Molecular Docking Studies of Spirostans as MAPK14 (P38α) Inhibitors and Their Potential Use against Cancer

Journal of Molecular Docking Pub Date : 2021-12-30 DOI:10.33084/jmd.v1i2.2904

G. N. Lopez-Castillo, V. Alatriste, J. Sandoval-Ramírez, F. Luna, A. Carrasco-Carballo

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引用次数: 1

Abstract

Spirostans (SPs) are chemical products widely distributed in the plant kingdom; currently, they are studied by their medical applications. Cancer has a high incidence in humans; it reaches second place worldwide deaths. In molecular biology, it has been accepted that Mitogen-Activated Protein p38alpha Kinase (MAPK14 (p38α) is implicated in the regulation of cancer. This study aimed to identify SPs as potential MAPK14 (p38α) inhibitors. From a set of 133 modified SPs, SwissTargetPrediction platform, and molecular docking, it was obtained that 129 chemical structures had molecular interaction with the MAPK14 (p38α). From those molecules, 123 were bound to a specific inhibition site of MAPK14 (p38α), and 6 of the structures resulted in inhibitors similarly to minocycline and dasatinib. One SP had binding couple energy (BCE, kcal/mol) as that of fostamatinib. In addition, 115 modified SPs had better BCE than the minocycline but not as that using fostamatinib. The key amino acids (aa) for the protein kinase MAPK14 (p38α) inhibition were Arg 70, Asp 168, Lys 53, His 148, and Ile 145, at a different interaction level. The BCE was enhanced when the H atom was substituted in C-2, C-11, and C-17 SPs positions. Similarly, the αOH group at C-5 and C-6 upgraded BCE. Stereochemistry and substitution at C-3, C-12, and C-25 did not present significant differences (Kruskal-Wallis test, p <0.05). From all this ensemble of results, it is foreseeable that the SPs can be an option for MAPK14 (p38α) inhibition, a key modulator in cancer processes.

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Spirostans作为MAPK14 (P38α)抑制剂的分子对接研究及其抗癌潜力

螺旋体(SPs)是广泛分布于植物界的化学产品;目前，人们正在研究它们在医学上的应用。癌症在人类中的发病率很高;它在全球死亡人数中排名第二。在分子生物学中，有丝分裂原活化蛋白p38α激酶(MAPK14 (p38α))参与了癌症的调控。本研究旨在鉴定SPs作为潜在的MAPK14 (p38α)抑制剂。通过SwissTargetPrediction平台和分子对接，得到了133个修饰的SPs，其中129个化学结构与MAPK14 (p38α)存在分子相互作用。从这些分子中，123个结合到MAPK14的特定抑制位点(p38α)，其中6个结构产生类似米诺环素和达沙替尼的抑制剂。其中一种SP具有与福司他替尼相同的结合能(BCE, kcal/mol)。此外，115改性SPs的BCE优于米诺环素，但不如福司他替尼。抑制蛋白激酶MAPK14 (p38α)的关键氨基酸(aa)是Arg 70、Asp 168、Lys 53、His 148和Ile 145，其相互作用水平不同。当在C-2、C-11和C-17 SPs位置上取代H原子时，BCE增强。同样，C-5和C-6处的αOH基团使BCE升高。C-3、C-12和C-25的立体化学和取代没有显著差异(Kruskal-Wallis检验，p <0.05)。从所有这些结果中可以预见，SPs可以成为抑制MAPK14 (p38α)的一种选择，MAPK14是癌症过程中的关键调节剂。

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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Journal of Molecular Docking

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