置换HN基因对新城疫病毒LaSota株致病力的影响

[目的]新城疫病毒的血凝素.神经氨酸酶(HN)和融合蛋白(F)在病毒装配、出芽、释放及侵入宿主细胞的过程中发挥关键作用,但HN对病毒致病力的影响程度尚不完全清楚.[方法]为探讨这一问题,本研究以中等毒力毒株Mukteswar的HN基因替换我国广泛应用的LaSota疫苗株HN基因,通过反向遗传操作技术拯救出嵌合病毒(rL-MuHN).[结果]rL-MuHN红细胞吸附能力较亲本株rLaSota无显著升高,具有相似的细胞融合活性;嵌合病毒ICPI由rLaSota株的0.36降为0,MDT≥90,IVPI=0与rLaSota株相同,保持典型低致病力缓发型特点不变.进一步以Mukteswar株F基因替换rL-MuHN的F基因,拯救出F和HN双基因替换嵌合病毒rL-MuFHN,尽管该病毒的细胞融合能力显著提高,但其MDT、ICPI和IVPI分别为98 h,0.59和0,显示F和HN双基因替换仍未能使嵌合新城疫病毒rL-MuFHN的致病力达到中等毒力毒株Mukteswar(MDT、ICPI及IVPI分别为46 h、1.32和0.64)的水平.[结论]试验结果表明,F及HN囊膜蛋白基因之外的病毒基因组骨架背景对病毒的致病性同样具有重要的决定性意义,不同HN蛋白对嵌合病毒的致病能力的影响不同,与供体毒株毒力无关;以流行野毒株HN替代rLaSota疫苗株构建抗原针对性更强的弱毒疫苗株存在技术可行性.     

新城疫病毒F蛋白碱裂解位点修饰及外源基因的插入对 新城疫LaSota疫苗株致病力的影响

新城疫是危害养禽业发展的重要传染病.新城疫病毒(NDV)具有高度传染性和高致病性,融合蛋白(F)的F1/F2裂解位点存在多个碱性氨基酸并由此形成的泛组织嗜性一直以来被认为是NDV致病的主要决定因素.本研究利用已经构建NDV弱毒LaSota疫苗株反向遗传操作平台,将LaSota病毒F蛋白的碱裂解位点由GGRQGR↓L分别突变为GRRQRR↓F和GRRQRR↓L,在未加入TPCK胰酶的情况下分别成功拯救出突变修饰LaSota疫苗病毒株rL-FmF和rL-FmL,通过测定鸡胚平均致死时间(MDT)、脑内致病指数(ICPI)和静脉内致病指数(IVPI)等指标对其毒力进行评估,结果rL-FmF和rL-FmL,的ICPI值由LaSota的0.36分别上升为1.18和1.05,但.MDT均大于90小时,IVPI仍然均为0,表明碱裂解位点的突变可显著增强致病力.为了检测外源基因插入对病毒致病力的影响,进一步以rL-FmF为载体,分别构建并拯救出表达H5亚型禽流感病毒血凝素HA和增强绿色荧光蛋白EGFP基因的重组病毒rL-FmF-HA和rL-FmF-EGFP,经测定ICPI分别为0.67和1.10,但MDT均大于90小时,IVPI仍然均为0.结果表明,对rLaSota病毒F蛋白裂解位点2个非碱性氨基酸突变为碱性氨基酸,无论F2蛋白氨基端为F或L,均可显著增强其脑内接种致病力,接近中发型毒株标准,但对静脉内接种致病能力均无显著影响,而对鸡胚致死能力均保持rIaSota病毒缓发型特点(MDT≥90);外源基因的重组、表达可不同程度致弱病毒,其致弱程度与外源基因及其表达产物性质有关.结果提示,影响NDV致病力不仅仅局限于F蛋白裂解位点氨基酸序列;通过F裂解位点修饰及HA基因插入可以获得致病力较高但基本接近缓发型标准的重组病毒.     

Different Regions of the Newcastle Disease Virus Fusion Protein Modulate Pathogenicity

Newcastle disease virus (NDV), also designated as Avian paramyxovirus type 1 (APMV-1), is the causative agent of a notifiable disease of poultry but it exhibits different pathogenicity dependent on the virus strain. The molecular basis for this variability is not fully understood. The efficiency of activation of the fusion protein (F) is determined by presence or absence of a polybasic amino acid sequence at an internal proteolytic cleavage site which is a major determinant of NDV virulence. However, other determinants of pathogenicity must exist since APMV-1 of high (velogenic), intermediate (mesogenic) and low (lentogenic) virulence specify a polybasic F cleavage site. We aimed at elucidation of additional virulence determinants by constructing a recombinant virus that consists of a lentogenic NDV Clone 30 backbone and the F protein gene from a mesogenic pigeon paramyxovirus-1 (PPMV-1) isolate with an intracerebral pathogenicity index (ICPI) of 1.1 specifying the polybasic sequence R-R-K-K-R*F motif at the cleavage site. The resulting virus was characterized by an ICPI of 0.6, indicating a lentogenic pathotype. In contrast, alteration of the cleavage site G-R-Q-G-R*L of the lentogenic Clone 30 to R-R-K-K-R*F resulted in a recombinant virus with an ICPI of 1.36 which was higher than that of parental PPMV-1. Substitution of different regions of the F protein of Clone 30 by those of PPMV-1, while maintaining the polybasic amino acid sequence at the F cleavage site, resulted in recombinant viruses with ICPIs ranging from 0.59 to 1.36 suggesting that virulence is modulated by regions of the F protein other than the polybasic cleavage site.     

用反向遗传技术致弱基因VIId型鹅源新城疫病毒ZJI株

将新城疫病毒ZJI株基因组cDNA全长分成7个片段,依次连接并克隆至TVT7R转录载体中,构建了含ZJI株全基因组cDNA的转录载体(pNDV/ZJI),pNDV/ZJI与3个辅助表达质粒pCI-NP、pCI-P和pCI-L共转染BSR-T7/5细胞,成功拯救出了具有感染性的新城疫病毒粒子。设计两对引物,经overlapPCR方法将该毒株F蛋白裂解位点的112、115和117位碱性氨基酸突变成弱毒株特征的非碱性氨基酸后,替换pNDV/ZJI上的对应序列,构建了转录载体pNDV/ZJIFM,将pNDV/ZJIFM与3个辅助表达质粒共转染BSR-T7/5细胞,成功拯救出了致弱的基因VIId型鹅源新城疫病毒NDV/ZJIFM,获救病毒的鸡胚最小致死剂量平均死亡时间(MDT)大于120h,同时该病毒的脑内接种致病指数(ICPI)为0.16,上述结果表明,获救病毒的毒力已被致弱,是一个较为理想的疫苗候选株。     

Differentiation of velogenic, mesogenic and lentogenic strains of Newcastle disease virus by multiplex RT-PCR

A multiplex RT‐PCR technique has been developed for differentiation of velogenic, mesogenic and lentogenic pathotypes of Newcastle disease virus (NDV), using a set of three oligonucleotide primers designed from NDV genomic RNA (P1, P2 and P3). The primer pair P1 and P2 generated a RT‐PCR product of 204 bp, only with RNA from velogenic and mesogenic strains, whereas the P1 and P3 generated a 364 bp product only with RNA from mesogenic and lentogenic strains. Thirty four NDV strains, including some reference strains (known pathotypes), NDV field isolates and NDV vaccine strains, as well as other avian virus strains, were tested with multiplex RT‐PCR. All reference strains tested were differentiated in agreement with their intracerebral pathogenicity index (ICPI) values or with the pathotypes known in previous reports. The nucleotide sequence analysis of RT‐PCR products for four NDV strains was fully in agreement with the RT‐PCR characterisations of these strains. The RT‐PCR results of other avian RNA viruses further confirmed the reliability and specificity of this technique. However, the RT‐PCR failed to detect some other avian NDV, which may not originate from chicken. This multiplex RT‐PCR technique is simple and easy to perform. It could be applied not only to determine the origin of NDV, but also may be used diagnostically in molecular epidemiological analysis of ND and for prediction of pathotypes of NDV isolates.     

新城疫病毒分离株的生物学特性鉴定及F蛋白基因序列分析

通过部分生物学特性鉴定、RT-PCR及F基因的序列测定与遗传进化分析,对2005~2006年从我国江苏省和广西省部分地区的发病鸡群和鹅群中分离到的20株新城疫病毒(NDV)进行了研究。各分离株经典毒力测定结果显示:MDT在45.3h~58.2h之间,ICPI在1.61~2.00之间,均为新城疫病毒强毒株特征。血凝解脱及血凝素热稳定性试验显示:各分离株的血凝解脱时间短,血凝素热稳定性较差,符合NDV强毒株的特征。F基因的序列测定表明,分离株之间的核苷酸序列具有79.7%~100%的同源性,与疫苗株LaSota的同源性为78.1%~83.4%;与国内标准强毒株F48E8同源性为80.2%~90.1%。推导其氨基酸序列分析表明,各分离株的F蛋白的裂解位点氨基酸组成为112R-R-Q-R/K-R-F117,具有NDV强毒株特征,与毒力测定结果相符。根据序列所绘制系统进化发生树,表明20株NDV分离株中有18株为基因Ⅶd型,2株为基因Ⅲ型。     

NDV山东分离株的生物学特性及其HN基因的克隆与序列分析

2004年从山东某鸡场发病蛋鸡群中分离到一株新城疫病毒（编号：ShD-2-04）,对其生物学特性进行了研究,并对其HN基因进行了克隆和序列分析。结果表明：该病毒的最小致死量病毒致死鸡胚的平均时间（MDT）为50．4,1日龄SPF鸡脑内接种分离病毒致病指数（ICPI）为1．85,6周龄SPF鸡静脉接种致病指数（IVPI）为2．42,表明该病毒具有新城疫强毒株的一些特征;其HN基因开放性阅读框架（ORF）为1,716bp,编码571个氨基酸;与国外发表的部分新城疫病毒强毒株和弱毒株之间相应序列进行比较,核苷酸序列的同源性在81．6％-87．2％之间,氨基酸同源性在87．6％-90．7％之间。     

The large polymerase protein is associated with the virulence of Newcastle disease virus

Naturally occurring Newcastle disease virus (NDV) strains vary greatly in virulence, ranging from no apparent infection to severe disease causing 100% mortality in chickens. The viral determinants of NDV virulence are not completely understood. Cleavage of the fusion protein is required for the initiation of infection, and it acts as a determinant of virulence. The attachment protein HN was found to play a minor role in virulence. In this study, we have evaluated the role of the internal proteins (N, P, and L) in NDV virulence by using a chimeric reverse-genetics approach. The N, P, and L genes were exchanged individually between an avirulent NDV strain, LaSota, and an intermediate virulent NDV strain, Beaudette C (BC), and the N and P genes were also exchanged together. The recovered chimeric viruses were evaluated for their pathogenicity in the natural host, chickens. Our results showed that the pathogenicities of N and P chimeric viruses were similar to those of their respective parental viruses, indicating that the N and P genes probably play minor roles in virulence. However, replacement of the L gene of BC with that of LaSota significantly increased the pathogenicity of the L-chimeric virus, suggesting that the L gene probably contributes to the virulence of NDV. The L-chimeric BC virus was found to replicate at a 100-fold-higher level than its parental virus in chicken brain, suggesting that the increase in pathogenicity may be due to the increased replication level of the chimeric virus. Our findings offer new insights into the pathogenesis of NDV infection.     

Toward a more humane intracerebral pathogenicity index that does not compromise virus pathogenicity ratings

Determination of the intracerebral pathogenicity index (ICPI) of a virus requires tracking sick animals until death or until the eighth day of the standard observation period. A more humane procedure would be to painlessly kill sick animals, but such intervention in the standard protocol could compromise the rating of the virus. In this paper, a modified scoring system is proposed, whereby humanely killed animals are given a score that, on average, does not alter the ICPI. The variance of an animal's contribution to the optimum modified ICPI is never greater than the variance of its contribution to the standard ICPI.     

Species Based Synonymous Codon Usage in Fusion Protein Gene of Newcastle Disease Virus

Newcastle disease is highly pathogenic to poultry and many other avian species. However, the Newcastle disease virus (NDV) has also been reported from many non-avian species. The NDV fusion protein (F) is a major determinant of its pathogenicity and virulence. The functionalities of F gene have been explored for the development of vaccine and diagnostics against NDV. Although the F protein is well studied but the codon usage and its nucleotide composition from NDV isolated from different species have not yet been explored. In present study, we have analyzed the factors responsible for the determination of codon usage in NDV isolated from four major avian host species. The F gene of NDV is analyzed for its base composition and its correlation with the bias in codon usage. Our result showed that random mutational pressure is responsible for codon usage bias in F protein of NDV isolates. Aromaticity, GC3s, and aliphatic index were not found responsible for species based synonymous codon usage bias in F gene of NDV. Moreover, the low amount of codon usage bias and expression level was further confirmed by a low CAI value. The phylogenetic analysis of isolates was found in corroboration with the relatedness of species based on codon usage bias. The relationship between the host species and the NDV isolates from the host does not represent a significant correlation in our study. The present study provides a basic understanding of the mechanism involved in codon usage among species.     

Ionizing radiation and genetic risks VII. The concept of mutation component and its use in risk estimation for Mendelian diseases

The responsiveness of Mendelian diseases to an increase in the mutation rate is studied by using the concept of the mutation component (MC) of genetic diseases. Algebraic expressions to evaluate MC at any specific generation following either a one-time or a permanent increase in mutation rate are derived and are illustrated with numerical examples. For a one-time increase in mutation rate, the analysis shows that the first generation MC for autosomal dominant diseases is equal to the selection coefficient; this is also true for X-linked diseases (adjusted for the proportion of X-chromosomes in males). For autosomal recessive diseases the first generation MC is substantially smaller than that for autosomal dominants. In subsequent generations MC gradually decays to zero. Under conditions of a permanent increase in the mutation rate, the MC for autosomal dominant, X-linked and completely recessive autosomal disorders progressively increases to reach a value of one at the new equilibrium. For incompletely recessive autosomal disorders, however, the MC at equilibrium can be larger than one. The rates of approach to the new equilibrium are different for the different classes of diseases, dictated by selection and time (in generations) following radiation exposure. The effects of increases in mutation rate on MC are more pronounced for autosomal dominants, followed by X-linked and are far less for autosomal recessives. Even for autosomal dominants, the early generation effects of radiation exposures would not be appreciable unless the heterozygotes have a severely reduced fitness.     

The hemagglutinin-neuraminidase protein of Newcastle disease virus determines tropism and virulence

The hemagglutinin-neuraminidase (HN) protein of Newcastle disease virus (NDV) plays a crucial role in the process of infection. However, the exact contribution of the HN gene to NDV pathogenesis is not known. In this study, the role of the HN gene in NDV virulence was examined. By use of reverse genetics procedures, the HN genes of a virulent recombinant NDV strain, rBeaudette C (rBC), and an avirulent recombinant NDV strain, rLaSota, were exchanged. The hemadsorption and neuraminidase activities of the chimeric viruses showed significant differences from those of their parental strains, but heterotypic F and HN pairs were equally effective in fusion promotion. The tissue tropism of the viruses was shown to be dependent on the origin of the HN protein. The chimeric virus with the HN protein derived from the virulent virus exhibited a tissue predilection similar to that of the virulent virus, and vice versa. The chimeric viruses with reciprocal HN proteins either gained or lost virulence, as determined by a standard intracerebral pathogenicity index test of chickens and by the mean death time in chicken embryos (a measure devised to classify these viruses), indicating that virulence is a function of the amino acid differences in the HN protein. These results are consistent with the hypothesis that the virulence of NDV is multigenic and that the cleavability of F protein alone does not determine the virulence of a strain.     

一株基因Ⅱ型新城疫强毒株的分子特性

从患病肉鸡群分离到一株新城疫病毒(NewcastleDiseasevirus,NDV)SQZ04。经蚀斑纯化后接种40日龄SPF鸡可诱发典型病变。经蚀斑纯化前和后的MDT为50·5h和51·2h,ICPI为2·0和1·92,IVPI为2·8和2·68,表明属强毒株。但F基因分型表明SQZ04属基因Ⅱ型,而且其与已知基因Ⅱ型的疫苗株LaSota、B1和Texas48的同源性分别为99·3%、98·7%和96·9%,显著高于与基因Ⅶ或Ⅸ型强毒株的同源性88·3%~88·6%或91·3%~92·1%。这是国内第一株属于基因Ⅱ型的NDV强毒株。SQZ04F多肽氨基酸裂解位点的序列为111GGRQGRL117,与弱毒株序列完全相同,这也是国内外首次报道具有这一氨基酸序列的强毒野毒株。然而,SQZ04株与其他已知强毒株的HN氨基酸同源性高达95·3%~97·3%,显著高于与弱毒株LaSota等的同源性87·8%~89·5%。     

新城疫病毒与其它副黏病毒基质蛋白功能的比较北大核心CSCD

近年来研究发现,副黏病毒基质蛋白(Matrix protein,M)是一种多功能病毒蛋白,在细胞内不仅能抑制宿主细胞基因的转录和翻译、调节病毒基因组的复制和转录以及招募细胞蛋白协助病毒粒子组装和出芽,还可以通过自身的泛素化和磷酸化修饰促进病毒的复制。然而,作为副黏病毒成员之一的新城疫病毒(Newcastle disease virus,NDV),其M蛋白目前仅证实参与了NDV的组装和出芽释放过程,其它副黏病毒M蛋白的功能在NDV中尚不清楚。本文结合近年来国内外副黏病毒M蛋白功能的相关研究进展,将NDV与其它副黏病毒M蛋白功能进行比较,着重阐述了M蛋白在NDV毒力、复制和致病性等方面的功能和作用机制,并对NDV M蛋白功能研究中存在的问题和今后的研究方向进行了展望。     

Genomic characterisation of two virulent Newcastle disease viruses isolated from crested ibis (Nipponia nippon) in China

This paper describes the complete genomic sequences of two virulent Newcastle disease virus (NDV) isolates, Shaanxi06 (prevalent genotype VIId) and Shaanxi10 (novel sub-genotype VIi), from sick crested ibises. The genomes of both isolates were 15,192 nt long and consisted of six genes in the order of 3′-NP-P-M-F-HN-L-5′. The genomes of the two isolates were highly similar to other reference NDV strains. However, some unique features were found in the HN protein of Shaanxi06 and the F gene end of Shaanxi10. Shaanxi06 and Shaanxi10 shared the same virulent motif ^112 −R-R-Q-K-R-F^− 117 at the F protein cleavage site, which coincided with previous pathogenicity test results. Phylogenetic analysis revealed that both isolates were clustered within class II NDV, with Shaanxi06 in genotype VII and Shaanxi10 in genotype VI. Both isolates shared high homology with the prevalent genotype NDV strains that circulate in fowls and waterfowls. This study is the first to provide genomic information about a novel sub-genotype VIi NDV strain and another genotype VIId virus, which will be useful for subsequent investigations.     

Molecular assays reveal the presence and diversity of genes encoding pea footrot pathogenicity determinants in Nectria haematococca and in agricultural soils

Aim:  The aim of this study was to develop molecular assays for investigating the presence and diversity of pathogenicity genes from the pea footrot pathogen Nectria haematococca (anamorph Fusarium solani f.sp. pisi ) in soils.
Methods and Results:  Polymerase chain reaction (PCR) assays were developed to amplify four N. haematococca pathogenicity genes ( PDA , PEP1 , PEP3 and PEP5 ) from isolates and soil-DNA from five agricultural fields with a prior footrot history. A collection of 15 fungi isolated on medium selective for Fusarium spp. exhibited variation in their virulence to peas as assessed via a disease index (DI: 0–5; no virulence to the highest virulence). PCR analyses showed that three isolates in which all four pathogenicity genes were detected resulted in the highest DI (>3·88). All four pathogenicity genes were detected in soil-DNA obtained from all five fields with a footrot disease history, but were not amplified from soils, which had no footrot history. Denaturing gradient gel electrophoresis and/or sequence analysis revealed diversity amongst the pathogenicity genes.
Conclusion:  The PCR assays developed herein enable the specific detection of pathogenic N. haematococca in soils without recourse to culture.
Significance and Impact of the Study:  Molecular assays that specifically target pathogenicity genes have the capacity to assess the presence of the footrot-causing pathogen in agricultural soils.     

枯草芽孢杆菌fmbJ产生的新型抗微生物物质体外抗NDV和IBDV的活性分析

测定了枯草芽孢杆菌fmbJ株产生的新型抗微生物物质的体外抗新城疫病毒(Newcastle disease virus,NDV)lasota株、传染性法式囊病病毒(Infectious Bursal Disease Virus,IBDV)哈尔滨(H)株作用。结果表明该新型抗微生物物质对鸡胚成纤维(Chicken Embryo Fibroblasts,CEF)细胞的TD50和TD0分别为128.95mg/L、25.79mg/L;对NDVlasota株、IBDV H株所致细胞病变效应有明显的抑制作用,可使细胞存活率显著升高;该抗微生物物质具有抗NDVlasota株、IBDV H株作用;并具有预防其感染及抑制其复制的作用。其抗病毒作用效果和病毒唑相当,由于其对CEF细胞的毒性较弱,可作为一种抗病毒药物进行开发研究。