FNSemSim: An improved disease similarity method based on network fusion

Abstract

Discovering similar diseases is very helpful for revealing the pathogenesis of diseases and making direction in drug use. And related diseases are often triggered by disease-related genes. Therefore, function interaction networks structured by disease-related genes are suitable for measurement of disease similarity, and some methods have utilized the advantage of function interaction of disease-related genes. However, all of them were developed by using a single gene functional network, some of them ignoring the effect of non-neighbour nodes in a functional interaction network. In this study, we propose a new method, FNSemSim, for computing relatedness between diseases by fusing two protein networks, which could be utilized fully based on random walk with restart (RWR). And a benchmark set of similar disease pairs are used to assess the performance of FNSemSim. As a result, FNSemSim achieved a very good performance with a high AUC (area under the receiver operating characteristic curve) reached 98.7%. Furthermore, we further studied the impact of different data sources, including function interaction networks and disease-related genes databases. It was found that the quality of the data sources has a greater impact on the performance of disease similarity calculation than the size of the data source, and utilizing function interaction networks and gene-disease association data could improve the performance of FNSemSim.