AaWRKY6 contributes to artemisinin accumulation during growth in Artemisia annua

Artemisinin, which is extracted from the plant Artemisia annua L., is a crucial drug for curing malaria and has potential applications for treating cancer, diabetes, pulmonary tuberculosis, and other conditions. Demand for artemisinin is therefore high, and enhancing its yield is important. Artemisinin dynamics change during the growth cycle of A. annua; however, the regulatory networks underlying these changes are poorly understood. Here, we collected A. annua leaves at different growth stages and identified target genes from transcriptome data. We determined that WRKY6 binds to the promoters of the artemisinin biosynthesis gene artemisinic aldehyde A11 (13) reductase (DBR2). In agreement, overexpression of WRKY6 in A. annua resulted in higher expression levels of genes in the artemisinin biosynthesis pathway and greater artemisinin contents than in the wild type. When expression of WRKY6 was down-regulated, artemisinin biosynthesis pathway genes were also down-regulated and the content of artemisinin was lower. WRKY6 mediates the transcriptional activation of artemisinin biosynthesis by binding to the promoter of DBR2, making it a key regulator for modulating the dynamics of artemisinin changes during the A. annua growth cycle.

Automated summary

Artemisinin, extracted from Artemisia annua L., is an important drug for malaria treatment and has potential applications in other diseases. The regulatory mechanism of artemisinin production is still not well understood. In this study, WRKY6 was identified as a key transcription factor that binds to the promoter of the artemisinin biosynthesis gene DBR2, thereby regulating artemisinin synthesis and content during the growth cycle of A. annua.