Design, synthesis, and biological evaluation of novel 1-amido-2-one-4-thio-deoxypyranose as potential antitumor agents for multiple myeloma

IF 3.3 3区医学 Q2 BIOCHEMISTRY & MOLECULAR BIOLOGY Bioorganic & Medicinal Chemistry Pub Date : 2024-07-22 DOI:10.1016/j.bmc.2024.117843

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Abstract

This study reported the design and synthesis of novel 1-amido-2-one-4-thio-deoxypyranose as inhibitors of potential drug target TRIP13 for developing new mechanism-based therapeutic agents in the treatment of multiple myeloma (MM). In comparison with the positive control DCZ0415, the most active compounds C16, C18, C20 and C32 exhibited strong anti-proliferative activity against human MM cell lines (ARP-1 and NCI-H929) with IC₅₀ values of 1 ∼ 2 μM. While the surface plasmon resonance (SPR) and ATPase activity assays demonstrated that the representative compound C20 is a potent inhibitor of TRIP13, C20 also showed good antitumor activity in vivo on BALB/c nude mice xenografted with MM tumor cells. An initial structure–activity study showed that the carbonyl group is crucial for anticancer activity. Overall, this study provided novel 1-amido-2-one-4-thio-deoxypyranoses, which are entirely different from previously reported potent inhibitor structures of TRIP13, and thus would aid the development of carbohydrate-based novel agents in MM pharmacotherapy.

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新型 1-氨基-2-酮-4-硫代脱氧吡喃糖作为多发性骨髓瘤潜在抗肿瘤药物的设计、合成和生物学评价。

本研究报告了新型 1-氨基-2-酮-4-硫代脱氧吡喃糖的设计与合成，作为潜在药物靶标 TRIP13 的抑制剂，用于开发治疗多发性骨髓瘤（MM）的新机制治疗药物。与阳性对照DCZ0415相比，活性最强的化合物C16、C18、C20和C32对人类MM细胞株（ARP-1和NCI-H929）具有很强的抗增殖活性，IC50值为1∼2 μM。表面等离子体共振（SPR）和 ATPase 活性测定表明，代表性化合物 C20 是 TRIP13 的强效抑制剂，同时，C20 还对异种接种 MM 肿瘤细胞的 BALB/c 裸鼠显示出良好的体内抗肿瘤活性。初步的结构-活性研究表明，羰基是抗癌活性的关键。总之，这项研究提供了新型 1-氨基-2-酮-4-硫代脱氧吡喃糖，与之前报道的 TRIP13 强效抑制剂结构完全不同，因此有助于开发基于碳水化合物的新型药物，用于 MM 药物治疗。

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来源期刊

Bioorganic & Medicinal Chemistry 医学-生化与分子生物学

CiteScore

6.80

自引率

2.90%

发文量

413

审稿时长

17 days

期刊介绍： Bioorganic & Medicinal Chemistry provides an international forum for the publication of full original research papers and critical reviews on molecular interactions in key biological targets such as receptors, channels, enzymes, nucleotides, lipids and saccharides. The aim of the journal is to promote a better understanding at the molecular level of life processes, and living organisms, as well as the interaction of these with chemical agents. A special feature will be that colour illustrations will be reproduced at no charge to the author, provided that the Editor agrees that colour is essential to the information content of the illustration in question.