Targeted mutagenesis of CYP76AK2 and CYP76AK3 in Salvia miltiorrhiza reveals their roles in tanshinones biosynthetic pathway

Abstract

Salvia miltiorrhiza Bunge, belonging to Lamiaceae family, is one of the most important Chinese medicinal herbs. The dried roots, also called Danshen in Chinese, are usually used in the formula of Chinese traditional medicine due to the bioactive constituents known as phenolic acids and tanshinones, which are a group of abietane nor-diterpenoid quinone natural products. Cytochrome P450 enzymes (CYPs) usually play crucial roles in terpenoids synthesis, especially in hydroxylation processes. Up to now, several important P450 enzymes, such as CYP76AH1, CYP76AH3, CYP76AK1, CYP71D373, and CYP71D375, have been functionally characterized in the tanshinones biosynthetic pathway. Nevertheless, the tanshinones biosynthesis is a so complex network that more P450 enzymes should be identified and characterized. Here, we report two novel P450 enzymes CYP76AK2 and CYP76AK3 that are involved in tanshinones biosynthetic pathway. These two P450 enzymes were highly homologous to previously reported CYP76AK1 and showed the same expression profile as CYP76AK1. Also, CYP76AK2 and CYP76AK3 could be stimulated by MeJA and SA, resulting in increased expression. We used a triple-target CRISPR/Cas9 system to generate targeted mutagenesis of CYP76AK2 and CYP76AK3 in S. miltiorrhiza. The content of five major tanshinones was significantly reduced in both cyp76ak2 and cyp76ak3 mutants, indicating that the two enzymes might be involved in the biosynthesis of tanshinones. This study would provide a foundation for the catalytic function identification of CYP76AK2 and CYP76AK3, and further enrich the understanding of the network of tanshinones secondary metabolism synthesis as well.