风疹病毒糖蛋白E1在酵母细胞中的表达与鉴定

Expression and characterization of rubella virus glycoprotein E1 in yeast cells.

作者信息

Wen Hongling, Wang Zhiyu

机构信息

Department of Virology, School of Public Health, Shandong University, Jinan, People's Republic of China.

出版信息

Intervirology. 2005;48(5):321-8. doi: 10.1159/000085101.

DOI:10.1159/000085101

PMID:15956800

Abstract

OBJECTIVES

To express E1 glycoprotein of rubella virus (RuV) strain JR23 in yeast and develop a diagnostic assay using expressed E1 protein as coating antigen in comparison with other diagnostic assays.

METHODS

cDNA of E1 open reading frame of RuV was PCR amplified using plasmid pMD18-T-E1 as template and cloned into plasmid pBluscriptII SK+. After being confirmed by PCR, restriction endonuclease digestion and sequencing, pBluscriptII SK(+)-E1 plasmid DNA was digested by restriction endonuclease EcoR I and Xba I, and a fragment of 1.5 kb was isolated and cloned into a yeast expression pGAPZ(alpha)A, resulting in pGAPZ(alpha)A-E1. After confirmation by sequencing, pGAPZ(alpha)A- E1 was transformed into yeast GS115 cells with LiCl method. E1 protein expression in GS115 was analyzed by SDS-PAGE and Western blot. An indirect ELISA was developed using the recombinant E1 protein as coating antigen for detecting RuV E1 antibodies in 90 serum samples. To compare the specificity, sensitivity and reproducibility of the assay with other methods, the same serum samples were also assayed by RuV culture medium as coating antigen (Jingmei kit and German RECI kit). Statistical analyses were performed to compare the differences among these methods and to determine which coating antigen source, the recombinant E1 protein or RuV-infected culture medium, is more suitable for the assay.

RESULTS

A fragment of 1.5 kb, corresponding to the full open reading frame of E1, was PCR amplified and cloned in yeast expression vector. The clone was confirmed by restriction digestion, PCR and sequencing. E1 as a secretive protein was successfully expressed by GS115. Its molecular weight was about 58 kDa. SDS-PAGE showed that the recombinant protein was expressed efficiently and constantly in Pichia pastoris GS115 cells. The expression level reached a peak 48 h after culturing and stabilized thereafter. E1 protein was detected in both supernatant and cells. Western blot showed that the secretive E1 protein in the supernatants could react with both the anti-RuV-positive serum and a monoclonal antibody against E1. However, E1 protein derived from cells could only react with the anti-RuV-positive serum, polyclonal antibody, but not the monoclonal antibody. Compared with the German RECI kit, the sensitivity, specificity, and accordance rate of the assay using recombinant E1 protein as coating antigen were 67.11, 71.43 and 67.78%, respectively, while those of the assay using RuV-infected culture medium as coating antigen were 50, 78.57 and 54.44%, respectively. Compared with the German RECI kit, the sensitivity, specificity, and accordance rate of the ELISA assay using the Jingmei kit were 84.71, 71.43 and 82.22%, respectively. The data indicated that recombinant E1 protein derived from the yeast expression system can serve as a better source than RuV-infected cell medium as coating antigen for detecting antibodies against RuV in the indirect ELISA assay. Statistical analysis of the data generated from two independent experiments using recombinant E1 protein as coating antigen indicated that the assay was very consistent with no statistically significant difference between the two experiments (p > 0.05). 76 out of 90 serum samples were detected positive using the German RECI kit, while 68, 55 and 41 samples were positive using the Jingmei kit, recombinant E1 and RuV-infected cell medium, respectively. Statistical analyses indicated that the positive rates were significantly different among all four assays (p < 0.05) except for one pair (German RECI kit and the Jingmei kit: p > 0.05). Comparing the positive rates obtained from the assay using recombinant E1 and that using RuV-infected cell medium, it seems that the recombinant E1 protein is a better source than RuV culture medium as coating antigen in the indirect ELISA assay for detection of RuV antibody.

CONCLUSIONS

The recombinant yeast expression vector of RuV E1 glycoprotein was constructed successfully. The E1 protein as a secretive protein was successfully expressed by GS115 and maintained its antigenicity very well. As coating antigen, the recombinant E1 protein served a better source than RuV culture medium in the indirect ELISA method for the detection of RuV antibody.

摘要

目的

在酵母中表达风疹病毒（RuV）JR23株的E1糖蛋白，并开发一种以表达的E1蛋白作为包被抗原的诊断检测方法，与其他诊断检测方法进行比较。

方法

以质粒pMD18-T-E1为模板，PCR扩增RuV E1开放阅读框的cDNA，并克隆到质粒pBluscriptII SK+中。经PCR、限制性内切酶消化和测序确认后，用限制性内切酶EcoR I和Xba I消化pBluscriptII SK(+)-E1质粒DNA，分离出1.5 kb的片段并克隆到酵母表达载体pGAPZ(α)A中，得到pGAPZ(α)A-E1。测序确认后，采用LiCl法将pGAPZ(α)A-E1转化到酵母GS115细胞中。通过SDS-PAGE和Western blot分析GS115中E1蛋白的表达情况。以重组E1蛋白作为包被抗原，建立间接ELISA法检测90份血清样本中的RuV E1抗体。为比较该检测方法与其他方法的特异性、敏感性和重复性，同样的血清样本还用RuV培养基作为包被抗原（精美试剂盒和德国RECI试剂盒）进行检测。进行统计分析以比较这些方法之间的差异，并确定哪种包被抗原来源，即重组E1蛋白或RuV感染的培养基，更适合该检测方法。

结果

PCR扩增出一条1.5 kb的片段，对应E1的完整开放阅读框，并克隆到酵母表达载体中。通过限制性酶切、PCR和测序对克隆进行了确认。E1作为一种分泌性蛋白在GS115中成功表达，其分子量约为58 kDa。SDS-PAGE显示重组蛋白在毕赤酵母GS115细胞中高效、稳定表达。培养48 h后表达水平达到峰值，此后稳定。上清液和细胞中均检测到E1蛋白。Western blot显示上清液中的分泌性E1蛋白能与抗RuV阳性血清和抗E1单克隆抗体反应。然而，细胞来源的E1蛋白只能与抗RuV阳性血清、多克隆抗体反应，不能与单克隆抗体反应。与德国RECI试剂盒相比，以重组E1蛋白作为包被抗原的检测方法的敏感性、特异性和符合率分别为67.11%、71.43%和67.78%，而以RuV感染的培养基作为包被抗原的检测方法的敏感性、特异性和符合率分别为50%、78.57%和54.44%。与德国RECI试剂盒相比，精美试剂盒ELISA检测方法的敏感性、特异性和符合率分别为84.71%、71.43%和82.22%。数据表明，在间接ELISA检测中，酵母表达系统来源的重组E1蛋白作为包被抗原比RuV感染的细胞培养基更适合用于检测抗RuV抗体。对以重组E1蛋白作为包被抗原的两个独立实验数据进行统计分析表明，该检测方法一致性非常好，两个实验之间无统计学显著差异（p>0.05）。使用德国RECI试剂盒检测90份血清样本中有76份呈阳性，而使用精美试剂盒、重组E1和RuV感染的细胞培养基检测时，阳性样本分别为68份、55份和41份。统计分析表明，除一对（德国RECI试剂盒和精美试剂盒：p>0.05）外，所有四种检测方法的阳性率均有显著差异（p<0.05）。比较以重组E1和RuV感染的细胞培养基作为包被抗原的检测方法的阳性率，似乎在间接ELISA检测RuV抗体时，重组E1蛋白作为包被抗原比RuV培养基更好。