Computational and synthetic studies towards improving rescinnamine as an inducer of MSH2-dependent apoptosis in cancer treatment.

Molecular cancer biology Pub Date : 2013-01-01

ElShimaa M N AbdelHafez, Andrew Diamanduros, Lacramioara Negureanu, Yan Luy, J Hayley Bean, Katherine Zielke, Brittany Crowe, Aksana Vasilyeva, Jill E Clodfelter, Omar M Aly, Gamal El-Din A A Abuo-Rahma, Karin D Scarpinato, Freddie R Salsbury, S Bruce King

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Abstract

We, and others, have previously shown that mismatch repair proteins, in addition to their repair function, contribute to cell death initiation. In response to some drugs, this cell death activity is independent of the repair function of the proteins. Rescinnamine, a derivative of the indole alkaloid reserpine, a drug used to treat hypertension several decades ago, was shown to target the cell death-initiating activity of mismatch repair proteins. When used in animals, the hypotensive action of this drug prevents applying appropriate concentrations for statistically significant tumor reduction. Using a combination of computational modeling, chemical synthesis and cell assays, we determine how rescinnamine can be structurally modified and what effect these modifications have on cell survival. These results inform further computational modeling to suggest new synthetic lead molecules to move toward further biological testing.

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在肿瘤治疗中改善瑞肉桂碱作为msh2依赖性细胞凋亡诱导剂的计算和合成研究。

我们和其他人之前已经表明，错配修复蛋白除了具有修复功能外，还有助于细胞死亡的启动。在对某些药物的反应中，这种细胞死亡活动与蛋白质的修复功能无关。Rescinnamine是吲哚生物碱利血平的衍生物，几十年前用于治疗高血压的药物，被证明可以靶向错配修复蛋白的细胞死亡启动活性。当在动物中使用时，这种药物的降压作用阻止了应用适当浓度的统计学上显著的肿瘤减少。结合计算建模、化学合成和细胞实验，我们确定了rescinnamine如何进行结构修饰以及这些修饰对细胞存活的影响。这些结果为进一步的计算建模提供了信息，以建议新的合成铅分子进行进一步的生物测试。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Molecular cancer biology

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