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用于心血管疾病治疗中抑制SENP1的苄乙胍的计算机辅助药物重新利用

Computational drug repurposing of bethanidine for SENP1 inhibition in cardiovascular diseases treatment.

作者信息

Taghvaei Somayye, Minuchehr Zarrin, Sabouni Farzaneh

机构信息

Department of Medical Biotechnology, National Institute of Genetic Engineering and Biotechnology, Tehran, Iran.

Department of Systems Biotechnology, National Institute of Genetic Engineering and Biotechnology, Tehran, Iran.

出版信息

Life Sci. 2022 Mar 1;292:120122. doi: 10.1016/j.lfs.2021.120122. Epub 2021 Nov 6.

DOI:10.1016/j.lfs.2021.120122
PMID:34748762
Abstract

AIMS

Bethanidine (BW467C60) is a newly presented strong adrenergic neuron blocking factor which has a hypotensive operation in man. SENPs are essential for maintaining a balance between SUMOylation and deSUMOylation which can be disturbed by changing the expression of (sentrin-specific proteases) SENPs. SENP1 is the most studied isoform of SENPs. Hypertrophic stimuli can increase SENP1 expression using calcium/calcineurin-NFAT3 signaling in heart. Moreover, SENP1 expression may positively relate to the expression of mitochondrial genes of the heart, and can cause the heart and mitochondrial dysfunction.

MATERIALS AND METHODS

In order to inhibit SENP1 using Bethanidine, molecular docking and molecular dynamics (MD) simulation of SENP1 with Bethanidine were performed. Molecular docking showed that Bethanidine can inhibit SENP1.

KEY FINDINGS

MD Simulation showed that Bethanidine constitutes a stable complex with SENP1 as was evident from RMSD, RMSF, H-bond and DSSP plots. Free binding energy and the interaction patterns were obtained from molecular docking, and MD trajectory exhibited Bethanidine can be a potential drug candidate for SENP1 inhibition.

SIGNIFICANCE

This study supplies enough evidences that Bethanidine is a potential inhibitor of SENP1 and can be applied for the treatment of cardiovascular diseases.

摘要

目的

苄胍(BW467C60)是一种新发现的强效肾上腺素能神经元阻断因子,对人体有降压作用。Sentrin特异性蛋白酶(SENPs)对于维持SUMO化和去SUMO化之间的平衡至关重要,而改变SENPs的表达可能会扰乱这种平衡。SENP1是研究最多的SENPs亚型。肥大刺激可通过心脏中的钙/钙调神经磷酸酶-NFAT3信号通路增加SENP1的表达。此外,SENP1的表达可能与心脏线粒体基因的表达呈正相关,并可导致心脏和线粒体功能障碍。

材料与方法

为了用苄胍抑制SENP1,对SENP1与苄胍进行了分子对接和分子动力学(MD)模拟。分子对接显示苄胍可以抑制SENP1。

主要发现

MD模拟表明,从均方根偏差(RMSD)、均方根波动(RMSF)、氢键和蛋白质二级结构预测(DSSP)图可以明显看出,苄胍与SENP1形成了稳定的复合物。从分子对接中获得了自由结合能和相互作用模式,MD轨迹显示苄胍可能是一种潜在的SENP1抑制药物候选物。

意义

本研究提供了充分的证据表明苄胍是一种潜在的SENP1抑制剂,可用于治疗心血管疾病。

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