Transforming growth factor beta receptor 2 single-nucleotide polymorphism association with oral cancer and In silico identification of small drug-like molecules as inhibitors to transforming growth factor Beta-2 receptor

S. Multani, H. Shah, D. Saranath
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引用次数: 1

Abstract

Objective: Oral cancer, in India, constitutes 26% of global oral cancer burden. The major risk factors include tobacco, areca nut, alcohol, and human papillomavirus 16/18; however, only 5%–10% of the high-risk individuals develop oral cancer, indicating the role of genomic variants in susceptibility to oral cancer. Conventional treatment options in oral cancer have resulted in relatively poor prognosis and an unmet need of treatment. In silico analysis, therefore, was performed to identify small drug-like molecules as potential inhibitors of transforming growth factor beta-2 receptor (TGFβRII). Materials and Methods: Seven single-nucleotide polymorphisms (SNPs) were analyzed in 500 histopathologically confirmed oral cancer samples and 500 long-term tobacco users (LTTUs) as controls using allelic discrimination real-time polymerase chain reaction or high-resolution melting analysis. The differential frequencies in oral cancer and LTTUs were calculated using SPSS software (version 19), and odds ratio (OR) to indicate risk to oral cancer using Hutchon.net. structure-based virtual screening of drug-like molecules was performed to identify lead inhibitor molecules to TGFβRII using Schrödinger Suite 2015-4. Results: Heterozygous GC genotype of TGFBR2 rs9843143 demonstrated increased risk ([P = 0.011; OR 1.61 [1.25–2.1]) while CC genotype showed decreased risk (P = 0.005; OR 0.61 [0.44–0.83]) to oral cancer. Increased/decreased risk to oral cancer was not observed for the other SNPs. In silico analysis identified six molecules as inhibitors of TGFβRII kinase domain from 17,723 conformers from Maybridge HitFinder library and 2685 conformers from MEGx AnalytiCon natural product library. Conclusion: SNP rs9843143 (TGFBR2) demonstrated a significant association (P < 0.05) with oral cancer and six potential inhibitors of TGFβRII kinase were identified using in silico analysis.
转化生长因子β -2受体2单核苷酸多态性与口腔癌的关系及转化生长因子β -2受体小药物样分子抑制剂的计算机鉴定
目的:印度口腔癌占全球口腔癌负担的26%。主要危险因素包括烟草、槟榔果、酒精和人乳头瘤病毒16/18;然而,只有5%-10%的高危人群发展为口腔癌,这表明基因组变异在口腔癌易感性中的作用。口腔癌的常规治疗方案导致相对较差的预后和未满足的治疗需求。因此,进行了计算机分析,以确定小的药物样分子作为转化生长因子β -2受体(tgf - β rii)的潜在抑制剂。材料与方法:采用等位基因识别实时聚合酶链反应或高分辨率熔融分析,分析了500例组织病理学证实的口腔癌样本和500例长期烟草使用者(ltu)作为对照的7个单核苷酸多态性(snp)。使用SPSS软件(version 19)计算口腔癌和ltu的差异频率,并使用Hutchon.net计算口腔癌风险的比值比(OR)。利用Schrödinger Suite 2015-4对药物样分子进行基于结构的虚拟筛选,鉴定TGFβRII的先导抑制剂分子。结果:TGFBR2 rs9843143杂合子GC基因型的风险增加(P = 0.011;OR 1.61[1.25-2.1]),而CC基因型的风险降低(P = 0.005;OR为0.61[0.44-0.83])。其他snp未观察到口腔癌风险的增加/降低。通过芯片分析,从Maybridge HitFinder文库中的17,723个构象和MEGx AnalytiCon天然产物文库中的2685个构象中鉴定出6个分子为TGFβRII激酶结构域抑制剂。结论:SNP rs9843143 (TGFBR2)与口腔癌有显著的相关性(P < 0.05),并通过计算机分析鉴定出6种TGFβRII激酶的潜在抑制剂。
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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