Oligomerization of Rac1 GTPase Mediated by the Carboxyl-terminal Polybasic Domain

doi:10.1074/jbc.M008720200

Transcription and Nuclear Factor Monoclonals

Oligomerization of Rac1 GTPase Mediated by the Carboxyl-terminal Polybasic Domain^*

Baolin Zhang, Yuan Gao, Sun Young Moon, Yaqin Zhang, and Yi Zheng

From the Department of Molecular Sciences, University of Tennessee Health Science Center, Memphis, Tennessee 38163

The Rho family GTPase Rac1 mediates a variety of signal transduction processes leading to activation of NADPH oxidase, actincytoskeleton reorganization, transcription activation, and stimulationof DNA synthesis. In this study, Rac1 was found to form a reversiblemonomer and oligomer in both the GDP- and GTP-bound states invitro and in cells. Mutational analysis and peptide competitionexperiments showed that the unique C-terminal domain of Rac1 consistingof six consecutive basic residues (amino acids 183-188) is requiredfor the homophilic interaction. Oligomerization of Rac1-GTP ledto a self-stimulatory GTPase-activating protein (GAP) activity,resulting in a significantly enhanced intrinsic GTP hydrolysisrate of Rac1-GTP. Deletion or mutation of the polybasic residuesdrastically decreased its intrinsic GTPase activity and resultedin a loss of the self-stimulatory GAP activity. In the oligomericstate, Rac1 became insensitive to the RhoGAP stimulation, albeitmaintaining the responsiveness to the guanine nucleotide exchangefactor. The ability of the Rac1 C-terminal mutants to activatethe effector p21^cdc42/rac-activated kinase-1 correlated with their oligomerization states,suggesting that oligomer formation potentiates effector activation.Furthermore, the oligomer-to-monomer transition of Rac1-GDP couldbe driven effectively by interaction with the Rho guanine nucleotidedissociation inhibitor. Building on previous characterizationsof Rac1 interaction with regulatory proteins and effectors, theseresults suggest that Rac1 may employ yet another means of regulationby cycling between the monomeric and oligomeric states to effectivelygenerate a transient and augmentedsignal.

^* This work was supported by National Institutes of Health Grant GM 60523 and American Cancer Society Grant RPG-97-146 (Y. Z.).The costs of publication of this article were defrayed in partby the payment of page charges. This article must therefore behereby marked "advertisement" in accordance with 18 U.S.C. Section1734 solely to indicate thisfact.

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Oligomerization of Rac1 GTPase Mediated by the Carboxyl-terminal Polybasic Domain*

Oligomerization of Rac1 GTPase Mediated by the Carboxyl-terminal Polybasic Domain^*