Evaluation of pH change effects on the HSA folding and its drug binding characteristics, a computational biology investigation

M. M. Gomari, N. Rostami, Davood Rabiei Faradonbeh, H. R. Asemaneh, G. Esmailnia, S. Arab, M. Farsimadan, Arshad Hosseini, N. Dokholyan
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引用次数: 2

Abstract

The binding of therapeutics to human serum albumin (HSA), which is an abundant protein in plasma poses a major challenge in drug discovery. Although HSA has several binding pockets, the binding site I on D2 and binding site II on D3 are the main binding pockets of HSA. To date, a few experiments have been conducted to examine the effects of the potential of hydrogen (pH) changes on HSA attributes. In the present investigation, the effect of acidic (pH 7.1) and basic states (pH 7.7) on HSA structure and its drug binding potency were examined in comparison with the physiological state (pH 7.4). For this purpose, molecular dynamics (MD), free energy landscape (FEL), principal component analysis (PCA), probability distribution function (PDF), tunnel‐cavity investigation, secondary structure analysis, docking study, and free energy investigation were employed to investigate the effect of pH changes on the structural characteristics of HSA at the atomic level. The results obtained from this study revealed the significant effect of pH alterations on the secondary and tertiary structure of HSA. In addition, HSA stability and its drug binding ability can be severely affected following pH changes. Given that pH change frequently occurs in various diseases such as cancer, diabetes, and kidney failure, therefore, pharmaceutical companies should allocate specific consideration to this subject throughout their drug design experiments.
评价pH变化对HSA折叠及其药物结合特性的影响,一项计算生物学研究
人血清白蛋白(HSA)是血浆中的一种丰富蛋白,其与治疗药物的结合是药物发现的一个重大挑战。虽然HSA有几个结合袋,但D2上的结合位点I和D3上的结合位点II是HSA的主要结合袋。迄今为止,已经进行了一些实验来检查氢电位(pH)变化对HSA属性的影响。本研究考察了酸性(pH 7.1)和碱性(pH 7.7)与生理状态(pH 7.4)对HSA结构和药物结合力的影响。为此,采用分子动力学(MD)、自由能景观(FEL)、主成分分析(PCA)、概率分布函数(PDF)、隧道腔研究、二级结构分析、对接研究和自由能研究等方法,在原子水平上研究了pH变化对HSA结构特性的影响。本研究结果揭示了pH变化对HSA二级和三级结构的显著影响。此外,HSA的稳定性和药物结合能力在pH变化后会受到严重影响。由于pH值的变化经常发生在癌症、糖尿病、肾衰竭等各种疾病中,因此,制药公司在其药物设计实验中应特别考虑这一主题。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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