Sample-Specific Perturbation of Gene Interactions Identifies Pancreatic Cancer Subtypes.
Ran WeiHuihui ZhangJianzhong CaoDailei QinShengping LiWuguo DengPublished in: International journal of molecular sciences (2022)
Pancreatic cancer is a highly fatal disease and an increasing common cause of cancer mortality. Mounting evidence now indicates that molecular heterogeneity in pancreatic cancer significantly impacts its clinical features. However, the dynamic nature of gene expression pattern makes it difficult to rely solely on gene expression alterations to estimate disease status. By contrast, biological networks tend to be more stable over time under different situations. In this study, we used a gene interaction network from a new point of view to explore the subtypes of pancreatic cancer based on individual-specific edge perturbations calculated by relative gene expression value. Our study shows that pancreatic cancer patients from the TCGA database could be separated into four subtypes based on gene interaction perturbations at the individual level. The new network-based subtypes of pancreatic cancer exhibited substantial heterogeneity in many aspects, including prognosis, phenotypic traits, genetic mutations, the abundance of infiltrating immune cell, and predictive therapeutic efficacy (chemosensitivity and immunotherapy efficacy). The new network-based subtypes were closely related to previous reported molecular subtypes of pancreatic cancer. This work helps us to better understand the heterogeneity and mechanisms of pancreatic cancer from a network perspective.
Keyphrases
- gene expression
- genome wide
- dna methylation
- copy number
- single cell
- magnetic resonance
- squamous cell carcinoma
- cardiovascular disease
- risk factors
- type diabetes
- transcription factor
- cardiovascular events
- single molecule
- genome wide identification
- wastewater treatment
- network analysis
- antibiotic resistance genes
- contrast enhanced