Monitoring Editor: Suzanne R. Pfeffer RGS-GAIP (G␣-interacting protein) is a member of the RGS (regulator of G protein signaling) family of proteins that functions to down-regulate G␣ i /G␣ q -linked signaling. GAIP is a GAP or guanosine triphosphatase-activating protein that was initially discovered by virtue of its ability to bind to the heterotrimeric G protein G␣ i3 , which is found on both the plasma membrane (PM) and Golgi membranes. Previously, we demonstrated that, in contrast to most other GAPs, GAIP is membrane anchored and palmitoylated. In this work we used cell fractionation and immunocytochemistry to determine with what particular membranes GAIP is associated. In pituitary cells we found that GAIP fractionated with intracellular membranes, not the PM; by immunogold labeling GAIP was found on clathrin-coated buds or vesicles (CCVs) in the Golgi region. In rat liver GAIP was concentrated in vesicular carrier fractions; it was not found in either Golgi-or PM-enriched fractions. By immunogold labeling it was detected on clathrin-coated pits or CCVs located near the sinusoidal PM. These results suggest that GAIP may be associated with both TGN-derived and PM-derived CCVs. GAIP represents the first GAP found on CCVs or any other intracellular membranes. The presence of GAIP on CCVs suggests a model whereby a GAP is separated in space from its target G protein with the two coming into contact at the time of vesicle fusion.
INTRODUCTIONClassical G protein-mediated signaling pathways are three-component systems consisting of serpentine (seven-transmembrane domain) plasma membrane (PM) 1 receptors, heterotrimeric G proteins composed of ␣, , and ␥ subunits, and an effector, usually an enzyme or an ion channel (Gilman, 1987;Bourne et al., 1990;Neer, 1995;Hamm and Gilchrist, 1996). The newly discovered family of proteins known as RGS proteins (regulators of G protein signaling) constitute a fourth component of these systems (Dohlman and Thorner, 1997;Koelle, 1997;Neer, 1997;Berman and Gilman, 1998). RGS proteins serve as guanosine triphosphatase-activating proteins (GAPs) that accelerate the guanosine triphosphatase activity of G␣i/ G␣q subunits by stabilizing the G␣ subunit in its guanosine triphosphate (GTP)-to-guanosine diphosphate (GDP) transition state , returning them to their inactive GDP-bound form Hunt et al., 1996;Watson et al., 1996), and thereby terminating the G protein signal. The RGS protein family has been implicated in desensitization and negative regulation of heterotrimeric G proteinsignaling pathways in yeast, fungi, and nematodes (Dohlman et al., 1996;Koelle and Horvitz, 1996;Yu et al., 1996). In mammalian cells, RGS proteins have been implicated in the negative regulation of MAP kinase and phosphoinositide-phospholipase C activity and a loss of inhibition of adenylate cyclase activity by G␣i subunits Chatterjee et al., 1997;Huang et al., 1997;Yan et al., 1997). RGS proteins may also regulate cell death as suggested by the finding that A28-RGS14 is transcriptionally activated by the tumor ...
