验利用不同亚型之间变异较大的H9亚型禽流感病毒HA蛋白的头部球状区作为包被抗原,确定了最佳复合封闭液和抗体稀释液,提高了其特异性。结果显示建立的ELISA方法灵敏度高于血凝抑制试验(HI),且与H3N2、H5N2、H7N9亚型流感病毒及新城疫病毒(NDV)、鸡传染性支气管炎病毒(IBV)、鸡传染性法氏囊病毒(IBDV)和产蛋下降综合征病毒(EDSV)的阳性血清均无交叉反应。另外,利用该方法及HI试验对200份临床鸡血清样本进行检测,两种检测方法的符合率达97%,且存在较高的相关性(R2=0.981 1)。     

新型H7N9亚型禽流感病毒多重荧光RT-PCR快速检测方法的建立

为研制新型H7N9亚型禽流感病毒快速检测试剂盒,根据GenBank中公布的新型H7N9亚型(2013年)禽流感病毒血凝素抗原(HA)和神经氨酸酶抗原(NA)的基因序列,设计两套特异性的引物和探针,建立基于TaqMan探针的多重荧光RT-PCR快速检测新型H7N9亚型禽流感病毒方法。实验结果表明,该方法灵敏度高、特异性好,能够检测到最低浓度为10拷贝/μL数量级的阳性标准品,不但能够将禽流感病毒H7亚型与H1、H3、H5、H6和H9亚型区分开,而且可将新型N9亚型禽流感病毒与原有的N9亚型区分开。采用该方法对珠海市2 700份样品的检测结果与预期结果一致,证实该方法具有较好的推广应用前景。     

N9N2亚型禽流感病毒ns1基因的融合表达

华南农业大学动物科学学院陈丽、谢青梅等七位研究生和教授对H9N2亚型禽流感病毒NS1基因的研究结果表明:禽流感病毒(AIV)非结构蛋白NS1在病毒粒子中不存在,故可通过检测NS1抗体来鉴别禽流感受病毒感染鸡群和免疫鸡群,将NS1基因和T4等菌体SOC基因在大肠埃希氏菌中融合表达,其融合蛋白可以作为鉴别禽流感免疫鸡群和感染鸡群的检测抗原。     

人感染新型H10N3禽流感病毒分子溯源

【背景】1997年香港发生人感染禽流感事件以来,禽流感病毒成为持续威胁人类健康和公共卫生的重要病原体。【目的】对一例人感染新型H10N3禽流感病毒病例开展分子溯源研究。【方法】流感病毒分型检测采用RT-qPCR法,在下一代测序平台上完成病毒基因组测序,序列和系统进化分析采用BLAST和MEGA 6.1等生物信息学软件。【结果】2021年4月从严重呼吸道疾病患者体内分离到一株病毒,经核酸检测和序列分析,结果表明其为H10N3亚型禽流感病毒。从患者居所附近的农贸市场分离到一株基因高度同源的H10N3亚型禽流感病毒。分离株是一种新的基因重配H10N3禽流感病毒,其血凝素hemagglutinin(HA)和神经氨酸酶neuraminidase(NA)组合最早在2019年华东地区的家禽中检测到,6个内部基因来源于近年来中国南方家禽中流行的H9N2病毒。病毒的HA蛋白的裂解位点含有1个碱性氨基酸R,未插入多个碱性氨基酸,理论上不属于高致病性禽流感病毒。HA蛋白受体结合位点228位氨基酸残基由G突变为S,理论上增强了对人SAα2,6受体的亲和力。另外,未发现PB2蛋白E627K突变,但591位氨基酸...     

2019-2020年苏中地区某活禽市场H9N2禽流感病毒分子进化

【背景】20世纪90年代以来,H9N2禽流感病毒成为危害我国养禽业及人类健康和公共卫生的重要病原。【目的】了解苏中地区2019-2020年活禽市场H9N2禽流感病毒的分子进化特征。【方法】通过荧光定量PCR法对标本进行流感病毒分型检测,原始标本用SPF鸡胚进行病毒分离,用特异性引物对病毒分离物进行全基因组测序,利用BLAST、ClustalX和MEGA6等软件进行序列比对和系统发育分析。【结果】2019-2020年间从苏中地区某农贸市场采集到231份环境和禽类标本,共检出34份甲型流感病毒,其中33份为H9N2亚型。阳性标本接种SPF鸡胚,分离到20株H9N2病毒。对其中11株病毒进行全基因组测序,系统发育分析表明11株病毒的HA和NA都属于H9N2禽流感Y280-like系的G57基因型。根据HA和NA的进化特征,11株病毒可分为5个基因组合(A、B、C、D和E),其中A (n=5)是优势流行基因组合。11株H9N2分离病毒的HA蛋白HA1和HA2亚单位的裂解位点是一个碱性氨基酸R,具有低致病性禽流感病毒的特征。HA蛋白的受体结合部位有4个氨基酸位点(I155T、H183N、A190...     

利用焦磷酸测序技术检测H7N9禽流感病毒NA基因分子标签

本研究旨在建立H7N9亚型禽流感病毒NA基因分子标签的焦磷酸测序检测方法,用于H7N9型禽流感病毒的快速检测和鉴定。通过对公开发表的H7N9亚型禽流感病毒NA基因序列进行比对,发现分离株在NA基因特定区域缺失的15个核苷酸可作为H7N9亚型禽流感病毒NA基因特异性的分子标签。通过设计覆盖此区域的特异性扩增引物和测序引物,建立了H7N9型禽流感病毒NA基因焦磷酸测序检测方法。基于NA基因特定缺失区域建立的焦磷酸测序技术能用于H7N9亚型禽流感病毒国内分离株NA基因的快速检测和鉴定,且具有较好的特异性和重复性。通过对3株H7N9亚型禽流感病毒分离株的检测,表明3株H7N9亚型禽流感病毒的NA基因均存在15个核苷酸缺失的分子标签。本研究建立的H7N9亚型禽流感病毒NA焦磷酸测序检测方法,可用于H7N9禽流感病毒的检测和鉴定。     

Vaccination with Recombinant RNA Replicon Particles Protects Chickens from H5N1 Highly Pathogenic Avian Influenza Virus

Highly pathogenic avian influenza viruses (HPAIV) of subtype H5N1 not only cause a devastating disease in domestic chickens and turkeys but also pose a continuous threat to public health. In some countries, H5N1 viruses continue to circulate and evolve into new clades and subclades. The rapid evolution of these viruses represents a problem for virus diagnosis and control. In this work, recombinant vesicular stomatitis virus (VSV) vectors expressing HA of subtype H5 were generated. To comply with biosafety issues the G gene was deleted from the VSV genome. The resulting vaccine vector VSV*ΔG(HA) was propagated on helper cells providing the VSV G protein in trans. Vaccination of chickens with a single intramuscular dose of 2×10⁸ infectious replicon particles without adjuvant conferred complete protection from lethal H5N1 infection. Subsequent application of the same vaccine strongly boosted the humoral immune response and completely prevented shedding of challenge virus and transmission to sentinel birds. The vaccine allowed serological differentiation of infected from vaccinated animals (DIVA) by employing a commercially available ELISA. Immunized chickens produced antibodies with neutralizing activity against multiple H5 viruses representing clades 1, 2.2, 2.5, and low-pathogenic avian influenza viruses (classical clade). Studies using chimeric H1/H5 hemagglutinins showed that the neutralizing activity was predominantly directed against the globular head domain. In summary, these results suggest that VSV replicon particles are safe and potent DIVA vaccines that may help to control avian influenza viruses in domestic poultry.     

A novel peptide ELISA for universal detection of antibodies to human H5N1 influenza viruses

Background

Active serologic surveillance of H5N1 highly pathogenic avian influenza (HPAI) virus in humans and poultry is critical to control this disease. However, the need for a robust, sensitive and specific serologic test for the rapid detection of antibodies to H5N1 viruses has not been met.

Methodology/Principal Findings

Previously, we reported a universal epitope (CNTKCQTP) in H5 hemagglutinin (HA) that is 100% conserved in H5N1 human isolates and 96.9% in avian isolates. Here, we describe a peptide ELISA to detect antibodies to H5N1 virus by using synthetic peptide that comprises the amino acid sequence of this highly conserved and antigenic epitope as the capture antigen. The sensitivity and specificity of the peptide ELISA were evaluated using experimental chicken antisera to H5N1 viruses from divergent clades and other subtype influenza viruses, as well as human serum samples from patients infected with H5N1 or seasonal influenza viruses. The peptide ELISA results were compared with hemagglutinin inhibition (HI), and immunofluorescence assay and immunodot blot that utilize recombinant HA1 as the capture antigen. The peptide ELISA detected antibodies to H5N1 in immunized animals or convalescent human sera whereas some degree of cross-reactivity was observed in HI, immunofluorescence assay and immunodot blot. Antibodies to other influenza subtypes tested negative in the peptide-ELISA.

Conclusion/Significance

The peptide-ELISA based on the highly conserved and antigenic H5 epitope (CNTKCQTP) provides sensitive and highly specific detection of antibodies to H5N1 influenza viruses. This study highlighted the use of synthetic peptide as a capture antigen in rapid detection of antibodies to H5N1 in human and animal sera that is robust, simple and cost effective and is particularly beneficial for developing countries and rural areas.     

Development of an immunochromatographic kit for rapid diagnosis of H5 avian influenza virus infection

Highly pathogenic avian influenza (HPAI) caused by the H5N1 subtype has given rise to serious damage in poultry industries in Asia. The virus has expanded its geographical range to Europe and Africa, posing a great risk to human health as well. For the control of avian influenza, a rapid diagnosis by detecting the causative virus and identifying its subtype is essential. In the present study, a rapid diagnosis kit combining immunochromatography with enzyme immunoassay which detects the H5 HA antigen of influenza A virus was developed using newly established anti-H5 HA monoclonal antibodies. The present kit specifically detected all of the H5 influenza viruses tested, and did not react with the other HA subtypes. H5 HA antigens were detected from swabs and tissue homogenates of chickens infected with HPAI virus strain A/chicken/Yamaguchi/7/04 (H5N1) from 2 days post inoculation. The kit showed enough sensitivity and specificity for the rapid diagnosis of HPAI.     

我国首例孕妇感染高致病性禽流感(H5N1)的病原学研究

对2005年11月8日安徽省铜陵市人民医院报告的一例孕妇不明原因肺炎病例的死亡病因进行研究。采集病人的气管吸出物及血液标本,用RT-PCR和Real-ti me PCR方法检测流感病毒A/M、A/H5N1、A/H7N7、A/H9N1亚型特异性核苷酸片段;气管吸出物接种SPF鸡胚进行病毒分离,并对分离物进行鉴定和序列测定及分析;利用血凝抑制试验检测血清标本抗体。结果表明病人气管吸出物可以检测到甲型流感病毒M片段及H5亚型的特异性HA基因。2005年11月9日采集的血清标本用Real-ti me PCR检测到甲型流感病毒M基因。从病人的气管吸出物中分离到H5N1病毒(A/Anhui/1/2005),对病毒的HA基因序列结果进行分析表明病毒是禽源的,其主要依据是受体结合位点第226~228位氨基酸位点(QSG)为禽流感病毒所特异,HA受体连接肽仍为9个碱性氨基酸(LRERRRKRP);基因进化树分析显示,HA基因与禽源病毒进化距离接近。发病后7、8、9d的血清H5N1禽流感病毒HI抗体小于20。对该病例的病原学研究证明,该病例为H5N1禽流感感染病例。     

Specific determination of influenza H7N2 virus based on biotinylated single-domain antibody from a phage-displayed library

The unpredicted spread of avian influenza virus subtype H7N2 in the world is threatening animals and humans. Specific and effective diagnosis and supervision are required to control the influenza. However, the existing detecting methods are laborious, are time-consuming, and require appropriate laboratory facilities. To tackle this problem, we isolated VHH antibodies against the H7N2 avian influenza virus (AIV) and performed an enzyme-linked immunosorbent assay (ELISA) to detect the H7N2 virus. To obtain VHH antibodies with high affinity and specificity, a camel was immunized. A VHH antibody library was constructed in a phage display vector pMECS with diversity of 2.8 × 10⁹. Based on phage display technology and periplasmic extraction ELISA, H7N2-specific VHH antibodies were successfully isolated. According to a pairing test, two VHH antibodies (Nb79 and Nb95) with good thermal stability and specificity can recognize different epitopes of H7N2 virus. The capture antibody (Nb79) was biotinylated in vivo, and the detection antibody (Nb95) was coupled with horseradish peroxidase (HRP). Based on biotin–streptavidin interaction, a novel sandwich immune ELISA was performed to detect H7N2. The immunoassay exhibited a linear range from 5 to 100 ng/ml. Given the above, the newly developed VHH antibody-based double sandwich ELISA (DAS–ELISA) offers an attractive alternative to other diagnostic approaches for the specific detection of H7N2 virus.     

抗禽流感病毒多表位DNA疫苗的构建及其免疫效力研究

多表位DNA疫苗是建立在常规DNA疫苗基础上的一种新型疫苗。它是用表位作免疫原,这样就比较容易在一个表达载体上克隆病原体的多个抗原基因中具有免疫活性的部分。本试验以H5N1亚型禽流感病毒的HA和NP基因及其表位为基础构建了4个重组质粒：1 pIRES/HA（表达全长的HA基因）;2 pIRES/tHA（只表达HA基因的主要抗原表位区）;3 pIRES/tHANpep（融合表达HA基因的抗原表位区和NP基因的3个CTL表位）;4 pIRES/tHANpep-IFN-γ（用鸡的IFN-γ基因取代质粒pIRES/tHANpep中的neo基因）。分别用这4个重组质粒和空载体质粒pIRES1neo肌注免疫30日龄SPF鸡。免疫3次,间隔为2周,每次每只鸡的剂量为200μg。第3次免疫后两周以高致病性禽流感病毒H5N1强毒攻击,免疫及攻毒前后均采血检测HI抗体效价和外周血CD4⁺、CD8⁺T细胞的变化。结果发现,攻毒前各质粒免疫组均检测不到HI抗体,攻毒后1周存活鸡HI抗体效价迅速升高到64～256。流式细胞仪检测显示外周血CD4⁺、CD8⁺T细胞在疫苗免疫后都有不同程度的升高。空载体质粒对照组鸡（10只）在攻毒后3～8 d内全部死亡,其他各重组质粒免疫组鸡都获得了部分保护,保护率分别是：pIRES/HA组为545%（6/11）,pIRES/tHA组为30%（3/10）,pIRES/tHANPep组为36.3%（4/11）, pIRES/tHANPepIFNγ组为50%（5/10）。这些结果表明我们构建的多表位DNA疫苗能够诱导机体产生特异性免疫应答,并在同型禽流感强毒攻击时对鸡只提供了一定的保护。     

利用反向遗传技术研究H9N2亚型AIV传播途径的分子机制

利用反向遗传技术,通过基因重排方法,产生两个表面基因来自A/Chicken/Guangdong/SS/94(H9N2)禽流感病毒(avian influenza virus,AIV)株和其余基因来自A/Chicken/Shanghai/F/98(H9N2)AIV株的3株H9N2亚型重排AIV,动物传播性试验发现A/Chicken/Shanghai/F/98(H9N2)株、A/Chicken/Guangdong/SS/94(H9N2)AIV株和3株H9N2亚型重排AIV都可以经直接接触途径传播;在粪便接触途径下,3株重排AIV都不经粪便接触传播;只有A/Chicken/Shanghai/F/98(H9N2)株和重排AIV RF7/SSHA能经过气溶胶途径传播。HI试验结果进一步证明了以上的结果。实验结果表明H9N2亚型AIV的NA基因与H9N2亚型AIV气溶胶传播途径有重要的关系,即1998年中国大陆H9N2亚型AIV大流行可能是因为病毒获得气溶胶传播途径的特性,推测病毒的NA基因发挥了重要作用。