Abstract
Since the microbiome has a significant impact on human health and disease, microbe-disease associations can be utilized as a valuable resource for understanding disease pathogenesis and promoting disease diagnosis and prognosis. Accordingly, it is necessary for researchers to achieve a comprehensive and deep understanding of the associations between microbes and diseases. Nevertheless, to date, little work has been achieved in implementing novel human microbe-disease association prediction models. In this paper, we develop a novel computational model to predict potential microbe-disease associations by bi-random walk on the heterogeneous network (BiRWHMDA). The heterogeneous network was constructed by connecting the microbe similarity network and the disease similarity network via known microbe-disease associations. Microbe similarity and disease similarity were calculated by the Gaussian interaction profile kernel similarity measure; moreover, a logistic function was applied to regulate disease similarity. Additionally, leave-one-out cross validation and 5-fold cross validation were implemented to evaluate the predictive performance of our method; both cross validation methods performed well. The leave-one-out cross validation experiment results illustrate that our method outperforms other previously proposed methods. Furthermore, case studies on asthma and inflammatory bowel disease prove the favorable performance of our method. In conclusion, our method can be considered as an effective computational model for predicting novel microbe-disease associations.
Highlights
There are a large number of microbes in the human body
The global heterogeneous network contains above-mentioned two types of nodes and three types of edges between them, which can be constructed by connecting the microbe similarity network and the disease similarity network via the known microbe-disease associations
To evaluate the prediction performance of the model we proposed, leave-one-out cross validation (LOOCV) and 5-fold cross validation were implemented on the 450 known microbe-disease associations
Summary
Research indicates that approximately 90% of the cells in and on the human body are microbial cells [1] These microbes, including bacteria, eukaryotes, archaea and viruses, reside in and on different body surfaces such as the mouth, skin, vagina and gut, with the vast majority residing in the gastrointestinal tract [2]. Though some computational methods have recently been proposed to study microorganisms and human diseases [16,17,18], little work has been undertaken to advance human microbe-disease association prediction models. We present a novel computational approach that executes a bi-random walk algorithm on the heterogeneous network to predict potential microbe-disease associations (BiRWHMDA). The bi-random walk algorithm was executed on the heterogeneous network to predict potential microbe-disease associations. BiRWHMDA can be considered as an effective predictive tool for potential microbe-disease associations
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