Both the C-Terminal Polylysine Region and the Farnesylation of K-RasB Are Important for Its Specific Interaction with Calmodulin

BACKGROUND: Ras protein, as one of intracellular signal switches, plays various roles in several cell activities such as differentiation and proliferation. There is considerable evidence showing that calmodulin (CaM) binds to K-RasB and dissociates K-RasB from membrane and that the inactivation of CaM is able to induce K-RasB activation. However, the mechanism for the interaction of CaM with K-RasB is not well understood. METHODOLOGY/PRINCIPAL FINDINGS: Here, by applying fluorescence spectroscopy and isothermal titration calorimetry, we have obtained thermodynamic parameters for the interaction between these two proteins and identified the important elements of K-RasB for its interaction with Ca(2+)/CaM. One K-RasB molecule interacts with one CaM molecule in a GTP dependent manner with moderate, micromolar affinity at physiological pH and physiologic ionic strength. Mutation in the polybasic domain of K-Ras decreases the binding affinity. By using a chimera in which the C-terminal polylysine region of K-RasB has been replaced with that of H-Ras and vice versa, we find that at physiological pH, H-Ras-(KKKKKK) and Ca(2+)/CaM formed a 1∶1 complex with an equilibrium association constant around 10(5) M(−1), whereas no binding reaction of K-RasB-(DESGPC) with Ca(2+)/CaM is detected. Furthermore, the interaction of K-RasB with Ca(2+)/CaM is found to be enhanced by the farnesylation of K-RasB. CONCLUSIONS/SIGNIFICANCE: We demonstrate that the polylysine region of K-RasB not only contributes importantly to the interaction of K-RasB with Ca(2+)/CaM, but also defines its isoform specific interaction with Ca(2+)/CaM. The farnesylation of K-RasB is also important for its specific interaction with Ca(2+)/CaM. Information obtained here can enhance our understanding of how CaM interacts with K-RasB in physiological environments.