Role of the chaperonin CCT/TRiC complex in G protein betagamma-dimer assembly

Gbetagamma dimer formation occurs early in the assembly of heterotrimeric G proteins. On nondenaturing (native) gels, in vitro translated, (35)S-labeled Ggamma subunits traveled primarily according to their pI and apparently were not associated with other proteins. In contrast, in vitro translated, (35)S-labeled Gbeta subunits traveled at a high apparent molecular mass (approximately 700 kDa) and co-migrated with the chaperonin CCT complex (also called TRiC). Different FLAG-Gbeta isoforms coprecipitated CCT/TRiC to a variable extent, and this correlated with the ability of the different Gbeta subunits to efficiently form dimers with Ggamma. When translated Ggamma was added to translated Gbeta, a new band of low apparent molecular mass (approximately 50 kDa) was observed, which was labeled by either (35)S-labeled Gbeta or Ggamma, indicating that it is a dimer. Formation of the Gbetagamma dimer was ATP-dependent and inhibited by either adenosine 5'-O-(thiotriphosphate) or aluminum fluoride in the presence of Mg(2+). This inhibition led to increased association of Gbeta with CCT/TRiC. Although Ggamma did not bind CCT/TRiC, addition of Ggamma to previously synthesized Gbeta caused its release from the CCT/TRiC complex. We conclude that the chaperonin CCT/TRiC complex binds to and folds Gbeta subunits and that CCT/TRiC mediates Gbetagamma dimer formation by an ATP-dependent reaction.