Metabologenomic Hallmark‐Based Discovery of Bacterial Thioamides as a New Lead against Drug‐Resistant Pancreatic Cancer

硫代酰胺 化学 胰腺癌 铅化合物 体外 计算生物学 组合化学 生物化学 癌症研究 癌症 立体化学 前药 DNA 基因组DNA 结构-活动关系 抑制性突触后电位 生物合成 药物发现 体内 链霉菌 癌细胞 寡核苷酸 高通量筛选 代谢稳定性 基因
作者
Young Eun Du,Eun Seo Bae,Thinh T. M. Bui,Seok Beom Lee,Seok Beom Lee,Dahan Kim,Jin‐Gyeong Park,YongJoo Park,Soo Yeon Park,Sangwook Kang,B. Lee,Daniel Shin,Yun Pyo Kang,In‐Gyun Lee,Dae‐Duk Kim,Seokhee Kim,Suckchang Hong,Kyuho Moon,Sang Kook Lee,Sang Kook Lee
出处
期刊:Advanced Science [Wiley]
卷期号:: e17849-e17849
标识
DOI:10.1002/advs.202517849
摘要

Thioamides constitute an important class of pharmaceutically active natural products, yet their discovery and development are limited. A targeted metabologenomic method is developed to logically and efficiently discover thioamide compounds in bacteria. To this end, two strains were identified to possess genetic capacity for biosynthesizing thioamides from the bacterial genomic DNA library (1,192 strains) using the polymerase chain reaction to target the TfuA-encoding gene, a genomic hallmark of thioamide biosynthesis. Mass spectrometric isotopic patterns of sulfur-bearing compounds serve as metabolomic hallmarks to detect thioamide production from the extracts of the selected strains without chromatography. Applying this metabologenomic targeting approach, two new thioamides, thiogochangamides A and B, belonging to the thioviridamide family whose stereochemistry has remained unresolved for two decades, were discovered in Streptomyces sp. Their absolute configurations were fully assigned through chemical derivatizations, including the advanced Marfey method, Mosher method, partial hydrolysis, synthesis of an unusual amino acid, and desulfurization, combined with computational methods. Thiogochangamide B exhibits potent inhibitory activity against gemcitabine-resistant pancreatic cancer cells both in vitro and in vivo. Mechanistically, thiogochangamide B effectively downregulates Wnt/β-catenin signaling, thereby suppressing the metastatic potential of drug-resistant cancer cells. This study provides a new therapeutic strategy for overcoming recalcitrant drug-resistant pancreatic cancer.
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