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舒巴坦与野生型 SHV-1β-内酰胺酶反应的理论研究:酰化、互变异构和脱酰化。

Theoretical investigation on reaction of sulbactam with wild-type SHV-1 β-lactamase: acylation, tautomerization, and deacylation.

机构信息

The Department of Chemistry, National Sun Yat-Sen University, Kaohsiung 80424, Taiwan.

出版信息

J Phys Chem B. 2011 Sep 1;115(34):10298-310. doi: 10.1021/jp111572v. Epub 2011 Aug 10.

Abstract

Molecular dynamics (MD) simulation and quantum mechanical (QM) calculations were used to investigate the reaction mechanism of sulbactam with class A wild-type SHV-1 β-lactamase including acylation, tautomerization, and deacylation. Five different sulbactam-enzyme configurations were investigated by MD simulations. In the acylation step, we found that Glu166 cannot activate Ser70 directly for attacking on the carbonyl carbon, and Lys73 would participate in the reaction acting as a relay. Additionally, we found that sulbactam carboxyl can also act as a general base. QM calculations were performed on the formation mechanism of linear intermediates. We suggest that both imine and trans-enamine intermediates can be obtained in the opening of a five-membered thiazolidine ring. By MD simulation, we found that imine intermediate can exist in two conformations, which can generate subsequent trans- and cis-enamine intermediates, respectively. The QM calculations revealed that trans-enamine intermediate is much more stable than other intermediates. The deacylation mechanism of three linear intermediates (imine, trans-enamine, cis-enamine) was investigated separately. It is remarkably noted that, in cis-enamine intermediate, Glu166 cannot activate water for attacking on the carbonyl carbon directly. This leads to a decreasing of the deacylation rate of cis-enamine. These findings will be potentially useful in the development of new inhibitors.

摘要

采用分子动力学(MD)模拟和量子力学(QM)计算研究了包括酰化、互变异构和脱酰化在内的舒巴坦与 A 型野生型 SHV-1β-内酰胺酶的反应机制。通过 MD 模拟研究了五种不同的舒巴坦-酶构象。在酰化步骤中,我们发现 Glu166 不能直接激活 Ser70 进攻羰基碳,Lys73 将作为中继参与反应。此外,我们发现舒巴坦羧酸也可以作为广义碱。对线性中间体形成机制进行了 QM 计算。我们提出,在五元噻唑烷环的开环中可以得到亚胺和反式烯胺两种中间体。通过 MD 模拟,我们发现亚胺中间体可以存在两种构象,分别生成后续的反式和顺式烯胺中间体。QM 计算表明,反式烯胺中间体比其他中间体稳定得多。分别研究了三种线性中间体(亚胺、反式烯胺、顺式烯胺)的脱酰机制。值得注意的是,在顺式烯胺中间体中,Glu166 不能直接激活水进攻羰基碳。这导致顺式烯胺的脱酰速率降低。这些发现可能对新型抑制剂的开发有潜在的帮助。

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