禽流感病毒新型疫苗的研究进展

疫苗免疫是禽流感防控的主要措施之一,随着生物技术的不断发展,基因工程亚单位疫苗、活载体疫苗、DNA疫苗等新型疫苗得以研究和开发,这为禽流感的防控提供了新的手段。新型疫苗除具有传统疫苗的保护效果外,在生物安全和普遍防控等方面也具有广泛的优势,是禽流感疫苗发展的新方向。     

我国禽流感病毒防控研究态势及热点分析——基于OIE禽流感参考实验室影响力视角

为了探究我国在禽流感防控研究方面的现状和趋势,挖掘研究热点,基于Web of Science数据库和incoPat数据库,从文献计量视角通过3个分析维度(影响分析、主题分析、知识扩散分析)对我国禽流感病毒防控研究态势及热点进行分析。选取1个国内OIE禽流感参考实验室以及3个与OIE禽流感参考实验室中类似规模、相似学科的国际顶尖科研团队作为对标团队,通过定标比超分析揭示我国禽流感防控研究态势及热点。结果表明:(1)在影响分析维度,我国的禽流感防控研究整体上已列入国际前列,相关高水平研究内容具备一定领域前沿性。我国高被引论文数量较多,在论文增长率上有优势;专利被引频次表现优异,但专利强度表现不足;(2)在主题分析维度,我国主要研究与研发热点涉及"诊"和"防"两类。研究内容主要围绕结合基因编辑技术、分子流行病学等研究禽流感病毒性状、传播发病机制等研究内容;研发内容主要围绕动物流感制剂制作、疫苗株研发制备、蛋白芯片制备检测等技术有研发;(3)在知识扩散分析维度,我国在禽流感流行病学及传播机制方面的研究对H5和H7相关病原学等有一定引领性。在疫苗研制方面,我国的H7亚型疫苗相关研究有一定引领性。     

等温核酸扩增技术在病原体检测中的应用

近年来,新型传染病相继爆发,如严重急性呼吸综合征(severe acute respiratory syndrome,SARS)、H7N9禽流感等,严重威胁着人类健康和社会、经济的可持续发展,同时给传染病的防控带来了严峻挑战。病原体检测是传染病防控的重要环节,越来越多的新技术被应用其中。等温核酸扩增技术作为一种快速、灵敏度高的病原体检测技术,已取得了长足发展。对等温核酸扩增技术的原理、重要特性及其在病原体检测中的应用进展进行了较为全面的综述,以期为这一技术的推广和应用提供重要参考。     

我国小鹅瘟研究进展及成就

小鹅瘟是导致雏鹅死亡的常见疾病之一,可造成巨大经济损失,严重危害养鹅业的发展。为了科学认识和积极防控小鹅瘟,我国同行进行了长期不懈的研究,取得了一系列原创性成果。在全世界率先发现并鉴定了小鹅瘟病毒,并对其变异特点进行了遗传进化分析,基本调研清楚了小鹅瘟在我国的发生区域和流行规律。在传统检测技术的基础上,引入免疫学技术和分子生物学技术,建立了一系列快速检测新方法;研制成功高免血清、种鹅用弱毒疫苗、雏鹅用弱毒疫苗和细胞适应弱毒株培育的新型疫苗,使我国小鹅瘟得到了有效的控制。这些成果和进展为我国小鹅瘟的研究与防治奠定了基础。     

农作物有害生物防控:成就与展望

我国农作物有害生物具有种类多、危害重、发生规律复杂、防控难度大等特点,相关理论和技术创新、防控体系构建与应用是保障农业安全生产的迫切需求.新中国成立70年来,我国植物保护领域取得了一系列的科技成就,农作物有害生物防控从单一的人为干预起步,经历化学农药防治为主,再到绿色防控综合治理的发展阶段,其中较为突出的成就包括:掌握了农作物重大病虫流行灾变规律;揭示了重要农业有害生物的致害机理;研发了一批防控产品;建立了作物病虫害监测预警及防控技术体系.随着产业变革与科技进步,我国植保科技领域将迎来新的挑战和发展机遇.未来的植保理论和技术研究应围绕下列3方面展开:新型生产模式及气候变化下的有害生物发生规律,全球化趋势下的有害生物检测预警技术,绿色可持续的有害生物综合治理新模式.建立现代植保技术体系将保障我国的粮食安全、环境安全和农业可持续发展.     

对虾白斑综合征及其免疫防控

对虾是海水养殖的主导品种之一,在我国海洋农业中发挥重要作用。自20世纪90年代以来,白斑综合征频繁暴发,严重阻碍了对虾养殖业的健康发展。经过十几年的不懈努力,对虾白斑综合征暴发机制及其免疫防控研究发展迅速,取得了重要进展。简述了对虾白斑综合征和对虾抗病毒免疫的基本特征,总结了运用多种免疫学原理和技术途径在对虾中进行白斑综合征疫病防控所取得的主要成果,并概括了应用不同策略进行免疫防控的保护效果,以期为对虾养殖业的健康持续发展提供参考。     

禽流感病毒快速检测方法研究进展

禽流感病毒是人类致病性病毒,其变异性强、传播速度快、病亡率高,严重威胁了人民健康和国民经济。目前全球对禽流感疫情防控的前提和关键是早发现、早隔离、早诊断、早控制。因此研发敏感、快速、特异、能进行高通量样品检测的禽流感病毒检测技术,使人类能在更短时间内监测、检测禽流感病毒的病原感染情况,对禽流感的防控具有重要意义。本文对禽流感病毒快速检测技术研究进展进行简要介绍。     

苹果蠹蛾的综合防控和遗传控制研究进展

苹果蠹蛾是仁果类水果的重要检疫害虫,在世界各地造成了巨大的经济损失。目前对其化学防治、化学生态调控、病毒等防治方法研究较多,但仍不能满足防控该害虫的需要,对新型防控技术的需求日益增强。不育昆虫释放技术(SIT)是一种可控制甚至根除靶标害虫的环境友好型防控技术,但传统SIT技术存在一定的局限性,如较难区分性别与筛选雌雄虫、辐射不育昆虫的交配竞争力和适合度降低等问题,这些缺陷随着昆虫遗传修饰技术的发展将得以解决,并将在害虫防控进程中起到积极作用。本文综述了苹果蠹蛾主要防控技术研究现状,介绍了通过遗传修饰技术改善SIT的技术策略,并综合分析了我国开展苹果蠹蛾遗传修饰研究情况和将其应用在苹果蠹蛾防控体系中的可行性及优势。     

我国“十三五”时期重要外来物种入侵防控科技进展与展望

随着经济全球化快速发展,外来物种入侵危害日益严重。“十三五”时期,我国针对当前面临的重大外来物种入侵威胁,按照基础前沿、共性关键技术与重大产品研发、典型应用示范研究3个层面,部署了一系列科技项目,取得了一批重大科研成果:阐明了入侵物种的入侵机理和进化机制,以及入侵植物与脆弱生态系统互作的调控机制;建立了潜在农业入侵生物信息分析平台,新发外来入侵物种的风险预测与评估模型,重大外来入侵物种的快速检测识别与监测预警技术,以及综合防控技术体系;围绕豚草、空心莲子草、苹果蠹蛾、番茄潜叶蛾、甜菜孢囊线虫等危害特点,开展全程防控技术应用示范。“十三五”期间,基本实现了潜在入侵物种数据量持续丰富完善,新发/突发入侵物种应急防控技术产品有效储备能力增强,重大入侵物种综合防控技术体系逐步健全的良好格局。面向“十四五”,建议继续支持外来物种入侵防控研究,推动“关口前移、疆域监控、灭除阻截、联控减灾”等核心技术的研发,实现有效防控生物入侵的重大目标。     

我国外来入侵生物防控科技进展

随着全球经济一体化的发展,外来入侵生物的危害日益加重。我国针对当前各类重大外来生物的入侵,按照基础研究、共性关键技术与重大产品研发、典型应用示范3个层面,部署了一系列项目,并取得了一定成果:揭示了入侵生物的入侵特性和入侵机理,以及入侵植物与脆弱生态系统的相互作用机制;研发了重大新发农业入侵物种风险评估及防控技术,建立了生物威胁数据库和生物入侵突发事件可视化智能决策支持平台,以及重大入侵动植物的治理模式和技术体系;建立了主要入侵生物标本资源库。今后应以跨境动植物有害生物为主要目标,开展入侵扩散与成灾机制、早期预防预警、快速检测监测、识别追踪溯源、点面拦截狙击、区域防灾减灾等技术研究。     

禽流感治疗药物研究进展

禽流感是由正黏液病毒科甲型流感病毒引起的对人类健康和社会发展构成极大威胁的烈性传染病,高致病性禽流感暴发突然,具有极高的发病率和死亡率。目前具有确切疗效的抗禽流感治疗药物品种很少,公认的药物只有奥塞米韦,此外流感病毒的抗药性也是一个重要的问题,近年来出现的甲型H1N1病毒更给人类敲响了警钟,因此研究更多的治疗药物和治疗手段对于禽流感的防控十分必要。从禽流感治疗化学药物和生物药物几个方面对禽流感治疗研究进展进行了综述。     

禽流感:一种人畜共患病

禽流感 (AvianInfluenza ,AI)是严重危害畜牧业与人类健康的一种传染性疾病。多年来在世界上许多国家和地区都发生过此病 ,危害严重 ,经济损失巨大。禽流感病毒可感染多种动物 ,包括人、猪、马、鲸、海豹和雪貂。禽流感病毒经变异或基因重组 ,已具备感染人的能力 ,有可能成为人类新型流感流行的潜在病原。本文对与禽流感病毒相关的流感疫情进行历史性的回顾 ,并对其人畜共患机制做了初步探讨     

禽流感及其免疫防制研究

禽流感一直是严重危害世界各国养禽业发展的头号大敌,近期又成为继严重急性呼吸道综合症(SARS)后又一严重威胁人类生命安全的重要疾病,由于禽流感病毒抗原及其致病力的易变性,这就要求未来的防制策略要采取快速检测,并用先进的分子生物学技术进行病毒鉴定、检疫及免疫保护等措施,建立全国性甚至全球性禽流感检测防制网络,并且搞清禽流感与人类流感的关系,从而保证人和动物的安全.     

Emergence of avian H1N1 influenza viruses in pigs in China.

Avian influenza A viruses from Asia are recognized as the source of genes that reassorted with human viral genes to generate the Asian/57 (H2N2) and Hong Kong/68 (H3N2) pandemic strains earlier in this century. Here we report the genetic analysis of avian influenza A H1N1 viruses recently isolated from pigs in southern China, a host suspected to generate new pandemic strains through gene reassortment events. Each of the eight gene segments was of avian origin. Phylogenetic analysis indicates that these genes form an Asian sublineage of the Eurasian avian lineage, suggesting that these viruses are an independent introduction into pigs in Asia. The presence of avian influenza viruses in pigs in China places them in an optimal position for transmission to humans and may serve as an early warning of the emergence of the next human influenza virus pandemic.     

A Qualitative Stakeholder Analysis of Avian Influenza Policy in Bangladesh

Avian influenza is a major animal and public health concern in Bangladesh. A decade after development and implementation of the first national avian influenza and human pandemic influenza preparedness and response plan in Bangladesh, a two-stage qualitative stakeholder analysis was performed in relation to the policy development process and the actual policy. This study specifically aimed to identify the future policy options to prevent and control avian influenza and other poultry-related zoonotic diseases in Bangladesh. It was recommended that the policy should be based on the One Health concept, be evidence-based, sustainable, reviewed and updated as necessary. The future policy environment that is suitable for developing and implementing these policies should take into account the following points: the need to formally engage multiple sectors, the need for clear and acceptable leadership, roles and responsibilities and the need for a common pool of resources and provision for transferring resources. Most of these recommendations are directed towards the Government of Bangladesh. However, other sectors, including research and poultry production stakeholders, also have a major role to play to inform policy making and actively participate in the multi-sectoral approach.     

Cells in the respiratory and intestinal tracts of chickens have different proportions of both human and avian influenza virus receptors

Avian influenza viruses play a crucial role in the creation of human pandemic viruses. In this study, we have demonstrated that both human and avian influenza receptors exist in cells in the respiratory and intestinal tracts of chickens. We have also determined that primarily cultured chicken lung cells can support the replication of both avian and human influenza viruses.     

Role of receptor binding specificity in influenza A virus transmission and pathogenesis

The recent emergence of a novel avian A/H7N9 influenza virus in poultry and humans in China, as well as laboratory studies on adaptation and transmission of avian A/H5N1 influenza viruses, has shed new light on influenza virus adaptation to mammals. One of the biological traits required for animal influenza viruses to cross the species barrier that received considerable attention in animal model studies, in vitro assays, and structural analyses is receptor binding specificity. Sialylated glycans present on the apical surface of host cells can function as receptors for the influenza virus hemagglutinin (HA) protein. Avian and human influenza viruses typically have a different sialic acid (SA)‐binding preference and only few amino acid changes in the HA protein can cause a switch from avian to human receptor specificity. Recent experiments using glycan arrays, virus histochemistry, animal models, and structural analyses of HA have added a wealth of knowledge on receptor binding specificity. Here, we review recent data on the interaction between influenza virus HA and SA receptors of the host, and the impact on virus host range, pathogenesis, and transmission. Remaining challenges and future research priorities are also discussed.     

禽流感疫苗研究进展

禽流感是由正黏病毒科流感病毒属的A型流感病毒引起的 ,发生于各种家禽和野鸟的一种急性传染病。由于其重要的经济和公共卫生学意义 ,使得禽流感的防治显得突出重要。疫苗的使用是控制禽流感的主要手段。目前实际应用中仍以禽流感全病毒灭活疫苗为主 ,但由于其潜在的缺点使得人们将目光转向其它类型疫苗的研制。从常规疫苗、新型疫苗和交叉保护性疫苗三个方面对禽流感疫苗研究进展加以阐述。常规疫苗包括基因工程亚单位疫苗和重组活载体疫苗 :新型疫苗主要有冷适应流感弱毒疫苗 ,基因工程活流感病毒疫苗 ,复制缺陷型病毒疫苗 ,DNA疫苗 ,RNA复制子疫苗 ,表位疫苗等 :交叉保护性疫苗主要依据流感病毒表面的保守蛋白M和NP的特性 ,构建疫苗来达到交叉保护的目的。     

Chimeric Newcastle Disease Virus-like Particles Containing DC-Binding Peptide-Fused Haemagglutinin Protect Chickens from Virulent Newcastle Disease Virus and H9N2 Avian Influenza Virus Challenge

Newcastle disease virus(NDV) and H9N2 subtype Avian influenza virus(AIV) are two notorious avian respiratory pathogens that cause great losses in the poultry industry. Current inactivated commercial vaccines against NDV and AIV have the disadvantages of inadequate mucosal responses, while an attenuated live vaccine bears the risk of mutation.Dendritic cell(DC) targeting strategies are attractive for their potent mucosal and adaptive immune-stimulating ability against respiratory pathogens. In this study, DC-binding peptide(DCpep)-decorated chimeric virus-like particles(cVLPs),containing NDV haemagglutinin–neuraminidase(HN) and AIV haemagglutinin(HA), were developed as a DC-targeting mucosal vaccine candidate. DCpep-decorated cVLPs activated DCs in vitro, and induced potent immune stimulation in chickens, with enhanced secretory immunoglobulin A(sIgA) secretion and splenic T cell differentiation. 40 μg cVLPs can provide full protection against the challenge with homologous, heterologous NDV strains, and AIV H9N2. In addition,DCpep-decorated cVLPs could induce a better immune response when administered intranasally than intramuscularly, as indicated by robust s IgA secretion and a reduced virus shedding period. Taken together, this chimericVLPs are a promising vaccine candidate to control NDV and AIV H9N2 and a useful platform bearing multivalent antigens.     

Large-Scale Avian Influenza Surveillance in Wild Birds throughout the United States

Avian influenza is a viral disease that primarily infects wild and domestic birds, but it also can be transmitted to a variety of mammals. In 2006, the United States of America Departments of Agriculture and Interior designed a large-scale, interagency surveillance effort that sought to determine if highly pathogenic avian influenza viruses were present in wild bird populations within the United States of America. This program, combined with the Canadian and Mexican surveillance programs, represented the largest, coordinated wildlife disease surveillance program ever implemented. Here we analyze data from 197,885 samples that were collected from over 200 wild bird species. While the initial motivation for surveillance focused on highly pathogenic avian influenza, the scale of the data provided unprecedented information on the ecology of avian influenza viruses in the United States, avian influenza virus host associations, and avian influenza prevalence in wild birds over time. Ultimately, significant advances in our knowledge of avian influenza will depend on both large-scale surveillance efforts and on focused research studies.