PERIPLASMIC EXPRESSION OF HUMAN INTERFERON-ALPHA-2C IN ESCHERICHIA-COLI RESULTS IN A CORRECTLY FOLDED MOLECULE

Human interferon-alpha2c (IFN-alpha2c) was produced in Escherichia col i under the control of the alkaline phosphatase promoter using a perip lasmic expression system. Compared with other leader sequences, the he at-stable entertoxin II leader of E. coli (STII) resulted in the highe st rate of correct processing as judged by Western-blot analysis. The fermentation was designed as a batch-fed process in order to obtain a high yield of biomass. The processing rate of IFN-alpha2c could be inc reased from 25% to more than 50% by shifting the fermentation pH from 7.0 to 6.7. IFN-alpha2c extracted from the periplasm was purified by a new four-step chromatographic procedure. Whereas cytoplasmically prod uced IFN-alpha2c does not have its full native structure, IFN-alpha2c extracted from the periplasm was found to be correctly folded, as show n by c.d. spectroscopy. Peptide-map analysis in combination with m.s. revealed the correct formation of disulphide bridges. N-terminal seque nce analysis showed complete removal of the leader sequence, creating the authentic N-terminus starting with cysteine.