Mechanistic insights into sodium ion-mediated ligand binding affinity and modulation of 5-HT2B GPCR activity: implications for drug discovery and development.

IF 2.6 4区 生物学 Q3 BIOCHEMISTRY & MOLECULAR BIOLOGY Journal of Receptors and Signal Transduction Pub Date : 2024-02-01 Epub Date: 2024-03-26 DOI:10.1080/10799893.2024.2332886
Arushi Chauhan, Jitender Singh, Namrata Sangwan, Pramod K Avti
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Abstract

Purpose: The G-protein coupled receptor (GPCR) family, implicated in neurological disorders and drug targets, includes the sensitive serotonin receptor subtype, 5-HT2B. The influence of sodium ions on ligand binding at the receptor's allosteric region is being increasingly studied for its impact on receptor structure.

Methods: High-throughput virtual screening of three libraries, specifically the Asinex-GPCR library, which contains 8,532 compounds and FDA-approved (2466 compounds) and investigational compounds (2731)) against the modeled receptor [4IB4-5HT2BRM] using the standard agonist/antagonist (Ergotamine/Methysergide), as previously selected from our studies based on ADMET profiling, and further on basis of binding free energy a single compound - dihydroergotamine is chosen.

Results: This compound displayed strong interactions with the conserved active site. Ions influence ligand binding, with stronger interactions (3-H-bonds and 1-π-bond around 3.35 Å) observed when an agonist and ions are present. Ions entry is guided by conserved motifs in helices III, IV, and VII, which regulate the receptor. Dihydroergotamine, the selected drug, showed binding variance based on ions presence/absence, affecting amino acid residues in these motifs. DCCM and PCA confirmed the stabilization of ligands, with a greater correlation (∼46.6%-PC1) observed with ions. Dihydroergotamine-modified interaction sites within the receptor necessary for activation, serving as a potential 5HT2BRM agonist. RDF analysis showed the sodium ions density around the active site during dihydroergotamine binding.

Conclusion: Our study provides insights into sodium ion mobility's role in controlling ligand binding affinity in 5HT2BR, offering therapeutic development insights.

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钠离子介导的配体结合亲和力和 5-HT2B GPCR 活性调节的机理研究:对药物发现和开发的启示。
目的:G-蛋白偶联受体(GPCR)家族与神经系统疾病和药物靶点有关,其中包括敏感的血清素受体亚型 5-HT2B。钠离子对受体异构区配体结合的影响正越来越多地被研究,以了解其对受体结构的影响。方法:针对模型受体[4IB4-5HT2BRM],使用标准激动剂/拮抗剂(麦角胺/美塞格列)对三个化合物库进行高通量虚拟筛选,特别是Asinex-GPCR化合物库,其中包含8532种化合物,以及FDA批准的化合物(2466种)和研究化合物(2731种):结果:该化合物与保守的活性位点有很强的相互作用。离子会影响配体的结合,当存在激动剂和离子时,会观察到更强的相互作用(3-H 键和 1-π 键,约 3.35 Å)。离子的进入由螺旋 III、IV 和 VII 中的保守基团引导,这些基团可调节受体。所选药物二氢麦角胺根据离子的存在/不存在显示出结合差异,影响了这些基团中的氨基酸残基。DCCM 和 PCA 证实了配体的稳定性,观察到配体与离子的相关性更大(∼46.6%-PC1)。二氢麦角胺修饰了激活受体所需的相互作用位点,可作为潜在的 5HT2BRM 激动剂。RDF 分析表明,在二氢麦角胺结合过程中,活性位点周围的钠离子密度较大:我们的研究深入揭示了钠离子迁移在控制 5HT2BR 中配体结合亲和力中的作用,为治疗开发提供了启示。
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来源期刊
Journal of Receptors and Signal Transduction
Journal of Receptors and Signal Transduction 生物-生化与分子生物学
CiteScore
6.60
自引率
0.00%
发文量
19
审稿时长
>12 weeks
期刊介绍: Journal of Receptors and Signal Tranduction is included in the following abstracting and indexing services: BIOBASE; Biochemistry and Biophysics Citation Index; Biological Abstracts; BIOSIS Full Coverage Shared; BIOSIS Previews; Biotechnology Abstracts; Current Contents/Life Sciences; Derwent Chimera; Derwent Drug File; EMBASE; EMBIOLOGY; Journal Citation Reports/ Science Edition; PubMed/MedLine; Science Citation Index; SciSearch; SCOPUS; SIIC.
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