By leveraging multi-omics analysis and machine learning techniques, the research team led by Professor Shuo Wang (Institute of Microbiology, the Chinese Academy of Sciences) developed an Immune Response-related Risk Score (IRRS) model to predict prognosis and immunotherapy response in colorectal cancer (CRC) patients.
The study integrated clinical data and transcriptomic profiles from TCGA-CRC and six validation cohorts to identify a robust multi-gene signature.
Through machine learning-based feature selection, the team identified 13 core immune-related genes (IL18BP, RSAD2, G0S2, SIGLEC1, SFRP2, IFI44L, ISG20, IFIT1, OLR1, SAMHD1, HK3, PTAFR, CSF1) that play critical roles in the regulation of the tumour immune microenvironment and response to immunotherapy.
The IRRS model, constructed using Random Survival Forest (RSF) and Lasso regression, was validated across multiple datasets and demonstrated superior predictive performance.
In the GSE91061, GSE78220, and IMvigor210 datasets, IRRS effectively stratified patients into high-risk and low-risk groups, with significant survival differences.
The ROC analysis confirmed that IRRS outperformed TIDE in predicting immunotherapy response, with higher AUC values across all datasets.
Notably, higher IRRS scores correlated with poorer survival and less immune activation, while low IRRS scores were associated with better prognosis and increased immune infiltration.
To further investigate the biological mechanisms underlying IRRS, the researchers conducted immune infiltration analysis and pathway enrichment studies.
The results revealed that low-risk IRRS patients exhibited higher levels of immune cell infiltration, particularly CD8+ T cells and natural killer (NK) cells, suggesting an enhanced anti-tumour immune response.
Additionally, epigenetic modifications, such as DNA methylation patterns, were analysed, highlighting potential regulatory mechanisms affecting gene expression in high-risk versus low-risk patients.
“These findings demonstrate that immune-related molecular signatures can serve as reliable predictors of CRC prognosis and immunotherapy response,” said Dr. Wang.
“The IRRS model provides a clinically relevant and superior alternative to existing predictive tools, paving the way for more personalised and effective immunotherapy strategies.”
While current scientific consensus suggests that traditional CRC risk models rely heavily on TNM staging, this study presents a paradigm shift by incorporating immune system dynamics into risk assessment.
The findings underscore the importance of machine learning and multi-omics data integration in developing precision oncology tools for CRC management.
Future directions include expanding the IRRS model to other cancer types and refining its predictive power through multi-centre clinical validation.
The study sets the foundation for next-generation precision immunotherapy approaches, encouraging researchers to further explore immune signatures in cancer treatment.
Source: Tsinghua University Press
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