Summary
Human IL-4 (hIL-4) has been cloned from a human T cell line based on its homology to the murine IL-4 cDNA sequence [36]. We have compared cytoplasmic and extra-cytoplasmic expression of this basic protein inEscherichia coli using various combinations of promoters, replicons and host strains. Strains producing a cytoplasmic product were most successful at heterologous protein expression, producing up to 500 mg/l of an inactive aggregated form of the protein. The biological activity of the protein could be restored by refolding the protein with guanidine hydrochloride and glutathione giving a specific activity identical to that of IL-4 derived from CHO cell lines stably transformed with an hIL-4 expression plasmid. Strains designed to secrete human IL-4 into the periplasmic space produced far less protein (approximately 5 mg/l). However, a significant fraction of this protein was detected in the culture medium. This fraction appeared to be soluble after ultracentrifugation, and demonstrated high specific activity without refolding. Leakage of heterologous protein into the culture medium may be a viable way to recover biologically active products without relying on the denaturation and refolding in vitro that can, at times, yield incorrectly folded gene product.
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Lundell, D., Greenberg, R., Alroy, Y. et al. Cytoplasmic and periplasmic expression of a highly basic protein, human interleukin 4, inEscherichia coli . Journal of Industrial Microbiology 5, 215–227 (1990). https://doi.org/10.1007/BF01569679
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DOI: https://doi.org/10.1007/BF01569679