7-（2-氯苯基）-4-（4-甲基噻唑-5-基）-4,6,7,8-四氢喹啉-2,5（1H，3H）-二酮的合成、分子对接、ADMET研究及体外药理学研究

Q3 Pharmacology, Toxicology and Pharmaceutics

Research Results in Pharmacology Pub Date : 2022-02-16 DOI:10.3897/rrpharmacology.8.80504

A. D. Kravchenko, N. Pyatigorskaya, G. Brkich, L. Yevsieieva, A. Kyrychenko, S. Kovalenko

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引用次数: 1

摘要

导读:发现能够阻断疼痛信号传递的新型药物来治疗各种病因的疼痛是药剂学领域的一个迫切课题。本文合成了一种新型化合物:7-(2-氯苯基)-4-(4-甲基噻唑-5-基)-4,6,7,8-四氢喹啉-2,5(1H,3H)-二酮(HSV-DKH-0450)，并对其进行了体外和硅内表征。材料与方法:采用表达iptg诱导的TRPA1离子通道的HEK293培养细胞，研究HSV-DKH-0450的特异性活性及抑制机制。通过估计HSV-DKH-0450与hERG通道的结合来确定心脏毒性。通过对细胞色素1A2、2C9、2D6、2C8和3A4活性的影响来确定对人肝细胞色素的抑制作用。通过对人肝细胞活力的影响来评估细胞毒性。使用admetSAR和SwissADME网络工具评估ADMET特性。使用AutoDock Vina工具进行分子对接，预测所有HSV-DKH-0450立体异构体对TRPA1和TRPV1受体的结合亲和力。结果和讨论:对HSV-DKH-0450 ADMET特性的计算机预测表明，它具有最佳的药物特性。一系列体外药理研究表明，HSV-DKH-0450是一种很有前景的TRPA1离子通道拮抗剂，IC50为91.3 nM。HSV-DKH-0450立体异构体与TRPA1和TRPV1受体的分子对接表明，它们都具有近似相似的高结合亲和力。结论:HSV-DKH-0450物质作为一种潜在的镇痛药物有进一步开发的前景。图形化的简介:

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Synthesis, molecular docking, ADMET study and in vitro pharmacological research of 7-(2-chlorophenyl)-4-(4-methylthiazol-5-yl)-4,6,7,8-tetrahydroquinoline-2,5(1H,3H)-dione as a promising non-opioid analgesic drug

Introduction: The discovery of novel drugs that can block the transmission of pain signals for treating the pain of various etiologies is an urgent topic in pharmaceutics. The aim of this paper is to synthesize and to investigate in vitro and in silico characteristics of a promising novel compound: 7-(2-chlorophenyl)-4-(4-methylthiazol-5-yl)-4,6,7,8-tetrahydroquinoline-2,5(1H,3H)-dione (HSV-DKH-0450). Materials and methods: The specific activity and the inhibitory mechanism of HSV-DKH-0450 were studied using the HEK293 culture cells expressing the IPTG-induced TRPA1 ion channels. Cardiotoxicity was determined by estimating the binding of HSV-DKH-0450 to the hERG channel. Inhibition of human liver cytochromes was determined by the effect on the activity of cytochromes 1A2, 2C9, 2D6, 2C8, and 3A4. Cellular toxicity was assessed by the effect on the viability of human hepatocytes. ADMET properties were evaluated using admetSAR and SwissADME web-based tools. Molecular docking was carried out using AutoDock Vina tools to predict the binding affinity of all HSV-DKH-0450 stereoisomers toward the TRPA1 and TRPV1 receptors. Results and discussion: In silico predictions of ADMET properties of HSV-DKH-0450 showed that it has optimal pharmaceutical profiles. A series of in vitro pharmacological studies revealed that HSV-DKH-0450 is a promising antagonist of the TRPA1 ion channel with the IC50 of 91.3 nM. The molecular docking of HSV-DKH-0450 stereoisomers against the TRPA1 and TRPV1 receptors demonstrates that they all are characterized by an approximately similar high binding affinity. Conclusion: The obtained data for substance HSV-DKH-0450 look promising for its further development as a potential therapeutic agent for pain relief. Graphical abstract:

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