Completing the Biosynthesis of the Clinically Important Diterpenoid Andrographolide in Andrographis paniculata.

IF 16.1 1区化学 Q1 CHEMISTRY, MULTIDISCIPLINARY

Angewandte Chemie International Edition Pub Date : 2025-05-14 DOI:10.1002/anie.202425303

Wei Sun,Sifan Wang,Miaomiao Liang,Weiqiang Chen,Huihua Wan,Xiangxiao Meng,Xuewen Zhu,Yuhong Lu,Qi Shen,Chunhong Jiang,Ning Xie,Shilin Chen,Meirong Jia

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Abstract

Andrographolide is a prominent labdane diterpenoid extracted from Andrographis paniculata, celebrated for its exceptional anti-inflammatory properties. Commercial production of andrographolide relies exclusively on extraction from plant resources. Although the scaffold of andrographolide referring to ent-copalol has previously been biosynthesized, further oxidative modifications remain elusive. In this study, by taking an integrated analysis of transcriptomes and metabolomes approach, we were able to identify four cytochrome P450 enzymes constituting the minimal set of andrographolide biosynthetic genes. Specifically, ApCYP71D587 catalyzes the conversion of ent-copalol to 19-hydroxy-ent-copalol. Subsequently, ApCYP71BE50 mediates the formation of the lactone ring, ultimately yielding andrograpanin. Then ApCYP706U5 accomplishes the third step by mediating the C-3 hydroxylation reaction, thereby allowing the formation of 14-deoxyandrographolide. Ultimately, ApCYP72F1 completes the biosynthetic generation of andrographolide with C-14 hydroxylation of the lactone and rearrangement of the olefin bond. In addition, co-expression of the minimal gene set in N. benthamiana engineered to produce ent-copalol feasibly produces andrographolide, thus establishing an innovative metabolic engineering strategy to produce this medicine of historical importance, circumventing the need for plant extraction.

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完成穿心莲中临床重要二萜类穿心莲内酯的生物合成。

穿心莲内酯是从穿心莲中提取的一种著名的唇丹二萜，以其独特的抗炎特性而闻名。穿心莲内酯的商业化生产完全依赖于从植物资源中提取。虽然穿心莲内酯的支架指的是前已生物合成，进一步的氧化修饰仍然是难以捉摸的。在这项研究中，通过对转录组和代谢组的综合分析，我们能够确定四种细胞色素P450酶构成了穿心花内酯生物合成基因的最小集合。具体来说，ApCYP71D587可以催化对羟基共醇转化为19-羟基对羟基共醇。随后，ApCYP71BE50介导内酯环的形成，最终产生穿心花苷。然后ApCYP706U5通过介导C-3羟基化反应完成第三步，从而形成14-脱氧穿心莲内酯。最终，ApCYP72F1通过内酯的C-14羟基化和烯烃键的重排完成穿心莲内酯的生物合成生成。此外，在N. benthamiana中，通过共表达最小基因集来生产对戊共醇可以产生穿心莲内酯，从而建立了一种创新的代谢工程策略来生产这种具有历史意义的药物，从而绕过了对植物提取的需要。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Angewandte Chemie International Edition 化学-化学综合

CiteScore

26.60

自引率

6.60%

发文量

3549

审稿时长

1.5 months

期刊介绍： Angewandte Chemie, a journal of the German Chemical Society (GDCh), maintains a leading position among scholarly journals in general chemistry with an impressive Impact Factor of 16.6 (2022 Journal Citation Reports, Clarivate, 2023). Published weekly in a reader-friendly format, it features new articles almost every day. Established in 1887, Angewandte Chemie is a prominent chemistry journal, offering a dynamic blend of Review-type articles, Highlights, Communications, and Research Articles on a weekly basis, making it unique in the field.