O型口蹄疫疫苗免疫牛抗体消长动态的LPB-ELISA检测

分别按一次免疫、首免后第15d加强免疫和首免后第60d加强免疫程序，对3组试验牛（每组牛20头）用O型口蹄疫疫苗进行了免疫。免疫后不同时间点用液相阻断ELISA（LPB-ELISA）测定了免疫牛O型口蹄疫抗体效价。结果，首免后第15d加强免疫牛和第60d加强免疫牛抗体水平较高，50％保护牛所占比例分别为56．3％和63．1％，完全受保护的牛所占比例分别为34．3％和29．5％。第60d加强免疫牛的保护率要高于第15d加强免疫牛和一次免疫牛的保护率。结果表明，首免后第60d加强免疫是最理想的免疫程序。     

琼脂扩散试验检测附红细胞体抗体

采用琼脂扩散试验检测自然感染猪附红细胞体抗体和兔抗猪附红细胞体抗体,结果表明,猪附红细胞体抗原与自然感染附红细胞体猪血清、首免和二次免疫后收集的兔抗血清的琼脂扩散试验结果均呈阴性,第3次免疫后的血清效价为1∶16。     

上海地区多种动物戊型肝炎血清学调查

在上海地区收集血液样品(猪、牛、山羊、马、鸡、鸭、鸽、犬和部分珍禽等)964份,应用双抗原夹心酶联免疫法(DS-ELISA)检测抗HEV抗体。结果表明,猪抗HEV抗体的阳性率为72.18%(301/417),其中母猪阳性率最高,为82.53%(222/269),育成猪阳性率为52.54%(62/118),保育猪阳性率为50.00%(15/30);22个猪场均检测到抗HEV抗体阳性猪,阳性率高于60%的猪场有16个,占阳性猪场的72.72%。在牛、山羊、马、鸡、鸭、鸽等血清中也检测到了抗HEV抗体,阳性率分别为6.00%,24.00%,16.00%,1.90%,12.77%和4.44%,明显低于猪群的阳性率。在宠物犬中检测到了抗体阳性犬,阳性率为17.82%(18/101),说明犬对HEV易感。珍禽中野鸭、火烈鸟对HEV也有一定的敏感性,阳性率分别为6.60%(1/15)和10%(1/10),在孔雀和鸵鸟的血清标本中未检测到HEV抗体。猪群中戊型肝炎病毒存在较普遍,其他与人类密切相关的多种动物也对HEV敏感。     

狐传染性脑炎活疫苗抗体消长规律的研究

应用血清中和试验和血凝抑制试验对狐传染性脑炎活疫苗免疫狐进行抗体水平动态监测,结果表明,疫苗接种14 d抗体达到保护,21~30 d抗体水平达到高峰;免疫240 d抗体仍在保护值以上。对SN抗体和HI抗体进行动态分析表明,两者呈正相关,均可用于狐传染性脑炎活疫苗免疫效力监测。     

Prokaryotic Expression and Polyclonal Antibody Preparation of σC Protein of Novel Duck Reovirus DH13 Strain

The aims of the experiment was to optimize the prokaryotic expression system of σC protein,prepare polyclonal antibody against σC protein of novel duck reovirus (NDRV),and evaluate the titer of the antibody.The σC gene of NDRV-DH13 strain was amplified by RT-PCR,ligated into pET-30a(+) and pET-32a(+) expression vector,constructed prokaryotic expression plasmid,which were transformed into E.coli BL21(DE3) and the expression of the σC protein were induced by IPTG.The proteins expression were analyzed by SDS-PAGE.The recombinant protein without His tag was purified by digestion,and the recombinant protein with His-tagged was purified by Ni-NTA column.Then the polyclonal antibody was obtained from rabbits which had been immunized by the purified protein without His tag.Anti-His-labeled mAb and NDRV-σC positive serum were used as primary antibodies to evaluate antibodies specificity,the antibodies titer was detected by indirect ELISA (iELISA).SDS-PAGE results showed that the molecular weight of the expression on recombinant proteins were 34 and 37 ku respectively,the proteins were highly expression.Western blotting showed that they had the specific reaction and the prepared antibodies had higher affinity with σC protein,the titer were about 1:25 600 by iELISA detection.This study successfully constructed and optimized the prokaryotic expression system of the polyclonal antibody against σC protein,laid a foundation for the further study of σC protein and the research of genetically engineered vaccine.     

禽Ⅰ型副粘病毒各种禽源分离株的免疫原性

分别制备了源于鸡、鹅、鸽、鹌鹑、孔雀、画眉鸟、珍珠鸡的禽型副粘病毒(APMV-1)7个强毒分离毒株和商品弱毒疫苗株克隆30(C30)的灭活油乳剂苗,并用这8种灭活油乳剂苗和C30株的活疫苗分别在鸡、鹌鹑、鹅和鸽进行了免疫及交叉攻毒保护试验。免疫后(PI)分别测定试验禽血清的新城疫病毒(NDV)血凝抑制(HI)抗体的滴度,并于PI 5周用强毒株进行攻毒。结果表明,鸽的HI抗体几何平均滴度(MAT)为9.00~10.0 log2,鸡的为7.13~7.63 log2,鹌鹑的为5.00~5.13 log2,鹅对灭活油乳剂苗的为5.63~6.38 log2、而对C30株活疫苗的仅为3.38log2;除了C30株活疫苗免疫鹅提供的保护率比较低(20%)外,8种油乳剂苗都能对同源或者异源强毒株的攻毒提供比较高的保护率(66.75%~100%)。研究结果表明,经典疫苗株C30与近年来从各种不同禽类分离的致病性APMV-1野毒株之间、不同禽源分离株之间的抗原性,以及各种不同禽源分离株的之间的免疫原性差异均不大。     

口蹄疫重组鸡痘病毒活载体疫苗在豚鼠、猪体内的毒性、分布及抗体消长规律

利用临床观察、病理解剖、PCR、RT-PCR、ELISA、中和抗体检测等方法,对口蹄疫(FMD)重组鸡痘病毒(FPV)在豚鼠、仔猪体内的毒性、分布以及抗体消长规律进行研究。结果表明,FMD重组鸡痘病毒免疫的动物在整个试验期间,未表现出明显的临床症状和不良反应;病理组织切片检测无明显的组织学变化;PCR、RT-PCR检测证明,豚鼠、猪免疫FMD重组鸡痘病毒后,在心脏、肝脏、脾脏、肺脏、肾脏、肌肉、脑、肠系膜淋巴结内检测到FPVDNA和FMDV DNA,且在大部分组织能存在3 d左右;FMD重组鸡痘病毒均可诱导免疫动物产生较高水平的抗FMDV特异性抗体和中和抗体,验证了所构建重组FPV的生物安全性及良好的免疫原性,为其他哺乳动物实验提供了必要的基础数据。     

猪囊尾蚴特异性单克隆抗体的制备及其识别抗原成分的鉴定

通过SDS-PAGE方法对猪囊尾蚴囊液抗原成分进行了分离鉴定,并分别分离纯化了其中的16 000和10 000特异性蛋白质成分;将16 000和10 000纯化蛋白质成分分别做成佛氏佐剂苗,分组免疫BALB/c小鼠,超免后,无菌取脾脏制备脾细胞,分别与NS0骨髓瘤细胞进行融合,经阳性筛选和特异性鉴定获得2株分泌猪囊尾蚴特异性单抗的杂交瘤细胞,命名为TSCF-1611H12B8和TSCF-1012G5B5。免疫学鉴定结果表明,单抗TSCF-1611H12B8和TSCF-1012G5B5与猪细颈囊尾蚴、旋毛虫、住肉孢子虫和蛔虫抗原间不存在交叉反应;单抗TSCF-1611H12B8识别囊液中16 000和10 000蛋白质抗原条带,而单抗TSCF-1012G5B5识别囊液中的10 000蛋白质条带。