在结构相互作用的多样性空间中,机器退火引导人类ACE N-和c结构域之间降压食物肽选择性的导航

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS
Li Mei, Shuyong Shang, Shaozhou Wang, Haiyang Ye, Peng Zhou
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引用次数: 7

摘要

人类血管紧张素转换酶(ACE)是一种公认的治疗高血压(HTN)的药物靶点,它包含两个结构同源但功能不同的N-和C-结构域。C结构域的选择性抑制主要有助于提高降压效率,并可作为药物和功能性添加剂用于高安全性调节血压。在本研究中,我们使用机器退火(MA)策略,基于两个ACE结构域的晶体/建模复合物结构和内部蛋白质-肽亲和力评分功能,指导抗高血压肽(AHP)在结构相互作用多样性空间中的导航,旨在优化C结构域对N结构域的肽选择性。该策略生成了一组理论设计的AHP命中率,具有令人满意的C-over-N(C >; N) 选择性曲线,从中发现几个命中具有良好的C >; N的选择性,与天然C的BPPb大致相当,甚至更好 >; N-选择性ACE抑制肽。结构域-肽非共价相互作用模式的结构分析和比较表明:(i)较长的肽(>;4氨基aids)通常比较短的肽(<;4氨基aids)表现出更强的选择性;前者有助于肽亲和力(主要)和选择性(次要),而后者几乎只负责肽选择性,以及(iii)相对于疏水性/非极性氨基酸,带电/极性氨基酸赋予肽选择性(赋予肽亲和力)。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Machine annealing-guided navigation of antihypertensive food peptide selectivity between human ACE N- and C-domains in structurally interacting diversity space

Machine annealing-guided navigation of antihypertensive food peptide selectivity between human ACE N- and C-domains in structurally interacting diversity space

Human angiotensin-converting enzyme (ACE) is a well-established druggable target for the treatment of hypertension (HTN), which contains two structurally homologous but functionally distinct N- and C-domains. Selective inhibition of the C-domain primarily contributes to the antihypertensive efficiency and can be exploited as medicinal agents and functional additives for regulating blood pressure with high safety. In this study, we used a machine annealing (MA) strategy to guide the navigation of antihypertensive peptides (AHPs) in structurally interacting diversity space with the two ACE domains based on their crystal/modeled complex structures and an in-house protein-peptide affinity scoring function, aiming to optimize the peptide selectivity for C-domain over N-domain. The strategy generated a panel of theoretically designed AHP hits with a satisfactory C-over-N (C > N) selectivity profile, from which several hits were found to have a good C > N selectivity, which is roughly comparable with or even better than the BPPb, a natural C > N-selective ACE-inhibitory peptide. Structural analysis and comparison of domain-peptide noncovalent interaction patterns revealed that (i) longer peptides (>4 amino aids) generally exhibit stronger selectivity than shorter peptides (<4 amino aids), (ii) peptide sequence can be divided into two, section I (including peptide C-terminal region) and section II (including peptide middle and N-terminal regions); the former contributes to both peptide affinity (primarily) and selectivity (secondarily), while the latter is almost only responsible for peptide selectivity, and (iii) charged/polar amino acids confer to peptide selectivity relative to hydrophobic/nonpolar amino acids (that confer to peptide affinity).

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来源期刊
ACS Applied Bio Materials
ACS Applied Bio Materials Chemistry-Chemistry (all)
CiteScore
9.40
自引率
2.10%
发文量
464
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