Modern Research Center for Traditional Chinese Medicine, Beijing University of Chinese Medicine, Beijing 100029, People's Republic of China.
State Key Laboratory of Natural and Biomimetic Drugs, School of Pharmaceutical Sciences, Peking University, Beijing 100191, People's Republic of China.
J Nat Prod. 2022 Jul 22;85(7):1826-1836. doi: 10.1021/acs.jnatprod.2c00407. Epub 2022 Jul 6.
Multiple-glycosylated glycosides are a major source of bioactive leads. However, most of the currently reported glycosyltransferases (GTases) mainly catalyze glycosylation of aglycones without sugar group substitution. GTases accepting diverse glycosides as substrates are rarely reported. In this article, a new GTase UGT71BD1 was identified from , a desert herb plant abundant with various phenylethanoid glycosides (PhGs). Interestingly, UGT71BD1 showed no activity toward the aglycone of PhGs. Instead, it could catalyze the further glycosylation of PhG compounds to produce new phenylethanoid multiglycosylated glycosides, including the natural rarely separated tetraglycoside PhGs. Extensive assays found the unprecedented substrate promiscuity of UGT71BD1 toward diverse glycosides including flavonoid glycosides, stilbene glycosides, and coumarin glycosides, performing further mono- or diglycosylation with efficient conversion rates. Using UGT71BD1, six multiglycosylated glycosides were prepared and structurally identified by NMR spectroscopy. These products showed enhanced pharmacological activities compared with the substrates. Docking, dynamic simulation, and mutagenesis studies identified key residues for UGT71BD1's activity and revealed that the sugar modules in glycosides play crucial roles in substrate recognition, thus partly illuminating the unusual substrate preference of UGT71BD1 toward diverse glycosides. UGT71BD1 could be a potential enzyme tool for glycosylation of diverse glycosides.
多糖基化糖苷是生物活性先导化合物的主要来源。然而,目前报道的大多数糖基转移酶(GTases)主要催化苷元的糖基化,而不进行糖基取代。很少有报道称 GTases 能接受各种糖苷作为底物。本文从一种富含各种苯乙醇苷(PhGs)的沙漠草本植物 中鉴定出一种新的 GTase UGT71BD1。有趣的是,UGT71BD1 对 PhGs 的苷元没有活性。相反,它可以催化 PhG 化合物的进一步糖基化,产生新的苯乙醇多糖基化糖苷,包括天然分离较少的四糖苷 PhGs。广泛的测定发现 UGT71BD1 对各种糖苷具有前所未有的底物混杂性,包括黄酮糖苷、芪糖苷和香豆素糖苷,具有高效的转化率进行进一步的单糖或二糖基化。使用 UGT71BD1,通过 NMR 光谱学制备并结构鉴定了六种多糖基化糖苷。与底物相比,这些产物表现出增强的药理活性。对接、动态模拟和突变研究确定了 UGT71BD1 活性的关键残基,并揭示了糖苷中糖基模块在底物识别中的关键作用,从而部分阐明了 UGT71BD1 对各种糖苷的异常底物偏好。UGT71BD1 可能是一种用于各种糖苷糖基化的潜在酶工具。
