Overproduction of medicinal ergot alkaloids based on a fungal platform.

Yongpeng Yao, Wei Wang, Wenyu Shi, Rui Yan, Jun Zhang, Guangzheng Wei, Ling Liu, Yongsheng Che, Chunyan An, Shu-Shan Gao

Metabolic engineering 2022 Jan

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Privileged ergot alkaloids (EAs) produced by the fungal genus Claviceps are used to treat a wide range of diseases. However, their use and research have been hampered by the challenging genetic engineering of Claviceps. Here we systematically refactored and rationally engineered the EA biosynthetic pathway in heterologous host Aspergillus nidulans by using a Fungal-Yeast-Shuttle-Vector protocol. The obtained strains allowed the production of diverse EAs and related intermediates, including prechanoclavine (PCC, 333.8 mg/L), chanoclavine (CC, 241.0 mg/L), agroclavine (AC, 78.7 mg/L), and festuclavine (FC, 99.2 mg/L), etc. This fungal platform also enabled the access to the methyl-oxidized EAs (MOEAs), including elymoclavine (EC), lysergic acid (LA), dihydroelysergol (DHLG), and dihydrolysergic acid (DHLA), by overexpressing a P450 enzyme CloA. Furthermore, by optimizing the P450 electron transfer (ET) pathway and using multi-copy of cloA, the titers of EC and DHLG have been improved by 17.3- and 9.4-fold, respectively. Beyond our demonstration of A. nidulans as a robust platform for EA overproduction, our study offers a proof of concept for engineering the eukaryotic P450s-contained biosynthetic pathways in a filamentous fungal host. Copyright © 2021. Published by Elsevier Inc.

Citation

Yongpeng Yao, Wei Wang, Wenyu Shi, Rui Yan, Jun Zhang, Guangzheng Wei, Ling Liu, Yongsheng Che, Chunyan An, Shu-Shan Gao. Overproduction of medicinal ergot alkaloids based on a fungal platform. Metabolic engineering. 2022 Jan;69:198-208