Tripathi Neha, Leherte Laurence, Vercauteren Daniel P, Laurent Adèle D
Université de Nantes, CNRS, CEISAM UMR 6230, 44000, Nantes, France.
Unit of Theoretical and Structural Physical Chemistry, Department of Chemistry, NAmur Research Institute for LIfe Sciences (NARILIS), NAmur MEdicine & Drug Innovation Center (NAMEDIC), Namur Institute of Structured Matter (NISM), University of Namur, Rue de Bruxelles 61, 5000, Namur, Belgium.
J Comput Aided Mol Des. 2021 Mar;35(3):337-353. doi: 10.1007/s10822-020-00369-z. Epub 2021 Feb 3.
The immune system has very intricate mechanisms of fighting against the invading infections which are accomplished by a sequential event of molecular interactions in the body. One of the crucial phenomena in this process is the recognition of T-cells by the antigen-presenting cells (APCs), which is initiated by the rapid interaction between both cell surface receptors, i.e., CD2 located on T-cells and CD58 located on APCs. Under various pathological conditions, which involve undesired immune response, inhibiting the CD2-CD58 interactions becomes a therapeutically relevant opportunity. Herein we present an extensive work to identify novel inhibiting agents of the CD2-CD58 interactions. Classical molecular dynamics (MD) simulations of the CD2-CD58 complex highlighted a series of crucial CD58 residues responsible for the interactions with CD2. Based on such results, a pharmacophore map, complementary to the CD2-binding site of CD58, was created and employed for virtual screening of ~ 300,000 available compounds. On the ~ 6000 compounds filtered from pharmacophore mapping, ADME screening leads to ~ 350 molecules. Molecular docking was then performed on these molecules, and fifteen compounds emerged with significant binding energy (< - 50 kcal/mol) for CD58. Finally, short MD simulations were performed in triplicate on each complex (i) to provide a microscopic view of the ligand binding and (ii) to rule out possibly weak binders of CD58 from the identified hits. At last, we suggest eight compounds for in vitro testing that were identified as promising hits to bind CD58 with a high binding affinity.
免疫系统具有非常复杂的机制来对抗入侵的感染,这是通过体内分子相互作用的一系列事件来实现的。这个过程中的关键现象之一是抗原呈递细胞(APC)对T细胞的识别,这是由两种细胞表面受体之间的快速相互作用引发的,即位于T细胞上的CD2和位于APC上的CD58。在各种涉及不良免疫反应的病理条件下,抑制CD2-CD58相互作用成为一个具有治疗意义的机会。在此,我们开展了一项广泛的工作来鉴定CD2-CD58相互作用的新型抑制剂。CD2-CD58复合物的经典分子动力学(MD)模拟突出了一系列负责与CD2相互作用的关键CD58残基。基于这些结果,创建了一个与CD58的CD2结合位点互补的药效团图谱,并用于对约300,000种可用化合物进行虚拟筛选。从药效团图谱筛选出的约6000种化合物经过ADME筛选后得到约350个分子。然后对这些分子进行分子对接,有15种化合物对CD58具有显著的结合能(< -50 kcal/mol)。最后,对每个复合物进行了三次重复的短MD模拟,(i)以提供配体结合的微观视图,(ii)从鉴定出的命中物中排除可能与CD58结合较弱的物质。最后,我们建议对8种化合物进行体外测试,这些化合物被确定为有望以高结合亲和力结合CD58的命中物。
