一株H9N2亚型禽流感病毒鸡胚培养工艺研究

为了探讨H9N2亚型禽流感病毒在鸡胚上最佳培养工艺,试验采用H9N2亚型禽流感病毒分离株以不同稀释倍数接种不同鸡胚(SPF及普通鸡胚)、不同日龄鸡胚及不同培养时间收获鸡胚尿囊液,比较不同培养条件下制备出的鸡胚尿囊液的产量及病毒效价。结果表明:H9N2亚型禽流感病毒接种无禽流感病毒(H9亚型)HI母源抗体鸡胚的最佳病毒稀释倍数为1×10~(4 )～1×10~5倍,接种带有禽流感病毒(H9亚型)HI母源抗体鸡胚的最佳病毒稀释倍数为1×10~3～1×10~4倍,最佳接种日龄为10日龄,最佳培养时间为96～120 h。说明采用优化的鸡胚培养方法生产H9N2亚型禽流感病毒可以得到高质量、高产量的病毒液。     

抗禽流感H9亚型血凝素单克隆抗体的病毒中和作用

通过血凝抑制(HI)和鸡胚中和试验(VN)证实，本实验室制备的抗禽流感H9M2单抗11A5和11B2株可特异性地抑制H9亚型禽流感病毒的血凝特性，而与禽流感H5和H7亚型以及其他具有血凝性感染禽类的病毒(如新城疫等)不反应。两株单抗腹水HI效价均达到15Log2。中和试验表明：上述两株单抗均可有效抑制H9N2病毒在SPF鸡胚中的增殖，使病毒失去血凝活性．测得11A5和11B2株腹水对H9N2禽流感病毒的半数保护量分别为10^-3.35和10^-4.58。该单抗的研制成功对于进一步建立快速鉴别诊断禽流感H9亚型病毒具有重要意义。     

H7N9亚型重组禽流感病毒rGD76株灭活疫苗的研制

利用H7N9亚型重组禽流感病毒rGD76株进行灭活疫苗的研制,并对疫苗的免疫效果进行评价,为家禽H7N9亚型流感的防控提供科学数据及手段。将AIV-rGD76株用灭菌生理盐水作104倍稀释后,接种11日龄非免疫鸡胚,37℃孵育72h后收获感染鸡胚尿囊液,经甲醛灭活后,加矿物油佐剂乳化制成油乳剂灭活疫苗,对制备疫苗的性状、安全性、免疫效力等进行检验。结果显示,制备的3批重组禽流感病毒灭活疫苗(H7N9亚型,rGD76株)均为油包水型,黏度均在50cP以内,对3批疫苗取样,样品经3000r/min离心15min,管底无水相析出。安全性试验结果显示,将疫苗按1mL/只超剂量接种3周龄SPF鸡,试验鸡在观察期内全部健活,未出现局部或全身不良反应,表明疫苗对SPF鸡具有良好的安全性;免疫效力及攻毒保护试验结果显示,用疫苗按0.3mL/只的剂量免疫接种3周龄SPF鸡1次,免疫接种后21d试验鸡血清中rGD76株的HI抗体平均效价可达8log2以上,使用H7N9亚型高致病性禽流感病毒GD16株滴鼻接种0.2mL/只(含100LD50)对免疫鸡进行攻毒,疫苗对免疫鸡的保护率均为100%。在实验室条件下研制出重组禽流感病毒灭活疫苗(H7N9亚型,rGD76株),疫苗的各项指标均符合标准。     

H9N2亚型禽流感病毒抗原性变异的研究

对1998—2002年间在河南省豫北地区分离到的5株H9N2亚型禽流感病毒的抗原性变异进行了研究。经HI试验、鸡胚中和试验、细胞中和试验及攻毒保护试验证明，5株H9N2亚型间已经发生了抗原性漂移。98A5和99S毒株间的保护力接近100％，HI试验、鸡胚中和试验、细胞中和试验的相关性均在0．74以上。表明2毒株间的抗原性相近；用00Y毒株攻击其他4株免疫的鸡，其保护率仅为60％～80％；而02Y株对除00Y株外的4株的免疫保护率分别为60％、75％、80％、100％，与分离年代呈负相关性，HI、鸡胚中和试验、细胞中和试验也取得类似结果，说明2000年后的毒株间已发生抗原性变异。     

一株三穗鸭源H6N6亚型禽流感病毒的分离鉴定

探讨H6N6亚型禽流感病毒在鸭群中的流行状况,为贵州省流感疫情动态监测及防控提供依据。从贵州三穗县某养鸭殖场采集50份泄殖腔棉拭子,处理后经过绒毛尿囊腔接种9日龄非免疫鸡胚,通过血凝(HA)和血凝抑制试验(HI)分离到1株既不是新城疫病毒,也不是H5、H7和H9亚型禽流感的病毒;提取病毒RNA,通过禽流感病毒HA和NA基因通用引物扩增得到相应的HA和NA基因片段。经过测序比对分析证实所分离病毒为H6N6亚型禽流感病毒。贵州鸭群中存在H6N6亚型禽流感病毒,为进一步研究其起源和致病性提供了重要依据。     

传染性法氏囊病活疫苗对重组禽流感病毒灭活疫苗(H5N1)免疫效果的影响

为评价鸡传染性法氏囊病中等毒力活疫苗对重组禽流感病毒灭活疫苗(H5N1)免疫效果的影响,分别对蛋雏鸡和麻花肉雏鸡于14日龄同时接种鸡传染性法氏囊病活疫苗(B87株)和重组禽流感病毒灭活疫苗(H5N1),设空白对照组(均不免疫禽流感和传染性法氏囊病疫苗)和免疫对照组(只免疫重组禽流感病毒灭活疫苗),进行法氏囊病理变化观察和血清H5N1亚型禽流感病毒抗体检测。结果显示,鸡传染性法氏囊病活疫苗均可对蛋雏鸡和麻花肉雏鸡引起法氏囊炎性反应,但对重组禽流感病毒灭活疫苗免疫抗体的产生无显著影响。     

H7亚型禽流感病毒灭活疫苗的研制及其免疫效果研究

以H7N3亚型禽流感病毒接种鸡胚,收取鸡胚液为抗原研制禽流感病毒灭活疫苗,并对制苗抗原以及疫苗的物理性状、安全性、免疫效力、免疫剂量和保护期等进行了试验,结果表明,该灭活疫苗安全性好,对28日龄鸡的最佳免疫剂量为0.5 mL/只,抗体临界保护值为5log2,免疫后6周HI效价达到高峰值9.4log2,以后逐渐下降,第20周抗体仍能维持较高水平。此外,交叉免疫保护试验表明,同一亚型之间具有良好的免疫保护作用,而亚型间缺乏坚强的交叉保护作用。     

某地区养殖户家禽禽流感的实验室诊断

为了防止禽流感的大规模暴发,减轻对人类健康的影响,本试验采用荧光免疫层析法对某地区养殖户的100羽患病鸡进行诊断。结果显示,通过H5亚型流感病毒荧光免疫层析试纸条检测,该地区的100羽疑似患病鸡样本中,H5N1、H5N2亚型禽流感抗原检出阳性,而H9N2亚型禽流感抗原、H6N6亚型禽流感抗原结果为阴性;能检出H5N1、H5N2亚型禽流感病毒抗原100倍的稀释度;10次检测H5N1亚型禽流感抗原的变异系数为0.95%(P<0.05),差异不显著。此次诊断表明,该地区存在H5N1和H5N2型禽流感,不存在其他血清型的禽流感。     

鸡胚中H9N2亚型禽流感病毒的分离鉴定

将来自有产蛋下降的肉用型父母代种鸡群的种蛋孵化,每日观察鸡胚死亡情况。在孵化的50个鸡胚中9日龄时开始死亡1个,尿囊液无血凝性,盲传一代后,鸡胚尿囊液有血凝性。在HI试验中,对H9亚型禽流感病毒(AIV)单因子血清在1∶26稀释度时呈现血凝抑制活性,对新城疫病毒(NDV)和H5亚型AIV单因子血清不呈血凝抑制活性,由此确定为低致病性禽流感病毒,命名为ZKH90901。对该毒株进行HA和NA基因扩增克隆测序,把获得的HA和NA基因与已经发表的H9N2毒株的相应序列比较,结果表明该毒株确实为H9N2亚型禽流感病毒,HA基因的裂解位点序列为KSGR↓GLF,符合低致病性禽流感病毒H9N2蛋白裂解位点的分子特征,仍属于低致病力毒株。从鸡胚中分离到H9N2亚型禽流感病毒在国内尚未见报道。     

中药笃温康体内外的抗病毒作用效果研究

本试验旨在研究笃温康的体内外抗病毒效果。以H9亚型禽流感病毒为供试病毒,将不同含量病毒与笃温康混合并接种于SPF鸡胚,72 h后无菌收取每个鸡胚尿囊液,用0.75%鸡红细胞测定尿囊液血凝价;以H9亚型禽流感病毒和传染性支气管炎病毒混合液为供试病毒,人工感染SPF鸡,感染后不同时间用笃温康进行治疗,观察其病理变化。试验结果表明,笃温康体外能够抑制病毒10倍稀释液对0.75%鸡红细胞的凝集,对H9禽流感病毒在鸡胚内复制具有抑制作用。提示笃温康对感染IBV病毒、H9禽流感病毒的SPF鸡具有较好的保护作用,而且随着笃温康用量的增加,其保护作用增强。     

A single dose of inactivated oil-emulsion bivalent H5N8/H5N1 vaccine protects chickens against the lethal challenge of both highly pathogenic avian influenza viruses

In this study, two highly pathogenic avian influenza (HPAI) H5N8 viruses were isolated from chicken and geese in 2018 and 2019 (Chicken/ME-2018 and Geese/Egypt/MG4/2019). The hemagglutinin and neuraminidase gene analyses revealed their close relatedness to the clade-2.3.4.4b H5N8 viruses isolated from Egypt and Eurasian countries. A monovalent inactivated oil-emulsion vaccine containing a reassortant virus with HA gene of the Chicken/ME-2018/H5N8 strain and a bivalent vaccine containing same reassortant virus plus a previously generated reassortant H5N1 strain (CK/Eg/RG-173CAL/17). The safety of both vaccines was evaluated in specific-pathogen-free (SPF) chickens. To evaluate the efficacy of the prepared vaccines, 2-week-old SPF chickens were vaccinated with 0.5 mL of a vaccine formula containing 10⁸/EID₅₀ /dose from each strain via the subcutaneous route. Vaccinated birds were challenged with either wild-type HPAI-H5N8 or H5N1 viruses separately at 3 weeks post-vaccine. Results revealed that both vaccines induced protective hemagglutination-inhibiting (HI) antibody titers as early as 2 weeks PV (≥5.0 log₂). Vaccinated birds were protected clinically against both subtypes (100 % protection). HPAI-H5N1 virus shedding was significantly reduced in birds that were vaccinated with the bivalent vaccine; meanwhile, HPAI-H5N8 virus shedding was completely neutralized in both tracheal and cloacal swabs after 3 days post-infection in birds that had been vaccinated with either vaccine. In conclusion, the developed bivalent vaccine proved to be efficient in protecting chickens clinically and reduced virus shedding via the respiratory and digestive tracts. The applicability of the multivalent avian influenza vaccines further supported their value to facilitate vaccination programs in endemic countries.     

Emergence of highly pathogenic virus during selective chicken passage of the prototype mildly pathogenic chicken/Pennsylvania/83 (H5N2) influenza virus.

The prototype mildly pathogenic A/chicken/Pennsylvania/21525/83 (H5N2) avian influenza virus, which was isolated more than 5 months before the emergence of highly pathogenic virus in the major 1983 Pennsylvania outbreak, was examined for the presence of minority subpopulations of highly pathogenic virus. Selective serial passage of the parental mildly pathogenic virus in leghorn hens did not lead to recovery of highly pathogenic virus. However, several highly pathogenic reisolates were recovered from hens inoculated with either of two mildly pathogenic virus clones selected for their ability to efficiently produce plaques in trypsin-free chicken embryo fibroblasts. Unlike the parental virus, these reisolates caused high mortality in chickens and produced postmortem lesions typical of highly pathogenic avian influenza. Electrophoretic mobilities of the hemagglutinin glycoproteins of the highly pathogenic derivatives resembled those of the prototype highly pathogenic A/chicken/Pennsylvania/1370/83 (H5N2) virus isolated in October 1983. These results suggest that unrecognized subpopulations of highly pathogenic virus may have infected Pennsylvania chickens for several months before emerging as the clinically manifest component of the virus population.     

H9亚型禽流感病毒HF株的分离鉴定和免疫原性评价

2015年,从安徽合肥某养鸡场分离出一株H9N2亚型禽流感病毒（AIV）,命名为HF株。该毒株鸡胚半数感染量（EID₅₀）为10^9.17/0.1 mL,最小致死量的平均死亡时间（MDT）为87 h。对其HA基因分析发现,其氨基酸裂解位点为RSSR↓GLF,符合低致病性AIV特征;HA基因的遗传进化分析结果表明,该分离株属于h9.4.2.5谱系,符合当前毒株流行趋势。将HF株与2006-2018年分离自全国各地的10株H9N2亚型AIV分离株同时制备灭活疫苗,免疫SPF鸡,制备阳性血清,通过交叉血凝抑制试验分析病毒抗原性,结果显示HF株与2014年之前毒株抗原相关性介于0.50~0.56之间,与2014年及之后毒株抗原相关性介于0.89~1.00之间,表明该分离株与2014年之后的流行毒株具有良好的抗原相关性。用0.2%甲醛灭活HF株病毒液,其HA效价在灭活前后未发生变化;用灭活抗原制备油乳剂灭活疫苗免疫SPF鸡,免疫后21 d HI抗体效价几何平均值达到9.0log2以上,可使免疫鸡完全抵抗H9亚型AIV的感染,提供100%的攻毒保护。研究结果表明,HF株具有良好的免疫原性,可作为疫苗候选株用于H9N2亚型禽流感疫苗的研制。     

Isolation,Identification and Immunogenicity Evaluation of H9N2 Subtype Avian Influenza Virus HF Strain

In 2015,an H9N2 subtype avian influenza virus (AIV) strain was isolated from a chicken farm in Hefei,Anhui,and named HF strain.The results of the chicken embryo proliferation characteristics study showed that the half infection rate of chicken embryo (EID₅₀) was 10^9.17/0.1 mL,and the mean time to death for minimum lethal dose(MDT) was 87 h.The analysis result of HA gene showed that its amino acid cleavage site was located in RSSR↓GLF,which accorded with the characteristics of low pathogenic avian influenza.The genetic evolution analysis of HA gene revealed that the isolate belonged to the h9.4.2.5 lineage,which accorded with the current virus strain epidemic characteristics.The HF strain was prepared with 10 H9N2 subtype AIV isolates which isolated from all over the country from 2006 to 2018 to prepare inactivated vaccines,immunize SPF chickens,prepare positive sera,and analyze the virus antigenicity by cross hemagglutination inhibition test.The results showed that the correlation between the HF strain and the virus antigens before 2014 and was between 0.50-0.56,and the virus antigen correlation after 2014 was 0.89-1.00.This showed that the isolate had good antigenic correlation with epidemic strains in recent years.Inactivate HF strain virus solution with 0.2% formaldehydel,and its HA titer did not change before and after inactivation.After the inactivated virus solution was prepared into an oil emulsion inactivated vaccine to immunize SPF chickens,21 days after immunization,the average value of the HI antibody titer reached 9.0log2.It could make immune chicken completely resistant to H9 subtype AIV infection and provide 100% protection from challenge.The above research results showed that the HF strain had good immunogenicity and could be used as a vaccine candidate strain for the prevention of H9N2 subtype AIV.     

表达H9亚型禽流感病毒HA基因重组鸡痘病毒疫苗的遗传稳定性

将表达H9亚型禽流感病毒HA基因重组鸡痘病毒疫苗连续传代至30代，取第10、20、30代重组病毒作为受检代次，进行外源基因片段的克隆与测序，以间接免疫荧光试验检验各代次的表达，并以第10、20、30代重组鸡痘病毒疫苗进行免疫保护效力试验。对各代次模板进行PCR反应，分别扩增出特异的1．7kb外源基因片段，酶切位点与原始代次相同；各代次外源基因序列与原始序列相比，仅有1个碱基发生变化，不涉及氨基酸的变化；免疫荧光试验显示各代次均有显著表达；各免疫组在免疫后第7、10、14、20天的HI抗体效价(log2)逐渐上升；攻毒后第5天各免疫组排毒率与对照组相比差异显著，各免疫组之间无显著差异。结果表明：此重组载体疫苗具有较好的遗传稳定性，经过30代的传代后外源插入基因及其表达未见变化，免疫保护效力亦与原代一致。     

Development and evaluation of a DAS-ELISA for rapid detection of avian influenza viruses

Rapid detection of avian influenza virus (AIV) infection is critical for control of avian influenza (AI) and for reducing the risk of pandemic human influenza. A double antibody sandwich enzyme-linked immunosorbent assay (DAS-ELISA) was developed for this purpose. The method employed a monoclonal antibody (MAb) as the capture antibody and rabbit polyclonal IgG labeled with horseradish peroxidase as the detector antibody, and both antibodies were against type-specific influenza A nucleoprotein (NP). The DAS-ELISA could detect minimally 2.5 ng of influenza viral protein in virus preparations treated with Triton X-100, which is equvilent to 2.5 x 10(2) EID50 virus particles. This DAS-ELISA could detect all 15n AIV subtypes (H1-H15) and did not cross react with other avian pathogens tested. The DAS-ELISA were directly compared with virus isolation (VI) in embryonated chicken eggs, the current standard of influenza virus detection, for 805 chicken samples. The DAS-ELISA results correlated with VI results for 98.6% of these samples, indicating a sensitivity of 97.4% and specificity of 100%. The method was further tested with H5N1 and H9N2 AIV experimentally infected chickens, ducks, and pigeons, as well as field samples obtained from central China in 2005. The DAS-ELISA method has demonstrated application potential as an AIV screening tool and as a supplement for virus isolation in Asia.     

高效表达H9亚型禽流感病毒HA基因的重组鸡痘病毒的构建及免疫效力试验

将禽流感病毒血凝素 H9A基因克隆入插入载体 p FG11S中 ,通过酶切鉴定获得了正向转移载体 p FG11SHA;将其与禽痘病毒疫苗株 (w FPV)共转染鸡成纤维细胞 (CEF) ,通过蓝白斑筛选纯化得到重组病毒 r FPV- Ps- HA;以间接免疫荧光法证实 HA基因得到了表达。将该病毒经颈部皮下免疫 1日龄 SPF鸡 ,免疫后 15 d以 H9亚型禽流感病毒 F株翅静脉攻毒 ,攻毒后第 5天采集泄殖腔棉拭子样品进行病毒分离。将此重组病毒与以痘苗病毒 P7.5启动子表达相同基因的重组病毒 r FPV- P7.5 - HA作比较 ,结果表明 ,r FPV- Ps- HA相对于 r FPV- P7.5 - HA明显抑制了病毒的排出 ;攻毒后第 2、5、7、9、11天分别对 r FPV- Ps- HA、油乳剂灭活苗免疫鸡进行泄殖腔、气管排毒规律的检测 ,发现疫苗组均能很好地抑制排毒 ,攻毒对照组泄殖腔的排毒率明显高于气管排毒率     

H9亚型HP株禽流感病毒繁殖规律的探索

为了研究H9亚型HP株禽流感病毒接种非免疫鸡胚后病毒的繁殖规律,试验用H9亚型HP株禽流感病毒接种非免鸡胚,记录不同时间段死亡的鸡胚数量,并分别收获各时间段死亡鸡胚的尿囊液,测定不同时间段尿囊液的病毒效价。结果表明,接种H9亚型HP株禽流感病毒后,非免鸡胚死亡高峰期出现在60～84 h,死亡数量占接种鸡胚数的80%以上,而该时间段死亡鸡胚尿囊液的病毒滴度也处于最高峰,最高到达10^9.63EID₅₀/mL,直到96 h病毒仍维持较高水平(10^9.50EID₅₀/m L),而96 h后病毒滴度开始衰减。