Multi-omics integration and machine learning uncover molecular basal-like subtype of pancreatic cancer and implicate A2ML1 in promoting tumor epithelial-mesenchymal transition.

BACKGROUND: Pancreatic cancer (PC) represents a highly heterogeneous malignancy with poor prognosis, where precise molecular subtyping facilitates comprehensive understanding of disease progression. METHODS: Transcriptomic, methylation, and mutational data from 168 PC samples were integrated. The molecular subtypes were established and validated across 13 independent cohorts utilizing ten distinct classification methods. Prognostic genes were identified to construct predictive models through various machine learning approaches. Following the identification of A2ML1 as a key gene, its expression profile was detected using RT-qPCR, western blotting, and immunohistochemistry. We subsequently conducted functional experiments to elucidate the mechanism of A2ML1 in promoting PC progression. RESULTS: Through multi-omics integration, we classified PC into two molecular subtypes with distinct prognostic outcomes. Pathway enrichment analysis revealed subtype-specific characteristics, subsequently validated in external cohorts. Using 23 prognostic genes, we developed and validated a prognostic signature through 101 machine learning algorithms and their combinations, with ridge regression demonstrating optimal performance. This signature demonstrated superior accuracy compared to multiple published signatures. The risk scores showed significant correlations with drug sensitivity, clinical characteristics, and patient outcomes. We further validated that A2ML1 expression was significantly elevated in PC tissues compared to normal counterparts. A2ML1 promoted PC progression through downregulation of LZTR1 expression and subsequent activation of the KRAS/MAPK pathway, ultimately driving epithelial-mesenchymal transition (EMT). CONCLUSION: In this study, we uncovered molecular basal-like subtype of PC and developed a prognostic signature using ridge regression. A2ML1 was identified as a crucial regulator of EMT in PC progression.