二硫键结合蛋白在大肠杆菌细胞质及其“氧化”突变体中的溶解性
Solubility of disulfide-bonded proteins in the cytoplasm of Escherichia coli and its "oxidizing" mutant.
作者信息
Xiong Sheng, Wang Yi-Fei, Ren Xiang-Rong, Li Bing, Zhang Mei-Ying, Luo Yong, Zhang Ling, Xie Qiu-Ling, Su Kuan-Yuan
机构信息
Biomedical Research and Development Center, Jinan University, Guangzhou 510630, Guangdong Province, China.
出版信息
World J Gastroenterol. 2005 Feb 21;11(7):1077-82. doi: 10.3748/wjg.v11.i7.1077.
AIM
To study the influence of redox environment of Escherichia coli (E. coli) cytoplasm on disulfide bond formation of recombinant proteins.
METHODS
Bovine fibroblast growth factor (BbFGF) was selected as a model of simple proteins with a single disulfide bond and free cysteines. Anti-HBsAg single-chain Fv (HBscFv), an artificial multidomain protein, was selected as the model molecule of complex protein with 2 disulfide bonds. A BbFGF-producing plasmid, pJN-BbFGF, and a HBscFv producing-plasmid, pQE-HBscFv, were constructed and transformed into E. coli strains BL21(DE3) and M15(pREP4) respectively. At the same time, both plasmids were transformed into a reductase-deficient host strain, E. coli Origami(DE3). The 4 recombinant E. coli strains were cultured and the target proteins were purified. Solubility and bioactivity of recombinant BbFGF and HBscFv produced in different host strains were analyzed and compared respectively.
RESULTS
All recombinant E. coli strains could efficiently produce target proteins. The level of BbFGF in BL21(DE3) was 15-23% of the total protein, and was 5-10% in Origami (DE3). In addition, 65% of the BbFGF produced in BL21(DE3) formed into inclusion body in the cytoplasm, and all the target proteins became soluble in Origami(DE3). The bioactivity of BbFGF purified from Origami(DE3) was higher than its counterpart from BL21(DE3). The ED(50) of BbFGF from Origami(DE3) and BL21(DE3) was 1.6 microg/L and 2.2 microg/L, respectively. Both HBscFv formed into inclusion body in the cytoplasm of M15(pQE-HBscFv) or Origami(pQE-HBscFv). But the supernatant of Origami(pQE-HBscFv) lysate displayed weak bioactivity and its counterpart from M15(pQE-HBscFv) did not display any bioactivity. The soluble HBscFv in Origami(pQE-HBscFv) was purified to be 1-2 mg/L and its affinity constant was determined to be 2.62 x 10(7) mol/L. The yield of native HBscFv refolded from inclusion body in M15(pQE-HBscFv) was 30-35 mg/L and the affinity constant was 1.98 x 10(7) mol/L. There was no significant difference between the bioactivity of HBscFvs refolded from the inclusion bodies produced in different host strains.
CONCLUSION
Modification of the redox environment of E. coli cytoplasm can significantly improve the folding of recombinant disulfide-bonded proteins produced in it.
目的
研究大肠杆菌细胞质氧化还原环境对重组蛋白二硫键形成的影响。
方法
选择牛碱性成纤维细胞生长因子(BbFGF)作为具有单个二硫键和游离半胱氨酸的简单蛋白质模型。选择抗乙肝表面抗原单链Fv(HBscFv),一种人工多结构域蛋白,作为具有2个二硫键的复杂蛋白模型分子。构建了产生BbFGF的质粒pJN-BbFGF和产生HBscFv的质粒pQE-HBscFv,并分别转化到大肠杆菌BL21(DE3)和M15(pREP4)菌株中。同时,将这两种质粒转化到一种还原酶缺陷宿主菌株大肠杆菌Origami(DE3)中。培养这4种重组大肠杆菌菌株并纯化目标蛋白。分别分析和比较不同宿主菌株产生的重组BbFGF和HBscFv的溶解性和生物活性。
结果
所有重组大肠杆菌菌株均能高效产生目标蛋白。BbFGF在BL21(DE3)中的水平占总蛋白的15%-23%,在Origami(DE3)中为5%-10%。此外,在BL21(DE3)中产生的BbFGF有65%在细胞质中形成包涵体,而所有目标蛋白在Origami(DE3)中均变为可溶。从Origami(DE3)中纯化的BbFGF的生物活性高于其在BL21(DE3)中的对应物。来自Origami(DE3)和BL21(DE3)的BbFGF的半数有效剂量(ED50)分别为1.6μg/L和2.2μg/L。两种HBscFv在M15(pQE-HBscFv)或Origami(pQE-HBscFv)的细胞质中均形成包涵体。但Origami(pQE-HBscFv)裂解物的上清液显示出较弱的生物活性,而M15(pQE-HBscFv)的对应物则没有显示出任何生物活性。Origami(pQE-HBscFv)中可溶性HBscFv纯化后为1-2mg/L,其亲和常数测定为2.62×10⁷mol/L。从M15(pQE-HBscFv)包涵体中重折叠的天然HBscFv产量为30-35mg/L,亲和常数为1.98×10⁷mol/L。不同宿主菌株产生的包涵体重折叠的HBscFv的生物活性之间没有显著差异。
结论
改变大肠杆菌细胞质的氧化还原环境可显著改善其中产生的重组二硫键结合蛋白的折叠。
Zotero 插件