内生真菌长蠕孢Alternaria eureka 对新鲁斯可皂苷元的生物转化。

Biotransformation of Neoruscogenin by the Endophytic Fungus Alternaria eureka.

机构信息

Department of Pharmacognosy, Faculty of Pharmacy , Ege University , 35100 Bornova - İzmir , Turkey.

Bionorm Natural Products Production & Marketing Corp., İTOB , 35477 Menderes - İzmir , Turkey.

出版信息

J Nat Prod. 2018 Jun 22;81(6):1357-1367. doi: 10.1021/acs.jnatprod.7b00898. Epub 2018 Jun 12.

DOI:10.1021/acs.jnatprod.7b00898

PMID:29893560

Abstract

Biotransformation of neoruscogenin (NR, 1, spirosta-5,25(27)-diene-1β,3β-diol), the major bioactive sapogenin of Ruscus preparations, was carried out with the endophytic fungus Alternaria eureka. Fourteen new biotransformation products (2-15) were isolated, and their structures were elucidated by NMR and HRESIMS data analyses. A. eureka affected mainly oxygenation, oxidation, and epoxidation reactions on the B and C rings of the sapogenin to afford compounds 8-15. In addition to these, cleavage of the spiroketal system as in compounds 2-7 and subsequent transformations provided unusual metabolites. This is the first study reporting conversion of the spirostanol skeleton to cholestane-type metabolites 2-5. Additionally, the cleavage of the C-22/C-26 oxygen bridge yielding a furostanol-type steroidal framework and subsequent formation of the epoxy bridge between C-18 and C-22 in 7 was encountered for the first time in steroid chemistry.

摘要

采用内生真菌Alternaria eureka 对毛蕊异黄酮葡萄糖苷（NR，1，螺甾-5,25(27)-二烯-1β,3β-二醇）进行生物转化，该化合物是毛蕊花属植物制剂中的主要生物活性甾体皂苷元。从反应液中分离得到了 14 个新的转化产物（2-15），通过 NMR 和 HRESIMS 数据分析阐明了它们的结构。A. eureka 主要影响甾体皂苷元 B 环和 C 环上的氧化、氧化和环氧化反应，生成化合物 8-15。除了这些，螺缩酮系统的裂解，如在化合物 2-7 中发生的，以及随后的转化提供了不寻常的代谢物。这是首例报道将螺甾烷骨架转化为甾体母核的化合物 2-5。此外，在甾体化学中，首次遇到 C-22/C-26 氧桥断裂生成呋甾烷型甾体骨架，随后在 7 中形成 C-18 和 C-22 之间的环氧桥。

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内生真菌长蠕孢Alternaria eureka 对新鲁斯可皂苷元的生物转化。

Biotransformation of Neoruscogenin by the Endophytic Fungus Alternaria eureka.

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