Differentiation of Neospora hughesi from Neospora caninum based on their immunodominant surface antigen, SAG1 and SRS2

Neospora hughesi is a newly recognised parasite that is closely related to Neospora caninum, and is a cause of equine protozoal myeloencephalitis. We have characterised two N. hughesi immunodominant tachyzoite antigens which exhibit antigenic and molecular differences from the homologous tachyzoite antigens on N. caninum. These antigens on N. hughesi are referred to as NhSAG1 and NhSRS2, using the same mnemonics as used for the N. caninum antigens (NcSAG1 and NcSRS2), and are homologous to Toxoplasma gondii surface antigen 1 (SAG1) and SAG1-related sequence 2 (SRS2). The NcSAG1 and NcSRS2 were antigenically conserved in six different N. caninum isolates from cattle and dogs. The two equine-derived Neospora isolates, one designated as N. hughesi, were similar to each other but different from N. caninum. There was 6% difference in amino acid identity between NcSAG1 and NhSAG1, whereas there was a 9% difference when NcSRS2 and NhSRS2 were compared. The polymorphism of these genes and their corresponding proteins provide additional markers which can be used to distinguish N. caninum from N. hughesi.     

Prevention of vertical transmission of Neospora caninum in C57BL/6 mice vaccinated with Brucella abortus strain RB51 expressing N. caninum protective antigens

Bovine abortions caused by the apicomplexan parasite Neospora caninum have been responsible for severe economic losses to the cattle industry. Infected cows either experience abortion or transmit the parasite transplacentally at a rate of up to 95%. Neospora caninum vaccines that can prevent vertical transmission and ensure disruption in the life cycle of the parasite greatly aid in the management of neosporosis in the cattle industry. Brucella abortus strain RB51, a commercially available vaccine for bovine brucellosis, can also be used as a vector to express plasmid-encoded proteins from other pathogens. Neospora caninum protective antigens MIC1, MIC3, GRA2, GRA6 and SRS2 were expressed in strain RB51. Female C57BL/6 mice were vaccinated with a recombinant strain RB51 expressing N. caninum antigen or irradiated tachyzoites, boosted 4 weeks later and then bred. Antigen-specific IgG, IFN-gamma and IL-10 were detected in vaccinated pregnant mice. Vaccinated mice were challenged with 5 x 10(6)N. caninum tachyzoites between days 11-13 of pregnancy. Brain tissue was collected from pups 3 weeks after birth and examined for the presence of N. caninum by real-time PCR. The RB51-MIC3, RB51-GRA6, irradiated tachyzoite vaccine, pooled strain RB51-Neospora vaccine, RB51-MIC1 and RB51-SRS2 vaccines elicited approximately 6-38% protection against vertical transmission. However, the differences in parasite burden in brain tissue of pups from the control and vaccinated groups were highly significant for all groups. Thus, B. abortus strain RB51 expressing the specific N. caninum antigens induced substantial protection against vertical transmission of N. caninum in mice.     

Prevention of lethal experimental infection of C57BL/6 mice by vaccination with Brucella abortus strain RB51 expressing Neospora caninum antigens

Bovine abortions caused by the intracellular protozoal parasite Neospora caninum are a major concern to cattle industries worldwide. A strong Th1 immune response is required for protection against N. caninum. Brucella abortus strain RB51 is currently used as a live, attenuated vaccine against bovine brucellosis. Strain RB51 can also be used as an expression vector for heterologous protein expression. In this study, putative protective antigens of N. caninum MIC1, MIC3, GRA2, GRA6 and SRS2, were expressed individually in B. abortus strain RB51. The ability of each of the recombinant RB51 strains to induce N. caninum-specific immunity was assessed in C57BL/6 mice. Mice were immunised by two i.p. inoculations, 4 weeks apart. Five weeks after the second immunisation, spleen cells from the vaccinated mice secreted high levels of IFN-gamma and IL-10 upon in vitro stimulation with N. caninum whole cell lysate antigens. N. caninum-specific antibodies of both IgG1 and IgG2a subtypes were detected in the serum of the vaccinated mice. Mice in the vaccinated and control groups were challenged with 2 x 10(7)N. caninum tachyzoites i.p. and observed for 28 days after vaccination. All unvaccinated control mice died within 7 days. Mice in the MIC1 and GRA6 vaccine groups were completely protected while the mice in the SRS2, GRA2 and MIC3 vaccinated groups were partially protected and experienced 10-50% mortality. The non-recombinant RB51 vector control group experienced an average protection of 69%. These results suggest that expression of protective antigens of N. caninum in B. abortus strain RB51 is a novel approach towards the development of a multivalent vaccine against brucellosis and neosporosis.     

Complete nucleotide sequences of all three poliovirus serotype genomes. Implication for genetic relationship, gene function and antigenic determinants

The complete nucleotide sequences of the genomes of the type 2 ( P712 , Ch, 2ab ) and type 3 (Leon 12a1b ) poliovirus vaccine strains were determined. Comparison of the sequences with the previously established genome sequence of type 1 (LS-c, 2ab ) poliovirus vaccine strain revealed that 71% of the nucleotides in the genome RNAs were common, that the 5' and 3' termini of the genomes were highly homologous, and that more than 80% of the nucleotide differences in the coding region occurred in the third letter position of in-phase codons, resulting in a low frequency of amino acid difference. These results strongly suggested that the serotypes of poliovirus derived from a common prototype. A comparison of the amino acid sequences predicted from the genome sequences showed highest variation in the capsid protein region, whereas non-structural proteins are highly conserved. Initiation of polyprotein synthesis occurs in all three strains more than 740 nucleotides downstream from the 5' end. An analysis of the non-coding region suggests that small peptides that could potentially originate from this region are conserved. The amino acid sequences immediately surrounding the cleavage signals, however, show a higher than average degree of variation. The analysis of the amino acid sequences of the capsid protein VP1 of all serotypes has led to the prediction of potential antigenic sites on the virion involved in neutralization.     

2010?2011年全球季节性H3N2流感病毒表面蛋白基因的分子遗传特性分析

[目的]分析2010年1月至2011年9月间全球季节性H3N2流感病毒血凝素(Hemagglutinin,HA)和神经氨酸酶(Neuraminidase,NA)基因的演变和分子特征,为流感病毒的防制提供分子信息依据.[方法]搜集期间季节性H3N2流感病毒HA和NA基因的完整核苷酸序列,分别绘制两基因编码序列的进化树;推导出相应的氨基酸序列,统计不同毒株间氨基酸位点差异并分析重要功能位点的变化.[结果]在136条完整的片段4和131条片段6中,2条HA和l条NA序列源自猪群流感病毒,剩余的序列根据进化特征可被分为两群.相比疫苗毒株,发生在HA和NA蛋白抗原位点的平均差异数分别为5.33和2.01个,3个毒株分别在HA宿主受体结合位点和二硫键及NA耐药位点出现突变,多数毒株的糖基化位点增多.江苏毒株和广东毒株分别属于群l和群2,且两省毒株间在HA蛋白抗原位点的差异数从7到13个不等.[结论]2010年1月至2011年9月间的全球季节性H3N2病毒主要呈现两种基因进化特征.因抗原性差异对疫苗开发具有指导作用,而多数毒株的抗原性检测信息仍然未知,但从抗原位点和糖基化位点的变异情况来看,多数毒株的抗原性可能已经变化,为判断是否形成新的流行株,应开展进一步的抗原性检测;并且各地区卫生行政部门应根据耐药位点的变化,制定相应的抗病毒治疗措施.     

Phylogenetic analysis of envelope glycoprotein (E1) gene of rubella viruses prevalent in Japan in 2004

We performed a molecular epidemiological study on the envelope glycoprotein gene (E1 gene) obtained by PCR amplification from specimens of 17 rubella patients in certain areas (Gunma, Saitama, and Kagoshima prefectures, and Tokyo metropolitan area) in Japan in 2004. In these sequences of partially amplified DNAs (283 bases) within the E1 gene, no nucleotide substitution was observed. They were classified into genotype 1D of clade 1 in the constructed phylogenetic tree. One amino acid substitution was found between the amino acid sequence predicted from these DNAs and those of Japanese strains [To-336 vaccine strain (To-336 vac) and its wild progenitor (To-336 wt)]. The results suggest that the rubella viruses (RV) prevalent in certain areas of Japan in 2004 were highly homologous and were closely related with Japanese vaccine strain.     

我国两个不同地区猪繁殖和呼吸综合征病毒分离株ORF5基因序列比例

猪繁殖和呼吸综合征病毒(porcine reproductive and respiratory syndrome virus,PRRSV)为动脉炎病毒科成员之一,可引起感染母猪流产、死胎及断奶仔猪呼吸困难和死亡.该病毒呈球形,有囊膜,大小45nm～83nm,基因组为单股RNA,大小约15kb,有8个阅读框(ORF),分别编码2种非结构蛋白和6种结构蛋白,其中ORF5编码病毒糖基化膜蛋白(GP5)[1,2].GP5蛋白为该病毒主要结构蛋白之一,含有病毒线性中和抗原表位.该蛋白可诱导感染细胞发生细胞凋亡[3,4].目前,PRRSV有欧洲型和美州型两个血清型,其结构蛋白基因同源性为54%～70%[5,6].不同美洲型PRRSV野毒株基因也有一定差异.由ORF5基因推导的氨基酸序列有4个相对保守区,但其N端和C端氨基酸残基可变性较大.由该基因构建的重组质粒具有良好免疫原性[7,8].尽管一些欧美国家已普遍使用Resp PRRS弱毒疫苗,但该病仍时有发生[9,10].我国于1996年亦已证实存在该病,并有不断蔓延趋势,已造成我国养猪业严重经济损失.     

Immunologically relevant strain polymorphism in the Amastigote Surface Protein 2 of Trypanosoma cruzi

Several evidences suggest that the Amastigote Surface Protein-2 (ASP-2) of Trypanosoma cruzi is an important target for immunity during infection. Based on this, we considered it important to evaluate its strain polymorphism. Initially, we observed the presence of conserved cross-reactive epitopes in amastigotes of all parasite strains tested. In addition, the predicted amino acid sequences of the genes isolated from the cDNA of amastigotes of CL-Brener, Tulahuen, Colombian and G strains displayed a high degree of identity (>80%) to the previously described genes of ASP-2. Unexpectedly, Sylvio X10/4 and G strains expressed a new isoform of ASP-2 with limited identity to the previously described genes, but with a high degree of identity when compared to each other. Immunological studies confirmed the presence of cross-reactive epitopes between recombinant proteins representing the different isoforms of ASP-2. However, the genetic vaccination of mice with the new isoform of asp-2 gene expressed by the G strain failed to provide the same degree of protective immunity to a challenge by parasites of the Y strain as did asp-2 genes of Y or CL-Brener strains. In summary, we found that few strains can express different isoforms of ASP-2 which may not share cross-protective epitopes.     

Identification and characterization of a novel Neospora caninum immune mapped protein 1

Immune mapped protein 1 (IMP1) is a newly discovered protein in Eimeria maxima. It is recognized as a potential vaccine candidate against E. maxima and a highly conserved protein in apicomplexan parasites. Although the Neospora caninum IMP1 (NcIMP1) orthologue of E. maxima IMP1 was predicted in the N. caninum genome, it was still not identified and characterized. In this study, cDNA sequence encoding NcIMP1 was cloned by RT-PCR from RNA isolated from Nc1 tachyzoites. NcIMP1 was encoded by an open reading frame of 1182 bp, which encoded a protein of 393 amino acids with a predicted molecular weight of 42.9 kDa. Sequence analysis showed that there was neither a signal peptide nor a transmembrane region present in the NcIMP1 amino acid sequence. However, several kinds of functional protein motifs, including an N-myristoylation site and a palmitoylation site were predicted. Recombinant NcIMP1 (rNcIMP1) was expressed in Escherichia coli and then purified rNcIMP1 was used to prepare specific antisera in mice. Mouse polyclonal antibodies raised against the rNcIMP1 recognized an approximate 43 kDa native IMP1 protein. Immunofluorescence analysis showed that NcIMP1 was localized on the membrane of N. caninum tachyzoites. The N-myristoylation site and the palmitoylation site were found to contribute to the localization of NcIMP1. Furthermore, the rNcIMP1-specific antibodies could inhibit cell invasion by N. caninum tachyzoites in vitro. All the results indicate that NcIMP1 is likely to be a membrane protein of N. caninum and may be involved in parasite invasion.     

风疹病毒松叶株衣壳蛋白C基因稳定性研究

目的研究风疹病毒(Rubella virus,RV)疫苗松叶株(Matsuba)衣壳蛋白(Capsid Protein)的基因稳定性及遗传特征,探讨其功能结构及生物学活性在病毒传代过程中的变化特点。方法利用RT-PCR方法扩增风疹病毒Matsuba株14、16、17、18、23代次C基因序列,测序后进行序列比对分析,并将各代次病毒的C基因与风疹病毒疫苗株Matsuba(GenBank登陆号:AB588193)及其他风疹病毒株C基因序列进行同源性分析。结果风疹病毒Mat-suba株传代病毒C基因在传代过程中核苷酸及氨基酸均未发生变异;各代次病毒与AB588193核苷酸及氨基酸序列完全一致,各关键功能区未发生变异;Matsuba株与18株风疹病毒核苷酸相似性在90.2%～99.9%之间。结论风疹病毒Matsuba疫苗株C基因遗传特性非常稳定,与生物学作用相关的区域未发生传代改变。从分子水平证明Matsuba疫苗株毒种及其生产的疫苗具有安全性。     

Characterization of a Natural Mutation in an Antigenic Site on the Fusion Protein of Measles Virus That Is Involved in Neutralization

Although measles virus is an antigenically monotypic virus, nucleotide sequence analysis of the hemagglutinin and nucleoprotein genes has permitted the differentiation of a number of genotypes. In contrast, the fusion (F) protein is highly conserved; only three amino acid changes have been reported over a 40-year period. We have isolated a measles virus strain which did not react with an anti-F monoclonal antibody (MAb) which we had previously shown to be directed against a dominant antigenic site. This virus strain, Lys-1, had seven amino acid changes compared with the Edmonston strain. We have shown that a single amino acid at position 73 is responsible for its nonreactivity with the anti-F MAb. With the same MAb, antibody-resistant mutants were prepared from the vaccine strain. A single amino acid change at position 73 (R→W) was observed. The possibility of selecting measles virus variants in vaccinated populations is discussed.     

Immunization of mice with plasmid DNA coding for NcGRA7 or NcsHSP33 confers partial protection against vertical transmission of Neospora caninum

The purpose of the present study was to use direct plasmid deoxyribonucleic acid (DNA) injection to identify specific antigens that confer protection against congenital transfer of Neospora caninum. Inbred BALB/c mice were vaccinated before pregnancy with a recombinant plasmid containing sequences encoding N. caninum antigen NcGRA7 or NcsHSP33. The mice were challenged with N. caninum tachyzoites at 10-12 days of gestation. Whereas 100% of pups born from dams immunized with control plasmid contained detectable levels of N. caninum DNA in a Neospora-specific polymerase chain reaction assay, only 46% of pups from pCMVi-NcGRA7-immunized mice and 53% of pCMVi-NcsHSP33-immunized mice were N. caninum positive, and none of the mice immunized with tachyzoite extract contained N. caninum DNA. Thus, immunization of mice with plasmid DNA expressing N. caninum antigens conferred partial protection against congenital neosporosis.     

麻疹病毒F基因测序及其进化关系的初步分析

研究麻疹病毒疫苗株S191毒种及其传代的病毒溶血素F(Haemolysin,HL)基因稳定性;对该序列一些重要位点的氨基酸进行比较,推测其功能结构及生物学活性变化;同时对该基因与M蛋白基因之间的非编码序列进行比对分析。利用RT-PCR方法扩增S191减毒株MeV23、26、27代及一株流行株YunnanLC-10的F基因,测序后进行比对分析。S191传代病毒F基因序列之间核苷酸同源性为99.8%,氨基酸同源性为99.5%～99.6%;S191疫苗株与流行株之间核苷酸序列同源性达95.2%;疫苗株与流行株1003nt的非编码区序列同源性为85.0%。S191传代病毒F基因具有较高遗传稳定性,关键功能位点氨基酸未发生传代改变;1003nt非编码区序列变异速度较快。     

1992—1994年HIV—1国际流行株和云南株膜蛋白V3区氨基酸共有序列比较

对１９９２～１９９４年间１６个云南ＨＩＶ１株膜蛋白基因Ｖ３区进行了ＤＮＡ序列测定,经计算机ＤＮＡＳＩＳ及ＰＲＯＳＩＳ软件进行同源性分析,得出其相应的氨基酸共有序列ＹＮＶ３和两组共有序列ＹＮＶ３Ａ和ＹＮＶ３Ｂ,计算了ＹＮＶ３中每个氨基酸的保守性。分别将ＹＮＶ３Ａ和ＹＮＶ３Ｂ与世界各地的ＨＩＶ１代表株的相应序列进行了同源性比较。结果表明,ＨＩＶ１云南株膜蛋白Ｖ３区氨基酸共有序列ＹＮＶ３中每个氨基酸的平均变异度为７．６６％。两组共有序列ＹＮＶ３Ａ和ＹＮＶ３Ｂ,分别与ＨＩＶ１美欧株及泰国流行株Ｂ亚群相应序列有较高同源性。这一结果提示,在进化上云南瑞丽ＨＩＶ１流行毒株间有非常密切的关系,在这一时期该地区的流行毒株以ＨＩＶ１美欧株、泰国株Ｂ亚群及其衍生株为主。     

The evaluation of recombinant hookworm antigens as vaccines in hamsters (Mesocricetus auratus) challenged with human hookworm, Necator americanus

We have previously reported the successful adaptation of human hookworm Necator americanus in the golden hamster, Mesocricetus auratus. This animal model was used to test a battery of hookworm (N. americanus and Ancylostoma caninum) recombinant antigens as potential vaccine antigens. Hamsters immunized a leading vaccine candidate N. americanus-Ancylostoma secreted protein 2 (Na-ASP-2) and challenged with N. americanus infective larvae (L3), resulted in 30-46.2% worm reduction over the course of three vaccine trials, relative to adjuvant controls. In addition, significant reduction of worm burdens was also observed in the hamsters immunized with adult hookworm antigens A. caninum aspartic protease 1 (Ac-APR-1); A. caninum-glutathione-S transferase 1 (Ac-GST-1) and Necator cysteine proteases 2 (Na-CP-2) (44.4%, 50.6%, and 29.3%, respectively). Our data on the worm burden reductions afforded by these hookworm antigens approximate the level of protection reported previously from dogs challenged with A. caninum L3, and provide additional evidence to support these hookworm antigens as vaccine candidates for human hookworm infection. The hamster model of N. americanus provides useful information for the selection of antigens to be tested in downstream vaccine development.     

Synthetic vaccine (SBm7462) against the cattle tick Rhipicephalus (Boophilus) microplus: preservation of immunogenic determinants in different strains from South America

The synthetic vaccine SBm7462 is based on three immunogenic epitopes (4822, 4823 and 4824) contained within protein Bm86 derived from the Australian Yeerongpilly strain of the tick Rhipicephalus (Boophilus) microplus. Twenty strains of the tick originating from Brazil, Argentina, Colombia and Uruguay were analysed in order to identify differences compared with sequences present in components of vaccine SBm7462. For each parasite population, three cDNA fragments containing the nucleotides coding for the epitopes 4822, 4824 and 4823 were sequenced, and the amino acid sequences were deduced and compared with those of the homologous bm86 gene. The results indicate that the epitope sequences of vaccine SBm7462 are conserved in the South American populations of the tick. The conservation of such sequences is very important for the immunological response of different populations of R. (B.) microplus.     

流行性乙型脑炎病毒减毒株SA14-14-2E基因稳定性研究

为研究乙脑病毒减毒株SA14-14-2 E蛋白基因稳定性,将乙脑病毒减毒株SA14-14-2在原代地鼠肾细胞(PHK)上传至18代,应用RT-PCR分别扩增PHK6代、PHK7代、PHK8代、PHK13代、PHK18代E蛋白基因并测序后,与Genebank中乙脑病毒减毒株SA14-14-2(D90195)进行比较分析。PHK6、PHK7、PHK8代病毒与D90195 E蛋白核苷酸和氨基酸序列完全相同。PHK13、PHK18代病毒与D90195E蛋白核苷酸序列同源性分别为99.8%、99.7%,与D90195E蛋白氨基酸序列同源性分别为99.6%、99.4%。各代次病毒E蛋白与减毒相关氨基酸未发生改变,同时所有突变的氨基酸均非SA14原有的,故不是恢复性突变。结果表明乙脑病毒减毒株SA14-14-2的遗传学特性稳定,从分子水平证明乙脑病毒减毒株SA14-14-2及其生产的疫苗具有安全性。