Molecular determinants of differential substrate selection between the Src family kinases Lck and Src
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Src family kinases (SFKs) share highly conserved catalytic domains yet display distinct biological functions, raising the question of how substrate specificity is achieved. Here, we investigate the molecular basis of differential ITAM recognition by Lck and Src, combining cellular assays with structural analysis and docking simulations. In-cell assays demonstrated that, contrary to Lck, Src was completely incapable of phosphorylating the TCR ITAMs when ectopically expressed in a T cell environment. Domain-swapping experiments further revealed that substitution of the Src kinase domain with that of Lck was sufficient to confer ITAM phosphorylation and trigger downstream TCR signaling responses, whereas exchange of adaptor domains had minimal effect. Comparative structural analysis revealed that, despite their overall conserved fold, Lck exhibits a more open and solvent accessible pocket located between the N- and C-lobes of the kinase domain, adjacent to the activation loop, compared to Src. Consistent with this, docking simulations showed that Lck accommodates ITAM peptides in multiple favourable conformations, whereas Src displays a markedly reduced number of non-productive binding poses. Residue-level contact analysis identified a defined interaction surface in Lck, spanning the inter-lobal regions and activation loop. Our results highlight the importance of kinase domain conformational landscape in shaping substrate selectivity and have implications for the rational design of selective SFK inhibitors.