Abstract
MicroRNAs (miRNAs) are associated with various complex human diseases and some miRNAs can be directly involved in the mechanisms of disease. Identifying disease-causative miRNAs can provide novel insight in disease pathogenesis from a miRNA perspective and facilitate disease treatment. To date, various computational models have been developed to predict general miRNA-disease associations, but few models are available to further prioritize causal miRNA-disease associations from non-causal associations. Therefore, in this study, we constructed a Levenshtein-Distance-Enhanced miRNA-disease Causal Association Predictor (LE-MDCAP), to predict potential causal miRNA-disease associations. Specifically, Levenshtein distance matrixes covering the sequence, expression and functional miRNA similarities were introduced to enhance the previous Gaussian interaction profile kernel-based similarity matrix. LE-MDCAP integrated miRNA similarity matrices, disease semantic similarity matrix and known causal miRNA-disease associations to make predictions. For regular causal vs. non-disease association discrimination task, LF-MDCAP achieved area under the receiver operating characteristic curve (AUROC) of 0.911 and 0.906 in 10-fold cross-validation and independent test, respectively. More importantly, LE-MDCAP prominently outperformed the previous MDCAP model in distinguishing causal versus non-causal miRNA-disease associations (AUROC 0.820 vs. 0.695). Case studies performed on diabetic retinopathy and hsa-mir-361 also validated the accuracy of our model. In summary, LE-MDCAP could be useful for screening causal miRNA-disease associations from general miRNA-disease associations.
Highlights
MicroRNAs are a class of endogenous small RNAs of ~20 nucleotides in length that have various regulatory roles within cells
We developed LE-MiRNA-disease Causal Association Predictor (MDCAP) to predict potential causal miRNA-disease associations
We integrated multiple sources of information to represent miRNA similarity, including sequence similarity, expression level similarity and target pathway similarity, all calculated in the form of Levenshtein distances, in addition to Gaussian similarity
Summary
MicroRNAs (miRNAs) are a class of endogenous small RNAs of ~20 nucleotides in length that have various regulatory roles within cells. MiRNAs suppress target mRNA expression at the post-transcriptional level by binding to the 3 untranslated regions (3 -UTRs) [1,2]. Accumulating evidence has demonstrated that miRNAs are involved in diverse biological processes, such as cell proliferation, differentiation, death and signal transduction [2,3,4]. More and more miRNAs have been confirmed to be associated with the onset and development of complex diseases [5]. The effective identification of miRNAdisease associations, especially miRNAs directly involved in disease mechanisms, is critical for promoting the treatment of complex human diseases
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