Pritchard M P, Ossetian R, Li D N, Henderson C J, Burchell B, Wolf C R, Friedberg T
Biomedical Research Centre, University of Dundee, Scotland, United Kingdom.
Arch Biochem Biophys. 1997 Sep 15;345(2):342-54. doi: 10.1006/abbi.1997.0265.
Heterologous expression of unmodified recombinant human cytochrome P450 enzymes (P450s) in Escherichia coli has proved to be extremely difficult. To date, high-level expression has only been achieved after altering the 5'-end of the native cDNA, resulting in amino acid changes within the P450 protein chain. We have devised a strategy whereby unmodified P450s can be expressed to high levels in E. coli, by making NH2-terminal translational fusions to bacterial leader sequences. Using this approach, we initially tested two leader sequences, pelB and ompA, fused to CYP3A4. These were compared with an expression construct producing a conventional NH2-terminally modified CYP3A4 (17alpha-3A4). Both leader constructs produced spectrally active, functional protein. Furthermore, the ompA-3A4 fusion gave higher levels of expression, and a marked improvement in the recovery of active P450 in bacterial membrane fractions, when compared with 17alpha-3A4. We then tested the ompA leader with CYP2A6 and CYP2E1, again comparing with the conventional (17alpha-) approach. As before, the leader construct produced active enzyme, and, for CYP2E1 at least, gave a higher level of expression than the 17alpha-construct. The ompA fusion strategy thus appears to represent a significant advance for the expression of P450s in E. coli, circumventing the previous need for individual optimization of P450 sequences for expression.
在大肠杆菌中异源表达未经修饰的重组人细胞色素P450酶(P450s)已被证明极其困难。迄今为止,只有在改变天然cDNA的5'端后才能实现高水平表达,这会导致P450蛋白链内的氨基酸变化。我们设计了一种策略,通过将NH2末端与细菌前导序列进行翻译融合,可在大肠杆菌中高水平表达未经修饰的P450s。使用这种方法,我们最初测试了与CYP3A4融合的两种前导序列,即pelB和ompA。将它们与产生常规NH2末端修饰的CYP3A4(17α-3A4)的表达构建体进行比较。两种前导构建体均产生了具有光谱活性的功能性蛋白。此外,与17α-3A4相比,ompA-3A4融合体的表达水平更高,并且细菌膜组分中活性P450的回收率有显著提高。然后我们用CYP2A6和CYP2E1测试了ompA前导序列,同样与传统(17α-)方法进行比较。和之前一样,前导构建体产生了活性酶,并且至少对于CYP2E1而言,其表达水平高于17α-构建体。因此,ompA融合策略似乎代表了在大肠杆菌中表达P450s的重大进展,避免了之前对P450序列进行单独优化以实现表达的需求。
