新型水溶性 2-aminoheteryl-3-ium 4-(het)aryl-2-hydroxy-4-oxobut-2-enoates 对体外止血系统的影响

Drug development & registration Pub Date : 2023-12-26 DOI:10.33380/2305-2066-2023-12-4(1)-1679

A. Starkova, F. V. Sobin, I. P. Rudakova, N. A. Pulina, N. V. Dozmorova, V. Luzhanin

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To study the effect of new water-soluble 2-amino heteryl-3-ium 4-(get)aryl-2-hydroxy-4-oxobut-2-enoates on the hemostasis system using an in vitro model.Materials and methods. Direct interaction 4-(het)aryl-2-hydroxy-4-oxobut-2-enoic acids with heterocyclic amines have been obtained new water soluble 2-aminoheteryl-3-ium 4-(het)aryl-2-hydroxy-4-oxobut-2-enoates. The study of the effect of substances on the hemostasis system was carried out using the coagulometer \"APK 4-02-P\". Ethamsylate and sodium heparin were used as comparison drugs for hemostatic and anticoagulant activity, respectively. Acute toxicity of the compounds was determined by intravenous administration of aqueous solutions of the compounds to non-linear white mice of both sexes with the definition of LD50.Results and discussion. 10 New 2-aminoheteryl-3-ium 4-(het)aryl-2-hydroxy-4-oxobut-2-enoates have been synthesized. 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引用次数: 0

摘要

简介止血系统是生物体的一套功能、形态和生化机制，可确保血液保持液态、预防和止血以及血管的完整性。抗凝剂和止血剂能显著改变止血机制。人们对合成和寻找影响血液凝固系统的化合物的兴趣一直很高。已经发现了具有抗凝和止血作用的物质。在有机合成产物中寻找影响止血系统的化合物似乎具有现实意义。利用体外模型研究新型水溶性 2-氨基杂环-3-鎓 4-(get)芳基-2-羟基-4-氧代丁烯-2-烯酸盐对止血系统的影响。通过 4-(het)芳基-2-羟基-4-氧代丁烯-2-烯酸与杂环胺的直接作用，获得了新的水溶性 2-氨基杂环-3-鎓 4-(het)芳基-2-羟基-4-氧代丁烯-2-烯酸盐。使用 "APK 4-02-P "凝血仪研究了这些物质对止血系统的影响。乙二胺四乙酸盐和肝素钠分别作为止血和抗凝活性的对比药物。化合物的急性毒性是通过给雌雄非线性白小鼠静脉注射化合物水溶液来确定的，定义为 LD50。合成了 10 种新的 2-aminoheteryl-3-ium 4-(het)aryl-2-hydroxy-4-oxobut-2-enoates 化合物。在体外筛选化合物对止血系统的影响时发现，3 种物质具有明显的抗凝作用，4 种化合物具有止血活性。发现了一些 "结构-药理作用 "关系模式。根据化学毒性分类，所研究的丁烯酸盐可归类为中等毒性化合物。对化合物对止血系统的影响进行了体外药理筛选。结果发现，所有研究化合物对血液凝固系统都有不同程度的影响。丁烯酸盐具有药理作用明显、急性毒性低和易溶于水等特点，这为进一步寻找和开发对止血系统有影响的新型国产药物提供了先决条件。

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The Effect of New Water-soluble 2-aminoheteryl-3-ium 4-(het)aryl-2-hydroxy-4-oxobut-2-enoates on the Hemostasis System In vitro

Introduction. The hemostasis system is a set of functional, morphological and biochemical mechanisms of a living organism that ensure the preservation of the liquid state of the blood, the prevention and stopping of bleeding, as well as the integrity of blood vessels. Anticoagulants and hemostatic agents can significantly change the mechanism of hemostasis. Interest in the synthesis and search for compounds that affect the blood coagulation system remains high. Substances exhibiting anticoagulant and hemostatic effects have been found. The search for compounds among the products of organic synthesis that affect the hemostasis system seems relevant.Aim. To study the effect of new water-soluble 2-amino heteryl-3-ium 4-(get)aryl-2-hydroxy-4-oxobut-2-enoates on the hemostasis system using an in vitro model.Materials and methods. Direct interaction 4-(het)aryl-2-hydroxy-4-oxobut-2-enoic acids with heterocyclic amines have been obtained new water soluble 2-aminoheteryl-3-ium 4-(het)aryl-2-hydroxy-4-oxobut-2-enoates. The study of the effect of substances on the hemostasis system was carried out using the coagulometer "APK 4-02-P". Ethamsylate and sodium heparin were used as comparison drugs for hemostatic and anticoagulant activity, respectively. Acute toxicity of the compounds was determined by intravenous administration of aqueous solutions of the compounds to non-linear white mice of both sexes with the definition of LD50.Results and discussion. 10 New 2-aminoheteryl-3-ium 4-(het)aryl-2-hydroxy-4-oxobut-2-enoates have been synthesized. In vitro screening of the effect of compounds on the hemostasis system found that 3 substances have a pronounced anticoagulant effect, and 4 compounds showed hemostatic activity. Some patterns of the "structure-pharmacological action" relationship have been found. The studied butenoates can be classified as moderately toxic compounds according to the classification of chemical toxicity.Conclusion. Pharmacological screening in vitro of the effect of compounds on the hemostasis system was carried out. It was found that all the studied compounds have an effect on the blood coagulation system of varying degrees of severity. The combination of a pronounced pharmacological effect, low acute toxicity and water solubility of butenoates may become a prerequisite for further search and possible development of new domestic medicines that have an effect on the hemostasis system.

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Drug development & registration

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