S-MGBs bearing amidine tail groups are potent, selective antiplasmodial agents.

IF 4.1 4区医学 Q2 BIOCHEMISTRY & MOLECULAR BIOLOGY RSC medicinal chemistry Pub Date : 2024-10-16 DOI:10.1039/d4md00619d

Marina Perieteanu, Tayner Rodriguez Garzon, Leah M C McGee, Abedawn I Khalaf, Colin J Suckling, Rebecca Beveridge, Vicky M Avery, Fraser J Scott

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Abstract

There were an estimated 249 million cases of malaria globally in 2022, causing approximately 608 000 deaths. Most of these are attributed to infection by P. falciparum. Strathclyde minor groove binders (S-MGBs) are a promising new class of anti-infective agent that have been shown to be effective against many infectious organisms, including P. falciparum. A panel of 25 S-MGBs was synthesised, including those bearing an amidine tail group, and their antiplasmodial activity against 3D7 and Dd2 strains was determined in vitro using an asexual P. falciparum imaging assay. Determination of activity against HEK293 cells allowed for selective cytotoxicity to be measured. DNA binding studies were carried out using native mass spectrometry and DNA thermal shift assays. A comparison of 3D7 (chloroquine sensitive) and Dd2 (chloroquine resistant) potency showed no evidence of cross-resistance across the S-MGB set. S-MGB-356, S-MGB-368 and S-MGB-359, amidine tail containing S-MGBs, were identified as the most promising hit compounds based on their selectivity indices (HEK293/3D7) of >612.6, >335.8 and >264.8, respectively. S-MGB-356, S-MGB-368 and S-MGB-359 were confirmed to bind to DNA as dimers, with gDNA thermal shifts (ΔT _m) of 12 °C, 3 °C and 16 °C, respectively. Together, these data demonstrate that amidine tail bearing S-MGBs are promising hit compounds against P. falciparum, and can be further optimised into lead compounds.

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带有脒尾基的 S-MGBs 是强效的选择性抗疟药物。

据估计，2022 年全球疟疾病例达 2.49 亿例，造成约 60.8 万人死亡。其中大部分是由恶性疟原虫感染所致。斯特拉斯克莱德小沟槽结合剂（S-MGBs）是一种很有前途的新型抗感染剂，已被证明对包括恶性疟原虫在内的多种感染性生物有效。我们合成了 25 种 S-MGBs 组合，其中包括带有脒尾基的 S-MGBs，并利用无性恶性疟原虫成像试验在体外测定了它们对 3D7 和 Dd2 菌株的抗疟活性。通过测定对 HEK293 细胞的活性，可以测量选择性细胞毒性。利用原生质谱法和 DNA 热转移测定法进行了 DNA 结合研究。3D7（对氯喹敏感）和 Dd2（对氯喹耐药）药效的比较显示，没有证据表明 S-MGB 组之间存在交叉耐药性。S-MGB-356、S-MGB-368 和 S-MGB-359 是含有脒尾的 S-MGB，它们的选择性指数（HEK293/3D7）分别大于 612.6、大于 335.8 和大于 264.8，因此被确定为最有希望的命中化合物。经证实，S-MGB-356、S-MGB-368 和 S-MGB-359 以二聚体形式与 DNA 结合，其 gDNA 热转移（ΔT m）分别为 12 ℃、3 ℃ 和 16 ℃。这些数据共同表明，带有脒尾的 S-MGB 是很有希望的抗恶性疟原虫药物，可以进一步优化为先导化合物。

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