MetaNetwork Enhances Biological Insights from Quantitative Proteomics Differences by Combining Clustering and Enrichment Analyses.
Austin V CarrBrian L FreyMark ScalfAnthony J CesnikZach RolfsKyndal A PikeBing YangMark P KellerDavid F JarrardMichael R ShortreedLloyd M SmithPublished in: Journal of proteome research (2022)
Interpreting proteomics data remains challenging due to the large number of proteins that are quantified by modern mass spectrometry methods. Weighted gene correlation network analysis (WGCNA) can identify groups of biologically related proteins using only protein intensity values by constructing protein correlation networks. However, WGCNA is not widespread in proteomic analyses due to challenges in implementing workflows. To facilitate the adoption of WGCNA by the proteomics field, we created MetaNetwork, an open-source, R-based application to perform sophisticated WGCNA workflows with no coding skill requirements for the end user. We demonstrate MetaNetwork's utility by employing it to identify groups of proteins associated with prostate cancer from a proteomic analysis of tumor and adjacent normal tissue samples. We found a decrease in cytoskeleton-related protein expression, a known hallmark of prostate tumors. We further identified changes in module eigenproteins indicative of dysregulation in protein translation and trafficking pathways. These results demonstrate the value of using MetaNetwork to improve the biological interpretation of quantitative proteomics experiments with 15 or more samples.
Keyphrases
- mass spectrometry
- prostate cancer
- label free
- network analysis
- high resolution
- liquid chromatography
- protein protein
- amino acid
- gas chromatography
- radical prostatectomy
- electronic health record
- capillary electrophoresis
- gene expression
- computed tomography
- single cell
- machine learning
- drug induced
- simultaneous determination