Abstract

Predicting the potential microRNA (miRNA) candidates associated with a disease helps in exploring the mechanisms of disease development. Most recent approaches have utilized heterogeneous information about miRNAs and diseases, including miRNA similarities, disease similarities, and miRNA-disease associations. However, these methods do not utilize the projections of miRNAs and diseases in a low-dimensional space. Thus, it is necessary to develop a method that can utilize the effective information in the low-dimensional space to predict potential disease-related miRNA candidates. We proposed a method based on non-negative matrix factorization, named DMAPred, to predict potential miRNA-disease associations. DMAPred exploits the similarities and associations of diseases and miRNAs, and it integrates local topological information of the miRNA network. The likelihood that a miRNA is associated with a disease also depends on their projections in low-dimensional space. Therefore, we project miRNAs and diseases into low-dimensional feature space to yield their low-dimensional and dense feature representations. Moreover, the sparse characteristic of miRNA-disease associations was introduced to make our predictive model more credible. DMAPred achieved superior performance for 15 well-characterized diseases with AUCs (area under the receiver operating characteristic curve) ranging from 0.860 to 0.973 and AUPRs (area under the precision-recall curve) ranging from 0.118 to 0.761. In addition, case studies on breast, prostatic, and lung neoplasms demonstrated the ability of DMAPred to discover potential disease-related miRNAs.

Highlights

  • Several studies have shown that the abnormal expression of microRNAs is inextricably related to the occurrence and development of diseases [1,2,3,4,5]

  • The first category includes the use of regulatory relationships between miRNAs and their target genes to predict potential associations between the miRNA and the disease [6]

  • If we identify from known association data that the disease d j is associated with the miRNA mi, we add a side between corresponding nodes, and the weight of the edge is 1

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Summary

Introduction

Several studies have shown that the abnormal expression of microRNAs (miRNAs) is inextricably related to the occurrence and development of diseases [1,2,3,4,5]. Some of the methods previously used to predict diseases-associated miRNAs can be divided into two categories. The first category includes the use of regulatory relationships between miRNAs and their target genes to predict potential associations between the miRNA and the disease [6]. Since the number of experimentally validated target genes is not sufficient, some predictive algorithms such as PITA [7], TargetScan [8], and MiRanda [9] are needed to extrapolate the existence of target gene-miRNA associations [10,11,12,13]. The likelihood of a miRNA associated with a disease is predicted based on the similarity or interaction between disease-related target genes and miRNA-related target

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