Comparison of temperature- and isopropyl-β-d-thiogalacto-pyranoside-induced synthesis of basic fibroblast growth factor in high-cell-density cultures of recombinant Escherichia coli

Abstract

Two different expression systems were developed for expression of the cDNA encoding human basic fibroblast growth factor (bFGF) using Escherichia coli TGl as host organism. The bFGF structural gene was cloned into two vectors differing only with respect to the promoter, which was either the bacteriophage λ PRPL- or the E. coli lac-promoter. The resulting expression systems were studied in high-cell density cultures. Cells were grown in a fed-batch procedure with a predetermined exponential feeding rate based on mass balances and kinetic equations to ensure constant specific growth rates. Prior to induction, cells were grown at 30°C. Product formation was induced by either a temperature shift from 30 to 42°C or by the addition of isopropyl-β-d-thiogalactopyranoside (IPTG). Under comparable culture conditions—induction of bFGF expression at 41 to 45 g l−1 dry cell weight and the addition of feed medium with identical rates—bFGF accumulated to 4.9 and 1.1 g l−1 using the temperature- and IPTG-inducible expression systems, respectively. The final biomass concentrations obtained using temperature- and IPTG-inducible expression systems were 61 and 135 g l−1 dry cell weight, whereas the specific product concentrations were 80 and 8.1 mg bFGF g−1 dry cell weight, respectively. When a temperature shift was used for product induction, 30% of bFGF was recovered as inclusion bodies in the insoluble cell fraction. IPTG-dependent induction yielded exclusively soluble bFGF.