SARS 冠状病毒 S 蛋白受体结合结构域的表达及其表位作图

严重急性呼吸综合征 (SARS) 是一种新出现的人类传染病,该病的病原是 SARS 冠状病毒 (SARS-CoV). S 蛋白是 SARS 冠状病毒的一种主要结构蛋白,它在病毒与宿主细胞受体结合以及诱导机体产生中和抗体中起重要作用 . 研究表明 S 蛋白与受体结合的核心区域为第 318 ~ 510 氨基酸残基的片段 . 首先克隆并用 pGEX-6p-1 载体融合表达了该受体结合结构域,并且通过蛋白质印迹分析表明,该受体结合结构域融合蛋白能被 SARS 康复患者血清和 S 蛋白特异的单克隆抗体所识别 . 为了对这一区域进行抗原表位作图,进一步设计了一套 23 个覆盖受体结合结构域的长 16 个氨基酸残基的部分重叠短肽,并进行了 GST 融合表达 . 用免疫动物血清和单克隆抗体 D3D1 对 23 个融合蛋白进行蛋白质印迹和 ELISA 免疫反应性分析,结果鉴定出两个抗原表位 SRBD3(F334PSVYAWERKKISNCV349) 和表位 D3D1 (K447LRPFERDI455). 其结果对进一步分析 S 蛋白结构与功能以及诊断试剂和基因工程疫苗的研究有一定意义 .     

用噬菌体随机肽库筛选SARS冠状病毒S蛋白单克隆抗体2C5的模拟表位

SARS-CoVS蛋白特异的单克隆抗体2C5具有病毒中和作用。以单克隆抗体2C5为筛选靶分子,筛选噬菌体展示随机7肽库。经三轮淘洗后随机挑选20个噬菌体克隆进行ELISA分析和序列测定。在10个ELISAOD值大于0.2的阳性噬菌体克隆中,有8个噬菌体克隆展示有共同的7肽序列TPEQQFT。展示有该序列的噬菌体克隆能竞争抑制SARS-CoVS蛋白抗原与单抗2C5的结合。结果表明TPEQQFT为单克隆抗体2C5的模拟表位。该结果可对进一步研究S蛋白结构与功能和设计SARS疫苗有一定的参考意义。     

SARS冠状病毒M蛋白的原核表达及其DNA疫苗构建

为探讨SARS-CoV的M蛋白的免疫学特性以及M蛋白作为SARS-CoV病毒疫苗组分的可行性和必要性.分别用pET-15b和pET-22b在大肠杆菌中表达SARS-CoV的M蛋白,亲和层析纯化后作为抗原应用.同时,将M蛋白的编码基因克隆进分泌型真核表达载体pSecTagB中得到重组质粒pSecM作为DNA疫苗,免疫BALB/c小白鼠、制备SARS-CoV M蛋白的抗血清.并用纯化后的M蛋白建立的SARS-CoV M抗体ELISA检测技术研究所构建的M-DNA疫苗的免疫效果.结果表明:两种重组M蛋白在大肠杆菌中均以可溶性形式得到高效表达,经与华大产的用灭活SARS全病毒制备的SARS-CoV抗体ELISA检测试剂盒比较实验,证明该原核表达的重组M蛋白能与SARS确诊病人血清以及M-DNA免疫鼠血清发生特异性抗原抗体反应.这两种重组M蛋白有可能作为抗原组分用于临床SARS-CoV检测中;所构建的SARS-CoV的M基因核酸疫苗能在小鼠体内产生特异性抗体,提示M蛋白在SARS-CoV疫苗尤其是组分疫苗的研制中应加以考虑,为DNA疫苗的开发提供了依据.     

含乙型肝炎病毒S-PreS1 基因的DNA疫苗与蛋白颗粒疫苗联合免疫可增强免疫应答

为研制新型有效的HBV治疗性疫苗,构建了含PreS1与S融合基因的HBV DNA疫苗,即pVRC-HBSS1 (PreS1 21–47 aa融合在S抗原1–223的羧基端),并制备了CHO表达相同结构的蛋白颗粒亚单位疫苗HBSS1。在Balb/C小鼠中采用不同的DNA免疫方式 (即肌肉注射、皮内注射加电转) 初免3次,蛋白颗粒亚单位疫苗 (不同佐剂) 肌肉注射加强免疫1次,然后我们分析比较了各组疫苗所引起的免疫应答特点。抗体检测结果表明：皮内注射结合电转初免组产生的PreS1与 S特异性抗体水平皆高于肌肉直接注射组。进一步还发现DNA疫苗与蛋白颗粒亚单位疫苗两种疫苗联合应用后S抗原特异的细胞免疫应答 (IFN-γ ELISpot分析) 明显高于DNA疫苗或蛋白颗粒亚单位单独应用,其中皮内注射+电转结合蛋白颗粒亚单位疫苗联合免疫组可产生最强的细胞免疫应答。这些研究为新型HBV 治疗性疫苗的优化设计与合理应用提供了依据。     

Identification of an epitope of SARS-coronavirus nucleocapsid protein

The nucleocapsid (N) protein of severe acute respiratory syndrome-coronavirus (SARS-CoV) is a majorvirion structural protein. In this study, two epitopes (N1 and N2) of the N protein of SARS-CoV were predicted by bioinformatics analysis. After immunization with two peptides, the peptides-specific antibodies were isolated from the immunized rabbits. The further experiments demonstrated that N1 peptide-induced polyclonal antibodies had a high affinity to bind to E. coli expressed N protein of SARS-CoV. Furthermore, itwas confirmed that N1 peptide-specific IgG antibodies were detectable in the sera of severe acute respiratory syndrome (SARS) patients. The results indicated that an epitope of the N protein has been identified andN protein specific Abs were produced by peptide immunization, which will be useful for the study of SARS-CoV.     

SARS-CoV单克隆抗体的制备及抗原表位的初步鉴定

参照已发表的SARS冠状病毒BJ01株基因序列 ,利用计算机软件预测并选取该病毒S、M、N三种主要结构蛋白部分抗原性优势区域 ,以编码Gly-Pro-Gly序列相连接合成两段嵌合基因A和B。并分别克隆于pGEX -6p- 1载体上用IPTG进行诱导表达 ,以纯化的嵌合蛋白A和B为抗原 ,分别免疫BALB c小鼠制备单克隆抗体。利用单克隆抗体亚型检测试剂盒和SARS CoV商品化ELISA检测试剂盒对其进行亚型和特异性鉴定。结果表明融合表达两段嵌合基因产物 ,其大小分别为 34kD和35kD ,Westernblot分析证实两种表达产物都能被SARS病人康复期血清所识别。获得了 6株能稳定分泌特异性抗体的阳性细胞克隆株。亚型鉴定结果除D3C5为IgG2a外其他单抗均为IgG1,而且所有单抗的轻链均为κ链。特异性鉴定发现除D3D1外 ,其余的 5株单抗均能与SARS CoV商品化ELISA检测试剂盒发生特异性反应。将D3D1与灭活后经超声波裂解的SARS CoV进行Westernblot分析 ,发现它能特异性识别 180kD的蛋白带。分别融合表达了 6个S蛋白的寡肽 (S1- S6 ) ,并对筛选出的单克隆…     

重组SARS冠状病毒刺突蛋白的表达和分离纯化

SARS冠状病毒的感染能引发人的严重急性呼吸综合征。根据对其他种类冠状病毒的研究结果 ,刺突(spike)蛋白 (S蛋白 )是病毒的主要表面抗原 ,重组S蛋白可用于临床诊治 ,疫苗制备和结构生物学研究。SARS病毒S蛋白基因被分段和完整地克隆到不同的细菌表达载体进行了表达。通过宿主菌的选择和条件的优化 ,其中75 1～ 192 5bp、2 0 0 5～ 3410bp、1～ 192 5bp、32～ 36 5 9bp片段及全长 1～ 376 8bpDNA都在大肠杆菌中实现了高效表达 ,表达量分别占菌体蛋白质的 35 %、34%、2 4 %、17%和 5 % ,并经亲和层析得到了部分纯化。纯化后的蛋白质将用于诊断试剂和结构生物学研究。     

Sequence analysis and structural prediction of the severe acute respiratory syndrome coronavirus nsp5

The non-structural proteins (nsp or replicase proteins) of coronaviruses are relatively conserved and can be effective targets for drugs. Few studies have been conducted into the function of the severe acute respiratory syndrome coronavirus (SARS-CoV) nsp5. In this study, bioinformatics methods were employed to predict the secondary structure and construct 3-D models of the SARS-CoV GD strain nsp5. Sequencing and sequential comparison was performed to analyze the mutation trend of the polymerase nsp5 gene during the epidemic process using a nucleotide-nucleotide basic local alignment search tool (BLASTN) and a protein-protein basic local alignment search tool (BLASTP). The results indicated that the nsp5 gene was steady during the epidemic process and the protein was homologous with other coronavirus nsp5 proteins. The protein encoded by the nsp5 gene was expressed in COS-7 cells and analyzed by sodium dodecylsulfate-polyacrylamide gel electrophoresis (SDS-PAGE). This study provided the foundation for further exploration of the protein‘s biological function, and contributed to the search for anti-SARS-CoV drugs.     

血中检测SARS冠状病毒N蛋白在SARS实验室早期诊断中的作用

为明确严重急性呼吸综合症(SARS)冠状病毒N蛋白在SARS实验室早期诊断中的作用,通过微量中和试验及酶联免疫方法、间接免疫荧光法检测疑似病人恢复期血清(大于28天)中SARS-IgG抗体,确诊SARS患者。同时收集发病不同时期SARS及普通发热病人血清,利用酶联免疫方法检测SARS-CoVN蛋白,并与荧光定量PCR早期诊断方法相比较。共检测：广州地区2003年12月～2004．年1月新发4例确诊SARS患者不同时期的血液和咽漱液标本;恢复期血清SARS-CoV中和抗体阳性病人不同时期的血清46份;广州地区2003年1月～4月临床确诊SARS患者159例的血清和56例疑似患者血清;非SARS普通发热病人血清97份;正常人体检血清100份。结果：4例新发SARS患者的不同时期标本中,3例患者急性期血均检出N蛋白,优于常用的荧光定量PCR检测方法。46份SARS-CoV中和抗体阳性的血清标本,N蛋白检出率为100％。159例临床确诊病例中,发病早期5天以内SARS-CoVN蛋白的检出率为92．3％,随后呈现逐步下降的趋势,在发病第18天仍可检出。56例临床疑似患者发病早期也有23．2％检出率。而97例普通发热病人及100份正常人血清中均未能检测出SARS-CoVN蛋白。表明在血清中检测SARS冠状病毒N蛋白的方法敏感性和特异性都好,对SARS实验室早期诊断具有重要作用。     

基于新型冠状病毒S蛋白结构及入胞机制的抗体与药物研发

新型冠状病毒肺炎,世界卫生组织命名为"2019冠状病毒病"(corona virus disease 2019,COVID-19),是一种由2019新型冠状病毒(2019-nCov)感染导致的肺炎.目前新冠肺炎在全球广泛流行,且疫情尚未得到全部控制.由于新型冠状病毒表面的刺突蛋白(spike protein,S)介导病...     

SARS病毒基因组的多态性

对SARS病人粪便样本直接测序,得到SRAS—CoV BJ202全基因组序列（AY864806）。应用比较基因组研究方法对GenBank中公布的115株SARS—CoV基因组序列以及BJ202进行分析。以GZ02序列为参照,发现2个以上基因组中同时存在单核苷酸多态（SNP）位点共278个。多态位点在SARS—CoV基因组中呈偏态分布,大约一半突变位点（50．4％,140／278）发生在基因组3’末端1／3区域。编码Orf10-11、Orf3／4、E蛋白、M蛋白和S蛋白区域突变率较高。克隆并测序含有BJ202基因组12个多态位点的11个cDNA以及4个不含已知多态位点的cDNA片段（15个片段总长度为6．0kb）,结果显示：BJ202特有的3个多态位点（13804、1503l和20792）以及另外3个多态位点（26428、26477和27243）均检出两种不同核苷酸;位点18379虽在已公布的115株SARS—CoV基因组中未发现突变,实际上也是多态位点。14个克隆中有8个克隆该位点为A,6个克隆为G。全部116个SARS—CoV基因组中共有18种缺失类型和2种插入类型。大部分缺失发生在编码ORF9和ORF10-11区域（基因组序列27700—28000bp处）。以邻位连接法（Neighbor-Joining）构建了116株SARS—CoV系统发育树,BJ202与BJ01和LLJ-2004等SARS—CoV的亲缘关系较接近。     

Induction of Th1 type response by DNA vaccinations with N, M, and E genes against SARS-CoV in mice

Vaccination against the SARS-CoV infection is an attractive means to control the spread of viruses in public. In this study, we employed a DNA vaccine technology with the levamisole, our newly discovered chemical adjuvant, to generate Th1 type of response. To avoid the enhancement antibody issue, genes encoding the nucleocapsid, membrane, and envelope protein of SARS-CoV were cloned and their expressions in mammalian cells were determined. After the intramuscular introduction into animals, we observed that the constructs of the E, M, and N genes could induce high levels of specific antibodies, T cell proliferations, IFN-gamma, DTH responses, and in vivo cytotoxic T cells activities specifically against SARS-CoV antigens. The highest immune responses were generated by the construct encoding the nucleocapsid protein. The results suggest that the N, M, and E genes could be used as the targets to prevent SARS-CoV infection in the DNA vaccine development.     

SARS冠状病毒的刺突蛋白

严重急性呼吸系统综合征(severe acute respiratory syndrome,SARS)是由严重急性呼吸系统综合征冠状病毒(SARS corona-vims,SARS-CoV)引起的呼吸系统疾病。SARS-CoV的刺突蛋白(spike protein)具有S1和S2两个独特的功能结构域,研究发现两者都是进行疫苗和抗体研究的理想和有效的靶点。对非典疫苗的研究生产非常有价值,对预防和治疗SARS也有重大意义。     

A multiple-target mRNA-LNP vaccine induces protective immunity against experimental multi-serotype DENV in mice

Dengue virus (DENV) is a mosquito-borne virus with a rapid spread to humans, causing mild to potentially fatal illness in hundreds of millions of people each year. Due to the large number of serotypes of the virus, there remains an unmet need to develop protective vaccines for a broad spectrum of the virus. Here, we constructed a modified mRNA vaccine containing envelope domain III (E-DIII) and non-structural protein 1 (NS1) coated with lipid nanoparticles. This multi-target vaccine induced a robust antiviral immune response and increased neutralizing antibody titers that blocked all four types of DENV infection in vitro without significant antibody-dependent enhancement (ADE). In addition, there was more bias for Th1 than Th2 in the exact E-DIII and NS1-specific T cell responses after a single injection. Importantly, intramuscular immunization limited DENV transmission in vivo and eliminated vascular leakage. Our findings highlight that chimeric allogeneic structural and non-structural proteins can be effective targets for DENV vaccine and that they can prevent the further development of congenital DENV syndrome.     

Immunogenicity of a recombinant VSV-Vectored SARS-CoV vaccine induced robust immunity in rhesus monkeys after single-dose immunization

Severe acute respiratory syndrome (SARS) is a highly contagious zoonotic disease caused by SARS coronavirus (SARS-CoV). Since its outbreak in Guangdong Province of China in 2002, SARS has caused 8096 infections and 774 deaths by December 31st, 2003. Although there have been no more SARS cases reported in human populations since 2004, the recent emergence of a novel coronavirus disease (COVID-19) indicates the potential of the recurrence of SARS and other coronavirus disease among humans. Thus, developing a rapid response SARS vaccine to provide protection for human populations is still needed. Spike (S) protein of SARS-CoV can induce neutralizing antibodies, which is a pivotal immunogenic antigen for vaccine development. Here we constructed a recombinant chimeric vesicular stomatitis virus (VSV) VSVΔG-SARS, in which the glycoprotein (G) gene is replaced with the SARS-CoV S gene. VSVΔG-SARS maintains the bullet-like shape of the native VSV, with the heterogeneous S protein incorporated into its surface instead of G protein. The results of safety trials revealed that VSVΔG-SARS is safe and effective in mice at a dose of 1×10⁶ TCID₅₀. More importantly, only a single-dose immunization of 2×10⁷ TCID₅₀ can provide high-level neutralizing antibodies and robust T cell responses to non-human primate animal models. Thus, our data indicate that VSVΔG-SARS can be used as a rapid response vaccine candidate. Our study on the recombinant VSV-vectored SARS-CoV vaccines can accumulate experience and provide a foundation for the new coronavirus disease in the future.     

Small interfering RNA inhibits SARS-CoV nucleocapsid gene expression in cultured cells and mouse muscles

SARS-CoV is a newly identified coronavirus that causes severe acute respiratory syndrome (SARS). Currently, there is no effective method available for prophylaxis and treatment of SARS-CoV infections. In the present study, the influence of small interfering RNA (siRNA) on SARS-CoV nucleocapsid (N) protein expression was detected in cultured cells and mouse muscles. Four siRNA expression cassettes driven by mouse U6 promoter targeting SARS-CoV N gene were prepared, and their inhibitory effects on expression of N and enhanced green fluorescence protein (EGFP) fusion protein were observed. A candidate siRNA was proved to down-regulate N and EGFP expression actively in a sequence-specific manner. The expression vector of this siRNA was constructed and confirmed to reduce N and EGFP expression efficiently in both cultured cells and adult mouse muscles. Our findings suggest that the siRNA should provide the basis for prophylaxis and therapy of SARS-CoV infection in human.     

SARS-CoV S蛋白受体结合区的重组表达及免疫原性分析

为了表达SARS-CoV的S蛋白的受体结合区并对其免疫原性进行分析,用PCR方法扩增S蛋白的受体结合区基因片段,克隆至原核表达质粒pET-F32a＋并在大肠杆菌中表达,应用Western—blot鉴定表达的目的蛋白,而后以该蛋白作为诊断抗原包被酶联卡反来检测20份SARS病人血清和28份健康人血清,结果原核表达的S蛋白能够和所用的SARS病人血清反应。这提示表达的S重组蛋白具有良好的抗原性。将变性纯化的重组蛋白和复性蛋白分别皮下免疫小鼠,第三次免疫一周后收集抗血清,用ELISA测定抗体和同时测定中和抗体活性。用变性的抗原免疫的小鼠血清均无中和活性;而用复性的蛋白免疫的小鼠产生了中和抗体。实验表明,S蛋白受体结合区无线性中和表位,中和抗体的产生是由构象表位诱导的。提示该蛋白有可能应用于亚单位疫苗的研究。     

Evaluation of the VP22 gene adjuvant for enhancement of DNA vaccine against somatostatin in mice

Somatostatin (SS) is a hormone that inhibits the secretion of growth hormone. Immunization against SS can promote the growth of animals. A novel SS-VP22 fused vaccine, pEGS2SS-V, was constructed from pEGS2SS plasmid with a VP22 gene fragment. Two times of immunization with pEGS2SS-V-induced anti-SS antibodies in mice. Compared with mice immunized with pEGS2SS and 0.85% saline, the growth performance of mice immunized with pEGS2SS-V was increased by 14.1% (P < 0.05) and 48.4% (P < 0.01) on the 2nd week after the first vaccination, respectively. The results indicated that the effects of the somatostatin DNA vaccine could be improved effectively by VP22 gene adjuvant.