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.     

新城疫分离毒HN基因的分子特性和片段同源相关性

选取国内1997-2005年分离的新城疫病毒(Newcastle disease virus,NDV)24株,经蚀斑纯化克隆其血凝素-神经氨酸酶(HN)基因,与在GenBank发表的36株国内外不同时期的NDV毒株,进行氨基酸遗传变异分析,并利用SPSS8.0软件对其不同片段的氨基酸进行同源相关比较。结果显示:国内所有NDV分离毒株氨基酸高度同源,同源性为94.4%-99.4%;与LaSota、Clone30疫苗株等的氨基酸同源性为86.9%-89%;与强毒株F48E9的氨基酸同源性为87.9%-89.9%;与国外NDV的氨基酸同源性为87.2%-96.2%。系统发育分析表明:国内NDV分离毒HN遗传距离较近,而与LaSota、Clone30和F48E9遗传距离较远。国内NDV分离毒均缺乏538-540位糖基化位点。不同片段与全长的氨基酸同源性高度相关,且与前80个氨基酸相关最密切。     

新城疫病毒ZJ1株F蛋白裂解位点突变对其融合活性的影响

新城疫病毒ZJ1毒株是近年来在我国水禽中流行并能引起水禽严重发病和死亡的强毒株,其F蛋白裂解位点有多个碱性氨基酸分布。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,构建了重组表达质粒pCI-FT。分别将突变前后的F蛋白与该毒株的HN蛋白在COS-1细胞共表达,表明突变前后的F蛋白均有融合活性;分别将突变前后的F蛋白与该毒株的HN蛋白在CEF细胞共表达,表明突变后F蛋白被裂解的活性大大降低。以上研究为下一步在全长cDNA克隆水平上对F蛋白裂解位点氨基酸序列进行相应突变,研究毒力相关因素以及构建毒力致弱疫苗株等奠定基础。     

Phylogenetic and pathotypical analysis of two virulent Newcastle disease viruses isolated from domestic ducks in China

Two velogenic Newcastle disease viruses (NDV) obtained from outbreaks in domestic ducks in China were characterized in this study. Phylogenetic analysis revealed that both strains clustered with the class II viruses, with one phylogenetically close to the genotype VII NDVs and the other closer to genotype IX. The deduced amino acid sequence of the cleavage site of the fusion (F) protein confirmed that both isolates contained the virulent motif (112)RRQK/RRF(117) at the cleavage site. The two NDVs had severe pathogenicity in fully susceptible chickens, resulting in 100% mortality. One of the isolates also demonstrated some pathogenicity in domestic ducks. The present study suggests that more than one genotype of NDV circulates in domestic ducks in China and viral transmission may occur among chickens and domestic ducks.     

Characterization of velogenic Newcastle disease viruses isolated from dead wild birds in Serbia during 2007

Avian paramyxoviruses type 1 or Newcastle disease viruses (NDV) are frequently recovered from wild birds and such isolates are most frequently of low virulence. Velogenic NDV are usually recovered from poultry and only occasionally from wild birds. Five NDV isolates were obtained from carcasses of four wild bird species during 2007 in Serbia: Mallard (Anas platyrhynchos), Eurasian Sparrowhawk (Accipiter nisus), feral Rock Pigeon (Columba livia), and Eurasian Collared Dove (Streptopelia decaocto). All the isolates have a typical fusion protein cleavage site motif of velogenic viruses ((112)R-R-Q-K-R-F(117)). The highest homology (99%) for the nucleotide sequences spanning the M and F gene of the studied isolates was with the genotype VII NDV isolate Muscovy duck/China(Fujian)/FP1/02. Phylogenetic analysis based on a partial F gene sequence showed that the isolates from wild birds cluster together with concurrent isolates from poultry in Serbia within the subgenotype VIId, which is the predominant pathogen involved currently in Newcastle disease outbreaks in poultry worldwide. It is unlikely that the wild birds played an important role in primary introduction or consequent spread of the velogenic NDV to domestic poultry in Serbia, and they probably contracted the virus from locally infected poultry.     

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.     

Newcastle Disease Virus Fusion Protein Is the Major Contributor to Protective Immunity of Genotype-Matched Vaccine

Virulent strains of Newcastle disease virus (NDV) can cause devastating disease in chickens worldwide. Although the current vaccines are substantially effective, they do not completely prevent infection, virus shedding and disease. To produce genotype-matched vaccines, a full-genome reverse genetics system has been used to generate a recombinant virus in which the F protein cleavage site has been changed to that of avirulent vaccine virus. In the other strategy, the vaccines have been generated by replacing the F and HN genes of a commercial vaccine strain with those from a genotype-matched virus. However, the protective efficacy of a chimeric virus vaccine has not been directly compared with that of a full-genome virus vaccine developed by reverse genetics. Therefore, in this study, we evaluated the protective efficacy of genotype VII matched chimeric vaccines by generating three recombinant viruses based on avirulent LaSota (genotype II) strain in which the open reading frames (ORFs) encoding the F and HN proteins were replaced, individually or together, with those of the circulating and highly virulent Indonesian NDV strain Ban/010. The cleavage site of the Ban/010 F protein was mutated to the avirulent motif found in strain LaSota. In vitro growth characteristics and a pathogenicity test indicated that all three chimeric viruses retained the highly attenuated phenotype of the parental viruses. Immunization of chickens with chimeric and full-length genome VII vaccines followed by challenge with virulent Ban/010 or Texas GB (genotype II) virus demonstrated protection against clinical disease and death. However, only those chickens immunized with chimeric rLaSota expressing the F or F plus HN proteins of the Indonesian strain were efficiently protected against shedding of Ban/010 virus. Our findings showed that genotype-matched vaccines can provide protection to chickens by efficiently preventing spread of virus, primarily due to the F protein.     

Comparison of substrate specificities against the fusion glycoprotein of virulent Newcastle disease virus between a chick embryo fibroblast processing protease and mammalian subtilisin-like proteases

The fusion (F) protein precursor of virulent Newcastle disease virus (NDV) strains has two pairs of basic amino acids at the cleavage site, and its intracellular cleavage activation occurs in a variety of cells; therefore, the viruses cause systemic infections in poultry. To explore the protease responsible for the cleavage in the natural host, we examined detailed substrate specificity of the enzyme in chick embryo fibroblasts (CEF) using a panel of the F protein mutants at the cleavage site expressed by vaccinia virus vectors, and compared the specificity with those of mammalian subtilisin-like proteases such as furin, PC6 and PACE4 which are candidates for F protein processing enzymes. It was demonstrated in CEF cells that Arg residues at the -4, -2 and -1 positions upstream of the cleavage site were essential, and that at the -5 position was required for maximal cleavage. Phe at the +1 position was also important for efficient cleavage. On the other hand, furin and PC6 expressed by vaccinia virus vectors showed cleavage specificities against the F protein mutants consistent with that shown by the processing enzyme of CEF cells, but PACE4 hardly cleaved the F proteins including the wild type. These results indicate that the proteolytic processing enzymes of poultry for virulent NDV F proteins could be furin and/or PC6 but not PACE4. The significance of individual contribution of the three amino acids at the -5, -2 and +1 positions to cleavability was discussed in relation to the evolution of virulent and avirulent NDV strains.     

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%。     

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.     

鸭副粘病毒WF01 D株F基因的测序与蛋白特性分析

用鸭副粘病毒凤阳分离株WF01 D作9～10日龄SPF鸡胚的尿囊腔接种,成功增殖了该病毒,采用一步法RT-PCR技术扩增WF01 D病毒的F基因,获得了1条长约1．7kb的特异性条带。用PCR产物直接测序。测序结果表明,扩增片段大小为1782bp,含有1个1662bp的开放性阅读框,编码554个氨基酸。核苷酸同源性分析表明：WF01 D株与国内外其他NDVF基因的同源性为84．5％～97．0％,其中与国内标准强毒株F48E9的同源性为86．6％,说明WF01 D与国内外的传统毒株有较大变异。与Taiwan95株和J株的同源性为93．6％和97．0％,说明WF01 D与Taiwan95株和J株亲缘关系较近,具有较高的相似性。F蛋白裂解位点的氨基酸顺序为112Arg-Arg-Gln-Lys-Arg-Phe117,表明为NDV的强毒株。蛋白疏水性和抗原性分析表明与标准强毒F48E9株相比没有太大的变异。     

新城疫病毒HN和F基因遗传变异相关性的研究

选取国内1999~2005年发生的NDV毒株,经CEF蚀斑纯化和SPF鸡胚增殖,对其融合蛋白(F)和血凝素-神经氨酸酶(HN)基因分别进行克隆测序,结合在GenBank中发表的具有F和HN基因的NDV序列,利用DNAStar软件,对其不同毒株的F或HN基因片段和全长、F和HN基因全长分别进行遗传变异的研究,利用统计学软件SPSS8.0进行同源性相关分析。结果表明:不同NDV毒株F或HN基因片段与其全长之间,核甘酸r≥0.973,氨基酸:0.911≤r≤0.968,遗传变异高度相关,但F与HN基因全长之间核甘酸的遗传变异呈现弱相关(r=0.312)。国内NDV野毒株之间HN核甘酸高度同源(同源率97%以上),而与La Sota同源率仅为79.2%~80.7%,且显示出明显的地域性。     

新城疫不同毒株交叉鸡胚中和指数及其与F和HN基因变异的相关性

选取13株国内2001～2004年分离的新城疫流行病毒(Newcastle disease virus,NDV),经蚀斑纯化,克隆其融合蛋白(F)和血凝素.神经氨酸酶(HN)基因,结合疫苗株La Sota、Clone30和国内标准强毒株F48E9等的基因序列,进行遗传变异分析.利用纯化的病毒制备特异阳性血清,进行鸡胚交叉中和试验,确定不同NDV毒株之间的抗原相关性,并与NDV不同毒株之间的HN和F基因核苷酸(氨基酸)同源性进行相关比较.结果表明:病毒中和指数与HN基因的核苷酸(氨基酸)同源性显著相关(P<0.01,r=-0.35),与F基因呈弱相关(P<0.05,r=0.20),而与F基因前374bp的核甘酸同源性不相关.这表明,NDV的分子变异已经对NDV的抗原性变异产生了影响,研制新型的疫苗成为必然.     

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.     

Generation by Reverse Genetics of an Effective,Stable, Live-Attenuated Newcastle Disease Virus Vaccine Based on a Currently Circulating,Highly Virulent Indonesian Strain

Newcastle disease virus (NDV) can cause severe disease in chickens. Although NDV vaccines exist, there are frequent reports of outbreaks in vaccinated chickens. During 2009–2010, despite intense vaccination, NDV caused major outbreaks among commercial poultry farms in Indonesia. These outbreaks raised concern regarding the protective immunity of current vaccines against circulating virulent strains in Indonesia. In this study, we investigated whether a recombinant attenuated Indonesian NDV strain could provide better protection against prevalent Indonesian viruses. A reverse genetics system for the highly virulent NDV strain Banjarmasin/010/10 (Ban/010) isolated in Indonesia in 2010 was constructed. The Ban/010 virus is classified in genotype VII of class II NDV, which is genetically distinct from the commercial vaccine strains B1 and LaSota, which belong to genotype II, and shares only 89 and 87% amino acid identity for the protective antigens F and HN, respectively. A mutant virus, named Ban/AF, was developed in which the virulent F protein cleavage site motif “RRQKR↓F” was modified to an avirulent motif “GRQGR↓L” by three amino acid substitutions (underlined). The Ban/AF vaccine virus did not produce syncytia or plaques in cell culture, even in the presence of added protease. Pathogenicity tests showed that Ban/AF was completely avirulent. Ban/AF replicated efficiently during 10 consecutive passages in chickens and remained genetically stable. Serological analysis showed that Ban/AF induced higher neutralization and hemagglutination inhibition antibody titers against the prevalent viruses than the commercial vaccines B1 or LaSota. Both Ban/AF and commercial vaccines provided protection against clinical disease and mortality after challenge with virulent NDV strain Ban/010 (genotype VII) or GB Texas (genotype II). However, Ban/AF significantly reduced challenge virus shedding from the vaccinated birds compared to B1 vaccine. These results suggest that Ban/AF can provide better protection than commercial vaccines and is a promising vaccine candidate against NDV strains circulating in Indonesia.     

Triggering of the newcastle disease virus fusion protein by a chimeric attachment protein that binds to Nipah virus receptors

The fusion (F) proteins of Newcastle disease virus (NDV) and Nipah virus (NiV) are both triggered by binding to receptors, mediated in both viruses by a second protein, the attachment protein. However, the hemagglutinin-neuraminidase (HN) attachment protein of NDV recognizes sialic acid receptors, whereas the NiV G attachment protein recognizes ephrinB2/B3 as receptors. Chimeric proteins composed of domains from the two attachment proteins have been evaluated for fusion-promoting activity with each F protein. Chimeras having NiV G-derived globular domains and NDV HN-derived stalks, transmembranes, and cytoplasmic tails are efficiently expressed, bind ephrinB2, and trigger NDV F to promote fusion in Vero cells. Thus, the NDV F protein can be triggered by binding to the NiV receptor, indicating that an aspect of the triggering cascade induced by the binding of HN to sialic acid is conserved in the binding of NiV G to ephrinB2. However, the fusion cascade for triggering NiV F by the G protein and that of triggering NDV F by the chimeras can be distinguished by differential exposure of a receptor-induced conformational epitope. The enhanced exposure of this epitope marks the triggering of NiV F by NiV G but not the triggering of NDV F by the chimeras. Thus, the triggering cascade for NiV G-F fusion may be more complex than that of NDV HN and F. This is consistent with the finding that reciprocal chimeras having NDV HN-derived heads and NiV G-derived stalks, transmembranes, and tails do not trigger either F protein for fusion, despite efficient cell surface expression and receptor binding.     

鹅副粘病毒WF（01）G株F基因的测序与蛋白特性分析

用鹅副粘病毒WF01G分离株进行9-10日龄SPF鸡胚尿囊腔接种,成功增殖了该病毒,采用一步法RT-PCR技术扩增WF01G病毒的F基因,获得了1条长约1.7 kb的特异性条带。对PCR扩增产物测序。结果表明,扩增片段大小为1782 bp,含有1个1662 bp的开放性阅读框,编码554个氨基酸。核苷酸同源性分析表明：WF01G株与其他7株鹅副粘病毒的同源性为84.8%-98.8%,与国内外其他NDV F基因的同源性为84.7%-93.8%,其中与国内标准强毒株F48E9的同源性为86.8%,说明WF01G与国内外的传统毒株有较大变异。与Tai-wan95株的同源性为93.8%,说明WF01G与Taiwan95株亲缘关系较近,具有较高的相似性。F蛋白裂解位点的氨基酸顺序为112Arg-Arg-G ln-Lys-Arg-Phe117,表明为副粘病毒强毒株。蛋白疏水性和抗原性分析表明与标准强毒F48E9株相比没有太大的变异。     

The second receptor binding site of the globular head of the Newcastle disease virus hemagglutinin-neuraminidase activates the stalk of multiple paramyxovirus receptor binding proteins to trigger fusion

The hemagglutinin-neuraminidase (HN) protein of paramyxoviruses carries out three distinct activities contributing to the ability of HN to promote viral fusion and entry: receptor binding, receptor cleavage (neuraminidase), and activation of the fusion protein. The relationship between receptor binding and fusion triggering functions of HN are not fully understood. For Newcastle disease virus (NDV), one bifunctional site (site I) on HN's globular head can mediate both receptor binding and neuraminidase activities, and a second site (site II) in the globular head is also capable of mediating receptor binding. The receptor analog, zanamivir, blocks receptor binding and cleavage activities of NDV HN's site I while activating receptor binding by site II. Comparison of chimeric proteins in which the globular head of NDV HN is connected to the stalk region of either human parainfluenza virus type 3 (HPIV3) or Nipah virus receptor binding proteins indicates that receptor binding to NDV HN site II not only can activate its own fusion (F) protein but can also activate the heterotypic fusion proteins. We suggest a general model for paramyxovirus fusion activation in which receptor engagement at site II plays an active role in F activation.     

Roles of the fusion and hemagglutinin-neuraminidase proteins in replication, tropism, and pathogenicity of avian paramyxoviruses

Virulent and moderately virulent strains of Newcastle disease virus (NDV), representing avian paramyxovirus serotype 1 (APMV-1), cause respiratory and neurological disease in chickens and other species of birds. In contrast, APMV-2 is avirulent in chickens. We investigated the role of the fusion (F) and hemagglutinin-neuraminidase (HN) envelope glycoproteins in these contrasting phenotypes by designing chimeric viruses in which the F and HN glycoproteins or their ectodomains were exchanged individually or together between the moderately virulent, neurotropic NDV strain Beaudette C (BC) and the avirulent APMV-2 strain Yucaipa. When we attempted to exchange the complete F and HN glycoproteins individually and together between the two viruses, the only construct that could be recovered was recombinant APMV-2 strain Yucaipa (rAPMV-2), containing the NDV F glycoprotein in place of its own. This substitution of NDV F into APMV-2 was sufficient to confer the neurotropic, neuroinvasive, and neurovirulent phenotypes, in spite of all being at reduced levels compared to what was seen for NDV-BC. When the ectodomains of F and HN were exchanged individually and together, two constructs could be recovered: NDV, containing both the F and HN ectodomains of APMV-2; and APMV-2, containing both ectodomains of NDV. This supported the idea that homologous cytoplasmic tails and matched F and HN ectodomains are important for virus replication. Analysis of these viruses for replication in vitro, syncytium formation, mean embryo death time, intracerebral pathogenicity index, and replication and tropism in 1-day-old chicks and 2-week-old chickens showed that the two contrasting phenotypes of NDV and APMV-2 could largely be transferred between the two backbones by transfer of homotypic F and HN ectodomains. Further analysis provided evidence that the homologous stalk domain of NDV HN is essential for virus replication, while the globular head domain of NDV HN could be replaced with that of APMV-2 with only a minimal attenuating effect. These results demonstrate that the F and HN ectodomains together determine the cell fusion, tropism, and virulence phenotypes of NDV and APMV-2 and that the regions of HN that are critical to replication and the species-specific phenotypes include the cytoplasmic tail and stalk domain but not the globular head domain.