重组乳酸乳球菌表达禽流感病毒HA1基因载体的构建及在禽流感病毒防治领域的应用

目的构建以重组乳酸乳球菌为基础的黏膜输送载体。方法以高致病性禽流感病毒H5N1的HA1基因作为研究对象,利用nisin诱导表达控制系统,构建分泌型与非分泌型重组乳酸乳球菌表达载体,经口服灌胃途径免疫BALB/c小鼠,通过ELISA检测小鼠血清IgG和粪便IgA,最后,对免疫后的小鼠进行H5N1病毒攻击实验,进而比较分泌型与非分泌型重组乳酸乳球菌表达载体的免疫效率。结果分泌型重组乳酸乳球菌免疫小鼠后产生的抗体水平（IgG和IgA）高于非分泌型重组乳酸乳球菌,经过同型H5N1病毒攻击后,分泌型重组乳酸乳球菌免疫的小鼠的存活率为80%,而非分泌型重组乳酸乳球菌免疫的小鼠的存活率为60%。结论本研究为防治高致病性禽流感病毒提供可行的思路与方法。     

血液通路在H5N1高致病性禽流感病毒入侵小鼠中枢神经系统中的作用

【目的】研究血液通路在H5N1高致病性禽流感病毒入侵小鼠中枢神经系统中的作用。【方法】用3株H5N1病毒滴鼻感染BALB/c小鼠,研究小鼠肺、脑、血中的病毒在感染后不同时间点的复制动态及病理进展,通过免疫组化和免疫荧光染色显示病毒在脑部血管内皮细胞及血管周围神经组织的感染情况。【结果】小鼠感染后病毒迅速在肺中高效复制,随即形成病毒血症;感染后第6天病毒在肺中的滴度和在血液样本中的检出率达到峰值,此时小鼠脑部才开始检测到病毒;小鼠脑内血管内皮细胞、脑血管周围神经组织的神经元和神经胶质细胞中可检测到流感病毒NP蛋白。【结论】血液播散可能是高致病性H5N1禽流感病毒进入中枢神经系统的途径之一。     

H7N9禽流感病毒小鼠感染动物模型的建立

目的建立H7N9禽流感病毒小鼠感染模型。方法 1×108,1×107或1×106TCID50H7N9禽流感病毒原液(A/Anhui/1/2013)滴鼻感染BALB/c小鼠。主要观测指标:临床症状、死亡率、病理变化、病毒载量和血清抗体检测。结果被感染的小鼠表现为竖毛、弓背、体重下降;病理表现为间质性肺炎,感染后第2天开始在呼吸道脱落细胞中检测到病毒;免疫组化或病毒分离方法在肺、肾、脑、肠、脾等组织检测到病毒;感染后14 d在小鼠血清中血凝抑制试验特异性抗体效价达到160;淋巴细胞减少,中性粒细胞增多。结论 H7N9感染BALB/c小鼠模型与人类禽流感感染疾病的基本特征相似,为研究该病的发病机制及药物疫苗的研发提供了工作基础。     

甲型H5N1流感病毒M2与HA双基因载体疫苗在小鼠体内的免疫学评价

高致病性H5N1亚型禽流感病毒 (AIV) 严重威胁到人类健康,因此研制高效、安全的禽流感疫苗具有重要意义。以我国分离的首株人H5N1亚型禽流感病毒 (A/Anhui/1/2005) 作为研究对象,PCR扩增基质蛋白2 (M2) 和血凝素 (HA) 基因全长开放阅读框片段,构建共表达H5N1亚型AIV膜蛋白基因 M2和HA的重组质粒pStar-M2/HA。此外,还通过同源重组以293细胞包装出表达M2基因的重组腺病毒Ad-M2以及表达HA基因的重组腺病毒Ad-HA。用间接免疫荧光 (IFA) 方法检测到了各载体上插入基因的表达。按初免-加强程序分别用重组质粒pStar-M2/HA和重组腺病毒Ad-HA+Ad-M2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采集血清用于检测体液免疫应答,末次免疫后14 d采集脾淋巴细胞用于检测细胞免疫应答。血凝抑制 (HI) 实验检测到免疫后小鼠血清中的HI活性。ELISA实验检测到免疫后小鼠血清中抗H5N1亚型流感病毒表面蛋白的IgG抗体。ELISPOT实验检测到免疫后小鼠针对M2蛋白和HA蛋白的特异性细胞免疫应答。流感病毒M2与HA双基因共免疫的研究,为研究开发新型重组流感疫苗奠定了基础。     

季节性流感疫苗对小鼠感染H7N9禽流感病毒的保护效力

目的评价季节性流感裂解疫苗对流感病毒H7N9的免疫保护效力。方法用我国2012~2013年度季节性流感裂解疫苗,以腹腔注射方式免疫BALB/c小鼠,并设PBS免疫模型组,末次免疫14 d后以5 LD50A/Anhui/1(H7N9)进行攻试验。感染后观察记录小鼠临床表现,体重变化,并分别于第2天和第4天每组处死3只小鼠,取肺组织和鼻甲骨测病毒滴度和载量。结果感染后疫苗与模型组小鼠体重下降明显,疫苗组存活率为10%,模型组全部死亡。感染后第4天疫苗组鼻甲骨滴度显著低于模型组。血凝抑制试验及中和实验表明免疫小鼠血清无中和H7N9病毒抗体。结论季节性流感疫苗在小鼠中对于H7N9流感病毒感染无明显保护作用。     

2005～2006年湖南省人感染高致病性禽流感(H5N1)实验室诊断及病毒基因特性研究

为了对2005~2006年湖南省2例不明原因肺炎病例进行实验室诊断,确定病因以及对其进行病原学研究,采集病例呼吸道标本和血清标本,对呼吸道标本采用实时荧光定量逆转录聚合酶链式反应(Real-time RT-PCR)和逆转录聚合酶链式反应(RT-PCR)方法检测H5亚型禽流感病毒核酸,对血清标本采用血凝抑制试验检测特异性抗体,并对其中1例死亡病例(病例2)的肺穿刺物标本进行病毒分离,所获毒株予以测序及同源性分析。结果显示,2例病例H5亚型禽流感病毒核酸检测均为阳性,病例1恢复期血清H5N1特异性抗体阳性,并且较急性期血清呈4倍以上增长;病例2急性期血清特异性抗体阴性,2例均为人感染高致病性禽流感病毒(H5N1)确诊病例。从病例2分离得到毒株A/Hunan/1/2006,测序及分子特性分析表明,其8个基因片段均为禽源,且与湖南本地禽类分离的病毒相似,并未与人流感病毒发生基因重组或产生显著变异。     

A型流感病毒感染BALB/c小鼠炎症模型的建立

目的用小鼠炎症动物模型分析A型流感病毒的致病性。方法三株不同的A型流感病毒A/swine/Jiangsu/C1/08 (H9N2)(H9C1)、A/swine/Shandong/731/2009 (SD731)、A/Puerto Rico/8/34 (H1N1)(PR8),以1×10~6 TCID_(50)经鼻感染5周龄BALB/c小鼠,观测临床症状,检测肺组织的病毒载量和炎症因子水平。结果 BALB/c小鼠致病性实验中,SD731和PR8病毒引起的肺组织的炎症反应水平及病毒的复制显著高于H9C1,SD731致死率为80%,PR8为100%;H9C1病毒感染伴随着体重的减轻,但小鼠无死亡。结论成功建立了流感病毒感染小鼠的炎症模型。     

浙江省首例人禽流感病例的病原学与分子生物学研究

为确认浙江省首例疑似人禽流感病例,进行病原学分析,对患者气管吸出物进行核酸RT-PCR、荧光定量RT-PCR检测以及病毒分离,并对患者血清进行HI抗体测定.结果表明患者气管吸出物H5N1亚型和A型流感病毒特异核酸均呈阳性,分离到禽流感病毒A/Zhejiang/16/06(H5N1)株;双份血清中禽流感病毒(H5N1)HI抗体滴度分别为1320和1640,从病原学和血清学上证实为人禽流感病例.分离毒株测序结果显示,A/Zhejiang/16/06(H5N1)株在HA裂解位点为多个碱性氨基酸,符合高致病性禽流感病毒特征;该毒株的HA、NA、PB2、NP、M和NS基因序列均为禽源,与2005年我国福建、安徽等地禽流感病毒分离株高度同源,而与越南、泰国以及香港1997年分离到的禽流感病毒株之间存在明显差异.     

季节性流感疫苗对小鼠感染 H7N9 禽流感病毒的保护效力简

目的 评价季节性流感裂解疫苗对流感病毒H7N9的免疫保护效力.方法 用我国2012～2013年度季节性流感裂解疫苗,以腹腔注射方式免疫BALB/c小鼠,并设PBS免疫模型组,末次免疫14 d后以5 LD50 A/Anhui/1（H7N9）进行攻试验.感染后观察记录小鼠临床表现,体重变化,并分别于第2天和第4天每组处死3只小鼠,取肺组织和鼻甲骨测病毒滴度和载量.结果 感染后疫苗与模型组小鼠体重下降明显,疫苗组存活率为10%,模型组全部死亡.感染后第4天疫苗组鼻甲骨滴度显著低于模型组.血凝抑制试验及中和实验表明免疫小鼠血清无中和H7N9病毒抗体.结论 季节性流感疫苗在小鼠中对于H7N9流感病毒感染无明显保护作用.     

H7N9禽流感病毒裂解佐剂(MF59)疫苗的长期免疫原性研究

目的 评价H7N9禽流感病毒裂解佐剂(MF59)疫苗的长期免疫原性。方法 制备含MF59佐剂的H7N9禽流感病毒裂解疫苗成品,放置于(6±2)℃环境下,取保存6、24和30个月后的疫苗,对小鼠进行免疫,以血凝抑制效价和微量中和抗体滴度来评估该疫苗的免疫原性。同时,用存放30个月的疫苗进行2次免疫后,对小鼠进行攻毒,观察MF59佐剂疫苗的免疫保护效应。结果 H7N9禽流感病毒裂解佐剂(MF59)疫苗在(6±2)℃保存30个月后免疫小鼠,检测其血凝抑制抗体效价和微量中和抗体滴度均没有明显的变化,且免疫小鼠能够有效抵御H7N9病毒的感染及其致病效应。结论 H7N9禽流感病毒裂解佐剂(MF59)疫苗具有良好的免疫原性,在(6±2)℃至少可保存30个月。     

不同免疫状态的小鼠对禽流感病毒H5N1感染的敏感性及其机制探讨

目的 比较不同免疫状态的小鼠对禽流感病毒的易感性,并探讨可能的原因.方法 四种免疫状态的小鼠,无菌BALB/c小鼠,SPF级BALB/c小鼠,SCID小鼠和nude小鼠,以10TCID50的禽流感病毒50μL感染小鼠,观察小鼠的体重变化,存活率,各组织脏器的病毒分布,肺组织的细胞因子变化和肺组织病理病变.结果 四种小鼠均能感染禽流感病毒,其中,无菌小鼠对禽流感病毒H5N1的易感性最低,存活率最高.并且病毒在无菌鼠体内病毒的复制水平最低,细胞因子TNF-α,IL-12,MIP2,GATA3,IFN-a/β在感染后表达水平最低,其中第7天最低.结论 无菌小鼠能感染禽流感病毒,但是相比较SPF级BALB/c小鼠,SCID小鼠和nude小鼠,其易感性最低,可能与病毒在组织内的低复制和细胞因子的低表达均有关.     

板蓝根颗粒对甲型流感病毒小鼠的作用

目的测定板蓝根颗粒抗流感病毒的药效作用。方法 A/California/7/2009（CA7）病毒滴鼻感染BALB/c小鼠观察14d,观察板蓝根对甲型H1N1流感病毒感染小鼠的保护作用,计算小鼠存活率、存活天数以及延长生命率。感染的小鼠第5天每组小鼠处死一半,取肺组织,观察板蓝根对甲型H1N1流感病毒感染小鼠肺组织的保护作用。结果板蓝根可明显延长甲型H1N1流感病毒感染小鼠的存活天数并提高存活率,病理结果显示板蓝根对甲型H1N1流感病毒感染的小鼠的肺组织有一定程度的保护作用,与模型组比较差异显著（P〈0.05）。结论板蓝根颗粒对甲型H1N1流感病毒感染的小鼠有较好的保护作用。     

人H7N9禽流感病毒、高致病H5N1禽流感病毒及H1N1流感病毒感染小鼠特征分析

目的对比分析人高致病H5N1禽流感病毒、H7N9禽流感病毒及H1N1流感病毒分别感染BALB/c小鼠后的机体反应特征。方法分别以H7N9病毒、H5N1病毒和H1N1病毒滴鼻感染BALB/c小鼠,观察小鼠存活率、体征变化及感染后肺组织病理损伤差异,检测小鼠感染流感病毒后肺组织增殖细胞核抗原(PCNA)表达并观察小鼠感染后修复状况。结果 H7N9病毒、H5N1病毒和H1N1病毒均感染BALB/c小鼠,小鼠存活率依次为H7N9H1N1H5N1,肺组织病理损伤严重程度依次为H5N1H1N1H7N9,PCNA表达水平依次为H7N9H1N1H5N1。结论 H7N9病毒感染后宿主炎症反应较小,感染后小鼠肺组织自我修复能力较强;H5N1病毒感染BALB/c小鼠后的机体反应最为强烈,感染后恢复能力差,致死率高。     

人H7N9禽流感病毒与H1N1流感病毒感染小鼠病理学损伤的比较

目的比较分析H7N9病毒与H1N1病毒感染小鼠病理学损伤特点,初步探讨两种病毒感染致小鼠急性肺损伤的致病机制。方法 H7N9病毒与H1N1病毒分别感染小鼠,观察不同病毒感染后小鼠生存率,并于不同时间点取心、肝、脾、肺、肾、脑、肠等组织,伊红-苏木素染色并进行组织病理学分析,免疫组化检测病毒抗原分布及中性粒细胞浸润。综合分析肺组织病理损伤与病毒复制、宿主免疫反应之间的关系。结果 H7N9病毒感染小鼠肺及脾脏损伤较轻,存活率较高。H1N1病毒感染的小鼠肺及脾脏损伤较重,感染后9 d全部死亡;两种病毒抗原主要分布于支气管上皮细胞、少量间质细胞和肺泡上皮细胞,病毒复制水平无明显差异。但H1N1病毒感染后肺及脾脏中均有大量中性粒细胞浸润,小鼠机体炎症反应明显强于H7N9病毒感染后小鼠炎症反应。结论 H7N9病毒与H1N1病毒感染后小鼠病理学损伤特点及程度均不同,病毒复制是小鼠肺损伤的诱发因素但并非决定因素,宿主针对病毒感染产生的免疫反应程度与急性肺损伤密切相关。     

Heterosubtypic antibody response elicited with seasonal influenza vaccine correlates partial protection against highly pathogenic H5N1 virus

Background

The spread of highly pathogenic avian influenza (HPAI) H5N1 virus in human remains a global health concern. Heterosubtypic antibody response between seasonal influenza vaccine and potential pandemic influenza virus has important implications for public health. Previous studies by Corti et al. and by Gioia et al. demonstrate that heterosubtypic neutralizing antibodies against the highly pathogenic H5N1 virus can be elicited with a seasonal influenza vaccine in humans. However, whether such response offers immune protection against highly pathogenic H5N1 virus remained to be determined.

Methodology/Principal Findings

In this study, using a sensitive influenza HA (hemagglutinin) and NA (neuraminidase) pseudotype-based neutralization (PN) assay we first confirmed that low levels of heterosubtypic neutralizing antibody response against H5N1 virus were indeed elicited with seasonal influenza vaccine in humans. We then immunized mice with the seasonal influenza vaccine and challenged them with lethal doses of highly pathogenic H5N1 virus. As controls, we immunized mice with homosubtypic H5N1 virus like particles (VLP) or PBS and challenged them with the same H5N1 virus. Here we show that low levels of heterosubtypic neutralizing antibody response were elicited with seasonal influenza vaccine in mice, which were significantly higher than those in PBS control. Among them 2 out of 27 whose immune sera exhibited similar levels of neutralizing antibody response as VLP controls actually survived from highly pathogenic H5N1 virus challenge.

Conclusions/Significance

Therefore, we conclude that low levels of heterosubtypic neutralizing antibody response are indeed elicited with seasonal influenza vaccine in humans and mice and at certain levels such response offers immune protection against severity of H5N1 virus infection.     

Efficacy of a Parainfluenza Virus 5 (PIV5)-Based H7N9 Vaccine in Mice and Guinea Pigs: Antibody Titer towards HA Was Not a Good Indicator for Protection

H7N9 has caused fatal infections in humans. A safe and effective vaccine is the best way to prevent large-scale outbreaks in the human population. Parainfluenza virus 5 (PIV5), an avirulent paramyxovirus, is a promising vaccine vector. In this work, we generated a recombinant PIV5 expressing the HA gene of H7N9 (PIV5-H7) and tested its efficacy against infection with influenza virus A/Anhui/1/2013 (H7N9) in mice and guinea pigs. PIV5-H7 protected the mice against lethal H7N9 challenge. Interestingly, the protection did not require antibody since PIV5-H7 protected JhD mice that do not produce antibody against lethal H7N9 challenge. Furthermore, transfer of anti-H7 serum did not protect mice against H7N9 challenge. PIV5-H7 generated high HAI titers in guinea pigs, however it did not protect against H7N9 infection or transmission. Intriguingly, immunization of guinea pigs with PIV5-H7 and PIV5 expressing NP of influenza A virus H5N1 (PIV5-NP) conferred protection against H7N9 infection and transmission. Thus, we have obtained a H7N9 vaccine that protected both mice and guinea pigs against lethal H7N9 challenge and infection respectively.     

用电穿孔方法研究 H5N1 禽流感病毒DNA 疫苗对动物的免疫保护作用

为了研究 H5N1 DNA 疫苗对小鼠和鸡的保护效率,用 H5N1 禽流感病毒 HA DNA 疫苗免疫 BALB/c 小鼠和 SPF 鸡 . 小鼠和鸡分别经电穿孔和肌肉注射免疫两次,间隔为 3 周 . 二次免疫后,用致死量的同源病毒进行攻毒实验 . 空白对照组在攻毒后全部死亡,而经电穿孔免疫的小鼠和鸡均获得了完全的保护,并能有效地抑制病毒在小鼠肺脏和鸡泄殖腔的繁殖 . 同时,电穿孔免疫的小鼠和鸡均产生了高水平的特异性抗体 . 经电穿孔免疫的小鼠攻毒后 CTL 反应明显加强 . 这些结果表明, HA DNA 疫苗能有效地保护小鼠和鸡对禽流感病毒的感染,同时也表明电穿孔免疫是 DNA 疫苗免疫的有效途径之一 .     

禽流感H5N1亚型病毒对五个不同品系小鼠致病性的比较(英文)

目的比较了不同遗传背景小鼠对禽流感H5N1亚型病毒的致病敏感性,为H5N1禽流感模型制作和机理研究提供依据。方法近交系BALB/c、C57BL/6和封闭群ICR、NIHSwiss和KMSwiss共五个不同品系小鼠。每个品系实验动物30只,分接毒组20只,空白对照组10只,每组雌雄各半。病毒株为A/Goose/Guangdong/NH/2003(H5N1),经测定TCID50为10-4.875/mL。接毒组通过鼻腔接种0.1mL病毒液,对照组接种正常鸡胚尿囊液。小鼠接毒后连续观察14d,观察记录临床症状、体温、体重变化,对在实验期间死亡和实验14d结束后仍然存活的小鼠均进行组织器官病理取材,进行RT-PCR病毒分离检测、HE染色及H5N1抗原特异性免疫组化染色。结果①临床症状:H5N1禽流感病毒能感染五个品系的小鼠,引起呼吸急促等症状和一过性体重、体温下降。②死亡情况:小鼠在接毒后第1天即出现死亡,死亡的高峰期集中在接毒后第3～6天。五个品系小鼠死亡率存在差异,BALB/c为70%,ICR为50%,NIHSwiss为40%,C57BL/6为25%,KMSwiss为10%;③病毒分离:各组接毒小鼠在死亡后均进行了病毒分离,死亡小鼠的肺脏均分离到病毒,其他脏器未分离到病毒。④病理变化:实验期间五个品系死亡小鼠肺脏病理改变相近。大体观:死亡小鼠肺部淤血,呈暗红色,体积增大,局部肺组织实变。镜下观:死亡小鼠的共同病理改变为间质性肺炎,具体表现为肺泡腔及间质出血、炎性细胞浸润;间质增生,肺泡隔增宽;肺泡腔中见纤维素性渗出,透明膜形成。⑤免疫组化结果 :在死亡小鼠的气管上皮细胞和肺巨噬细胞可观察到H5N1禽流感病毒阳性表达。结论小鼠作为H5N1禽流感病毒模型具有普适性,不同品系小鼠感染鹅源H5N1禽流感病毒的临床症状、病程和病理变化与人禽流感病例相似。不同品系小鼠的死亡比例有明显差别,可以根据不同的实验目的 ,选择不同品系的小鼠制作H5N1禽流感动物模型。不同品系的遗传特性对禽流感易感性产生明显的影响,遗传背景可能与H5N1禽流感病毒感染应答机理存在联系:BALB/c和C57BL/6均为近交系,其中BALB/c小鼠的品系特征之一表现为干扰素产量低,接种H5N1病毒后表现为高死亡率(70%),而C57BL/6小鼠的干扰素产量高,接种H5N1病毒后表现为低死亡率(25%),提示不同遗传背景小鼠的干扰素水平与H5N1感染致死具相关性。为进一步研究H5N1禽流感病毒易感性相关基因以及其与宿主免疫反应的关系提供了一个研究基础。     

Proteomic analysis of the lungs of mice infected with different pathotypes of H5N1 avian influenza viruses

The virulence of influenza virus is determined by viral and host factors. Data on the genetic basis of the virulence of H5N1 influenza viruses have increased over the past decade; however, the contributions of host factors to the outcomes of H5N1 infection remain largely unknown. Here, we tested two chicken H5N1 viruses in mice and found that A/chicken/VN1214/2007 was nonlethal in mice and only replicated in the lung, whereas A/chicken/VN1180/2006 was highly lethal and replicated systemically in mice. To investigate the host response against these two different virus infections, we performed proteomic analysis by using 2D DIGE on the lung tissues of mice collected on days 1 and 3 postinoculation with different viruses or PBS as a control. Thirty-nine differentially expressed (DE) proteins related to "immune and stimulus response," "macromolecular biosynthesis and metabolism," and "cellular component and cytoskeleton" were identified in the virus-inoculated groups. Moreover, 13 DE proteins were identified between the two virus-inoculated groups, implying that these proteins may play important roles in the different outcomes of infection with these two viruses. Our data provide important information regarding the host response to mild and lethal H5N1 influenza virus infection.     

Mucosal delivery of inactivated influenza vaccine induces B-cell-dependent heterosubtypic cross-protection against lethal influenza A H5N1 virus infection

Influenza vaccines that induce greater cross-reactive or heterosubtypic immunity (Het-I) may overcome limitations in vaccine efficacy imposed by the antigenic variability of influenza A viruses. We have compared mucosal versus traditional parenteral administration of inactivated influenza vaccine for the ability to induce Het-I in BALB/c mice and evaluated a modified Escherichia coli heat-labile enterotoxin adjuvant, LT(R192G), for augmentation of Het-I. Mice that received three intranasal (i.n.) immunizations of H3N2 vaccine in the presence of LT(R192G) were completely protected against lethal challenge with a highly pathogenic human H5N1 virus and had nasal and lung viral titers that were at least 2,500-fold lower than those of control mice receiving LT(R192G) alone. In contrast, mice that received three vaccinations of H3N2 vaccine subcutaneously in the presence or absence of LT(R192G) or incomplete Freund's adjuvant were not protected against lethal challenge and had no significant reductions in tissue virus titers observed on day 5 post-H5N1 virus challenge. Mice that were i.n. administered H3N2 vaccine alone, without LT(R192G), displayed partial protection against heterosubtypic challenge. The immune mediators of Het-I were investigated. The functional role of B and CD8+ T cells in Het-I were evaluated by using gene-targeted B-cell (IgH-6(-/-))- or beta2-microglobulin (beta2m(-/-))-deficient mice, respectively. beta2m(-/-) but not IgH-6(-/-) vaccinated mice were protected by Het-I and survived a lethal infection with H5N1, suggesting that B cells, but not CD8+ T cells, were vital for protection of mice against heterosubtypic challenge. Nevertheless, CD8+ T cells contributed to viral clearance in the lungs and brain tissues of heterotypically immune mice. Mucosal but not parenteral vaccination induced subtype cross-reactive lung immunoglobulin G (IgG), IgA, and serum IgG anti-hemagglutinin antibodies, suggesting the presence of a common cross-reactive epitope in the hemagglutinins of H3 and H5. These results suggest a strategy of mucosal vaccination that stimulates cross-protection against multiple influenza virus subtypes, including viruses with pandemic potential.