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揭示酵母乙酰辅酶 A 羧化酶突变体 F510I、N485G、I69E、E477R 和 K73R 对索拉非尼耐药的分子机制。

Insight into the molecular mechanism of yeast acetyl-coenzyme A carboxylase mutants F510I, N485G, I69E, E477R, and K73R resistant to soraphen A.

机构信息

Jiangsu Key Laboratory of New Drug Research and Clinical Pharmacy, Xuzhou Medical University, Xuzhou, 221004, Jiangsu, People's Republic of China.

出版信息

J Comput Aided Mol Des. 2018 Apr;32(4):547-557. doi: 10.1007/s10822-018-0108-z. Epub 2018 Feb 20.

DOI:10.1007/s10822-018-0108-z
PMID:29464467
Abstract

Acetyl-coenzyme A carboxylases (ACCs) is the first committed enzyme of fatty acid synthesis pathway. The inhibition of ACC is thought to be beneficial not only for diseases related to metabolism, such as type-2 diabetes, but also for infectious disease like bacterial infection disease. Soraphen A, a potent allosteric inhibitor of BC domain of yeast ACC, exhibit lower binding affinities to several yeast ACC mutants and the corresponding drug resistance mechanisms are still unknown. We report here a theoretical study of binding of soraphen A to wild type and yeast ACC mutants (including F510I, N485G, I69E, E477R, and K73R) via molecular dynamic simulation and molecular mechanics/generalized Born surface area free energy calculations methods. The calculated binding free energies of soraphen A to yeast ACC mutants are weaker than to wild type, which is highly consistent with the experimental results. The mutant F510I weakens the binding affinity of soraphen A to yeast ACC mainly by decreasing the van der Waals contributions, while the weaker binding affinities of Soraphen A to other yeast ACC mutants including N485G, I69E, E477R, and K73R are largely attributed to the decreased net electrostatic (ΔE + ΔG) interactions. Our simulation results could provide important insights for the development of more potent ACC inhibitors.

摘要

乙酰辅酶 A 羧化酶(ACCs)是脂肪酸合成途径中的第一个关键酶。抑制 ACC 不仅对 2 型糖尿病等代谢相关疾病有益,而且对细菌感染等传染病也有益。Soraphen A 是一种强效的酵母 ACC BC 结构域的变构抑制剂,对几种酵母 ACC 突变体的结合亲和力较低,其相应的耐药机制尚不清楚。我们通过分子动力学模拟和分子力学/广义 Born 表面积自由能计算方法,对 Soraphen A 与野生型和酵母 ACC 突变体(包括 F510I、N485G、I69E、E477R 和 K73R)的结合进行了理论研究。计算得到的 Soraphen A 与酵母 ACC 突变体的结合自由能比野生型弱,这与实验结果高度一致。突变体 F510I 主要通过降低范德华相互作用来削弱 Soraphen A 与酵母 ACC 的结合亲和力,而 Soraphen A 与其他酵母 ACC 突变体(包括 N485G、I69E、E477R 和 K73R)的结合亲和力较弱则主要归因于静电(ΔE+ΔG)相互作用的减少。我们的模拟结果可为开发更有效的 ACC 抑制剂提供重要的见解。

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Acetyl-CoA carboxylase inhibition by ND-630 reduces hepatic steatosis, improves insulin sensitivity, and modulates dyslipidemia in rats.ND - 630对乙酰辅酶A羧化酶的抑制作用可减轻大鼠肝脏脂肪变性,改善胰岛素敏感性并调节血脂异常。
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Chemical inhibition of acetyl-CoA carboxylase suppresses self-renewal growth of cancer stem cells.乙酰辅酶A羧化酶的化学抑制作用可抑制癌症干细胞的自我更新生长。
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