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基于通路的药物重定位使用因果推理。

Pathway-based drug repositioning using causal inference.

出版信息

BMC Bioinformatics. 2013;14 Suppl 16(Suppl 16):S3. doi: 10.1186/1471-2105-14-S16-S3. Epub 2013 Oct 22.

Abstract

BACKGROUND

Recent in vivo studies showed new hopes of drug repositioning through causality inference from drugs to disease. Inspired by their success, here we present an in silico method for building a causal network (CauseNet) between drugs and diseases, in an attempt to systematically identify new therapeutic uses of existing drugs.

METHODS

Unlike the traditional 'one drug-one target-one disease' causal model, we simultaneously consider all possible causal chains connecting drugs to diseases via target- and gene-involved pathways based on rich information in several expert-curated knowledge-bases. With statistical learning, our method estimates transition likelihood of each causal chain in the network based on known drug-disease treatment associations (e.g. bexarotene treats skin cancer).

RESULTS

To demonstrate its validity, our method showed high performance (AUC = 0.859) in cross validation. Moreover, our top scored prediction results are highly enriched in literature and clinical trials. As a showcase of its utility, we show several drugs for potential re-use in Crohn's Disease.

CONCLUSIONS

We successfully developed a computational method for discovering new uses of existing drugs based on casual inference in a layered drug-target-pathway-gene- disease network. The results showed that our proposed method enables hypothesis generation from public accessible biological data for drug repositioning.

摘要

背景

最近的体内研究通过从药物到疾病的因果推理为药物再定位带来了新的希望。受其成功的启发,我们在这里提出了一种在药物和疾病之间构建因果网络(CauseNet)的计算方法,旨在系统地识别现有药物的新治疗用途。

方法

与传统的“一种药物-一种靶标-一种疾病”因果模型不同,我们同时考虑了基于多个专家 curated 知识库中丰富信息的所有可能的因果链,这些因果链通过靶标和基因涉及的途径将药物与疾病连接起来。通过统计学习,我们的方法根据已知的药物-疾病治疗关联(例如,贝沙罗汀治疗皮肤癌)来估计网络中每个因果链的转移可能性。

结果

为了证明其有效性,我们的方法在交叉验证中表现出了很高的性能(AUC = 0.859)。此外,我们的最高评分预测结果在文献和临床试验中高度富集。作为其实用性的展示,我们展示了几种用于克罗恩病潜在再利用的药物。

结论

我们成功地开发了一种基于药物-靶标-途径-基因-疾病分层网络中的因果推理来发现现有药物新用途的计算方法。结果表明,我们提出的方法能够从公共可访问的生物数据中生成药物重定位的假设。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/b6c0/3853312/22f6e8eec318/1471-2105-14-S16-S3-1.jpg

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