Zhu Xue-Lin, Wen Chao, Ye Qing-Mei, Xu Wei, Zou Deng-Lang, Liang Guang-Ping, Zhang Fan, Chen Wan-Na, Jiang Ren-Wang
Guangdong Province Key Laboratory of Pharmacodynamic Constituents of TCM and New Drugs Research, College of Pharmacy, Jinan University Guangzhou 510632 P. R. China
Department of Pharmacy, Hainan General Hospital Haikou 570311 P. R. China.
RSC Adv. 2018 Jan 30;8(10):5071-5078. doi: 10.1039/c7ra11979h. eCollection 2018 Jan 29.
The glycosyltransferase OleD variant as a catalyst for the glycosylation of four pairs of epimers of cardiotonic steroids (CTS) are assessed. The results of this study demonstrated that the OleD-catalyze glycosylation of CTS is significantly influenced by the configuration at C-3 and the A/B fusion mode. 3β-OH and A/B ring fusion are favoured by OleD (ASP). An epoxide ring at C-14 and C-15 further increases the bioconversion rate; while an acetyl group at C-16 and lactone ring type at C-17 did not influence the biotransformation. A high conversion rate corresponded to a low value. A molecular docking simulation showed that filling of hydrophobic pocket II and interaction with residue Tyr115 may play an important role in the glycosylation reactions catalyzed by OleD glycosyltransferases. Furthermore, the glycosylation products showed a stronger inhibitory activity for Na, K-ATPase than the corresponding aglycones. This study provides the first stereoselective properties for OleD (ASP) catalyzed glycosylation.
评估了糖基转移酶OleD变体作为强心甾体(CTS)四对对映异构体糖基化催化剂的性能。本研究结果表明,OleD催化的CTS糖基化受到C-3位构型和A/B环稠合模式的显著影响。OleD(ASP)更倾向于3β-OH和A/B环稠合。C-14和C-15位的环氧环进一步提高了生物转化率;而C-16位的乙酰基和C-17位的内酯环类型不影响生物转化。高转化率对应低 值。分子对接模拟表明,疏水口袋II的填充以及与残基Tyr115的相互作用可能在OleD糖基转移酶催化的糖基化反应中起重要作用。此外,糖基化产物对Na,K-ATP酶的抑制活性比相应的苷元更强。本研究首次提供了OleD(ASP)催化糖基化的立体选择性特性。