药效团
生物信息学
褪黑素
虚拟筛选
褪黑激素受体
药物发现
计算生物学
兴奋剂
G蛋白偶联受体
药理学
阿戈美拉汀
受体
药品
生物
化学
生物信息学
神经科学
生物化学
抗抑郁药
海马体
基因
作者
Gian Marco Elisi,Laura Scalvini,Alessio Lodola,Annalida Bedini,Gilberto Spadoni,Silvia Rivara
标识
DOI:10.1080/17460441.2022.2043846
摘要
Introduction The neurohormone melatonin (N-acetyl-5-methoxytryptamine) regulates circadian rhythms exerting a variety of effects in the central nervous system and in periphery. These activities are mainly mediated by activation of MT1 and MT2 GPCRs. MT1/MT2 agonist compounds are used clinically for insomnia, depression, and circadian rhythm disturbances.Area covered The following review describes the design strategies that have led to the identification of melatonin receptor ligands, guided by in silico approaches and molecular modeling. Initial ligand-based design, mainly relying on pharmacophore modeling and 3D-QSAR, has been flanked by structure-based virtual screening, given the recent availability of MT1 and MT2 crystal structures. Receptor ligands with different activity profiles, agonist/antagonist and subtype-selective compounds, are available.Expert opinion An insight on the pharmacological characterization and therapeutic perspectives for relevant ligands is provided. In silico drug discovery has been instrumental in the design of novel ligands targeting melatonin receptors. Ligand-based approaches has led to the construction of a solid framework defining structure-activity relationships to obtain compounds with a tailored pharmacological profile. Structure-based techniques could integrate previous knowledge and provide compounds with novel chemotypes and pharmacological activity as drug candidates for disease conditions in which melatonin receptor ligands are currently being investigated, including cancer and pain.
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