Journal of Applied Microbiology, Vol.122, No.5, 1402-1411, 2017
Co-expression of sulphydryl oxidase and protein disulphide isomerase in Escherichia coli allows for production of soluble CRM197
AimsTo investigate the production of soluble cross-reacting material 197 (CRM197) in Escherichia coli, a safe and effective T-cell-dependent protein carrier for polysaccharides used in the manufacture and application of multivalent conjugate vaccines. Methods and ResultsThe use of co-expression of a sulphydryl oxidase (SOX) and protein disulphide isomerase for the production of soluble CRM197 in E.coli is described. CRM197 contains two disulphide bonds, which are normally unable to form in the reducing environment of the E.coli cytoplasm. It was found that co-expression yielded soluble CRM197, at a production rate similar to 10% of the production of insoluble CRM197, in equivalent small-scale cultures. Structural analysis of the purified CRM197 compared to CRM197 commercially produced in cultures of recombinant Pseudomonas fluorescens indicated that the E.coli soluble protein compares favourably on all structural levels. ConclusionsSOX and protein disulphide isomerase are enzymes involved in the formation of intra-protein disulphide bonds, and can influence the tertiary structure of the protein being produced, resulting in increased solubility due to the correct folding of the protein. Their use enabled the production of soluble untagged CRM197 in E.coli, which was previously unachievable. Significance and Impact of the StudyPrevious literature reports have shown that CRM197 can be expressed in E.coli, though only in an insoluble form, or in soluble form as a fusion protein. It is currently commercially produced in cultures of recombinant P. fluorescens. The use of a widely used, well-characterized expression host such as E.coli, rather than P. fluorescens broadens the applicability of the production technology, and the production system described here is worthy of further investigation for scaled up manufacture of CRM197.
Keywords:cross-reacting material 197;disulphide bond formation;E;coli;protein disulphide isomerase;soluble production;structural integrity;sulphydryl oxidase