Updated project metadata. Triple-negative breast cancer (TNBC) is regarded as the most aggressive subtype of breast cancer lacking targeted therapies. This is attributed to its high heterogeneity that complicates elucidation of its molecular aberrations. Here, we report identification of specific proteome expression profiles pertaining to two TNBC subclasses, basal A and basal B, through in-depth proteomics analysis of breast cancer cells. We observed that kinases and proteases displayed unique expression patterns within the subclasses, similar to whole proteome clusters. Systematic analyses of protein-protein interaction and co-regulation networks of these kinases and proteases unraveled dysregulated pathways and plausible targets for each TNBC subclass. Among these, we identified kinases AXL, PEAK1 and TGFBR2, and proteases FAP, UCHL1 and MMP2/14, as specific targets for basal B subclass, which represents the more aggressive TNBC cell lines. Our study thus highlights intricate mechanisms and distinct targets within TNBC, and emphasizes that these have to be exploited in a subclass-specific manner rather than a one-for-all TNBC therapy.