Molecular interaction of cryptophycin 52 with Caspase 8 for the management of lung cancer during coronavirus outbreak : A computational study.

Cellular and molecular biology (Noisy-le-Grand, France) Pub Date : 2022-06-30 DOI:10.14715/cmb/2022.68.6.5

Leena Hussein Bajrai, Sayed Sartaj Sohrab, Mohammad Khalid, Mohammad A Kamal, Esam Ibraheem Azhar

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引用次数: 2

Abstract

It has been seen that, during COVID-19 outbreak lung cancer (LC) patients are noted as a high-risk population which make a more challenging to treatment of the LC patients. The active form of caspase-8 is involved in lung carcinogenesis in both humans and mice. In this study, the virtual screening was performed among 200 compounds retrieved from several resources for the searching of potent lead against Caspase 8 (Casp8). Cryptophycin 52 was found to have a strong inhibiting efficacy based on the free energy of binding with the active site of Casp8. The lowest binding energy was found to be -8.05 kcal/mole and was further analyzed for molecular dynamic simulation. Casp8 enzyme was determined to interact with cryptophycin 52 through twelve amino acid residues, specifically ARG260, SER316, GLY318, ASP319, THR337, VAL354, PHE355, PHE356, ILE357, GLN358, ALA359 and CYS360 along with six hydrogen bond particular, ILE357:N-UNK1: O7, UNK1: O14-PHE355:O, UNK1: C25-PHE355:O, UNK1: C35-THR337:O, UNK1: H65-HE355:O and UNK1: C25-PHE356. In addition, MD simulations for 50ns were performed for optimization, flexibility estimation and assessment of Casp8-cryptophycin 52 complex stability. This complex was seen as reasonably stable according to the RMSD, RMSF, and radius of gyration graph. Results obtained indicate cryptophycin 52 may be a lead compound with significant anti-cancer ability against Casp8. Further experimental work, however, is expected to support the compound's anti-cancer viewpoint.

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隐藻素52与Caspase 8的分子相互作用对冠状病毒爆发期间肺癌的治疗:一项计算研究。

据了解，在2019冠状病毒病暴发期间，肺癌患者被列为高危人群，这给肺癌患者的治疗带来了更大的挑战。caspase-8的活性形式参与了人类和小鼠的肺癌发生。在这项研究中，从多个资源中检索200种化合物进行虚拟筛选，以寻找抗Caspase 8 (Casp8)的有效铅。基于结合Casp8活性位点的自由能，我们发现Cryptophycin 52具有很强的抑制作用。发现最低结合能为-8.05 kcal/mol，并进一步进行分子动力学模拟分析。Casp8酶通过ARG260、SER316、GLY318、ASP319、THR337、VAL354、PHE355、PHE356、ILE357、GLN358、ALA359和CYS360等12个氨基酸残基，以及6个特殊的氢键，ILE357:N-UNK1: O7、UNK1: O14-PHE355:O、UNK1: C25-PHE355:O、UNK1: C35-THR337:O、UNK1: H65-HE355:O和UNK1: C25-PHE356。此外，还进行了50ns的MD模拟，对Casp8-cryptophycin 52配合物的稳定性进行了优化、灵活性评估和评估。根据RMSD, RMSF和旋转半径图，该复合物被认为是相当稳定的。结果表明，隐藻素52可能是对Casp8具有显著抗癌能力的先导化合物。然而，进一步的实验工作有望支持这种化合物的抗癌观点。

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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Cellular and molecular biology (Noisy-le-Grand, France)

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