新城疫分离株免疫保护试验

对经过鉴定的新城疫病毒穴NDV雪分离株,按国家兽医生物制品质量标准制备油乳剂灭活疫苗,在隔离器中接种SPF鸡,设标准LaSota疫苗株作对照,进行免疫保护实验。免疫后,每7d采血监测NDV抗体。免疫后3周,利用ND强毒分离毒和F48E9分别进行交叉攻毒实验,同时设SPF鸡对照。每天观察,及时剖检发病鸡,检察鸡群病变,以确定疫苗的保护性,以便对常规生产中的免疫失败进行原因分析。

SARS冠状病毒S蛋白研究进展

SARS冠状病毒是引起传染性非典型肺炎的病原体,它具有4种结构蛋白,其中S蛋白含有主要的中和抗原表位,并有受体结合和膜融合活性,与SARS冠状病毒的组织嗜性、细胞融合性和病毒毒力密切相关,是制备保护性疫苗的重要靶位。

肠出血性大肠杆菌O157∶H7 EspA与IntiminC300融合蛋白的构建表达

目的构建表达肠血性大肠杆菌(EHEC)O157∶H7Ⅲ型分泌蛋白EspA与紧密粘附素C-端免疫保护性片断(IntiminC300)的融合蛋白(EspA-IntiminC300)。方法采用PCR技术从EHEC O157∶H7基因组中扩增EspA的编码基因espA及IntiminC300的编码基因eaeC300,T-A克隆后依次构建至表达载体pET-28a(+),转化宿主细胞E.coliBL21(DE3),测序鉴定,IPTG诱导表达,SDS-PAGE检测其表达量及表达形式,亲和层析法纯化目的蛋白,免疫印迹分析免疫反应性。结果PCR法自EHEC O157∶H7基因组中分别扩增出了约580bp(espA)和900bp(eaeC300)的目的片段,将二者融合构建了重组质粒pET-28a(+)-espA-eaeC300,测序结果与理论预测值一致性为99.9%(1501/1502)。融合蛋白在工程菌中表达量约40%,PAGE初步测定目的蛋白的相对分子量(Mr)约54×103Da,破菌后电泳证实目的蛋白主要以包涵体形式表达,包涵体洗涤后纯化,获得目的蛋白纯度约90%。免疫印迹显示融合蛋白能分别与兔抗EspA和IntiminC300血清发生免疫反应。结论高效表达了融合蛋白(EspA-IntiminC300),此融合蛋白具有良好的免疫反应性和免疫原性,为研制EHECO157∶H7多亚单疫苗奠定了基础。

埃博拉病毒新型疗法有进展

近日,来自德克萨斯大学医学中心的研究人员通过研究表示,将三种单克隆抗体混合后制成的混合抗体可以在至少5天内有效保护猴子抵御埃博拉病毒感染。 研究者Thomas Geisbert表示,由于埃博拉病毒的多样性,因此开发候选疗法非常困难,保护机体抵御某一种埃博拉病毒的疗法或许并不会帮助抵御另外其他不同种埃博拉病毒的感染；尽管针对线状病毒感染需要新型疗法，但是最有效控制病毒感染暴发的途径还是开发新型疫苗，注射保护性疫苗可以保护机体免于多种埃博拉病毒（丝状病毒）的感染。

特别提醒 家有幼儿备战手足口病

手足口病是由多种肠道病毒感染引起的一种急性传染性疾病，全年均可发病，但以每年的5～9月夏秋季节高发。到目前为止，尚无手足口病的保护性疫苗和特效治疗手段，孩子一次患病，无法获得终生免疫，

Immunogenicity and protective efficacy of Vibrio harveyi pcFlaA DNA vaccine in Epinephelus awoara

The FlaA gene from Vibrio harveyi marker, was cloned into the eukaryotic expression with a short nucleotide sequence encoding the Flag vector pcDNA3.1（＋） （designated as pcFlaA）. Ninety grouper （Epinephelus awoara） were separated into three equal size groups. An experimental group was immunized with pcFlaA, Control I group was immunized with the vector pcDNA3.1（＋）, and Control 1I group was immunized with PBS. The expression of pcFlaA mRNA and protein was examined using reverse transcription-polymerase chain reaction （RT-PCR） and immunohistochemistry. We also evaluated the immunogenicity and protective efficacy of pcFlaA against V. harveyi by measuring the lymphocyte proliferation response and serum levels of specific antibody and conducting a bacterial challenge test. We successfully transfected the fish muscle with pcFlaA. The pcFlaA mRNA and protein was expressed in the muscle cells for up to one month following injection. The proliferation response of lymphocytes in fish immunized with pcFlaA was significantly higher than in control group II. Furthermore, the immunized fish generated specific antibody. The vaccination also resulted in significantly higher survival during the bacterial challenge test.

非洲猪瘟疫苗研究进展

非洲猪瘟(African swine fever,ASF)是由非洲猪瘟病毒(African swine fever virus,ASFV)引起的以钝缘蜱为传播媒介的急性、热性、高度接触性传染病,可感染各品种和各年龄段的家猪及野猪,死亡率可达100%。2018年8月3日中国发生首例非洲猪瘟疫情。由于非洲猪瘟病毒基因组十分庞大,免疫逃逸机制十分复杂,以及现阶段对非洲猪瘟病毒保护性免疫知之甚少,导致迄今为止仍无有效疫苗问世。近年来,随着现代生物学的发展,非洲猪瘟疫苗研发取得了较大的进展,本文对现有的非洲猪瘟疫苗研究进展进行综述,以期为中国非洲猪瘟疫苗的研发提供参考。

细胞介导通用流感疫苗的研发

挪威Bionor制药公司的研究人员正在开发一种通用流感疫苗。研究表明，该疫苗靶定流感病毒的保守抗原表位，可同时诱导针对新出现的流感毒株和经抗原漂移重新出现的毒株的持久保护。这种交叉保护性疫苗可以降低季节性流感疫苗重配及每年接种的需要。

Achievements, challenges and prospects for the development of broadly protective multivalent vaccines and therapeutic antibodies against hand, foot and mouth disease

Hand, foot and mouth disease(HFMD) is a significant health concern in the Asia–Pacific regions for infants and young children in recent years. However, no vaccines or therapeutics are available at present. The causative agents for HFMD include human enterovirus 71(EV71), coxsackievirus A16(CVA16) and some other viruses. Recently, tremendous progress has been made in the development of monovalent and bivalent vaccines against HFMD. A few neutralizing monoclonal antibodies against EV71 or CVA16 have been identified and characterized. Here, we reviewed some achievements for the development of broadly protective vaccines and neutralizing antibodies against HFMD, and discussed challenges and prospects toward broadly protective multivalent vaccines and therapeutic antibodies against HFMD.