日本血吸虫新抗原基因Sj—Ts4的克隆、表达及免疫保护性

为探讨旋毛虫感染小鼠后抗血吸虫感染的分子机制 ,并为血吸虫病疫苗的研究提供新的抗原分子 ,用旋毛虫感染鼠血清筛选日本血吸虫成虫cDNA文库。经过 3轮筛选 ,获得 9个阳性克隆 ,其中新基因Sj Ts4有一完整的编码框 ,编码2 10个氨基酸。该蛋白质的理论分子量为 2 3kD ,等电点为 7.72。将Sj Ts4亚克隆于原核表达载体 pGEX 5X 3,以GST融合蛋白的形式在E .coliDH5α中表达。Western印迹分析显示 ,重组Sj Ts4蛋白 (rSj Ts4)能被慢性感染鼠血清识别。rSj Ts4或与弗氏完全佐剂混合后免疫小鼠 ,均可以诱导产生特异性的IgG抗体 ,抗体效价可高达 1∶2 5 6 0 0。两免疫组的减虫率分别为31.36 %和 36 .80 % ,与对照组相比都具有统计学意义     

SARS灭活病毒免疫兔后IgG特异抗体应答

将灭活的SARS冠状病毒抗原每隔两周多点注射免疫兔,共免疫3次,以观察SARS灭活病毒免疫兔后兔血清中IgG特异性抗体的应答变化。免疫前及第一次免疫后第8、14、21、28、35天耳静脉取血,分离血清。间接ELISA法测得血清中特异性IgG抗体持续升高,并表现出一定的剂量依赖性：第35天G1、G2、G3组血清IgG抗体滴度分别为1：51200、1：49600、1：25600;中和试验测得G1组第28天血清样品中和抗体效价为1：2560;蛋白芯片测得M、N、3CI,、S1、S2、S3、S4等病毒蛋白抗原都可特异性结合抗血清中的IgG抗体,但是不同蛋白抗原结合能力有差别。因此可认为SARS灭活病毒经皮下注射免疫兔后,可诱导全身性IgG抗体应答,产生SARS冠状病毒特异性抗体。     

兔抗麻雀IgY酶标抗体的制备

目的制备辣根过氧化物酶（HRP）标记的兔抗麻雀IgY抗体,为禽类血清学检测体系的建立提供技术储备。方法硫酸铵盐析法粗提麻雀血清IgY,进一步在SDS-PAGE上分离后,切下带有目的条带的凝胶作为免疫原,免疫实验兔制备抗血清,Protein-A柱亲和纯化兔抗IgY血清IgG,,使用改良过碘酸钠法制备酶结合物。ELISA检测酶标抗体的工作浓度,western blotting检测酶标抗体的特异性。结果硫酸铵盐析法粗提IgY,可去除部分杂蛋白,SDS-PAGE上分离后切下带有目的条带的凝胶,可以得到足够纯度的抗原,将带有IgY的凝胶作为抗原免疫后获得的抗血清经Protein-A纯化后,二抗在SDS-PAGE上鉴定,纯度达到99%以上。改良的过碘酸钠法标记获得的抗体浓度为1.008 mg/mL,ELISA检测酶标抗体效价为1∶1000。Western blotting鉴定抗体具有特异性。结论获得了优质可靠的兔抗麻雀IgY酶标抗体。     

六种致病性白蛉病毒原核表达核蛋白抗原性初步研究

初步研究六种致病性白蛉病毒原核表达核蛋白(Nucleocapsid protein,NP)抗原的抗原性,为开发相应的血清学诊断试剂提供理论依据。利用原核表达系统表达纯化六种致病性白蛉病毒核蛋白,并分别免疫新西兰白兔。通过间接ELISA方法及Western-blotting方法对所获得的兔免疫血清进行交叉反应检测,确定其抗体ELISA滴度。此外,分别用上述六种致病性白蛉病毒NP抗原包被ELISA反应板并对发热伴血小板减少综合征病毒(Severe fever with thrombocytopenia syndrome virus,SFTSV)病人血清进行间接ELISA检测,确定其血清学交叉反应及IgG抗体滴度。通过原核表达系统表达并纯化的六种白蛉病毒NP抗原浓度及纯度均达到免疫和检测要求。ELISA及Western-blotting检测结果显示六种病毒NP抗原兔免疫血清中的每种血清与其余五种病毒NP抗原可能存在血清学交叉反应。SFTSV病人血清与除SFTSV-NP以外的五种NP抗原亦可能存在部分交叉反应。本研究初步评价了原核表达的六种致病性白蛉病毒核蛋白的抗原性和免疫反应性,为相应诊断试剂的研制奠定了基础。     

斑点ELISA检测感染华支睾吸虫兔血清抗体

许多报道表明,斑点ELISA用于单克隆抗体Ig型别和IgG亚类的鉴定及寄生虫病的检测,不仅有较好的敏感性及特异性,而且快速、简便。我们以此法试用于人工感染华支睾吸虫兔血清抗体的检测,结果如下。材料及方法硝酸纤维素膜:浙江黄岩人民化工厂产。华支睾吸虫抗原:冻干成虫可溶性抗原,1:200。检测血清:(1)华支睾吸虫兔血清:采自经口感染华支睾吸虫囊蚴后40—50天粪检虫卵阳性之兔;(2)免疫兔血清:以华支睾吸虫抗原免疫。方法按余等(1982)皮内免疫法进行。血清IgG提纯按北京医学院微生物学教研组(1980)方法分别用50%和33%饱和度(NH4)2SO4盐…     

嗜水气单胞菌BYKAH2008AC株外膜蛋白和溶血素双基因的融合表达及免疫原性分析

嗜水气单胞菌(Aeromonas hydrophila)的外膜蛋白基因(OmpTS)和溶血素基因(Hly)是其重要的保护性抗原。根据Genbank已发表的两个基因的序列设计引物,扩增其去除信号肽部分的基因片段,再将二者通过柔性片段融合,定向插入到质粒pET32a中构建重组融合表达载体,并转化到大肠杆菌BL21(DE3),经IPTG诱导获得与预期大小108 kD相吻合的融合蛋白条带。用纯化的重组蛋白免疫新西兰大白兔制备兔抗血清。ELISA和Western Blot检测该抗体效价为1∶4000以上,且该重组蛋白与抗OmpTS兔血清和抗Hly兔血清都呈阳性反应,表明该融合蛋白保留了外膜蛋白和溶血素的免疫原性,可作为基因工程亚单位疫苗的候选成分。     

蝙蝠血清IgG的纯化及兔抗蝙蝠IgG酶标抗体的制备

目的纯化蝙蝠血清IgG,制备兔抗蝙蝠IgG酶标抗体。方法采用亲和层析纯化法纯化蝙蝠血清IgG,SDS-PAGE电泳鉴定蝙蝠IgG纯度。免疫大白兔制备兔抗蝙蝠IgG抗血清,免疫双扩散法测定抗血清效价,亲和层析纯化法纯化抗血清IgG。用改良过碘酸钠标记法制备兔抗蝙蝠IgG酶标抗体,直接ELISA和Western blot法对兔抗蝙蝠IgG酶标抗体进行工作浓度测定。结果纯化的蝙蝠血清IgG,其SDS-PAGE测定纯度大于95%;免疫大白兔所制备的抗血清免疫双扩散效价为1∶64;用改良过碘酸钠标记法制备兔抗蝙蝠IgG酶标抗体,其直接ELISA和Western blot工作浓度分别为1∶12800和大于1∶2000。结论制备了蝙蝠血清IgG的抗血清和酶标抗体,为蝙蝠的血清学检测体系提供了技术和资源储备。     

小鼠组蛋白去乙酰化酶2多肽抗血清的制备

目的利用人工合成小鼠组蛋白去乙酰化酶2（histone deacetylase 2,HDAC2）多肽制备特异性抗HDAC2抗血清,用于相关疾病的体内外诊断。方法根据HDAC2基因编码的氨基酸序列合成多肽,与载体偶联后免疫动物,所制备的抗血清用ELISA、Western blot及免疫组织化学方法鉴定。结果 ELISA检测表明所制备的抗血清可同多肽抗原发生阳性反应,效价1∶4 000;Western blot结果显示抗血清可与多肽抗原及APP/PS1转基因小鼠的脑组织发生反应;免疫血清1∶100,1∶200,1∶400,1∶800四个稀释度均能与小鼠脑组织中的HDAC2反应。结论所制备的多肽抗血清可识别组织及血清中的HDAC2,可应用于相关领域的体内外研究。     

人心肌肌钙蛋白Ⅰ单克隆抗体及多克隆抗体的制备

目的:以重组人心肌肌钙蛋白Ⅰ(cTnⅠ)为抗原制备鼠源单克隆抗体(McAb)及兔源多克隆抗体,并鉴定抗体的特性。方法:以纯化的重组人cTnⅠ为抗原免疫BALB/c小鼠,取鼠脾细胞同Sp2/0骨髓瘤细胞融合,利用选择培养基筛选融合的杂交瘤细胞,用有限稀释法分离获得能够稳定分泌抗cTnⅠ的McAb阳性克隆,并利用体内诱生法大规模制备McAb,用辛酸-硫酸铵沉淀法纯化抗体;兔多抗制备以cTnⅠ为抗原常规免疫后取其血清;用间接ELISA和Western印迹鉴定抗体的性质。结果:经ELISA鉴定,筛选出5株能分泌cTnⅠMcAb的杂交瘤细胞株,即C5B2、C5B3、C5B4、C5B1、B1A6,效价最高的B1A6株分泌的McAb为IgG3型,纯化后效价为1∶10000,亲和常数为1.08×10-9mol/L,Western印迹鉴定表明cTnⅠMcAb有良好的特异性;兔多抗纯化后的效价为1∶8000。结论:制备了具有良好特性的cTnⅠMcAb和多克隆抗体。     

嗜肺巴氏杆菌外膜蛋白和脂多糖抗原在血清学诊断中的意义

目的评价嗜肺巴氏杆菌外膜蛋白(OMP)和脂多糖(LPs)作为血清学诊断抗原的敏感性和特异性.方法用OMP、LPS和全菌(WC)作为Western blot和ELISA的诊断抗原检测自然感染和实验感染嗜肺巴氏杆菌小鼠相应的IgG抗体滴度,同时测定3种抗原与实验动物常见致病菌的交叉反应.结果与嗜肺巴氏杆菌自然感染和实验感染小鼠血清的ELISA反应中,不同时期,LPS作为诊断抗原时血清抗体阳性率最高,WC次之,OMP最低.自然感染小鼠群中,出生4周LPS抗体阳性率即可达80%,而同期的WC和OMP仅为25%和20%,故LPS敏感性最高.与实验动物常见致病菌免疫血清和阴性种鼠血清的ELISA反应中,WC抗原表现出较高的吸光度(A)值,经Western blot证实,其反应为非特异性反应,LPS抗原特异性最强,OMP抗原次之.结论混合多株具有型或种特异性的OMP或LPS作为ELISA的诊断抗原,无论从特异性和敏感性上均高于全菌抗原.     

Trichinella spiralis: recognition of muscle larva antigens during experimental infection of swine and its potential use in diagnosis

Longitudinal studies with Trichinella spiralis experimentally infected pigs were carried out to identify muscle larva antigens recognized during infection. This was approached using Western blot analysis and ELISA assays. Immunoblots of sera from experimentally infected pigs using total parasite extracts revealed five principal parasite antigens throughout infection. A similar pattern of antigen recognition was given by sera from backyard pigs in areas of Mexico, some of them endemic for Trichinella. Four of the five antigens recognized (MW 47, 52, 67, and 72 kDa) corresponded to surface/stichosomal antigens purified by monoclonal antibody NIM-M1. In addition, Western blots of excretions-secretions of muscle larva contained three (MW 52, 67, and 72 kDa) of the four surface/stichosomal components recognized by NIM-M1. Affinity-purified surface/stichosomal components, total soluble extracts, and excretory-secretory antigens of muscle larva were then evaluated in ELISA for detection of T. spiralis infections in experimentally infected, noninfected control, and 295 backyard pigs. These assays showed that purified surface/stichosomal components and excretory-secretory antigens increased the specificity of ELISA. These results suggest that muscle larva components purified by monoclonal antibody NIM-M1 are the major antigens recognized during infection of pigs with T. spiralis and therefore potentially useful for diagnosis of swine trichinellosis.     

Trichinella spiralis: a 76-kDa excretory/secretory larval antigen identified by a monoclonal antibody

Spleen cells from BALB/c mice were fused with myeloma cells following infection of the mice with Trichinella spiralis larvae and an ip booster injection with larval homogenate antigen. A monoclonal antibody (Mab), designated as TS 3G6 which did not react with sera or tissue extracts from noninfected mice, rats, and guinea pigs, was selected for further studies because of its high activity and specificity. When tested in ELISA TS 3G6 did not cross-react with Ascaris suum, A. lumbricoides, Toxocara canis, E. granulosus (larvae), Trichiuris suis, or T. ovis. Western blot analysis showed that Mab 3G6 recognized an antigen of 76 kDa located in the stichosome of the larvae as well as on the surface of the larval cuticle. Digestion of a larval extract with different enzymes suggests that the Mab TS 3G6 corresponding epitope is a polypeptide. The TS 3G6 antigen was detected in culture supernatants of Trichinella muscle larvae and in sera of experimentally infected animals using a sensitive ELISA assay. This secretory antigen also seemed to induce a specific immune response in the host since sera from infected animals could block the binding of Mab TS 3G6 to its target antigen when tested in a competitive ELISA.     

Conservation of diagnostic antigen epitopes among biologically diverse isolates of Trichinella spiralis

Crude and immunoaffinity-purified excretory-secretory antigens derived from a domestic pig isolate of Trichinella spiralis were used in an enzyme-linked immunosorbent assay to test serum from mice infected with 25 different pig and wild animal isolates of T. spiralis sspp. All of the sera were found positive by ELISA using either of the antigen preparations, indicating all isolates shared certain antigen epitopes. Excretory-secretory antigens were prepared from 3 distinct isolates of T. spiralis sspp.--Trichinella spiralis spiralis (pig isolate), Trichinella spiralis nativa (polar bear isolate), and Trichinella spiralis pseudospiralis--and compared by electrophoresis and monoclonal antibody binding. While protein profiles varied among the isolates, a monoclonal antibody recognizing a major immunodiagnostic antigen epitope bound all 3 antigen preparations. However, this antigen epitope occurred on different molecular weight excretory-secretory proteins from the different isolates.     

Immunodiagnosis of human trichinellosis using excretory-secretory (ES) antigen.

Infective first stage larvae of Trichinella spiralis were recovered from muscles of laboratory infected mice by digesting the muscles with 1% HC1-1% pepsin and collecting the larvae by modified Baerman's method. The larvae were cultivated in a serum-free medium for 18 h. The ES antigen obtained from the culture medium was used in an enzyme-linked immunosorbent assay (ELISA) for detecting IgG antibodies to T. spiralis in serum samples collected from three groups of individuals. The individuals of the first group were parasitologically confirmed trichinellosis patients, while those of group 2 were patients with other helminthiasis and group 3 were healthy, parasite-free individuals. The specificity of the assay was 100%. The sensitivity of the test was also 100% when performed on sera of group 1 collected at days 57 and 120 after infection. Sera collected earlier (day 23) and those collected 700 days after infection had negligible reactivity. Thus IgG-ELISA using ES antigen of the L1 was useful not only for diagnosis but also in evaluation of cure. Western blot analysis revealed that specific antigens of T. spiralis were 94, 67, 63, and 39 kilodalton components.     

Trichinella spiralis: characterization of phage-displayed specific epitopes and their protective immunity in BALB/c mice

Trichinellosis is a global zoonosis mainly caused by Trichinella spiralis. We have previously reported that a novel Ts87 gene from the cDNA library of adult T. spiralis was cloned and expressed in a prokaryotic expression system. Vaccination with recombinant Ts87 protein (rTs87) induced a muscle larvae burden reduction in BALB/c mice by 29% in response to T. spiralis infection. In the present study, we screened a random phage-displayed peptide library using monoclonal antibody 5A3 which recognized Ts87 protein. Four positive phage clones were selected to subcutaneously immunize BALB/c mice without adjuvant. Two phage clones could effectively stimulate specific antibodies against rTs87. Mice vaccinated with these two combined phage clones showed a 28.7% worm burden reduction as compared to the control group. Therefore, the identified phage clones displayed peptides representing specific epitopes of Ts87 protein and could be considered as potential vaccine candidates for T. spiralis.     

A dot-ELISA mimicry western blot test for the detection of swine trichinellosis

A dot enzyme-linked immunosorbent assay (dot-ELISA) using antigens purified by monoclonal antibody affinity chromatography was developed for detecting Trichinella spiralis infection in swine. The test was as sensitive as an ELISA using excretory-secretory products as antigen and western blot analysis, and nearly as specific as the western blot. The dot-ELISA detected all of 20 low infections (0.08-4.74 larvae per gram of diaphragm), most of them by 5-6 wk postinfection. Sera from 1,960 farm-reared swine were tested by conventional ELISA, dot-ELISA, and western blot. Of the 1,960 sera, 262 (13.4%) were considered positive on conventional ELISA, 16 (0.82%) by dot-ELISA, and 15 (0.77%) by western blot. The improved specificity was achieved by employing species-specific denatured antigens. More importantly, the dot-ELISA was much simpler to perform than western blot analysis. The principles employed in this test can be adapted to other infectious diseases, such as AIDS.     

Trichinella spiralis: light microscope monoclonal antibody localization and immunochemical characterization of phosphorylcholine and other antigens in the muscle larva

A panel of monoclonal antibodies was used to examine the structure of the muscle larva of Trichinella spiralis under the light microscope. Immunofluorescence and, in some cases, immunoperoxidase staining were used. All four antibodies reacted with the cuticle of the organism, although differences in the staining pattern were observed for some of these. Interestingly, all the antibodies also reacted with the stichosome. One of the antibodies (Ts2Ab) is specific for the hapten, phosphorylcholine. In a binding assay, this antibody also reacted with extracts of Trichuris suis, Ascaris suum, and Fasciolopsis buski, but not with extracts derived from Cysticercus cellulosae, Candida albicans, Salmonella typhi, or Escherichia coli. This crossreactivity was confirmed microscopically in which the cuticle, oviduct and eggs of T. suis, the cuticle, muscle cells, and eggs of A. suum, and the cuticle and vitelline glands of F. buski were seen to be clearly stained by the antibody. In addition, Ts2Ab also reacted with the cuticle and stichosome of the adult T. spiralis worm. In Western blot analysis, Ts2Ab recognized a 43-kDa antigen from T. spiralis muscle larvae extracts, while a previously studied antibody (7C2C5Ab) identified four major antigens (48.5, 47, 43, and 39 kDa) in this preparation. Similar results were obtained when the 24-hr excretory-secretory (ES) antigens of T. spiralis were immunoblotted with the antibodies, although the reactivity shown by Ts2Ab was relatively weak. With the 72-hr ES material, on the other hand, major antigens of lower mol wt (44, 28, and 25 kDa) were revealed by 7C2C5Ab, and no reactivity was seen with Ts2Ab. However, this antigen preparation reacted well with both antibodies in an enzyme-linked immunoassay. Taken together, the findings suggest that the 72-hr ES antigens probably result from extensive degradation of material originally secreted or excreted by the worm. Similar binding studies on the 24-hr ES preparation indicated that this source may be relatively rich in 7C2C5Ab-reactive epitopes and relatively poor in the antigen identified by Ts2Ab. Other studies performed demonstrated that the antigens recognized by these two antibodies were distinct and physically unassociated.     

Search for antibodies against Trichinella spiralis in free roaming rodents caught in a zoological park from Mexico City

A serological survey to search for antibodies against T. spiralis was performed in free roaming rats (n = 64) and mice (n = 35) caught in a zoological park from Mexico City. Serum samples were analyzed by ELISA and immunoelectrotransfer blot assay (EIBT). None serum show positive absorbance values in ELISA nor recognized T. spiralis specific antigenic fractions in EIBT. However, two rat samples recognized three antigens of 31, 37 y 55 kDa, while one of them reacted with two additional antigens of 64 and 67 kDa. As it is known that the antigen epitope profiles varied among Trichinella species, it could be possible that in rats, there is 3% of antibody prevalence against Trichinella sp.; however, due that other organisms could induce the production of cross-reacting antibodies, such conclusion can not be supported at all. These results suggest that T. spiralis was not part of helminthological fauna in these rodents.     

Comparison of IgG3 responses to carbohydrates following mouse infection or immunization with six species of Trichinella

The IgG3 antibody responses to carbohydrate epitopes were compared in BALB/c mice infected or immunized with six species of Trichinella: T. spiralis (T1), T. nativa (T2), T. britovi (T3), T6, T. nelsoni (T7), and T8. The dynamics of IgG3 responses and antigen recognition following infection or immunization were measured by ELISA and Western blot respectively, using glycosylated and deglycosylated larval crude extracts (LCE) prepared from homologous isolates. A high degree of protein glycosylation was found in all species and with similar profiles. Deglycosylation was completely achieved only in LCE from T1 and T6 isolates. The dynamics of IgG3 responses following infection or immunization significantly differed whereas the antigen recognition profiles appeared similar. Variations in the levels and antigen recognition patterns of IgG3 among the different species were apparent. The highest IgG3 levels were recorded in infections by the T8 isolate and the lowest in infections by the T6 isolate, whereas for immunization the highest IgG3 response was induced by T7 and the lowest by T8. Following antigen deglycosylation, the IgG3 responses were significantly reduced or abrogated and the recognition patterns markedly modified or suppressed in the different species of Trichinella.