Zhang Jingjing, Huang Jing, Yang Yufan, Zhao Daxin, Wang Cong, Zhong Peng, Jia Jianhua, Dang Weifan, Lu Qiwei, Zhang Chengyu, Yan Xiaohui
State Key Laboratory of Component-based Chinese Medicine, Tianjin University of Traditional Chinese Medicine, Tianjin 301617, China; Haihe Laboratory of Modern Chinese Medicine, Tianjin University of Traditional Chinese Medicine, Tianjin 301617, China.
State Key Laboratory of Component-based Chinese Medicine, Tianjin University of Traditional Chinese Medicine, Tianjin 301617, China; Haihe Laboratory of Modern Chinese Medicine, Tianjin University of Traditional Chinese Medicine, Tianjin 301617, China.
Int J Biol Macromol. 2024 Dec;283(Pt 4):137784. doi: 10.1016/j.ijbiomac.2024.137784. Epub 2024 Nov 16.
Icaritin (ICT), a compound with diverse biological activities derived from Epimedium folium, is typically present in low concentrations in EFs. However, the abundant glycosyl-modified ICT compounds facilitate its transformation into ICT. Current biocatalytic production faces challenges, including low conversion rates and limited enzyme activity. This study developed a one-pot enzymatic cascade strategy for directly biotransform crude extracts of Epimedium folium (EEF) to produce ICT. The feasibility of catalyzing different ICT-related compounds in EEF was validated through molecular docking and substrate reactions. The selected glycosidase exhibited simultaneous activities as a glucosidase, xylosidase, and α-1,6-rhamnosidase, with the rhamnosidase showing outer-rhamnosidic activity and weak glucosidase activity. By using EFs as the substrate and employing whole-cells (Escherichia coli) containing LacS and BtRha proteins for synergistic catalysis, icariin can be efficiently synthesized within 6 h, achieving a conversion rate of 100 %. The enzymatic cascade for ICT production from crude extracts was elucidated by analyzing catalytic intermediates via HPLC. Compared to strategies using single or traditional multi-enzyme applications, this method shows advantages of ease to operation, high efficiency, and large production yield performance. This method has the potential to become an eco-friendly catalytic strategy for the large-scale production of icaritin.
淫羊藿素(ICT)是一种源自淫羊藿叶、具有多种生物活性的化合物,在淫羊藿叶中通常含量较低。然而,大量糖基修饰的ICT化合物有助于其转化为ICT。目前的生物催化生产面临挑战,包括转化率低和酶活性有限。本研究开发了一种一锅法酶促级联策略,用于直接将淫羊藿叶粗提物(EEF)生物转化以生产ICT。通过分子对接和底物反应验证了催化EEF中不同ICT相关化合物的可行性。所选糖苷酶同时具有葡萄糖苷酶、木糖苷酶和α-1,6-鼠李糖苷酶的活性,其中鼠李糖苷酶表现出外鼠李糖苷活性和较弱的葡萄糖苷酶活性。以淫羊藿叶为底物,利用含有LacS和BtRha蛋白的全细胞(大肠杆菌)进行协同催化,6小时内可高效合成淫羊藿素,转化率达到100%。通过HPLC分析催化中间体,阐明了从粗提物生产ICT的酶促级联反应。与使用单一酶或传统多酶应用的策略相比,该方法具有操作简便、效率高和产量大的优点。该方法有潜力成为一种环保的大规模生产淫羊藿素的催化策略。
