The variable C-terminal extension of G-protein-coupled receptor kinase 6 constitutes an accessorial autoregulatory domain.

G-protein-coupled receptor kinases (GRK) are known to phosphorylate agonist-occupied G-protein-coupled receptors. We expressed and functionally characterized mouse GRK6 proteins encoded by four distinct mRNAs generated by alternative RNA splicing from a single gene, mGRK6-A to mGRK6-D. Three isoforms, mGRK6-A to mGRK6-C differ in their C-terminal-most portion, which is known to mediate membrane and/or receptor interaction and regulate the activity of GRK4-like kinases. One isoform, mGRK6-D, is identical to the other mGRK6 variants in the N-terminal region, but carries an incomplete catalytical domain. Mouse GRK6-D was catalytically inactive and specifically present in the nucleus of transfected cells. Recombinant mouse GRK6-A to mGRK6-C were found to be membrane-associated in cell-free systems and in transfected COS-7 cells, suggesting that the very C-terminus of GRK6-A, lacking in GRK6-B and mGRK6-C and carrying consensus sites for palmitoylation, is not required for membrane interaction. Interestingly, the shortest catalytically active variant, mGRK6-C, was conspicuously more active in phosphorylating light-activated rhodopsin than mGRK6-A and mGRK6-B, implying that the C-terminus of the latter two variants may fulfil an autoinhibitory function. Mutation and removal of C-terminal-most region of mGRK6-A by site-directed mutagenesis revealed that this region contains three autoregulatory elements: two discontinuous inhibitory elements consisting of a single residue, D560, and the sequence between residues S566 and L576, and an intervening stimulatory element. The results suggest that mGRK6-C may be considered a basic, prototypic representative of the GRK4-like kinases, which is capable of interacting with both plasma membrane and its receptor substrate, but is resistant to further regulatory modification conferred to the prototype via C-terminal extension.