Oh_2022_Bioprocess.Biosyst.Eng__

Polyethylene terephthalate (PET) waste has caused serious environmental pollution. Recently, PET depolymerization by enzymes with PET-depolymerizing activity has received attention as a solution to recycle PET. An engineered variant of leaf-branch compost cutinase (293 amino acid), ICCG (Phe243Ile/Asp238Cys/Ser283Cys/Tyr127Gly), showed excellent depolymerizing activity toward PET at 72 degreesC, which was the highest depolymerizing activity and thermo-stability ever reported in previous works. However, this enzyme was only produced by heterologous expression in the cytoplasm of Escherichia coli, which requires complex separation and purification steps. To simplify the purification steps of ICCG, we developed a secretory production system using Bacillus subtilis and its 174 types of N-terminal signal peptides. The recombinant strain expressing ICCG with the signal peptide of serine protease secreted the highest amount (9.4 U/mL) of ICCG. We improved the production of ICCG up to 22.6 U/mL (85 microg/mL) by performing batch fermentation of the selected strain in 2 L working volume using a 5-L fermenter, and prepared the crude ICCG solution by concentrating the culture supernatant. The recombinant ICCG successfully depolymerized a PET film with 37% crystallinity at 37 degreesC and 70 degreesC. In this study, we developed a secretory production system of the engineered cutinase with PET-depolymerizing activity to obtain high amounts of the enzyme by a relatively simple purification method. This system will contribute to the recycling of PET waste via a more efficient and environmentally friendly method based on enzymes with PET-depolymerizing activity.