Abstract
Src family tyrosine kinases are down-regulated through phosphorylation of a single C-terminal tyrosine by the nonreceptor tyrosine kinase Csk. Despite the fundamental role of Csk in controlling cell growth and differentiation, it is unclear what limits this key signaling reaction and controls the production of catalytically repressed Src. To investigate this issue, stopped-flow fluorescence experiments were performed to determine which steps modulate catalysis. Both Src binding and phosphorylation can be monitored by changes in intrinsic tryptophan fluorescence. Association kinetics are biphasic with the initial phase corresponding to the bimolecular interaction of both proteins and the second phase representing a slow conformational change that coincides with the rate of maximum turnover. The kinetic transients for the phosphorylation reaction are also biphasic with the initial phase corresponding to the rapid phosphorylation and the release of phospho-Src. These data, along with equilibrium sedimentation and product inhibition experiments, suggest that steps involving Src association, phosphorylation, and product release are fast and that a structural change in Csk participates in limiting the catalytic cycle.
Highlights
Stantial conformational change involving all three domains
In a previous study we showed that Csk does not bind with high affinity to Src based on equilibrium sedimentation and single turnover experiments (21)
In prior equilibrium sedimentation studies, we showed that Src does not form a stable complex with Csk, indicating that the overall Kd for Src is higher than Km (26)
Summary
Stantial conformational change involving all three domains. In the active form of Src, only the SH3 domain interacts with the kinase domain (7). Association Kinetics of Csk and Src—Because phospho-Src binds poorly according to the above data, and ADP is not ratelimiting based on previous work (26), we wondered whether a conformational change in Csk could limit turnover.
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