The Journal of cell biology
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The RGS7 (R7) family of RGS proteins bound to the divergent Gbeta subunit Gbeta5 is a crucial regulator of G protein-coupled receptor (GPCR) signaling in the visual and nervous systems. Here, we identify R7BP, a novel neuronally expressed protein that binds R7-Gbeta5 complexes and shuttles them between the plasma membrane and nucleus. Regional expression of R7BP, Gbeta5, and R7 isoforms in brain is highly coincident. ⋯ Depalmitoylation of R7BP translocates R7BP-R7-Gbeta5 complexes from the plasma membrane to the nucleus. Compared with nonpalmitoylated R7BP, palmitoylated R7BP greatly augments the ability of RGS7 to attenuate GPCR-mediated G protein-regulated inward rectifying potassium channel activation. Thus, by controlling plasma membrane nuclear-shuttling of R7BP-R7-Gbeta5 complexes, reversible palmitoylation of R7BP provides a novel mechanism that regulates GPCR signaling and potentially transduces signals directly from the plasma membrane to the nucleus.