Phosphorylation of GTP dissociation inhibitor by PKA negatively regulates RhoA.

The cAMP-PKA cascade is a recognized signaling pathway important in inhibition of inflammatory injury events such as endothelial permeability and leucocyte trafficking, and a critical target of regulation is believed to be inhibition of Rho proteins. Here, we hypothesize that PKA directly phosphorylates GTP dissociation inhibitor (GDI) to negatively regulate Rho activity. Amino acid analysis of GDIalpha showed two potential protein kinase A (PKA) phosphorylation motifs, Ser(174) and Thr(182). Using in vitro kinase assay and mass spectrometry, we found that the purified PKA catalytic subunit phosphorylated GDIalpha-GST fusion protein and PKA motif-containing GDIalpha peptide at Ser(174), but not Thr(182). Transfection of COS-7 cells with mutated full-length GDIalpha at Ser(174) to Ala(174) (GDIalpha-Ser(174A)) abrogated the ability of cAMP to phosphorylate GDIalpha. However, mutation of Thr(182) to Ala(182) (GDIalpha-Thr(182A)) did not abrogate, and cAMP increased phosphorylation of GDIalpha to a similar extent as wild-type GDIalpha transfectants. The mutant GDIalpha-Ser(174A), but not GDIalpha-Thr(182A), was unable to prevent cAMP-mediated inhibition of Rho-dependent serum-response element reporter activity. Furthermore, the mutant GDIalpha-Ser(174A) was unable to prevent the thrombin-induced RhoA activation. Coprecipitation studies indicated that neither mutation of the PKA consensus sites nor phosphorylation alter GDIalpha binding with RhoA, suggesting that phosphorylation of Ser(174) regulated preformed GDIalpha-RhoA complexes. The findings provide strong support that the selective phosphorylation at Ser(174) by PKA is a signaling pathway in the negative regulation of RhoA activity and therefore could be a potential protective mechanism for inflammatory injury.