Abstract
BackgroundRNA-binding proteins (RBPs) play important roles in cellular homeostasis by regulating the expression of thousands of transcripts, which have been reported to be involved in human tumorigenesis. Despite previous reports of the dysregulation of RBPs in cancers, the degree of dysregulation of RBPs in cancers and the intrinsic relevance between dysregulated RBPs and clinical TNM information remains unknown. Furthermore, the co-expressed networks of dysregulated RBPs with transcriptional factors and lncRNAs also require further investigation.ResultsHere, we firstly analyzed the deviations of expression levels of 1,542 RBPs from 20 cancer types and found that (1) RBPs are dysregulated in almost all 20 cancer types, especially in BLCA, COAD, READ, STAD, LUAD, LUSC and GBM with proportion of deviation larger than 300% compared with non-RBPs in normal tissues. (2) Up- and down-regulated RBPs also show opposed patterns of differential expression in cancers and normal tissues. In addition, down-regulated RBPs show a greater degree of dysregulated expression than up-regulated RBPs do. Secondly, we analyzed the intrinsic relevance between dysregulated RBPs and clinical TNM information and found that (3) Clinical TNM information for two cancer types—CHOL and KICH—is shown to be closely related to patterns of differentially expressed RBPs (DE RBPs) by co-expression cluster analysis. Thirdly, we identified ten key RBPs (seven down-regulated and three up-regulated) in CHOL and seven key RBPs (five down-regulated and two up-regulated) in KICH by analyzing co-expression correlation networks. Fourthly, we constructed the co-expression networks of key RBPs between 1,570 TFs and 4,147 lncRNAs for CHOL and KICH, respectively.ConclusionsThese results may provide an insight into the understanding of the functions of RBPs in human carcinogenesis. Furthermore, key RBPs and the co-expressed networks offer useful information for potential prognostic biomarkers and therapeutic targets for patients with cancers at the N and M stages in two cancer types CHOL and KICH.
Highlights
Recent research has highlighted the importance of changes in RNA metabolism in the mechanisms of carcinogenesis, including long non-coding RNAs
The deviations of expression levels of RNA-binding proteins (RBPs) between cancerous and normal tissues To investigate the degrees of dysregulation of RBPs in many human cancers, we computed the standard deviations of gene expression levels of RBPs and non-RBPs in 20 types of cancerous and normal tissues, respectively
These results suggest that dysregulated RBPs play a key role in the regulation of the development of the CHOL and KICH M -stage, which may provide a new perspective for potential prognostic biomarkers and therapeutic targets for patients with cancers at metastasis stage (M stage) in two cancer types CHOL and KICH
Summary
Recent research has highlighted the importance of changes in RNA metabolism in the mechanisms of carcinogenesis, including long non-coding RNAs (lncRNAs). TRNAU1AP has been confirmed to play an important role in the regulation of cell proliferation and migration via the PI3K/Akt signaling pathway (Hu et al, 2018). SRPR is reported to regulate keratinocyte proliferation by affecting cell cycle progression and tend to show high expression in epidermal keratinocytes (Kim et al, 2016). Overexpression of RPL34 is suggested to promote malignant proliferation of non-small cell lung cancer (NSCLC) (Yang et al, 2016). RNA-binding proteins (RBPs) play important roles in cellular homeostasis by regulating the expression of thousands of transcripts, which have been reported to be involved in human tumorigenesis.
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