BACKGROUND: Cloned-out of library-2 (Cool-2)/PAK-interactive exchange factor (alpha-Pix) was identified through its ability to bind the Cdc42/Rac target p21-activated kinase (PAK) and has been implicated in certain forms of X-linked mental retardation as well as in growth factor- and chemoattractant-coupled signaling pathways. We recently found that the dimeric form of Cool-2 is a specific guanine nucleotide exchange factor (GEF) for Rac, whereas monomeric Cool-2 is a GEF for Cdc42 as well as Rac. However, unlike many GEFs, Cool-2 binds to activated forms of Cdc42 and Rac. Thus, we have investigated the functional consequences of these interactions. RESULTS: We show that the binding of activated Cdc42 to the Cool-2 dimer markedly enhances its ability to associate with GDP bound Rac1, resulting in a significant activation of Rac-GEF activity. While the Rac-specific GEF activity of Cool-2 is mediated through the Dbl homology (DH) domain from one monomer and the Pleckstrin homology domain from the other, activated Cdc42 interacts with the DH domain, most likely opposite the DH domain binding site for GDP bound Rac. Activated Rac also binds to Cool-2; however, it strongly inhibits the GEF activity of dimeric Cool-2. CONCLUSIONS: We provide evidence for novel mechanisms of allosteric regulation of the Rac-GEF activity of the Cool-2 dimer, involving stimulatory effects by Cdc42 and feedback inhibition by Rac. These findings demonstrate that by serving as a target for GTP bound Cdc42 and a GEF for Rac, Cool-2 mediates a GTPase cascade where the activation of Cdc42 is translated into the activation of Rac.
BACKGROUND: Cloned-out of library-2 (Cool-2)/PAK-interactive exchange factor (alpha-Pix) was identified through its ability to bind the Cdc42/Rac target p21-activated kinase (PAK) and has been implicated in certain forms of X-linked mental retardation as well as in growth factor- and chemoattractant-coupled signaling pathways. We recently found that the dimeric form of Cool-2 is a specific guanine nucleotide exchange factor (GEF) for Rac, whereas monomeric Cool-2 is a GEF for Cdc42 as well as Rac. However, unlike many GEFs, Cool-2 binds to activated forms of Cdc42 and Rac. Thus, we have investigated the functional consequences of these interactions. RESULTS: We show that the binding of activated Cdc42 to the Cool-2 dimer markedly enhances its ability to associate with GDP bound Rac1, resulting in a significant activation of Rac-GEF activity. While the Rac-specific GEF activity of Cool-2 is mediated through the Dbl homology (DH) domain from one monomer and the Pleckstrin homology domain from the other, activated Cdc42 interacts with the DH domain, most likely opposite the DH domain binding site for GDP bound Rac. Activated Rac also binds to Cool-2; however, it strongly inhibits the GEF activity of dimeric Cool-2. CONCLUSIONS: We provide evidence for novel mechanisms of allosteric regulation of the Rac-GEF activity of the Cool-2 dimer, involving stimulatory effects by Cdc42 and feedback inhibition by Rac. These findings demonstrate that by serving as a target for GTP bound Cdc42 and a GEF for Rac, Cool-2 mediates a GTPase cascade where the activation of Cdc42 is translated into the activation of Rac.
Authors: Florian Paul; Henrik Zauber; Laura von Berg; Oliver Rocks; Oliver Daumke; Matthias Selbach Journal: Mol Cell Proteomics Date: 2016-11-16 Impact factor: 5.911
Authors: Pirjo Spuul; Paolo Ciufici; Véronique Veillat; Anne Leclercq; Thomas Daubon; IJsbrand Kramer; Elisabeth Génot Journal: Small GTPases Date: 2014-05-08
Authors: Christopher M Hofmann; Kelly E O'Quin; N Justin Marshall; Thomas W Cronin; Ole Seehausen; Karen L Carleton Journal: PLoS Biol Date: 2009-12-22 Impact factor: 8.029