Abstract
Changes in intermolecular interactions (differential interactions) may influence the progression of cancer. Specific genes and their regulatory networks may be more closely associated with cancer when taking their transcriptional and post-transcriptional levels and dynamic and static interactions into account simultaneously. In this paper, a differential interaction analysis was performed to detect lung adenocarcinoma-related genes. Furthermore, a miRNA-TF (transcription factor) synergistic regulation network was constructed to identify three kinds of co-regulated motifs, namely, triplet, crosstalk and joint. Not only were the known cancer-related miRNAs and TFs (let-7, miR-15a, miR-17, TP53, ETS1, and so on) were detected in the motifs, but also the miR-15, let-7 and miR-17 families showed a tendency to regulate the triplet, crosstalk and joint motifs, respectively. Moreover, several biological functions (i.e., cell cycle, signaling pathways and hemopoiesis) associated with the three motifs were found to be frequently targeted by the drugs for lung adenocarcinoma. Specifically, the two 4-node motifs (crosstalk and joint) based on co-expression and interaction had a closer relationship to lung adenocarcinoma, and so further research was performed on them. A 10-gene biomarker (UBC, SRC, SP1, MYC, STAT3, JUN, NR3C1, RB1, GRB2 and MAPK1) was selected from the joint motif, and a survival analysis indicated its significant association with survival. Among the ten genes, JUN, NR3C1 and GRB2 are our newly detected candidate lung adenocarcinoma-related genes. The genes, regulators and regulatory motifs detected in this work will provide potential drug targets and new strategies for individual therapy.
Highlights
Lung adenocarcinoma is a malignant cancer with the highest incidences and the worst prognosis
We found that the miR-17 family had an important effect on the proliferation and cell cycle regulation of non-small cell lung cancer
The results confirmed the reliability of the detection of lung adenocarcinoma-related genes by differential interaction
Summary
Lung adenocarcinoma is a malignant cancer with the highest incidences and the worst prognosis. They identified network modules or module biomarkers that included a set of genes related to gastric cancer These three studies all achieved great results, but they did not consider transcriptional and post-transcriptional regulation of gene expression. The present study takes the differential interactions and miRNA-TF synergistic regulation of genes into account, and more comprehensively considers the regulation between biological molecules. Through this approach, were we able to verify the previous studies, but we were able to detect the genes and regulators more closely linked with the occurrence and development of cancer. Biomarkers and regulators related to lung adenocarcinoma were identified
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