Abstract Loss‐of‐function mutations in lysine methyltransferase 2 (KMT2C) are frequently observed in breast cancer and are significantly associated with enhanced tumour heterogeneity, aggressive clinical behaviour, and poor prognosis. Although KMT2C has been established as a tumour suppressor, the precise molecular mechanisms by which its deficiency drives metastasis and therapy resistance remain incompletely understood. This review comprehensively examines the multifaceted roles of KMT2C in breast cancer pathogenesis, with a particular emphasis on its interplay with critical oncogenic signalling networks and functional axes, including the IFNγ‐EMT/MET axis, the MAPK/ERK and RAS/PI3K/AKT/mTOR pathways, and the KDM6A–MMP3 regulatory circuit. Furthermore, we discuss emerging therapeutic strategies for KMT2C‐deficient breast cancers, such as epigenetic modulators (EZH2 inhibitors, KDM6A inhibitors, and BET inhibitors), DNA damage response (DDR)‐targeting agents, and pathway‐specific inhibitors. These insights not only elucidate the complex biological functions of KMT2C in breast cancer but also provide a rationale for developing precision therapies tailored to KMT2C‐mutant tumours.
Tong et al. (Sun,) studied this question.