An ensemble approach for prioritizing antivirals against COVID-19 via heterogeneous network inference-based inductive matrix completion

IF 2 4区 化学 Q3 CHEMISTRY, MULTIDISCIPLINARY Journal of Computational Biophysics and Chemistry Pub Date : 2023-10-19 DOI:10.1142/s2737416523410041
A S Aruna, K R Remesh Babu, K Deepthi
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Abstract

The global spread of COVID-19 caused by the severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) originated in Wuhan in December 2019, created a massive health crisis, and disrupted the world economy. Much research has been conducted to discover drugs, develop vaccines, and find repurposable drugs against the disease. Computational drug repurposing, the process of determining new uses for approved drugs through computational techniques, becomes an effective solution to fight the COVID-19 pandemic. This study aims to investigate and prioritize potential drugs against SARS-CoV-2 through an integrated network-based approach. We propose an ensemble approach based on network inference and inductive matrix completion (NIMCVDA) for virus–drug association prediction to identify antivirals against COVID-19. We constructed a heterogeneous drug–virus network using intra-similarities of virus genomic sequences and drug chemical structures and existing associations between viruses and drugs. A network inference method is used to infer missing drug–virus edges. Based on this, existing drug–virus association matrix is reconstructed. Finally, more accurate association scores between drugs and viruses are computed using the inductive matrix completion algorithm. The proposed method achieved an AUC of 0.9020 on five-fold cross-validation and 0.8786 on leave-one-out cross-validation. We compared the performance of the model with related approaches. In addition, we carried out case studies on the top-predicted drugs and implemented our model with other datasets to verify prediction performance. Our work prioritized repurposable drugs to battle with COVID-19 epidemic. The cross-validation results and case studies illustrate that the top-predicted drugs are strong candidates for further biological tests.
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基于异构网络推理的归纳矩阵补全的COVID-19抗病毒药物优先排序集成方法
2019年12月,由严重急性呼吸综合征冠状病毒2型(SARS-CoV-2)引起的新型冠状病毒肺炎(COVID-19)在全球传播,起源于武汉,造成了大规模的健康危机,扰乱了世界经济。已经进行了大量研究,以发现药物,开发疫苗,并找到可重复使用的药物来对抗这种疾病。计算药物再利用,即通过计算技术确定已批准药物的新用途的过程,成为抗击COVID-19大流行的有效解决方案。本研究旨在通过基于综合网络的方法研究和优先考虑潜在的抗SARS-CoV-2药物。我们提出了一种基于网络推理和归纳矩阵补全(NIMCVDA)的病毒-药物关联预测集成方法,以识别针对COVID-19的抗病毒药物。我们利用病毒基因组序列和药物化学结构的相似性以及病毒和药物之间存在的关联,构建了一个异质药物-病毒网络。采用网络推理方法对缺失的药物病毒边缘进行推断。在此基础上,重构现有药物-病毒关联矩阵。最后,利用感应矩阵补全算法计算出更准确的药物与病毒之间的关联分数。五重交叉验证的AUC为0.9020,留一交叉验证的AUC为0.8786。我们将该模型的性能与相关方法进行了比较。此外,我们对预测最高的药物进行了案例研究,并在其他数据集上实现了我们的模型,以验证预测性能。我们的工作重点是使用可重复使用的药物来抗击COVID-19流行病。交叉验证结果和案例研究表明,预测最高的药物是进一步生物学试验的有力候选者。
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CiteScore
3.60
自引率
9.10%
发文量
62
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