Enhancing the Biocatalytic Synthesis of Chiral Drug Intermediate by Rational Design an Aldo-Keto Reductase from Bacillus Megaterium YC4-R4.

In recent years, with the increasing number of patients with depression, the efficient synthesis of the first-line antidepressant drug duloxetine intermediate (S-N,N-dimethyl-3-hydroxy-3-(2-thienyl)-1-propanamine, S- DHTP) has attracted great attention. The wild-type AKR3-2-9 from Bacillus megaterium YC4-R4 exhibits high application potential of catalyzing N,N-dimethyl-3-keto-3-(2-thienyl)-1-propanamine (DKTP) to prepare S- DHTP, but there is still much room for improvement. In this work, rational design was carried out to enhance the catalytic potential of AKR3-2-9. Notably, compared to the wild-type AKR3-2-9, three mutants (Ile189Val, Asn256Asp, and Ile189Val + Asn256Asp) were obtained, and their catalytic efficiencies were increased by 1.3 times, 2.3 times, and 1.31 times, respectively. Besides, the thermal stability and organic solvent resistance were improved. More importantly, when the concentration of the substrate DKTP was 0.5 g/L, the catalytic yields of Ile189Val, Asn256Asp and Ile189Val + Asn256Asp were increased by 1.45 times, 1.86 times, and 2.05 times, respectively. Besides, the corresponding optical purities of the three mutants were 92.7 %, 94.3 % and 93.8 %. The above results indicated that the rational design of the AKR of Bacillus megaterium YC4-R4 enhanced its potential for biocatalytic preparation of S-DHTP.