Ligand binding promotes conformational rearrangement of the epidermal growth factor receptor (EGFR) leading to receptor autophosphorylation and downstream signaling. However, transient interactions between unstimulated EGFR molecules on the cell surface are not fully understood. In this report, we describe the investigation of homodimer formation of EGFR by means of an SNAP-tag based selective crosslinking approach (S-CROSS). EGFR homodimers were selectively captured in living cells and utilized for analysis of protein receptor interactions on the plasma membrane and ligand-induced activation. We showed that EGFR forms homodimers in unstimulated cells with efficiencies similar to those seen in cells treated with the epidermal growth factor ligand (EGF) supporting the existence of constitutive transient receptor-receptor interactions. EGFR crosslinked homodimers displayed a substantially increase in kinase activation upon ligand stimulation. Interestingly, in unstimulated cells the levels of spontaneous phosphorylation were found to correlate with the yields of the crosslinked homodimers species. In addition, we demonstrated that this crosslinking approach can be applied to interrogate the effect of small molecule inhibitors on receptor dimerization and kinase activity. Our crosslinking assay provides a new tool to dissect ligand-independent dimerization and activation mechanisms of receptor tyrosine kinases, many of which are important anticancer drug targets.
Keywords: Phosphorylation; Receptor tyrosine kinase; S-CROSS; SNAP-tag.
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