Avijit Bhakta, Sayeed Mukhtar, Saleha Anwar, Shaista Haider, Mohammed Issa Alahmdi, Humaira Parveen, Meshari A. Alsharif, Mohmmad Younus Wani, Anindita Chakrabarty, Md. Imtaiyaz Hassan and Naseem Ahmed
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引用次数: 0
摘要
本研究设计并在无金属条件下合成了一系列新型含吩噻嗪的咪唑并[1,2-a]吡啶衍生物,收率极高。这些衍生物被有效地进一步转化为 N-烷基、亚砜和砜衍生物。这些衍生物被用于对抗人类微管亲和性调节激酶(MARK4),其中一些分子在细胞周期进展(如 G1/S 转换和微管动力学调节)中发挥着关键作用。因此,这些分子对 MARK4 具有很好的抑制潜力。我们选择了 IC50 值优异的分子进行进一步研究,如利用荧光淬灭实验测定结合常数,研究配体之间的相互作用。计算得出化合物 6a 和 6h 的最高结合常数分别为 K = 0.79 × 105 和 K = 0.1 × 107。此外,还研究了分子对接、细胞毒性、线粒体活性氧测量和 DNA 氧化损伤,以了解分子对癌细胞的作用机制。研究发现,设计合成的化合物通过结合和抑制 MARK4 蛋白发挥了抗癌作用。
Design, synthesis, molecular docking and anti-proliferative activity of novel phenothiazine containing imidazo[1,2-a]pyridine derivatives against MARK4 protein†
A series of novel phenothiazine-containing imidazo[1,2-a]pyridine derivatives were designed and synthesized under metal-free conditions in excellent yield. These derivatives were effectively transformed further into N-alkyl, sulfoxide, and sulfone derivatives. Derivatives were deployed against human microtubule affinity regulating kinase (MARK4), some molecules play crucial roles in cell-cycle progression such as G1/S transition and regulator of microtubule dynamics. Hence, molecules have shown excellent MARK4 inhibitory potential. Molecules with excellent IC50 values were selected for further studies such as ligand interactions using fluorescence quenching experiments for the binding constant. The highest binding constant was calculated as K = 0.79 × 105 and K = 0.1 × 107 for compounds 6a and 6h, respectively. Molecular docking, cell cytotoxicity, mitochondrial reactive oxygen species measurement and oxidative DNA damage were also studied to understand the mechanism of action of the molecules on cancer cells. It was found that the designed and synthesized compounds played anti-cancer roles by binding and inhibiting MARK4 protein.
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