Atropisomeric 1-phenylbenzimidazoles affecting microtubule organization: influence of axial chirality.

IF 2.9 3区化学 Q1 CHEMISTRY, ORGANIC Organic & Biomolecular Chemistry Pub Date : 2024-07-11 DOI:10.1039/d4ob00863d

Jana Pospíšilová, Tomáš Heger, Ondřej Kurka, Marie Kvasnicová, Anna Chládková, Ivan Nemec, Lucie Rárová, Petr Cankař

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Abstract

Benzimidazoles are frequently used in medicinal chemistry. Their anticancer effect is among the most prominent biological activities exhibited by this scaffold. Although numerous benzimidazole derivatives have been synthesized, possible atropisomerism of ortho-substituted 1-phenylbenzimidazoles has been largely overlooked. The aim of this research was to synthesize a small library of novel atropisomeric benzimidazole derivatives and explore their biological activity in various cancer and normal human cell lines. The new unique structural motif provides an interesting 3D architecture with axial chirality, which further contributes to molecular complexity and specificity. Racemates and their separated atropisomers arrested the cell cycle, caused apoptosis, and affected microtubule organization in cancer cells in vitro at different intensities. Moreover, this phenomenon was also verified by the inhibition of endothelial cell migration. These results showed that (+)-atropisomers, especially 5n, exhibit a stronger effect and show promise as agents for cancer therapy.

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影响微管组织的异构体 1-苯基苯并咪唑：轴向手性的影响。

苯并咪唑常用于药物化学。苯并咪唑的抗癌作用是其最突出的生物活性之一。虽然已经合成了许多苯并咪唑衍生物，但正交取代的 1-苯基苯并咪唑可能存在的异构体却在很大程度上被忽视了。这项研究的目的是合成一个小型的新型异构体苯并咪唑衍生物库，并探索它们在各种癌症和正常人细胞系中的生物活性。新的独特结构基团提供了一种具有轴向手性的有趣的三维结构，进一步提高了分子的复杂性和特异性。外消旋体及其分离的异构体在体外以不同强度阻止了细胞周期，导致细胞凋亡，并影响了癌细胞的微管组织。此外，这一现象还通过抑制内皮细胞迁移得到了验证。这些结果表明，(+)-异构体（尤其是 5n）具有更强的作用，有望成为治疗癌症的药物。

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