纳米金标记核酸探针检测小反刍兽疫 病毒核酸的研究

试验旨在探讨利用纳米金标记寡核苷酸探针快速检测小反刍兽疫病毒核酸的方法。针对小反刍兽疫病毒N基因的高度保守区设计两条特异寡核苷酸探针,一条探针5’端修饰生物素,另一条探针3’端修饰巯基。巯基化的探针通过Au-S键连接到纳米金颗粒上。靶核酸两端分别与两条探针结合,形成"生物素化探针-靶核酸-纳米金探针"复合物,该复合物通过生物素-亲和素系统,固定在固相载体上,最后银染放大信号。通过肉眼观察法、光镜观察法、分光光度法分析银染灰度,从而间接测定靶核酸的量。初步检测PPRV核酸最低浓度达10fmol/L,所需时间约为1.5h。该方法灵敏度高、操作简单,为临床检测小反刍兽疫病毒核酸提供实验数据和技术支持。     

Seroprevalence of Sheep and Goat Pox,Peste Des Petits Ruminants and Rift Valley Fever in Saudi Arabia

Sheep and goat pox, peste des petits ruminants and Rift Valley fever are important diseases of small ruminant livestock. Sheep and goat pox, along with peste des petits ruminants, are endemic throughout most of Africa, Asia and the Middle East. Whereas Rift Valley fever is endemic in Africa, outbreaks in the Middle East have been reported over the past decade, including the Arabian Peninsula. Saudi Arabia is a major importer of livestock, and understanding the prevalence of these viral infections would be useful for disease control. In this study, sera from sheep and goats were collected from 3 regions in Saudi Arabia. They were evaluated for antibodies specific to sheep and goat pox, peste des petits ruminants and Rift Valley fever by virus neutralization assays. To the best of our knowledge, this is the first study to evaluate the seroprevalence of these viruses in sheep and goats.     

从消灭牛瘟分析全球根除小反刍兽疫的可行性

根除,又称为消灭,是指某传染病的传播永远停止,不再发生。2011年,联合国粮农组织和国际兽疫局联合发布了全球根除牛瘟的消息。这两大国际组织的官方信息预示着,牛瘟病毒,正如天花病毒,将来只能在授权的实验室中保存了。牛瘟根除之后,相关学者不禁把目光投向了下一个目标-小反刍兽疫,因为从病原学和病理学等诸多方面考虑,二者最为相似。本文首先分析了前者根除的主客观因素,然后从正反两方面评述了后者全球性根除的可行性。     

Vaccination with Recombinant Adenoviruses Expressing the Peste des Petits Ruminants Virus F or H Proteins Overcomes Viral Immunosuppression and Induces Protective Immunity against PPRV Challenge in Sheep

Peste des petits ruminants (PPR) is a highly contagious disease of small ruminants caused by the Morbillivirus peste des petits ruminants virus (PPRV). Two recombinant replication-defective human adenoviruses serotype 5 (Ad5) expressing either the highly immunogenic fusion protein (F) or hemagglutinin protein (H) from PPRV were used to vaccinate sheep by intramuscular inoculation. Both recombinant adenovirus vaccines elicited PPRV-specific B- and T-cell responses. Thus, neutralizing antibodies were detected in sera from immunized sheep. In addition, we detected a significant antigen specific T-cell response in vaccinated sheep against two different PPRV strains, indicating that the vaccine induced heterologous T cell responses. Importantly, no clinical signs and undetectable virus shedding were observed after virulent PPRV challenge in vaccinated sheep. These vaccines also overcame the T cell immunosuppression induced by PPRV in control animals. The results indicate that these adenovirus constructs could be a promising alternative to current vaccine strategies for the development of PPRV DIVA vaccines.     

Response of white-tailed deer to infection with peste des petits ruminants virus

White-tailed deer (Odocoileus virginianus) were infected experimentally with two strains of peste des petits ruminants virus. The response varied from fatal consequence to subclinical infection. The clinical signs and gross lesions were similar to those in goats. Virus was recovered from all the infected deer, and survivors developed specific antibodies demonstrated by complement fixation and virus neutralization tests. Survivors also resisted challenge with virulent rinderpest virus that was lethal to a control deer.     

Self-Assembly and Release of Peste des Petits Ruminants Virus-Like Particles in an Insect Cell-Baculovirus System and Their Immunogenicity in Mice and Goats

Peste des petits ruminants (PPR) is an acute, febrile, viral disease of small ruminants that has a significant economic impact. For many viral diseases, vaccination with virus-like particles (VLPs) has shown considerable promise as a prophylactic approach; however, the processes of assembly and release of peste des petits ruminants virus (PPRV) VLPs are not well characterized, and their immunogenicity in the host is unknown. In this study, VLPs of PPRV were generated in a baculovirus system through simultaneous expression of PPRV matrix (M) protein and hemaglutin in (H) or fusion (F) protein. The released VLPs showed morphology similar to that of the native virus particles. Subcutaneous injection of these VLPs (PPRV-H, PPRV-F) into mice and goats elicited PPRV-specific IgG production, increased the levels of virus neutralizing antibodies, and promoted lymphocyte proliferation. Without adjuvants, the immune response induced by the PPRV-H VLPs was comparable to that obtained using equivalent amounts of PPRV vaccine. Thus, our results demonstrated that VLPs containing PPRV M protein and H or F protein are potential “differentiating infected from vaccinated animals” (DIVA) vaccine candidates for the surveillance and eradication of PPR.     

中国西藏小反刍兽疫病毒China/Tib/Gei/07-30磷蛋白基因的分子特征及其编码蛋白特性分析

对我国西藏小反刍兽疫病毒野生株China/Tib/Gej/07-30进行磷蛋白基因序列测定,并进行分子生物学特征分析。首先应用逆转录聚合酶链式反应扩增出病毒磷蛋白基因片段,对聚合酶链式反应产物进行直接测序,然后对测定的核苷酸和推测的氨基酸序列进行比较分析。小反刍兽疫病毒China/Tib/Gej/07-30磷蛋白基因由1 655个核苷酸组成,编码2个相互交叠的开放阅读框(ORF)。第一个ORF长度为1 530个核苷酸,编码的P蛋白长度为509个氨基酸。第二个ORF长度为534个核苷酸,编码的C蛋白长度为177个氨基酸。第一个ORF通过基因编辑在751位插入1个G核苷酸,转录生成第二个mRNA,长度为897个核苷酸,编码的V蛋白长度为298个氨基酸。小反刍兽疫病毒China/Tib/Gej/07-30的P蛋白与其他分离株氨基酸序列同源性为86.1%～97.3%,C蛋白氨基酸序列相似性为84.3%～94.9%,V蛋白为82.9%～96.3%。China/Tib/Gej/07-30的P蛋白第315～387位氨基酸是一段高度保守的七肽重复序列。     

小反刍兽疫病毒结构与功能的研究进展

小反刍兽疫病毒属于副黏病毒科麻疹病毒属,主要感染山羊、绵羊和野生小反刍兽,临床症状以发热、肺炎、腹泻及呼吸道和消化道黏膜炎症为主要特征。迄今为止对于小反刍兽疫无特效药物进行治疗,该病可对家畜养殖业造成一定的经济损失,因此对小反刍兽疫病毒病原学、结构和功能的研究已成为迫切需求。主要综述了小反刍兽疫病毒的六种结构蛋白N、P、M、F、HN、L和两种非结构蛋白C、V的基因组结构及功能,探讨了新型疫苗的研发方向,以期为小反刍兽疫病毒的深入研究、小反刍兽疫的临床防控提供参考。     

Peste des Petits Ruminants Virus Tissue Tropism and Pathogenesis in Sheep and Goats following Experimental Infection

Peste des petits ruminants (PPR) is a viral disease which primarily affects small ruminants, causing significant economic losses for the livestock industry in developing countries. It is endemic in Saharan and sub-Saharan Africa, the Middle East and the Indian sub-continent. The primary hosts for peste des petits ruminants virus (PPRV) are goats and sheep; however recent models studying the pathology, disease progression and viremia of PPRV have focused primarily on goat models. This study evaluates the tissue tropism and pathogenesis of PPR following experimental infection of sheep and goats using a quantitative time-course study. Upon infection with a virulent strain of PPRV, both sheep and goats developed clinical signs and lesions typical of PPR, although sheep displayed milder clinical disease compared to goats. Tissue tropism of PPRV was evaluated by real-time RT-PCR and immunohistochemistry. Lymph nodes, lymphoid tissue and digestive tract organs were the predominant sites of virus replication. The results presented in this study provide models for the comparative evaluation of PPRV pathogenesis and tissue tropism in both sheep and goats. These models are suitable for the establishment of experimental parameters necessary for the evaluation of vaccines, as well as further studies into PPRV-host interactions.     

The effects of codon usage on the formation of secondary structures of nucleocapsid protein of peste des petits ruminants virus

The nucleocapsid (N) protein of peste des petits ruminants virus (PPRV) with a conserved amino acid usage pattern plays an important role in viral replication. The primary objective of this study was to estimate roles of synonymous codon usages of PPRV N gene and tRNA abundances of host in the formation of secondary structure of N protein. The potential effects of synonymous codon usages of N gene and tRNA abundances of host on shaping different folding units (α-helix, β-strand and the coil) in N protein were estimated, based on the information about the modeling secondary structure of PPRV N protein. The synonymous codon usage bias was found in different folding units in PPRV N protein. To better understand the role of translation speed caused by variant tRNA abundances in shaping the specific folding unit in N protein, we modeled the changing trends of tRNA abundance at the transition boundaries from one folding unit to another folding unit (β-strand → coil, coil → β-strand, α-helix → coil, coil → α-helix). The obvious fluctuations of tRNA abundance were identified at the two transition boundaries (β-strand → coil and coil → β-strand) in PPRV N protein. Our findings suggested that viral synonymous codon usage bias and cellular tRNA abundance variation might have potential effects on the formation of secondary structure of PPRV N protein.     

Susceptibility of mink to certain viral animal diseases foreign to the United States.

Mink (Mustela vison) were inoculated with viruses: African horse sickness (AHS), African swine fever (ASF), bovine herpes virus II (BHV2), foot-and-mouth disease (FMD), goat pox (GP), hog cholera (HC), peste des petits ruminants (PPR), rinderpest (RP), swine vesicular disease (SVD), vesicular exanthema of swine (VES) and vesicular stomatitis (VS). Their susceptibility was measured by development of clinical signs, virus isolation and detection of precipitin and/or virus neutralizing antibodies. SVD virus produced a lesion in one mink. Virus was isolated from mink inoculated with SVD, FMD and BHV2. Neutralizing and/or precipitin antibodies were detected in mink inoculated with ASF, FMD, GP, RP, SVD and VS viruses. Mink were not susceptible to AHS, HC, PPR and VES viruses.     

中国西藏小反刍兽疫病毒野生株China/Tib/Gej/07-30基质蛋白基因和融合蛋白基因的分子特征分析

对我国西藏小反刍兽疫病毒野生株China/Tib/Gej/07-30进行基质蛋白(M)和融合蛋白(F)基因序列测定,并进行分子生物学特征分析。首先应用逆转录聚合酶链式反应扩增出M和F基因片段,对聚合酶链式反应产物进行直接测序,然后对测定的核苷酸和推测的氨基酸序列进行比较分析。China/Tib/Gej/07-30的M基因由1483个核苷酸组成,编码335个氨基酸,与其他分离株核苷酸和氨基酸序列同源性分别为92.4%～97.7%和97.0%～98.2%。F基因由2411个核苷酸组成,编码546个氨基酸,与其他分离株核苷酸和氨基酸序列同源性分别为85.5%～96.1%和94.3%～98.2%。China/Tib/Gej/07-30的F蛋白含有信号肽序列和跨膜结构域,序列高度变异。F蛋白第104～108位和第109～133位氨基酸位点分别是高度保守的裂解位点和融合肽结构域。F蛋白还含有序列高度保守的三个七肽重复区。China/Tib/Gej/07-30的M基因3′端的非编码区(UTR)长度为443个核苷酸,GC含量高达68.4%,与其他PPRV毒株的同源性为82.4%～93.5%。China/Tib/Gej/07-30的F基因5′UTR区长度为634个核苷酸,GC含量高达70.0%,与其他PPRV毒株序列相似性为76.2%～91.7%。     

羊α干扰素在家蚕中的表达及抗小反刍兽疫病毒活性测定

干扰素具有广谱抗病毒、抗肿瘤活性,可增强机体抗病毒能力,已经广泛应用于病毒性疾病的防控.小反刍兽疫病毒是危害山羊、绵羊等小反刍动物常见的病毒之一,该病毒的传播对全球养殖业造成了严重的影响.为了表达具有高效抗病毒活性的羊α干扰素(OviIFN-α),将OviIFN-α基因序列根据家蚕密码子偏好性进行优化合成,构建pVL1...     

Modified netting technique for capturing gazelles in Serengeti,Ngorongoro and Loliondo,Tanzania

During serological surveillance of peste des petits ruminants (PPR) disease, it required capture of randomly selected herds of gazelles as part of a study to determine the epidemiological role of these species in the circulation of peste des petits ruminants virus (PPRV). The study targeted capturing 135 Grant's gazelles (Gazella granti) from the Serengeti ecosystem, Tanzania. A modified netting technique was used aiming at providing safe, efficient and cost‐effective method for capture of gazelles. Locally available materials were used, and wildlife professionals guided the process of manufacturing supporting frame for the nets. Twenty (20) black metal pipes, 20 metal bars, four nets and three vehicles were used in the procedure. A total of 136 Grant's gazelles and nine Thomson's gazelles were captured in three missions. The Grant's gazelles were captured as per sample size calculated in all locations: Loliondo (n = 25), Serengeti National Park (n = 44) and Ngorongoro Conservation Area (NCA) (n = 67) using less time and minimum cost than estimated. Injuries of three fawns (2%) inadvertently captured with the groups of adults and sub‐adult animals were recorded. Comparing with 2014 and other studies, modified netting technique showed high animal and operator safety levels with minimal injuries. With this technique, it was possible to capture even flighty animals that behave nervously because of hunting and other human activities, including Thomson's gazelles, a species previously found to be difficult to capture by netting.     

小反刍兽疫病毒研究进展

小反刍兽疫（PPR）是由小反刍兽疫病毒（PPRV）引起的一种主要感染小反刍动物的急性、烈性、接触性A类传染病,患病率、死亡率高。本文就世界PPR流行状况、PPRV基因组及病毒结构蛋白、PPRV检测方法、最新的药物及疫苗、存在的问题等方面做了简要综述。     

Production and characterisation of monoclonal antibodies to an Indian isolate of peste des petits ruminants virus

Nine monoclonal antibodies (Mabs) were produced against an Indian isolate of peste des petits ruminants (PPR) virus. These Mabs were directed against the nucleo (N) protein and were of IgG1 isotype. The Mabs produced intranuclear or coarse granular cytoplasmic fluorescence in PPR virus infected Vero cells and did not exhibit any neutralising activity. The Mabs cross-reacted with five other local isolates of PPR virus in slot blot hybridisation, radio immunoprecipitation assay (RIPA) and fixed-cell enzyme linked immunosorbent assay (ELISA). Two of the nine Mabs cross-reacted mildly with the vaccine strain of rinderpest (RP) virus in slot blot hybridisation and fixed-cell ELISA but did not precipitate the N protein of RP virus in RIPA. The N protein specific Mabs will be highly useful in differential diagnosis of PPR from RP.     

Optimal time for vaccination against Peste des petits ruminants (PPR) disease in goats in humid tropical zone in southern Nigeria

Investigation of the incidence of peste des petits ruminants (PPR) disease in goats revealed seasonality in the natural occurrence of PPR disease in the environment. Tissue culture rinderpest vaccine was shown effective in protecting goats against the disease. The optimal time for vaccinating goats against PPR disease was when the least number of animals were incubating the disease. In the tropical humid zone, as in West Africa, the optimal time for vaccination against the PPR disease is from late November to middle of December.     

Sequence and structure alignment of Paramyxoviridae attachment proteins and discovery of enzymatic activity for a morbillivirus hemagglutinin.

On the basis of the conservation of neuraminidase (N) active-site residues in influenza virus N and paramyxovirus hemagglutinin-neuraminidase (HN), it has been suggested that the three-dimensional (3D) structures of the globular heads of the two proteins are broadly similar. In this study, details of this structural similarity are worked out. Detailed multiple sequence alignment of paramyxovirus HN proteins and influenza virus N proteins was based on the schematic representation of the previously proposed structural similarity. This multiple sequence alignment of paramyxovirus HN proteins was used as an intermediate to align the morbillivirus hemagglutinin (H) proteins with neuraminidase. Hypothetical 3D structures were built for paramyxovirus HN and morbillivirus H, based on homology modelling. The locations of insertions and deletions, glycosylation sites, active-site residues, and disulfide bridges agree with the proposed 3D structure of HN and H of the Paramyxoviridae. Moreover, details of the modelled H protein predict previously undescribed enzymatic activity. This prediction was confirmed for rinderpest virus and peste des petits ruminants virus. The enzymatic activity was highly substrate specific, because sialic acid was released only from crude mucins isolated from bovine submaxillary glands. The enzymatic activity may indicate a general infection mechanism for respiratory viruses, and the active site may prove to be a new target for antiviral compounds.     

A Rapid and Sensitive One Step-SYBR Green Based Semi Quantitative Real Time RT-PCR for the Detection of peste des petits ruminants Virus in the Clinical Samples

A sensitive and rapid single step real time (rt) RT-PCR was standardized using one-step Brilliant SYBR Green kit for detection and semi-quantitation of peste des petitis ruminants virus (PPRV) using the virus RNA and matrix (M) protein gene-specific primers and compared with established conventional RT-PCR and Taq Man RT-PCR. The assay amplifies a 124 bp fragment of the PPRV M gene with Tm of 78.28 to 78.50. The assay was linear within a range of 50 ng to 0.5 fg total virus RNA with a detection limit (sensitivity) of 0.5 fg. Based on the serial dilution of the live-attenuated PPR vaccine virus, the detection limit was ~0.0001 cell culture infectious dose 50% units (TCID50). Additionally, swab materials spiked with known titre of vaccine virus were equally well detected in the assay. The standardized rt RT-PCR was easily employed for the detection of PPRV nucleic acid directly in the field and experimental clinical samples. The assay detected the PPRV nucleic acid as early as 3 day post infection (dpi) and up to 20 dpi in swab materials from the experimental samples. The assay was rapid and more sensitive than TaqMan and conventional RT-PCR in the detection of PPRV nucleic acid from the PPR suspected clinical samples of sheep and goats. Therefore, the established, simplified SYBR green rt RT-PCR is an alternative test to the already existing various diagnostic assays and could be useful for rapid clinical diagnosis with advantage in reducing risk of contamination.     

RNA interference against animal viruses: how morbilliviruses generate extended diversity to escape small interfering RNA control

Viruses are serious threats to human and animal health. Vaccines can prevent viral diseases, but few antiviral treatments are available to control evolving infections. Among new antiviral therapies, RNA interference (RNAi) has been the focus of intensive research. However, along with the development of efficient RNAi-based therapeutics comes the risk of emergence of resistant viruses. In this study, we challenged the in vitro propensity of a morbillivirus (peste des petits ruminants virus), a stable RNA virus, to escape the inhibition conferred by single or multiple small interfering RNAs (siRNAs) against conserved regions of the N gene. Except with the combination of three different siRNAs, the virus systematically escaped RNAi after 3 to 20 consecutive passages. The genetic modifications involved consisted of single or multiple point nucleotide mutations and a deletion of a stretch of six nucleotides, illustrating that this virus has an unusual genomic malleability.