Abstract
BackgroundThe majority of cancer-related deaths are due to lung cancer, and there is a need for reliable diagnostic biomarkers to predict stages in non-small cell lung cancer cases. Recently, microRNAs were found to have potential as both biomarkers and therapeutic targets for lung cancer. However, some of the microRNA’s functions are unknown, and their roles in cancer stage progression have been mostly undiscovered in this clinically and genetically heterogeneous disease. As evidence suggests that microRNA dysregulations are implicated in many diseases, it is essential to consider the changes in microRNA-target regulation across different lung cancer subtypes.ResultsWe proposed a pipeline to identify microRNA synergistic modules with similar dysregulation patterns across multiple subtypes by constructing the MicroRNA Dysregulational Synergistic Network. From the network, we extracted microRNA modules and incorporated them as prior knowledge to the Sparse Group Lasso classifier. This leads to a more relevant selection of microRNA biomarkers, thereby improving the cancer stage classification accuracy. We applied our method to the TCGA Lung Adenocarcinoma and the Lung Squamous Cell Carcinoma datasets. In cross-validation tests, the area under ROC curve rate for the cancer stages prediction has increased considerably when incorporating the learned microRNA dysregulation modules. The extracted modules from multiple independent subtypes differential analyses were found to have high agreement with microRNA family annotations, and they can also be used to identify mutual biomarkers between different subtypes. Among the top-ranked candidate microRNAs selected by the model, 87% were reported to be related to Lung Adenocarcinoma. The overall result demonstrates that clustering microRNAs from the dysregulation pattern between microRNAs and their targets leads to biomarkers with high precision and recall rate to known differentially expressed disease-associated microRNAs.ConclusionsThe results indicated that our method improves microRNA biomarker selection by detecting similar microRNA dysregulational synergistic patterns across the multiple subtypes. Since microRNA-target dysregulations are implicated in many cancers, we believe this tool can have broad applications for discovery of novel microRNA biomarkers in heterogeneous cancer diseases.
Highlights
The majority of cancer-related deaths are due to lung cancer, and there is a need for reliable diagnostic biomarkers to predict stages in non-small cell lung cancer cases
Identified miRNA-target dysregulations between lung adenocarcinoma (LUAD) subtypes We identified significant dysregulations for every miRNAtarget pair between 1881 miRNAs and 20,484 mRNAs
MicroRNA groups lead to higher recall and precision of candidate miRNA biomarkers To validate whether the extracted miRNA modules aid the Sparse Group Lasso (SGL) classifier in selecting relevant miRNA biomarkers, we investigated how many of candidate miRNA biomarkers selected are known LUAD-associated miRNAs
Summary
The majority of cancer-related deaths are due to lung cancer, and there is a need for reliable diagnostic biomarkers to predict stages in non-small cell lung cancer cases. As evidence suggests that microRNA dysregulations are implicated in many diseases, it is essential to consider the changes in microRNA-target regulation across different lung cancer subtypes. About 87% of the lung cancer cases are classified as Non-Small Cell Lung Cancer, and the 5-year survival rate of all stages is below 17% because the majority of lung cancer patients (57%) are diagnosed at later stages because early disease is typically asymptomatic [1]. 22nt, miRNAs post-transcriptionally target messenger-RNAs (mRNAs) to regulate the translation of target genes. They have been found to play a critical role in various biological functions such as proliferation, differentiation, and apoptosis [5]. Increasing evidence suggests that miRNAs can have a causal role in tumorigenesis [6]
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