结肠直肠癌中靶向cdk1的潜在抑制剂的计算鉴定

Uchechukwu C Ogbodo, Ojochenemi A Enejoh, Chinelo H Okonkwo, Pranavathiyani Gnanasekar, Pauline W Gachanja, Shamim Osata, Halimat C Atanda, Emmanuel A Iwuchukwu, Ikechukwu Achilonu, Olaitan I Awe
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摘要

尽管治疗方案有所改进,但结直肠癌(CRC)仍然是一个巨大的公共卫生问题,对受影响的个体产生重大影响。细胞周期失调和某些调节因子和检查点激活因子的过表达是癌症进展中重要的反复发生的事件。周期蛋白依赖性激酶1 (CDK1)是恶性细胞不受控制增殖的细胞周期成分的关键调节因子,据报道与结直肠癌有关。本研究旨在鉴定具有CRC临床药物研究潜力的CDK1抑制剂。通过分子对接研究,评估了一万种天然化合物对CDK1的抑制作用。利用分子动力学模拟1,000纳秒对CDK1配合物的先导化合物的稳定性进行评价。使用SwissADME对得分最高的候选人的ADME特征和药物相似性进行了分析。通过分子对接分析,鉴定出螺旋皂苷、robinetin、6-羟基木犀草素和槲皮素4种hit化合物的结合分数最低。分子动力学模拟表明,robinetin和6-羟基木犀草素复合物在CDK1蛋白的结合袋内是稳定的。这项研究的发现提供了对具有特异性抑制CDK1活性的新候选药物的见解,这些候选药物可以通过动物实验、临床试验和CRC治疗药物开发研究进一步研究。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Computational Identification of Potential Inhibitors Targeting cdk1 in Colorectal Cancer
Despite improved treatment options, colorectal cancer (CRC) remains a huge public health concern with a significant impact on affected individuals. Cell cycle dysregulation and overexpression of certain regulators and checkpoint activators are important recurring events in the progression of cancer. Cyclin-dependent kinase 1 (CDK1), a key regulator of the cell cycle component central to the uncontrolled proliferation of malignant cells, has been reportedly implicated in CRC. This study aimed to identify CDK1 inhibitors with potential for clinical drug research in CRC. Ten thousand (10,000) naturally occurring compounds were evaluated for their inhibitory efficacies against CDK1 through molecular docking studies. The stability of the lead compounds in complex with CDK1 was evaluated using molecular dynamics simulation for one thousand (1,000) nanoseconds. The top-scoring candidates' ADME characteristics and drug-likeness were profiled using SwissADME. Four hit compounds namely spiraeoside, robinetin, 6-hydroxyluteolin, and quercetagetin were identified from molecular docking analysis to possess the least binding scores. Molecular dynamics simulation revealed that robinetin and 6-hydroxyluteolin complexes were stable within the binding pocket of the CDK1 protein. The findings from this study provide insight into novel candidates with specific inhibitory CDK1 activities that can be further investigated through animal testing, clinical trials, and drug development research for CRC treatment.
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