Evaluation of the Newcastle disease virus F and HN proteins in protective immunity by using a recombinant avian paramyxovirus type 3 vector in chickens

Newcastle disease virus (NDV) belongs to serotype 1 of the avian paramyxoviruses (APMV-1) and causes severe disease in chickens. Current live attenuated NDV vaccines are not fully satisfactory. An alternative is to use a viral vector vaccine that infects chickens but does not cause disease. APMV serotype 3 infects a wide variety of avian species but does not cause any apparent disease in chickens. In this study, we constructed a reverse-genetics system for recovery of infectious APMV-3 strain Netherlands from cloned cDNAs. Two recombinant viruses, rAPMV3-F and rAPMV3-HN, were generated expressing the NDV fusion (F) and hemagglutinin-neuraminidase (HN) proteins, respectively, from added genes. These viruses were used to immunize 2-week-old chickens by the oculonasal route in order to evaluate the contribution of each protein to the induction of NDV-specific neutralizing antibodies and protective immunity. Each virus induced high titers of NDV-specific hemagglutination inhibition and serum neutralizing antibodies, but the response to F protein was greater. Protective immunity was evaluated by challenging the immunized birds 21 days later with virulent NDV via the oculonasal, intramuscular, or intravenous route. With oculonasal or intramuscular challenge, all three recombinant viruses (rAPMV3, rAPMV3-F, and rAPMV3-HN) were protective, while all unvaccinated birds succumbed to death. These results indicated that rAPMV3 alone can provide cross-protection against NDV challenge. However, with intravenous challenge, birds immunized with rAPMV3 were not protected, whereas birds immunized with rAPMV3-F alone or in combination with rAPMV3-HN were completely protected, and birds immunized with rAPMV3-HN alone were partially protected. These results indicate that the NDV F and HN proteins are independent neutralization and protective antigens, but the contribution by F is greater. rAMPV3 represents an avirulent vaccine vector that can be used against NDV and other poultry pathogens.     

鸡新城疫病毒HeB02分离株F基因的克隆及其DNA疫苗的研究

根据GenBank报道的鸡新城疫病毒F基因序列设计了一对引物,以鸡新城疫病毒HeB02分离株基因组为模板,通过RT-PCR扩增出了1·66kb左右的F基因片段,序列分析表明HeB02株F基因与国内标准强毒株F48E9及弱毒疫苗La Sota和Clone30的F基因核苷酸序列的同源性分别为88·1%、84·9%和83·8%。将HeB02株F基因插入真核表达载体pVAX1中,构建了真核表达质粒pSV-F,通过脂质体转染COS-7细胞,SDS-PAGE分析可见表达的特异蛋白条带;Western blot、ELISA和中和试验检测结果表明:真核表达的蛋白与抗新城疫病毒的抗体发生特异性反应,说明F蛋白具有很好的免疫原性。采用活体电击法以真核表达质粒pSV-F免疫3周龄SPF鸡,剂量为50μg/只,3周后加强免疫1次,5周后以100倍鸡胚感染剂量(EID)的F基因同源病毒对所有鸡进行攻毒,攻毒前后每周分别以喉拭子进行病毒分离和HI效价测定。结果显示对照组在攻毒前一直没有检测到抗体效价,攻毒后检测效价为3·0log2±1·40,并且于攻毒后第9天全部死亡;活疫苗组和实验组免疫后第2周检测到抗体效价,第5周最高,HI效价分别为8·3log2±1·30和7·2log2±1·23,攻毒1周后HI效价分别达9·8log2±1·55和8·9log2±1·77,极显著高于对照组(P<0·01)。免疫组未分离到新城疫病毒,对照组全部分离到新城疫病毒。表明所构建的F基因真核表达质粒可作为候选基因疫苗诱导鸡产生免疫保护反应。     

禽呼肠孤病毒感染对鸡法氏囊及免疫应答的影响

研究LY株禽呼肠孤病毒(ARV)感染1日龄SPF鸡后对法氏囊发育影响,对传染性法氏囊病毒(IBDV)、禽流感病毒(AIV)、新城疫病毒(NDV)疫苗免疫诱发的抗体的影响,及对强毒株IBDV致病作用的影响。结果表明,LY株ARV感染1日龄SPF鸡可引起法氏囊萎缩和部分淋巴细胞减少,但对增重及AIV和NDV疫苗免疫后抗体滴度却没有显著影响。ARV感染可降低弱毒IBDV疫苗免疫后的抗体反应,但对随后IBDV强毒株攻毒的抵抗力却与对照鸡无显著差异。经IBDV弱毒疫苗免疫后,再接种强毒株IBDV,不会引起死亡,但却仍能显著抑制对AIV、NDV疫苗免疫后的抗体滴度。然而,对于1~7日龄经ARV感染的鸡,IBDV强毒的这种免疫抑制作用又显著低于未经ARV感染的对照鸡。     

表达绿色荧光蛋白重组新城疫病毒 LaSota疫苗株的构建

新城疫病毒是理想的新型活病毒疫苗载体,具有巨大的优势和应用前景。采用生产实践中广泛应用、免疫效果良好的NDV LaSota弱毒疫苗株,建立了反向遗传操作系统。在此基础上,进一步构建了表达绿色荧光蛋白(GFP)的重组NDV基因组cDNA克隆,成功救获了重组病毒rLaSota-EGFP,病毒F1代尿囊病毒液按1×104EID50接种9~10日龄SPF鸡胚尿囊腔,接种后分别于24h、48h、72h及96h收获尿囊液,检测平均HA滴度分别为28、210.3、211.3和211,每mL尿囊液病毒量EID50分别为108.64、109.22、109.21和109.64,重组病毒与亲本株生长滴度在相近时间达到峰值,生长动力学特性与亲本株无明显差异。各代次重组病毒按1×106EID50病毒量接种9~10日龄SPF鸡胚,96h内完全不致死鸡胚。救获重组病毒保持了LaSota弱毒疫苗亲本毒株对鸡胚良好的高滴度生长适应和低致病特性,并且鸡胚连续传9代次仍保持GFP的稳定表达及生物学特性不变。重组病毒rLaSota-EGFP的成功救获为开展新城疫病毒活载体疫苗研制提供了可行的技术平台。     

Preparation and Efficacy of a Live Newcastle Disease Virus Vaccine Encapsulated in Chitosan Nanoparticles

Background

Newcastle disease (ND) is a highly contagious viral disease of poultry caused by pathogenic strains of the Newcastle disease virus (NDV). Live NDV vaccines are administered by drinking water, eyedrops or coarse aerosol spray. To further enhance mucosal immune responses, chitosan nanoparticles were developed for the mucosal delivery of a live NDV vaccine.

Methodology/Principal Findings

A lentogenic live-virus vaccine (strain LaSota) against NDV encapsulated in chitosan nanoparticles were developed using an ionic crosslinking method. Chitosan nanoparticles containing the lentogenic live-virus vaccine against NDV (NDV-CS-NPs) were produced with good morphology, high stability, a mean diameter of 371.1 nm, an encapsulation rate of 77% and a zeta potential of +2.84 mV. The Western blotting analysis showed that NDV structural proteins were detected in NDV-CS-NPs. The virus release assay results of NDV-CS-NPs indicated that NDV was released from NDV-CS-NPs. Chickens immunized orally or intranasally with NDV-CS-NPs were fully protected whereas one out of five chickens immunized with the LaSota live NDV vaccine and three out of five chickens immunized with the inactivated NDV vaccine were dead after challenge with the highly virulent NDV strain F48E9.

Conclusions/Significance

NDV-CS-NPs induced better protection of immunized specific pathogen free chickens compared to the live NDV vaccine strain LaSota and the inactivated NDV vaccine. This study lays a foundation for the further development of mucosal vaccines and drugs encapsulated in chitosan nanoparticles.     

新城疫壳聚糖微球疫苗免疫效果的研究

鸡新城疫是由新城疫病毒引起的鸡的一种急性、烈性、高度接触性传染病,是危害养禽业的最严重疫病之一。控制新城疫最根本的措施是进行有效的疫苗接种,目前常用的疫苗是弱毒活疫苗和灭活疫苗,但二者在实际应用中均存在一定的局限性。口服微球疫苗可以诱导较强的粘膜免疫;同时还能够诱导产生系统的体液免疫和细胞免疫,已成为ND疫苗研究的热点。以壳聚糖为囊材,新城疫La Sota抗原液为芯材,戊二醛为交联剂,制备出新城疫壳聚糖微球疫苗,通过了实验室安全检验和效力检验。将新城疫壳聚糖微球疫苗与LaSota活疫苗和新城疫油乳剂灭活苗分别免疫SPF鸡,利用MTT、血凝抑制法(HI)和ELISA等分别检测不同疫苗免疫后的细胞免疫、体液免疫和粘膜免疫抗体IgA,并在当免疫鸡HI抗体降到23的情况下进行了攻毒试验。结果表明,新城疫壳聚糖微球疫苗安全性好,免疫后可刺激机体产生较强的细胞免疫、体液免疫和局粘膜免疫,具有较好的保护作用。     

Newcastle disease virus-vectored rabies vaccine is safe, highly immunogenic, and provides long-lasting protection in dogs and cats

Effective, safe, and affordable rabies vaccines are still being sought. Newcastle disease virus (NDV), an avian paramyxovirus, has shown promise as a vaccine vector for mammals. Here, we generated a recombinant avirulent NDV La Sota strain expressing the rabies virus glycoprotein (RVG) and evaluated its potential to serve as a vaccine against rabies. The recombinant virus, rL-RVG, retained its high-growth property in chicken eggs, with titers of up to 10^9.8 50% egg infective doses (EID₅₀)/ml of allantoic fluid. RVG expression enabled rL-RVG to spread from cell to cell in a rabies virus-like manner, and RVG was incorporated on the surface of the rL-RVG viral particle. RVG incorporation did not alter the trypsin-dependent infectivity of the NDV vector in mammalian cells. rL-RVG and La Sota NDV showed similar levels of sensitivity to a neutralization antibody against NDV and similar levels of resistance to a neutralization antibody against rabies virus. Animal studies demonstrated that rL-RVG is safe in several species, including cats and dogs, when administered as multiple high doses of recombinant vaccine. Intramuscular vaccination with rL-RVG induced a substantial rabies virus neutralization antibody response and provided complete protection from challenge with circulating rabies virus strains. Most importantly, rL-RVG induced strong and long-lasting protective neutralization antibody responses to rabies virus in dogs and cats. A low vaccine dose of 10^8.3 EID₅₀ completely protected dogs from challenge with a circulating strain of rabies virus for more than a year. This is the first study to demonstrate that immunization with an NDV-vectored vaccine can induce long-lasting, systemic protective immunity against rabies.     

Enzyme-linked immunosorbent assay for detection of serum antibody in children vaccinated with Japanese encephalitis vaccine

Serum antibodies in children who had been vaccinated with Japanese encephalitis (JE) vaccine were measured by enzyme-linked immunosorbent assay (ELISA) and neutralization (N) and hemagglutination-inhibition (HI) tests. Of 20 serum samples obtained after two shots of JE vaccine in the first year, all but one showed positive titers in the ELISA and N test, but five showed negative titers in the HI test. All 12 serum samples obtained after booster immunization with JE vaccine in the second year showed positive and considerably higher titers in all three tests. Moreover, a high correlation was found between the ELISA, N and HI titers. These results indicate that the ELISA is useful for detecting antibodies in subjects immunized with JE vaccine.     

NDV F48E9株与La Sota株F蛋白B细胞表位差异分析区段的鉴定和免疫原性比较

本文对预测的NDV F48E9强毒株和La Sota 疫苗株F蛋白优势表位进行比较分析。根据预测结果设计克隆了两个毒株F蛋白各4段表位区,分别将每个毒株的4段表位区连接到原核表达载体上进行了体外表达,鉴定得到4段多肽的大小分别是P1：8.0KD、P2:10.8KD、P5:13.5KD、P6:10.5KD。应用F48E9和LaSota特异性抗血清对表达各肽段进行了抗原性鉴定,P1、P2、P5、P6段均呈阳性反应,表明其中含有线性B细胞表位。其中F48E9 P5 (FP5)和La Sota P5(LP5)与血清反应时有明显差异。FP5和LP5与鸡IL-18成熟肽（m ChIL-18）蛋白以不同组合免疫SPF鸡,ELISA检测各组的免疫活性,结果发现FP5与m ChIL-18蛋白联合免疫组的抗体水平高于LP5与m ChIL-18蛋白联合免疫组、FP5、LP5单独免疫组;用NDV F48E9株攻毒结果显示FP5具有20%的保护率,说明P5段与F蛋白免疫原性相关,而LaSota P5不能抵抗强毒的攻击,证明该表位区域在两个毒株之间存在着免疫原性差异。     

不同基因型新城疫病毒HN基因保守区域的克隆表达及免疫活性的比较

对于NDV不同基因型毒株的HN基因的氨基酸序列比较后发现,基因Ⅶ型的毒株在第65~75位的氨基酸序列较为保守,而其他各基因型在该区域则不尽相同。因此本文克隆了NDV基因Ⅱ、Ⅶ、Ⅸ型的代表毒株La Sota、GX-2、F48E9的含有该区域的序列,并进行蛋白表达,通过特异性抗血清对表达肽段进行抗原性测定。应用表达的蛋白免疫SPF鸡,用ELISA检测各组的抗体水平。结果表明3个毒株在反应原性上存在差异。应用NDV F48E9强毒株攻毒,结果显示各多肽蛋白的保护率不同,表明在该区域这3个毒株之间存在着免疫原性差异。     

携带新城疫病毒DNA疫苗的鼠伤寒沙门氏菌及其安全性与免疫效力

根据GenBank中发表的新城疫病毒(NDV)融合蛋白(F)基因序列,设计一对引物,通过RTPCR扩增出鹅源新城疫病毒分离株JS5F基因,测序确认后,将其克隆入真核表达载体pVAX1,获得重组真核表达质粒pVAX1F。将pVAX1F转化减毒鼠伤寒沙门氏菌SL7207,构建成携带DNA疫苗的重组沙门氏菌SL7207(pVAX1F)。重组菌以不同剂量口服免疫1日龄雏鸡,结果表明,细菌对雏鸡具有良好的安全性,且不影响鸡的增重。将SL7207(pVAX1F)分别以108CFU和109CFU的剂量3次口服免疫1日龄商品代伊莎褐蛋鸡,抗体检测结果显示,在三免后1周,SL7207(pVAX1F)109CFU剂量组的血清抗体效价与空载体组之间存在显著性差异(p<0.05)。重组菌两个剂量组在首免后2周开始出现粘膜抗体,并于二免后2周和3周达到较高水平。免疫保护试验结果显示,SL7207(pVAX1F)109CFU剂量组的保护率为77.27%,与空载体组之间存在显著性差异(p<0.05)。     

共表达H5N1流感病毒M1和HA基因的DNA疫苗与腺病毒载体疫苗的小鼠免疫评价

为评价在小鼠体内表达流感病毒M1和HA基因诱导的免疫反应,制备共表达H5N1亚型禽流感病毒 (A/Anhui/1/2005) 全长基质蛋白1 (M1) 基因和血凝素 (HA) 基因的重组DNA疫苗pStar-M1/HA和重组腺病毒载体疫苗Ad-M1/HA,将其按初免-加强程序免疫BALB/c小鼠,共免疫4次,每次间隔14 d。第1、3次用DNA疫苗,第2、4次用重组腺病毒载体疫苗,每次免疫前及末次免疫后14 d采集小鼠血清用于检测体液免疫应答,末次免疫后14 d采集小鼠脾淋巴细胞用于检测细胞免疫应答。血凝     

Isolation of Newcastle disease virus from teals (Anas crecca) in Iran.

Eight of 30 teals (Anas crecca) died several days following capture and Newcastle Disease Virus (NDV) was isolated from all eight. Brains from the dead birds were homogenized and inoculated into chicken embryos. The allantoic fluid from the embryos were inoculated into 10 domestic chickens susceptible to NDV and 10 chickens immunized against NDV. Eight of 10 (80%) susceptible chickens died, while the immunized chickens remained healthy. Anti-NDV serum showed complete homology against NDV and the eight isolates.     

重组新城疫病毒Anhinga株与TRAIL蛋白协同杀伤肿瘤细胞

将新城疫病毒（Newscastle disease virus, NDV）Anhinga株的全 长基因组cDNA克隆质粒、pTM1-L、pTM1-P、pTM1-NP表达质粒共转染稳定表 达T7 RNA聚合酶的BSRT7/5细胞,得到拯救NDV病毒．通过PCR、酶切法、测 序证明拯救病毒中存在引入的分子标签.通过血凝实验、蚀斑测定证明成功 拯救病毒.并研究了该重组病毒对4种不同人肿瘤细胞的体外杀伤效果．首 次证明重组Anhinga株对SMMC-7721细胞、A549细胞、HepG2细胞和SH-SY5Y 细胞均有杀伤作用．该重组病毒主要诱导SMMC-7721细胞和A549细胞凋亡, 诱导HepG2细胞和SH-SY5Y细胞坏死．TNF家族成员TRAIL蛋白可以显著增强 NDV杀伤肿瘤细胞的效果.本实验为进一步研究重组NDV用于肿瘤治疗奠定基 础．     

网状内皮增生病病毒感染SPF鸡对疫苗免疫反应的抑制作用

我国鸡群中网状内皮增生病病毒(REV)感染已相当普遍,但对其造成的实际危害却不太清楚。本研究结果表明,1日龄SPF鸡感染REV会显著抑制对新城疫病毒(NDV)和禽流感病毒(AIV,H5和H9)疫苗的免疫反应。1周龄用相应灭活疫苗免疫后3周、4周和5周,REV感染组对不同病毒疫苗免疫后的HI效价显著低于对照组。高剂量REV感染组的抑制作用大于低剂量感染组,但统计学差异不显著。REV感染可造成中枢免疫器官萎缩,REV感染组的胸腺、法氏囊与体重比显著低于对照组。本研究证明了,REV早期感染会干扰鸡群对NDV、AIV的免疫效果,特别是会严重干扰对AIV疫苗的免疫效果。     

Characterization of Newcastle Disease Viruses in Wild and Domestic Birds in Luxembourg from 2006 to 2008

Newcastle disease virus (NDV) is one of the most important viral diseases of birds. Wild birds constitute a natural reservoir of low-virulence viruses, while poultry are the main reservoir of virulent strains. Exchange of virus between these reservoirs represents a risk for both bird populations. Samples from wild and domestic birds collected between 2006 and 2010 in Luxembourg were analyzed for NDV. Three similar avirulent genotype I strains were found in ducks during consecutive years, suggesting that the virus may have survived and spread locally. However, separate introductions cannot be excluded, because no recent complete F gene sequences of genotype I from other European countries are available. Detection of vaccine-like strains in wild waterbirds suggested the spread of vaccine strains, despite the nonvaccination policy in Luxembourg. Among domestic birds, only one chicken was positive for a genotype II strain differing from the LaSota vaccine and exhibiting a so-far-unrecognized fusion protein cleavage site of predicted low virulence. Three genotype VI strains from pigeons were the only virulent strains found. The circulation of NDV in wild and free-ranging domestic birds warrants continuous surveillance because of increased concern that low-virulence wild-bird viruses could become more virulent in domestic populations.     

Abnormal humoral immune response to influenza vaccination in pediatric type-1 human immunodeficiency virus infected patients receiving highly active antiretroviral therapy

Given that highly active antiretroviral therapy (HAART) has been demonstrated useful to restore immune competence in type-1 human immunodeficiency virus (HIV-1)-infected subjects, we evaluated the specific antibody response to influenza vaccine in a cohort of HIV-1-infected children on HAART so as to analyze the quality of this immune response in patients under antiretroviral therapy. Sixteen HIV-1-infected children and 10 HIV-1 seronegative controls were immunized with a commercially available trivalent inactivated influenza vaccine containing the strains A/H1N1, A/H3N2, and B. Serum hemagglutinin inhibition (HI) antibody titers were determined for the three viral strains at the time of vaccination and 1 month later. Immunization induced a significantly increased humoral response against the three influenza virus strains in controls, and only against A/H3N2 in HIV-1-infected children. The comparison of post-vaccination HI titers between HIV-1+ patients and HIV-1 negative controls showed significantly higher HI titers against the three strains in controls. In addition, post vaccination protective HI titers (defined as equal to or higher than 1:40) against the strains A/H3N2 and B were observed in a lower proportion of HIV-1+ children than in controls, while a similar proportion of individuals from each group achieved protective HI titers against the A/H1N1 strain. The CD4+ T cell count, CD4/CD8 T cells ratio, and serum viral load were not affected by influenza virus vaccination when pre- vs post-vaccination values were compared. These findings suggest that despite the fact that HAART is efficient in controlling HIV-1 replication and in increasing CD4+ T cell count in HIV-1-infected children, restoration of immune competence and response to cognate antigens remain incomplete, indicating that additional therapeutic strategies are required to achieve a full reconstitution of immune functions.     

The adjuvant effect of Sophy β-glucan to the antibody response in poultry immunized by the avian influenza A H5N1 and H5N2 vaccines

Avian influenza virus vaccines produced in oil-emulsified inactivated form with antigen content of at least 160 hemagglutinin units (HAU) induced immunity in birds. However, in addition to enhancing the effect of the adjuvant(s), other additional supplemented biological compounds included in inactivated vaccines could produce higher levels of antibody. We examined in chickens, Vietnamese ducks, and muscovy ducks the adjuvant effect of Sophy β-glucan (SBG), a β-1,3-1,6 glucan produced by the black yeast Aureobasidium pollulans strain AF0-202, when administered with an avian influenza H5 subtype vaccine. In Experiment 1, 40 chickens (ISA Brown hybrid), allocated to four groups of ten each, were immunized with Oil-H5N1(VN), Oil-H5N1(CN), Oil-H5N2(CN), and saline (control group), respectively. In Experiment 2, chickens (ISA Brown hybrid), muscovy ducks (French hybrid), and Vietnamese ducks (indigenous Vietnamese) were used to further assess the effect of SBG on immunogenicity of the Oil-H5N1(VN) Vietnamese vaccine. ELISA and hemagglutination inhibition (HI) assays were used to assess the antibody response. The H5 subtype vaccines initiated significantly higher immune responses in the animals dosed with SBG, with 1.0-1.5 log2 higher HI titers and 10-20% ELISA seroconversion, compared with those not dosed with β-glucan. Notably, some of the animals dosed with SBG induced HI titers higher than 9.0 log2 following boosting immunization. Taken together, our serial studies indicated that SBG is a potential effector, such as enhancing the immune response to the H5 vaccines tested.     

Intracerebral vaccination suppresses the spread of rabies virus in the mouse brain

To investigate the efficacy of intracerebral (IC) immunization in preventing viral spread in the brain, we immunized mice with inactivated rabies virus via the subcutaneous (SC) or IC route, followed by administration of a lethal dose of rabies virus (challenge virus standard strain), directly into the brains of immunized mice. Progressive paralytic neurological signs were observed in control and 75% of SC immunized mice, whereas only 20% of IC immunized mice exhibited symptoms. Neutralizing antibody titers in blood plasma were significantly elevated in SC and IC immunized mice, with the highest levels seen in IC immunized mice. Analysis of whole brain lysates revealed a strong induction of immunoglobulin in the brains of IC immunized mice that had virus neutralizing activity. Histopathological examination of brain tissue revealed mild encephalitis and disseminated viral antigen in control and SC immunized mice, but rare in IC immunized mice. These results suggest that IC immunization induces a preventive humoral immune response against intracerebrally inoculated rabies virus. Induction of neutralizing antibody in cerebrospinal fluid represents a putative therapeutic measure for the treatment of rabid animals and humans.     

Immunization of primates with a Newcastle disease virus-vectored vaccine via the respiratory tract induces a high titer of serum neutralizing antibodies against highly pathogenic avian influenza virus

The ongoing outbreak of highly pathogenic avian influenza virus (HPAIV) in birds, the incidence of transmission to humans with a resulting high mortality rate, and the possibility of a human pandemic warrant the development of effective human vaccines against HPAIV. We developed an experimental live-attenuated vaccine for direct inoculation of the respiratory tract based on recombinant avian Newcastle disease virus (NDV) expressing the hemagglutinin (HA) glycoprotein of H5N1 HPAIV (NDV-HA). Expression of the HPAIV HA gene slightly reduced NDV virulence, as evidenced by the increased mean embryo death time and reduced replication in chickens. NDV-HA was administered to African green monkeys in two doses of 2 x 10(7) infectious units each with a 28-day interval to evaluate the systemic and local antibody responses specific to H5N1 HPAIV. The virus was shed only at low titers from the monkeys, indicative of safety. Two doses of NDV-HA induced a high titer of H5N1 HPAIV-neutralizing serum antibodies in all of the immunized monkeys. Moreover, a substantial mucosal immunoglobulin A response was induced in the respiratory tract after one and two doses. The titers of neutralizing antibodies achieved in this study suggest that the vaccine would be likely to prevent mortality and reduce morbidity caused by the H5N1 HPAIV. In addition, induction of a local immune response in the respiratory tract is an important advantage that is likely to reduce or prevent transmission of the virus during an outbreak or a pandemic. This vaccine is a candidate for clinical evaluation in humans.