Integrative multi-omics analysis N4-acetylcytidine modification landscape and the role of TMEM65 in breast cancer.

N4-acetylcytidine (ac4C), an evolutionarily conserved RNA modification regulated by NAT10, is increasingly recognized for its role in post-transcriptional gene regulation. However, the modification patterns and clinical significance of ac4C remain largely unclear in breast cancer (BC). In this study, we performed single-cell transcriptomic analysis to investigate the heterogeneity of ac4C-related gene (acRG) activity within the BC microenvironment for the first time. A total of 2135 acRGs were used to quantify acRG activity across different cell types, revealing that ac4C signaling was primarily enriched in tumor epithelial cells and associated with enhanced intercellular communication and immunosuppressive features. Leveraging publicly available BC cohorts, we developed a robust prognostic signature (acRGBS) through machine learning algorithm combinations and validated its predictive power across multiple datasets. The final five-gene signature effectively stratified patients by overall survival and correlated with diminished anti-tumor immune responses, underscoring its potential clinical utility. Notably, our functional validation reveals TMEM65 as an oncogenic driver associated with BC cell proliferation and apoptosis inhibition, establishing its role as a druggable target. Collectively, this study represents the first comprehensive exploration of ac4C modification in BC, introducing acRGBS as a novel biomarker that holds substantial prognostic and therapeutic implications. The identification of TMEM65 further highlights the translational potential of our findings in directing targeted therapeutic development, thus contributing significantly to the evolving landscape of precision medicine in BC.