Design and Synthesis of (2,3-dichloro-4-(3-(substituted Phenyl)acryloyl) phenoxy) Substituted Carboxylic Acid as Potent Glutathione-s-transferase Inhibitors, Anti-breast-cancer Agents and Enhancing Therapeutic Efficacy of Anticancer Agents.

IF 1.9 4区医学 Q3 CHEMISTRY, MEDICINAL

Medicinal Chemistry Pub Date : 2025-01-01 DOI:10.2174/0115734064316508240911032442

Afreen Begum Abdul Qayyum, Syed Ayaz Ali, Santosh Namdeo Mokale

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引用次数: 0

Abstract

Background: Ethacrynic acid is a dynamic agent holding alpha-beta unsaturated carbonyl unit in its structure which imparts superiority and extraordinary advantage of displaying multiple biological activities such as anticancer, antiviral, anti-malarial effect, diuretic effect and inhibits the Glutathione-s-transferase p1-1 enzyme which produces hindrance in the pathway of apoptosis. Ethacrynic acid is an inhibitor of Glutathione-s-transferases. EtA by itself act as an anticancer agent at higher concentration and also increases effectiveness of other compounds used in cancer treatment by preventing their detoxification, all these facts attracted our attention to develop and evaluate novel structural analogues of ethacrynic acid for their inhibitory effect on GSTs and anti-cancer activity in breast cancer.

Objective: By attending rational drug design perspectives the research is aimed to develop and evaluate novel structural analogues of ethacrynic acid as Inhibitors of GSTs enzyme and with antibreast cancer activity.

Methods: Designed compounds were synthesized as per convenient route shown in the scheme of synthesis. Molecular docking studies were done against GSTP1-1 (PDB:3HJO). Structures of novel synthesized molecules were confirmed by spectral characterization such as FTIR, ¹HNMR, ¹³CNMR and Mass spectrometry. ADME studies were done to ensure safety and drug like properties of the compounds. Ten structural analogues of ethacrynic acid were synthesized and evaluated for their inhibitory effect on activity of Glutathione-s-transferases which was measured by performing assay method. In-vitro anti-breast cancer activity was done on MCF-7 and MDAMB-231 cell line by MTT assay.

Results: Compound A3, A5 and A6 were found with greater inhibition of the activity of GSTs and maximum anti-proliferative activity in breast cancer.

Conclusion: We have effectively developed novel compounds possessing structural resemblance with ethacrynic acid Compounds of the series has shown moderate to higher inhibitory effect on GSTs and anti-proliferative activity in breast cancer. The compound A3 was found to be promising agent with high level of potency in each biological response. The research studies presented here may be an enlightening path in development of novel therapeutic agents with high level of inhibition in the activity of GSTs and anti-breast cancer effect.

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（2,3-二氯-4-（3-（取代苯基）丙烯酰）苯氧基）取代羧酸作为谷胱甘肽转移酶抑制剂、抗乳腺癌药物的设计与合成及增强抗癌药物的疗效

背景：乙酸是一种结构上含有α - β不饱和羰基单元的动态制剂，具有抗癌、抗病毒、抗疟、利尿等多种生物活性，并能抑制谷胱甘肽-s-转移酶p1-1酶对细胞凋亡通路的阻碍作用，具有得天独厚的优势。乙酸是谷胱甘肽s-转移酶的抑制剂。EtA本身作为一种较高浓度的抗癌药物，并通过阻止其他用于癌症治疗的化合物的解毒而提高其有效性，这些事实都引起了我们的注意，开发和评估新的结构类似于乙酸的抑制gst和乳腺癌抗癌活性的作用。目的：从合理的药物设计角度，开发和评价具有抗乳腺癌活性的新型结构类似物。方法：按照合成方案所示的简便路线合成设计的化合物。对GSTP1-1 （PDB:3HJO）进行了分子对接研究。通过FTIR、1HNMR、13CNMR和质谱等光谱表征证实了新合成分子的结构。ADME研究是为了确保化合物的安全性和药物特性。合成了10种乙酸结构类似物，并评价了它们对谷胱甘肽-s转移酶活性的抑制作用。MTT法测定MCF-7和MDAMB-231细胞株体外抗乳腺癌活性。结果：化合物A3、A5、A6对GSTs活性有较强的抑制作用，对乳腺癌的抗增殖活性最大。结论：我们有效地开发了与乙酸结构相似的新化合物，该系列化合物对乳腺癌的GSTs具有中等至较高的抑制作用和抗增殖活性。化合物A3在各生物反应中均具有较高的效价。本研究为开发具有高水平抑制GSTs活性和抗乳腺癌作用的新型治疗药物提供了有益的启示。

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来源期刊

Medicinal Chemistry 医学-医药化学

CiteScore

4.30

自引率

4.30%

发文量

109

审稿时长

12 months

期刊介绍： Aims & Scope Medicinal Chemistry a peer-reviewed journal, aims to cover all the latest outstanding developments in medicinal chemistry and rational drug design. The journal publishes original research, mini-review articles and guest edited thematic issues covering recent research and developments in the field. Articles are published rapidly by taking full advantage of Internet technology for both the submission and peer review of manuscripts. Medicinal Chemistry is an essential journal for all involved in drug design and discovery.