Novel strategy to produce prenylated resveratrol by prenyltransferase iacE and evaluation of neuroprotective mechanisms.

Prenylated resveratrols are drug candidates presented in many natural sources. They possess multiple pharmacological activities. Due to the limited abundance in nature and disadvantage of chemical synthesis, it is required to produce prenylated resveratrols by biological strategy. In this work, a prenyltransferase iacE from Pestalotiopsis fici was prepared by heterologous overexpression. It could catalyze 2-C-prenylation of resveratrol efficiently. Dimethylallyl diphosphate (DMAPP) and geranyl diphosphate (GPP) could serve as prenyl donor. Glu97, Thr114 and Tyr413 were proved to be important residues in the active site by site-directed mutagenesis. The product was purified and identified to be 2-C-prenyl resveratrol by NMR. 2-C-prenyl resveratrol exerted neuroprotective activity through inhibiting ROS overproduction and improving the activities of antioxidant enzymes in HT22 cell. The genes involved in antioxidant defense were regulated, including upregulated CAT, SOD2, NFE2L2, GPx4, and downregulated PTGS2 and ACSL4. These results supplied a novel technique for prenylated resveratrols production.