Abstract

Regulatory subunits of protein kinase A (PKA) inhibit its kinase subunits. Intriguingly, their potential as cAMP-dependent signal transducers remains uncharacterized. We recently reported that type I PKA regulatory subunits (RIα) interact with phosphatidylinositol 3,4,5-trisphosphate-dependent Rac exchange factor 1 (P-REX1), a chemotactic Rac guanine exchange factor (RacGEF). Because P-REX1 is known to be phosphorylated and inhibited by PKA, its interaction with RIα suggests that PKA regulatory and catalytic subunits may fine-tune P-REX1 activity or those of its target pools. Here, we tested whether RIα acts as a cAMP-dependent factor promoting P-REX1-mediated Rac activation and cell migration. We observed that Gs-coupled EP2 receptors indeed promote endothelial cell migration via RIα-activated P-REX1. Expression of the P-REX1-PDZ1 domain prevented RIα/P-REX1 interaction, P-REX1 activation, and EP2-dependent cell migration, and P-REX1 silencing abrogated RIα-dependent Rac activation. RIα-specific cAMP analogs activated P-REX1, but lost this activity in RIα-knockdown cells, and cAMP pulldown assays revealed that P-REX1 preferentially interacts with free RIα. Moreover, purified RIα directly activated P-REX1 in vitro We also found that the RIα CNB-B domain is critical for the interaction with P-REX1, which was increased in RIα mutants, such as the acrodysostosis-associated mutant, that activate P-REX1 at basal cAMP levels. RIα and Cα PKA subunits targeted distinct P-REX1 molecules, indicated by an absence of phosphorylation in the active fraction of P-REX1. This was in contrast to the inactive fraction in which phosphorylated P-REX1 was present, suggesting co-existence of dual stimulatory and inhibitory effects. We conclude that PKA's regulatory subunits are cAMP-dependent signal transducers.

Highlights

  • Regulatory subunits of protein kinase A (PKA) inhibit its kinase subunits

  • We found that the RI␣ cyclic nucleotide-binding domain B (CNB-B) domain is critical for the interaction with P-REX1, which was increased in RI␣ mutants, such as the acrodysostosis-associated mutant, that activate P-REX1 at basal cAMP levels

  • We have previously demonstrated that PKA phosphorylates P-REX1 at Ser-436 promoting inhibitory intramolecular interactions [7]

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Summary

The abbreviations used are

C, catalytic; R, regulatory; PKA, protein kinase A; RacGEF, Rac guanine exchange factor; P-REX1, phosphatidylinositol 3,4,5trisphosphate-dependent Rac exchange factor 1; AKAP, A kinase-anchoring protein; ANOVA, analysis of variance; DMEM, Dulbecco’s modified Eagle’s medium; FBS, fetal bovine serum; PAE, porcine aortic endothelial cell; IBMX, isobutylmethylxanthine; siEGFP, short-interfering enhanced green fluorescent protein; CNB-B, cyclic nucleotide-binding domain B; PGE2, prostaglandin E2; S1P, sphingosine 1-phosphate; CREB, cAMP-response element-binding protein; ACRO, acrodysostosis; PIP3, phosphatidylinositol 3,4,5-trisphosphate; PKAS, phospho-PKA substrate antibody; FBS, fetal bovine serum; DAPI, 4,6-diamidino-2-phenylindole; GST, glutathione S-transferase; DEP, Dishevelled, EGL-10, and Pleckstrin domain; DH, Dbl homology domain; PH, pleckstrin homology domain; esiRNA, endoribonuclease-prepared siRNA; 6-Bnz, N6-benzoyladenosine 3Ј,5Ј-cyclic monophosphate; 8-AHA, 8-(6-aminohexyl)aminoadenosine-3Ј,5Ј-cyclic monophosphate. We hypothesized that PKA might have a positive role on P-REX1 signaling, mechanistically explained by the effect of cAMP-promoted direct interaction between RI␣ and P-REX1, leading to P-REX1 activation (Fig. 1A)

Results
Discussion
Experimental procedures

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