Targeting CBL ubiquitin ligase activation to downregulate tyrosine kinase signalling

The CBL E3 ubiquitin ligase is a critical regulator of tyrosine kinase (TK) signalling. CBL activity is regulated by a feedback loop in which an active TK phosphorylates CBL, relieving its autoinhibited conformation, and allowing ubiquitination of substrates, including TKs, leading to their degradation. Binding of the Src Like Adapter Protein 2 (SLAP2) to CBL can also activate autoinhibited CBL and promote substrate ubiquitination. Using an engineered CBL mutant in the SLAP2 binding interface, termed RE CBL, that mimics activation by SLAP2 binding, we characterized the cellular functions of this CBL activation mechanism. Comparison of wildtype and RE CBL interactomes using MiniTurboID showed extensive and overlapping interaction networks, with a discrete subset of proteins, including the known substrate, epidermal growth factor receptor (EGFR), as well as endocytic factors such as EPS15, in higher abundance with RE CBL compared to wildtype. Consistent with these observations, RE CBL interacted more readily with EGFR, enhanced EGFR internalization, and attenuated downstream signalling compared to WT. In Cbl null hematopoietic cells, RE CBL expression reduced sensitivity to cytokines IL-3 and GM-CSF, and decreased activation of the Src-family kinase Lyn. Furthermore, we optimized and conducted a small molecule screen to identify a group of structurally related compounds that, like SLAP2 binding, promoted CBL activation in vitro. Together these findings provide proof of concept for targeting CBL activity to downregulate TK signalling.