Accurate calculation of affinity changes to the close state of influenza A M2 transmembrane domain in response to subtle structural changes of adamantyl amines using free energy perturbation methods in different lipid bilayers

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS

ACS Applied Bio Materials Pub Date : 2023-11-22 DOI:10.1016/j.bbamem.2023.184258

Kyriakos Georgiou , Athina Konstantinidi , Johanna Hutterer , Kathrin Freudenberger , Felix Kolarov , George Lambrinidis , Ioannis Stylianakis , Margarita Stampelou , Günter Gauglitz , Antonios Kolocouris

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Abstract

Experimental binding free energies of 27 adamantyl amines against the influenza M2(22-46) WT tetramer, in its closed form at pH 8, were measured by ITC in DPC micelles. The measured K_d's range is ~44 while the antiviral potencies (IC₅₀) range is ~750 with a good correlation between binding free energies computed with K_d and IC₅₀ values (r = 0.76). We explored with MD simulations (ff19sb, CHARMM36m) the binding profile of complexes with strong, moderate and weak binders embedded in DMPC, DPPC, POPC or a viral mimetic membrane and using different experimental starting structures of M2.

To predict accurately differences in binding free energy in response to subtle changes in the structure of the ligands, we performed 18 alchemical perturbative single topology FEP/MD NPT simulations (OPLS2005) using the BAR estimator (Desmond software) and 20 dual topology calculations TI/MD NVT simulations (ff19sb) using the MBAR estimator (Amber software) for adamantyl amines in complex with M2(22-46) WT in DMPC, DPPC, POPC. We observed that both methods with all lipids show a very good correlation between the experimental and calculated relative binding free energies (r = 0.77–0.87, mue = 0.36–0.92 kcal mol^-1) with the highest performance achieved with TI/MBAR and lowest performance with FEP/BAR in DMPC bilayers. When antiviral potencies are used instead of the K_d values for computing the experimental binding free energies we obtained also good performance with both FEP/BAR (r = 0.83, mue = 0.75 kcal mol^-1) and TI/MBAR (r = 0.69, mue = 0.77 kcal mol^-1).

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利用自由能摄动方法精确计算不同脂质双层中金刚胺的细微结构变化对流感A M2跨膜结构域闭合状态的亲和力变化。

在DPC胶束中，用ITC测量了27种金刚烷胺对封闭形式的流感病毒M2(22-46) WT四聚体(pH 8)的实验结合自由能。测得的Kd值范围为~44，抗病毒效价(IC50)范围为~750，用Kd计算的结合自由能与IC50值有良好的相关性(r = 0.76)。我们通过MD模拟(ff19sb, CHARMM36m)研究了嵌入DMPC、DPPC、POPC或病毒模拟膜的强、中、弱结合物配合物的结合谱，并使用不同的M2实验起始结构。为了准确预测配合体结构细微变化的结合自由能差异，我们使用BAR估计器(Desmond软件)进行了18次炼金术微动单拓扑FEP/MD NPT模拟(OPLS2005)，使用MBAR估计器(Amber软件)对DMPC, DPPC, POPC中含有M2(22-46) WT的金刚胺配合物进行了20次双拓扑计算TI/MD NVT模拟(ff19sb)。我们观察到，两种方法对所有脂类的实验和计算的相对结合自由能之间表现出非常好的相关性(r = 0.77-0.87,mu = 0.36-0.92 kcal mol-1)， TI/MBAR在DMPC双层中获得了最高的性能，FEP/BAR在DMPC双层中获得了最低的性能。当使用抗病毒药物的效能,而不是Kd值计算实验结合自由能我们也获得良好的性能与聚全氟乙丙烯/酒吧(r = 0.83,mue = 0.75  千卡 mol-1)和TI / MBAR (r = 0.69,mue = 0.77  千卡 mol-1)。

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来源期刊

ACS Applied Bio Materials Chemistry-Chemistry (all)

CiteScore

9.40

自引率

2.10%

发文量

464