Biosynthetic pathway of prescription cucurbitacin IIa and high-level production of key triterpenoid intermediates in engineered yeast and tobacco

Cucurbitacin IIa is a triterpenoid isolated exclusively from Hemsleya plants and a non-steroidal anti-inflammatory drug that functions as the main ingredient of prescription Hemslecin capsules and tablets in China. Synthetic biology provides new strategies for production of such valuable cucurbitaci...

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Published in:Plant communications 2024-06, Vol.5 (6), p.100835, Article 100835
Main Authors: Chen, Geng, Guo, Zhaokuan, Shu, Yanyu, Zhao, Yan, Qiu, Lei, Duan, Shaofeng, Lin, Yuan, He, Simei, Li, Xiaobo, Feng, Xiaolin, Xiang, Guisheng, Nian, Bo, Wang, Yina, Li, Zhiyuan, Chongkang Yang, Shi, Yang, Lu, Yingchun, Liu, Guanze, Yang, Shengchao, Zhang, Guanghui, Hao, Bing
Format: Article
Language:English
Subjects:
11-carbonyl-20β-hydroxy-Cuol
cucurbitacin IIa
Hemsleya chinensis
Nicotiana benthamiana
OSC
oxidosqualene cyclase
Saccharomyces cerevisiae
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Summary:Cucurbitacin IIa is a triterpenoid isolated exclusively from Hemsleya plants and a non-steroidal anti-inflammatory drug that functions as the main ingredient of prescription Hemslecin capsules and tablets in China. Synthetic biology provides new strategies for production of such valuable cucurbitacins at a large scale; however, the biosynthetic pathway of cucurbitacin IIa has been unknown, and the heterologous production of cucurbitacins in galactose medium has been expensive and low yielding. In this study, we characterized the functions of genes encoding two squalene epoxidases (HcSE1–2), six oxidosqualene cyclases (HcOSC1–6), two CYP450s (HcCYP87D20 and HcCYP81Q59), and an acyltransferase (HcAT1) in cucurbitacin IIa biosynthesis by heterologous expression in Saccharomyces cerevisiae and Nicotiana benthamiana. We achieved high-level production of the key cucurbitacin precursor 11-carbonyl-20β-hydroxy-Cuol from glucose in yeast via modular engineering of the mevalonate pathway and optimization of P450 expression levels. The resulting yields of 46.41 mg/l 11-carbonyl-20β-hydroxy-Cuol and 126.47 mg/l total cucurbitacin triterpenoids in shake flasks are the highest yields yet reported from engineered microbes. Subsequently, production of 11-carbonyl-20β-hydroxy-Cuol by transient gene expression in tobacco resulted in yields of 1.28 mg/g dry weight in leaves. This work reveals the key genes involved in biosynthesis of prescription cucurbitacin IIa and demonstrates that engineered yeast cultivated with glucose can produce high yields of key triterpenoid intermediates. We describe a low-cost and highly efficient platform for rapid screening of candidate genes and high-yield production of pharmacological triterpenoids. This work reveals the biosynthetic pathway of prescription cucurbitacin IIa and demonstrates the reconstruction of the cucurbitacin triterpenoid pathway in engineered yeast and tobacco for high-level production.
ISSN:2590-3462
2590-3462
DOI:10.1016/j.xplc.2024.100835