呼吸道合胞病毒G蛋白基因片段的克隆及高效表达

呼吸道合胞病毒(RSV)感染遍布全球,并可导致严重的疾病,但目前尚无成功的疫苗问世.为寻求可能用于RSV疫苗研制的重组蛋白抗原,我们在克隆RSV-A全长G蛋白基因的基础上,构建了多种共表达载体蛋白和G蛋白片段的表达载体,并从中筛选出能以可溶形式高效表达抗原蛋白的原核表达体系.通过亲和层析纯化了重组蛋白抗原DsbA-G101,将其免疫Balb/c小鼠后获得了相应的抗血清.经ELISA检测表明DsbA-G101具有良好的免疫原性.基于本研究所构建的系列表达载体,可以比较不同的G蛋白片段免疫原性的强弱及载体蛋白的优劣,从中发现最佳的RSV抗原蛋白.     

免疫A型呼吸道合胞病毒G75-225蛋白的小鼠对病毒感染的抗性

目的:评价A型呼吸道合胞病毒(RSV)G75-225蛋白(G151)与二硫键异构酶(DsbA)的重组蛋白抗原DsbA-G151的免疫活性。方法:采用PCR方法从A型RSVG蛋白扩增G151基因片段,插入表达载体pET-DsbA,经E.coli表达、亲和层析纯化制备DsbA-G151蛋白;将其免疫BALB/c小鼠后获得相应的抗血清,利用ELISA方法、保护性实验检测蛋白免疫活性。结果:构建了表达载体pET-DsbA-G151,表达、纯化获得了重组蛋白DsbA-G151。ELISA检测表明,DsbA-G151能在小鼠体内产生高滴度的特异性IgG;保护性实验显示该蛋白能有效保护BALB/c小鼠不被RSV感染。结论:经ELISA检测、保护性实验,表明DsbA-G151具有良好的免疫原性。     

轮状病毒VP4抗原表位在VP6载体蛋白同一位点表达比较研究

目的:评价轮状病毒(RV)VP4两个抗原表位插入VP6载体蛋白同一位点所表达的重组嵌合蛋白免疫学性质及在研制嵌合蛋白疫苗中的意义。方法:采用分子克隆和基因重组技术将RV VP4的两个抗原表位插入到VP6载体蛋白同一位点上,构建重组抗原表达质粒,表达携带不同抗原表位的重组嵌合蛋白,用Western blot和中和试验分析重组嵌合蛋白的抗原反应性和免疫原性。结果:成功构建了两个嵌合蛋白表达质粒,并在大肠杆菌中高效表达;表达的嵌合蛋白可与相应抗体特异性反应;可诱导豚鼠产生特异性血清抗体;抗嵌合蛋白血清抗体可特异性识别载体蛋白VP6F,Wa株病毒的VP6和VP4蛋白,可中和Wa株病毒在MA104细胞上的感染性;结果表明,所构建和表达的两个以VP6为载体的VP4抗原表位嵌合蛋白具有较高抗原反应性和免疫原性;嵌合蛋白携带的VP4抗原表位具有增强载体蛋白免疫原性作用;为研制新型RV重组蛋白疫苗的奠定了较好的基础。     

表达尼帕病毒G囊膜糖蛋白重组牛痘病毒的研究

采用牛痘病毒WR株,构建了表达哺乳动物密码子优化的NiV G蛋白基因的重组病毒rWR-NiV-G。Westernblot证实大小为66kDa的重组G蛋白在rWR-NiV-G感染的Hela细胞中获得表达;采用兔抗NiV高免血清间接免疫荧光检测重组痘病毒表达G蛋白显示出良好的特异免疫反应原性。rWR-NiV-G感染NiV敏感的BHK细胞系,并与NiV融合蛋白F共同表达,可形成强烈细胞融合现象。rWR-NiV-G感染免疫BALB/c小鼠,可诱导显著的NiV G蛋白特异体液免疫反应。以原核表达NiV G蛋白片段为包被抗原,间接ELISA检测rWR-NiV-G感染免疫小鼠血清中的G蛋白特异抗体,具有良好的敏感性和特异性。同时,rWR-NiV-G感染免疫小鼠血清中的G蛋白特异抗体可有效中和NiV囊膜蛋白F和G介导的伪型VSV重组病毒侵入NiV易感宿主细胞的感染性。结果表明,重组牛痘病毒表达的NiV G蛋白有良好的免疫原性和生物学活性功能,为进一步深入研究NiV G蛋白生物学功能、免疫原性及重组活载体疫苗研究奠定了重要基础。     

冠状病毒HcoV-229E S1蛋白的原核表达及鉴定

目的克隆表达冠状病毒HcoV-229E S1基因片段,表达S1蛋白。方法合成冠状病毒HcoV-229ES1蛋白特异性基因片段并克隆入pET21a原核表达载体,转化BL21（DE3）菌,经IPTG高效诱导表达得到重组蛋白,用金属螯合亲和层析纯化,并通过Western blot对表达的重组蛋白进行鉴定。结果获得了主要以包涵体形式存在的目的蛋白,Western blot鉴定其为S1基因片段蛋白。结论成功构建了HcoV-229E S1蛋白的表达载体,并在BL21（DE3）中得到了高效表达,为下一步表达蛋白免疫原性及疫苗抗病毒保护性测定打下了基础。     

乙脑E蛋白主要抗原片段与hsp70肽连接区融合酵母表达载体的构建

构建乙型脑炎E蛋白主要抗原片段与结核杆菌热休克蛋白70（Mycobacterium tuberculosis heat shock protein70,Mt．hsp70）的肽连接区（Binding domain）基因融合表达载体,利用酵母表达系统,为下一步研究肽连接区是否能增强乙型脑炎E蛋白主要抗原片段的免疫原性作准备。以酵母表达载体pPICZα-A为基本单位构建,以酶切位点BamHI连接这2个基因,用电穿孔法转化酵母X-33,Zeocin平板筛选重组子,经甲醇诱导表达后,SDS—PAGE和免疫印迹分析表达产物。E蛋白主要抗原片段与hsp70肽连接区的融合表达载体构建成功,SDS—PAGE显示,其相对分子质量为68kDa,与实际大小相符且为分泌表达,表达量约为97mg／L,经Western印迹验证,抗原性较好。将用同样的酵母表达载体表达的乙脑E蛋白主要抗原片段（另文发表）与上述融合蛋白均以50pmol的量分别对6～8周龄的BALB／c小鼠进行腹膜内注射,3周后进行第二次免疫,从淋巴细胞的增殖和抗体滴度两个方面进行比较,最后得出E—BD融合蛋白在免疫效果方面比乙脑E蛋白主要抗原片段效果要好,在试验中肽连接区可以增强乙型脑炎E蛋白主要抗原片段的免疫原性。     

呼吸道合胞病毒重组蛋白候选疫苗的质粒构建、表达及免疫原性和保护性研究

PCR扩增呼吸道合胞病毒（respiratory syncytial virus,RSV）M2 蛋白的CD8＋T细胞表位F/M2:81-95和RSV-G蛋白的B细胞表位片段G:125～225（简称G1）,以一个Linker连接,插入质粒pET-DsbA中构建原核表达重组质粒, 转染E.coli BL21(DE3)后成功表达了融合蛋白DsbA-G1-Linker-F/M2:81-95（简称D-G1LF/M2）,Western-blot结果表明该融合蛋白是RSV特异性的,采用Ni+螯合亲和层析法纯化变性的包涵体溶液,经梯度透析法复性,用该蛋白免疫BALB/c小鼠,结果表明被免疫小鼠肺部及血清中产生了高滴度的抗D-G1LF/M2及抗RSV IgG抗体和中和抗体,同时还诱导产生了RSV特异性的CTL应答;IgG的亚型IgG1/IgG2a的比值为2.66;用RSV攻击免疫后的小鼠,病毒滴定法检测肺部RSV滴度,结果表明D-G1LF/M2对小鼠肺部具有保护作用。     

单纯疱疹病毒I型糖蛋白D胞外区的真核表达及生物学活性分析

单纯疱疹病毒 (Herpes simplex virus,HSV) 包膜糖蛋白D (glycoprotein D,gD) 是HSV的结构蛋白之一,具有重要抗原表位,是目前疫苗研究的热点。为了分离纯化HSV gD1糖蛋白胞外区片段并对其生物学活性进行分析,本研究将化学合成的gD1胞外区基因片段克隆至真核表达载体pCEP4,重组质粒转染HEK293细胞进行瞬时表达,产物经Western blotting检测后用亲和层析法进行分离纯化,ELISA检测其抗原性。以纯化的重组蛋白作为抗原免疫小鼠,ELISA测血清特异性抗体效价以评价其免疫原性。构建的重组质粒经测序显示基因序列完全正确。表达产物的Western blotting分析发现,在相对分子量约46 kDa处有外源蛋白表达,与预期蛋白带一致。用Ni柱得到了纯化的重组gD1蛋白,ELISA检测显示其具有良好的抗原性,免疫小鼠7周后血清中抗体效价达到5×103。重组gD1蛋白的抗原性及免疫原性分析为HSV检测试剂和基因重组亚单位疫苗的研制提供了实验依据。     

APOBEC3G蛋白的原核表达及纯化

目的：原核表达重组APOBEC3G蛋白,为其功能及免疫原性研究奠定基础。方法：提取H9细胞全细胞基因组RNA,通过RT-PCR获得目的基因,经纯化、酶切后克隆到原核表达载体pET32a中,转化大肠杆菌BL21（DE3）菌株获得表达工程菌株,并对表达条件和纯化条件进行优化;利用Western Blot分析鉴定目的蛋白。结果：构建了APOBEC3G蛋白的原核表达载体Apo-His-pET32a,并在大肠杆菌中获得高表达,目的蛋白以可溶性蛋白形式存在;经Ni-NTA亲和层析柱一步纯化,获得了高纯度的重组APOBEC3G蛋白,蛋白浓度可达1．2mg／mL;Westem Blot显示获得了目的蛋白。结论：在原核表达系统中表达、纯化了可溶性APOBEC3G蛋白,为进一步对其进行免疫原性和功能研究奠定了基础。     

嗜水气单胞菌BYKAH2008AC株外膜蛋白和溶血素双基因的融合表达及免疫原性分析

嗜水气单胞菌(Aeromonas hydrophila)的外膜蛋白基因(OmpTS)和溶血素基因(Hly)是其重要的保护性抗原。根据Genbank已发表的两个基因的序列设计引物,扩增其去除信号肽部分的基因片段,再将二者通过柔性片段融合,定向插入到质粒pET32a中构建重组融合表达载体,并转化到大肠杆菌BL21(DE3),经IPTG诱导获得与预期大小108 kD相吻合的融合蛋白条带。用纯化的重组蛋白免疫新西兰大白兔制备兔抗血清。ELISA和Western Blot检测该抗体效价为1∶4000以上,且该重组蛋白与抗OmpTS兔血清和抗Hly兔血清都呈阳性反应,表明该融合蛋白保留了外膜蛋白和溶血素的免疫原性,可作为基因工程亚单位疫苗的候选成分。     

Expression in Plants of a Recombinant Protein Based on Flagellin Linked to Conservative Fragments of M2 Protein and Hemagglutintin of Influenza Virus

The composition of traditional influenza vaccines require nearly annual updates due to the high variability of the influenza virus. The use of conservative viral antigens, the extracellular domain of the transmembrane protein M2, and fragments of the second subunit of hemagglutinin provides the opportunity to create recombinant broad-spectrum vaccines. Bacterial flagellin was used as a mucosal adjuvant to increase the immunogenicity of these conservative antigens. Recombinant proteins based on flagellin simultaneously containing M2e and a fragment of the hemagglutinin stem region were expressed in Nicotiana benthamiana plants using a self-replicating vector based on the potato virus X genome. Methods for their isolation from plants and purification have been developed. The developed expression system can be used to produce a new candidate influenza vaccine in plants.     

基于热休克蛋白65的抗动脉粥样硬化蛋白疫苗的免疫效果

选取了HSP65上对自身免疫性炎症疾病有防治作用的两段功能表位P1(179-190)、P2(31-46),分别以HSP65和CTB为载体蛋白构建高效表达载体pET28a-HSP65-P1P2P1与pET28a-CTB-P1P2P1,以硫酸铵分级沉淀和包涵体洗涤、经DEAE阴离子交换柱层析分离纯化得到HSP65-P1P2P1与CTB-P1P2P1融合蛋白,并用戊二醛一步偶联法将两者偶联形成HpCp复合物。以小剂量滴鼻粘膜免疫高胆固醇膳食诱发产生动脉粥样硬化的新西兰大白兔,结果显示两组融合蛋白均表现出一定的减斑功效,与PBS对照组相比较,主动脉病斑面积分别减少了34.9%和27.9%,为进一步开发能用于临床的抗AS疫苗提供了良好的设计思路,可经进一步优化设计提高其免疫原性,研发为抗动脉粥样硬化疫苗。     

The respiratory syncytial virus G protein conserved domain induces a persistent and protective antibody response in rodents

Respiratory syncytial virus (RSV) is an important cause of severe upper and lower respiratory disease in infants and in the elderly. There are 2 main RSV subtypes A and B. A recombinant vaccine was designed based on the central domain of the RSV-A attachment G protein which we had previously named G2Na (aa130-230). Here we evaluated immunogenicity, persistence of antibody (Ab) response and protective efficacy induced in rodents by: (i) G2Na fused to DT (Diphtheria toxin) fragments in cotton rats. DT fusion did not potentiate neutralizing Ab responses against RSV-A or cross-reactivity to RSV-B. (ii) G2Nb (aa130-230 of the RSV-B G protein) either fused to, or admixed with G2Na. G2Nb did not induce RSV-B-reactive Ab responses. (iii) G2Na at low doses. Two injections of 3 μg G2Na in Alum were sufficient to induce protective immune responses in mouse lungs, preventing RSV-A and greatly reducing RSV-B infections. In cotton rats, G2Na-induced RSV-reactive Ab and protective immunity against RSV-A challenge that persisted for at least 24 weeks. (iv) injecting RSV primed mice with a single dose of G2Na/Alum or G2Na/PLGA [poly(D,L-lactide-co-glycolide]. Despite the presence of pre-existing RSV-specific Abs, these formulations effectively boosted anti-RSV Ab titres and increased Ab titres persisted for at least 21 weeks. Affinity maturation of these Abs increased from day 28 to day 148. These data indicate that G2Na has potential as a component of an RSV vaccine formulation.     

Replacement of the F and G proteins of respiratory syncytial virus (RSV) subgroup A with those of subgroup B generates chimeric live attenuated RSV subgroup B vaccine candidates

Human respiratory syncytial virus (RSV) exists as two antigenic subgroups, A and B, both of which should be represented in a vaccine. The F and G glycoproteins are the major neutralization and protective antigens, and the G protein in particular is highly divergent between the subgroups. The existing system for reverse genetics is based on the A2 strain of RSV subgroup A, and most efforts to develop a live attenuated RSV vaccine have focused on strain A2 or other subgroup A viruses. In the present study, the development of a live attenuated subgroup B component was expedited by the replacement of the F and G glycoproteins of recombinant A2 virus with their counterparts from the RSV subgroup B strain B1. This gene replacement was initially done for wild-type (wt) recombinant A2 virus to create a wt AB chimeric virus and then for a series of A2 derivatives which contain various combinations of A2-derived attenuating mutations located in genes other than F and G. The wt AB virus replicated in cell culture with an efficiency which was comparable to that of the wt A2 and B1 parents. AB viruses containing temperature-sensitive mutations in the A2 background exhibited levels of temperature sensitivity in vitro which were similar to those of A2 viruses bearing the same mutations. In chimpanzees, the replication of the wt AB chimera was intermediate between that of the A2 and B1 wt viruses and was accompanied by moderate rhinorrhea, as previously seen in this species. An AB chimeric virus, rABcp248/404/1030, which was constructed to contain a mixture of attenuating mutations derived from two different biologically attenuated A2 viruses, was highly attenuated in both the upper and lower respiratory tracts of chimpanzees. This attenuated AB chimeric virus was immunogenic and conferred a high level of resistance on chimpanzees to challenge with wt AB virus. The rABcp248/404/1030 chimeric virus is a promising vaccine candidate for RSV subgroup B and will be evaluated next in humans. Furthermore, these results suggest that additional attenuating mutations derived from strain A2 can be inserted into the A2 background of the recombinant chimeric AB virus as necessary to modify the attenuation phenotype in a reasonably predictable manner to achieve an optimal balance between attenuation and immunogenicity in a virus bearing the subgroup B antigenic determinants.     

人IA-2基因的部分区段克隆表达及其在1型糖尿病诊断中的应用价值评估

目的:构建人IA-2基因不同区段原核表达载体,诱导表达获得重组蛋白,并初步验证其在1型糖尿病蛋白酪氨酸磷酸酶自身抗体检测中的价值。方法:用RT-PCR方法调取目的基因,构建相应的原核表达质粒,转化大肠杆菌HB101,诱导表达获得纯化重组蛋白;以重组蛋白为包被抗原,初步建立检测蛋白酪氨酸磷酸酶自身抗体的ELISA方法,评价各片段在1型糖尿病诊断中的价值。结果:获得了2种可被1型糖尿病患者血清识别的重组人蛋白酪氨酸磷酸酶抗原区段IA-2(601～979)和IA-2(683～979),检测敏感性和特异性相当,但IA-2(683～979)检测的阳性D450nm值明显高于IA-2(601～979),成为首选的抗原区段。结论:所选重组人IA-2(683～979)抗原区段具有良好的抗原性,可作为1型糖尿病患者辅助诊断试剂的候选抗原。     

人呼吸道合胞病毒M蛋白非复制型重组腺病毒的构建和鉴定

人呼吸道合胞病毒（human respiratory syncytial virus, RSV)基质蛋白（matrix protein,M）在RSV形态发生上具有重要作用,因含有CTL抗原表位,在疫苗研究上具有一定意义。为此,应用RT-PCR 方法从感染RSV的HEp-2 细胞中扩增获得M蛋白基因,构建了含M基因的非复制型重组腺病毒并进行表达和鉴定。基因序列分析显示RSV M基因仅有一处碱基发生错义突变。非复制型重组腺病毒DNA分子FGAd/RSVM转染293细胞,观察到细胞出现CPE,RT-PCR发现M基因有转录,Western blotting及间接免疫荧光分析检测到M蛋白。成功克隆A亚型RSV Long株M基因,并获得一株可表达A亚型RSV M蛋白的非复制型重组腺病毒FGAd/RSVM,可用于体内研究观察其免疫效果及免疫保护作用。