具有镇痛活性的4(3Н)-喹唑啉酮的2-苯基和2-苄基衍生物的合成

I. Kodonidi, A. V. Bicherov, E. Manvelyan, A. Kolodina, A. A. Bicherov, M. Manvelyan, A. Ivchenko, N. Vdovenko-Martynova, A. T. Navalieva, M. Manvelyan
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引用次数: 0

摘要

喹唑啉-4(3Н)- 1衍生物具有广泛的药理特性,其中最显著的是对中枢神经系统的显著作用。在这方面,已经进行了生物活性化合物的分子设计,这些化合物由于与痛觉受体和多巴胺受体形成配体受体复合物而具有镇痛活性。该研究的目的是分子设计和随后靶向合成具有镇痛活性的4(3H)-喹唑啉酮的2-苯基和2-苯基衍生物,以及创建数学模型以确定重要的分子描述符。材料和方法。利用PASS程序,通过逻辑结构方法进行了分子设计,确定了预测结构的生物活性,并计算了配体-受体相互作用的能量。4(3H)-喹唑啉酮的2-苯基衍生物是由2-氨基苯甲酰胺与芳香醛在多磷酸中加热反应合成的,2-苯基衍生物是由邻氨基苯胺和均过丁酸酰胺融合合成的,然后用硫酸磺化。在化学刺激诱导的痛感反应模型(福尔马林试验和“醋酸扭体”)中研究了合成化合物的镇痛活性。分子设计使得在4(3H)-喹唑啉酮衍生物系列中识别有希望的结构成为可能,这些结构影响伤害和多巴胺受体,并具有镇痛活性。对4(3H)-喹唑啉酮的2-苯基和2-苯基衍生物的合成进行了改进,以更简单、更经济的方法提高目标产物的收率。预测的化合物通过邻氨基苯甲酸酰胺与芳香醛或同戊酸酰胺的环缩合反应合成。从初步药理研究结果来看,合成物质在以其为基础研制止痛药方面具有广阔的应用前景。分子描述符与生物学试验结果之间的结构-活性关系已被揭示,这些分子描述符在很大程度上负责镇痛活性。利用计算机模型可以确定与痛感受体形成配体-受体复合物的氨基酸残基,并构建数学模型来解释4(3H)-喹唑啉酮的2-苯基和2-苯基衍生物的镇痛活性。提出了合成目标化合物的改进方法。所获得的理论值与药理学实验数据之间的近似系数使所进行的研究具有足够的可靠性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Synthesis of 2-phenyl- and 2-benzyl derivatives of 4(3Н)-quinazolinone with analgesic activity
Quinazolin-4(3Н)-one derivatives are characterized by a wide range of pharmacological properties, among which the most significant one is a pronounced effect on the central nervous system. In this regard, a molecular design of biologically active compounds that have an analgesic activity due to the formation of ligand-receptor complexes with nociceptive and dopamine receptors, has been performed.The aim of the study was a molecular design and a subsequent targeted synthesis of 2-phenyl- and 2-benzyl derivatives of 4(3H)-quinazolinone with an analgesic activity, as well as the creation of a mathematical model in order to identify significant molecular descriptors.Materials and methods. A molecular design was carried out by a logical-structural approach using the PASS program with the identification of the biological activity of the predicted structures, as well as the energy calculation of the ligand-receptor interaction. The synthesis of 2-phenyl derivatives of 4(3H)-quinazolinone was carried out by the reaction of 2-aminobenzamide with aromatic aldehydes in polyphosphoric acid when heated, while the 2-benzyl derivatives were synthesized by fusing amides of anthranilic and homoveratric acids followed by sulfonation with sulfuric acid. The analgesic activity of the synthesized compounds was studied in the models of nociceptive reactions induced by chemical stimuli (a formalin test and “acetic acid writhings”).Results. A molecular design made it possible to identify promising structures in the series of 4(3H)-quinazolinone derivatives that affect nociceptive and dopamine receptors and have an analgesic activity. A modification was made to the synthesis of 2-phenyl- and 2-benzyl derivatives of 4(3H)-quinazolinone in order to increase the yield of the target products by a simpler and more cost-effective method. The predicted compounds were synthesized by cyclocondensation of anthranilic acid amide with aromatic aldehydes or with homoveraic acid amide. It follows from the primary pharmacological studies results that the synthesized substances are promising from the point of view of creating painkillers based on them. A structure-activity relationship between the molecular descriptors, which are largely responsible for the analgesic activity, and the results of biological tests, has been revealed.Conclusion. The use of computer modelling made it possible to identify the amino acid residues involved in the formation of the ligand-receptor complex with the nociceptive receptor, and to construct a mathematical model to explain the analgesic activity of 2-phenyl- and 2-benzyl derivatives of 4(3H)-quinazolinone. Modified procedures for the synthesis of target compounds have been proposed. The obtained coefficients of the approximation between the theoretical values and the data of the pharmacological experiment make it possible to state a sufficient reliability of the carried out studies.
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