Aggregation of recombinant proteins into inclusion bodies (IBs) is the major drawback of heterologous expression in Escherichia coli. Here, we evaluated the effects of a pH shift after expression induction on recombinant phospholipase A2 production and its aggregation in IBs in E. coli Origami™, as compared to cultures with pH maintained at 7.5 or uncontrolled pH. Cultures shifted from 7.5 to pH 6.5 or 8.5 produced ∼15-25% less biomass as compared with those kept at 7.5 or without pH control. The cultures shifted to pH 8.5 showed a ∼50% higher yield of acetate per biomass, and the rPLA2 yield was improved 2.4-fold. Purified IBs formed at pH 8.5 containing ∼50% of rPLA2, were more susceptible to proteinase-K cleavage and bound less thioflavin-T, indicating lower amyloid content, with the concomitant enrichment of α-helical and random-coil secondary structures, as demonstrated by FTIR. Moreover, only one IB per cell was formed at pH 8.5; instead, more than two were observed under the other culture pH conditions. Nevertheless, under uncontrolled pH conditions, ∼300nm larger IBs were observed. Our work presents evidence of the usefulness of recombinant protein expression cultivated at pH 8.5 allowing the reduction of amyloid content in IBs.
Keywords: Acetate; Cultivation pH; E. coli origami; Inclusion body; Metabolic overflow; Phospholipase A2; Recombinant protein.
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