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Main Authors: Yuan, Siwen, Zhuang, Shitao, Qiao, Yongkang, Wu, Qilin, Ma, Yutong, Chen, Senhua, Liu, Lan, Yan, Yan, Gao, Zhizeng
Format: Artículo científico
Language:en
Published: Journal of natural products 2025
Subjects:
Online Access:https://pubmed.ncbi.nlm.nih.gov/40580146/
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author Yuan, Siwen
Zhuang, Shitao
Qiao, Yongkang
Wu, Qilin
Ma, Yutong
Chen, Senhua
Liu, Lan
Yan, Yan
Gao, Zhizeng
author_facet Yuan, Siwen
Zhuang, Shitao
Qiao, Yongkang
Wu, Qilin
Ma, Yutong
Chen, Senhua
Liu, Lan
Yan, Yan
Gao, Zhizeng
Yuan, Siwen
Zhuang, Shitao
Qiao, Yongkang
Wu, Qilin
Ma, Yutong
Chen, Senhua
Liu, Lan
Yan, Yan
Gao, Zhizeng
collection PubMed - marine biology
contents Metabolic Shunting in Marine-Derived sp. SYSU-MS4722 Yields Diverse γ-Butyrolactone Derivatives with Anti-inflammatory Activity. Yuan, Siwen Zhuang, Shitao Qiao, Yongkang Wu, Qilin Ma, Yutong Chen, Senhua Liu, Lan Yan, Yan Gao, Zhizeng 4-Butyrolactone Anti-Inflammatory Agents Ascomycota Molecular Structure Humans Filamentous fungi have significant potential to produce diverse secondary metabolites. However, the majority of fungal biosynthetic gene clusters (BGCs) remain cryptic under standard laboratory conditions, thereby limiting the chances of discovering novel metabolites. In our previous study, the marine fungus sp. SYSU-MS4722 was found to contain 130 BGCs, despite predominately producing phomoxanthone A and its analogues. By deleting the polyketide synthase gene , which is responsible for the skeleton construction in the biosynthesis of phomoxanthone A, we successfully activated the metabolic shunting of sp. SYSU-MS4722, leading to the isolation of nine new γ-butyrolactone derivatives, colletolides C-K (-), along with known compound colletolide B (). Their structures were elucidated by 1D and 2D NMR, modified Mosher's method, ECD calculations, and DP4 probability analysis. All compounds were evaluated for anti-inflammatory activity by measuring IL-6 inhibition in A549 cells using ELISA. Compounds - exhibited anti-inflammatory activity, with EC values ranging from 24 to 106 μM. Among them, colletolide D () and colletolide B () showed the lowest EC values of 24 μM, indicating relatively stronger activity within this series. These findings indicate that colletolides D () and B () are promising lead compounds for anti-inflammatory drug development.
format Artículo científico
id pubmed_40580146
institution PubMed
language en
publishDate 2025
publisher Journal of natural products
record_format pubmed
spellingShingle Metabolic Shunting in Marine-Derived sp. SYSU-MS4722 Yields Diverse γ-Butyrolactone Derivatives with Anti-inflammatory Activity.
Yuan, Siwen
Zhuang, Shitao
Qiao, Yongkang
Wu, Qilin
Ma, Yutong
Chen, Senhua
Liu, Lan
Yan, Yan
Gao, Zhizeng
4-Butyrolactone
Anti-Inflammatory Agents
Ascomycota
Molecular Structure
Humans
Metabolic Shunting in Marine-Derived sp. SYSU-MS4722 Yields Diverse γ-Butyrolactone Derivatives with Anti-inflammatory Activity. Yuan, Siwen Zhuang, Shitao Qiao, Yongkang Wu, Qilin Ma, Yutong Chen, Senhua Liu, Lan Yan, Yan Gao, Zhizeng 4-Butyrolactone Anti-Inflammatory Agents Ascomycota Molecular Structure Humans Filamentous fungi have significant potential to produce diverse secondary metabolites. However, the majority of fungal biosynthetic gene clusters (BGCs) remain cryptic under standard laboratory conditions, thereby limiting the chances of discovering novel metabolites. In our previous study, the marine fungus sp. SYSU-MS4722 was found to contain 130 BGCs, despite predominately producing phomoxanthone A and its analogues. By deleting the polyketide synthase gene , which is responsible for the skeleton construction in the biosynthesis of phomoxanthone A, we successfully activated the metabolic shunting of sp. SYSU-MS4722, leading to the isolation of nine new γ-butyrolactone derivatives, colletolides C-K (-), along with known compound colletolide B (). Their structures were elucidated by 1D and 2D NMR, modified Mosher's method, ECD calculations, and DP4 probability analysis. All compounds were evaluated for anti-inflammatory activity by measuring IL-6 inhibition in A549 cells using ELISA. Compounds - exhibited anti-inflammatory activity, with EC values ranging from 24 to 106 μM. Among them, colletolide D () and colletolide B () showed the lowest EC values of 24 μM, indicating relatively stronger activity within this series. These findings indicate that colletolides D () and B () are promising lead compounds for anti-inflammatory drug development.
title Metabolic Shunting in Marine-Derived sp. SYSU-MS4722 Yields Diverse γ-Butyrolactone Derivatives with Anti-inflammatory Activity.
topic 4-Butyrolactone
Anti-Inflammatory Agents
Ascomycota
Molecular Structure
Humans
url https://pubmed.ncbi.nlm.nih.gov/40580146/