Protein kinase C switches the Raf kinase inhibitor from Raf-1 to GRK-2

Feedback inhibition is a fundamental principle in signal transduction allowing rapid adaptation to different stimuli. In mammalian cells, the major feedback inhibitor for G-protein-coupled receptors (GPCR) is G-protein-coupled receptor kinase 2 (GRK-2), which phosphorylates activated receptors, uncouples them from G proteins and initiates their internalization(1,2). The functions of GRK-2 are indispensable and need to be tightly controlled(3). Dysregulation promotes disorders such as hypertension(4) or heart failure(5). In our search for a control mechanism for this vital kinase, here we show that the Raf kinase inhibitor protein(6-8) (RKIP) is a physiological inhibitor of GRK-2. After stimulation of GPCR, RKIP dissociates from its known target, Raf-1 (refs 6 - 8), to associate with GRK-2 and block its activity. This switch is triggered by protein kinase C (PKC)- dependent phosphorylation of the RKIP on serine 153. The data delineate a new principle in signal transduction: by activating PKC, the incoming receptor signal is enhanced both by removing an inhibitor from Raf-1 and by blocking receptor internalization. A physiological role for this mechanism is shown in cardiomyocytes in which the downregulation of RKIP restrains beta-adrenergic signalling and contractile activity.