Abstract
The lysophospholipid mediator sphingosine-1-phosphate (S1P) activates G protein-coupled receptors (GPCRs) to induce potent inhibition of platelet-derived growth factor (PDGF)-induced Rac activation and, thereby, chemotaxis in rat vascular smooth muscle cells (VSMCs). We explored the heterotrimeric G protein and the downstream mechanism that mediated S1P inhibition of Rac and cell migration in VSMCs. S1P inhibition of PDGF-induced cell migration and Rac activation in VSMCs was abolished by the selective S1P(2) receptor antagonist JTE-013. The C-terminal peptides of Galpha subunits (Galpha-CTs) act as specific inhibitors of respective G protein-GPCR coupling. Adenovirus-mediated expression of Galpha(12)-CT, Galpha(13)-CT, and Galpha(q)-CT, but not that of Galpha(s)-CT or LacZ or pertussis toxin treatment, abrogated S1P inhibition of PDGF-induced Rac activation and migration, indicating that both G(12/13) and G(q) classes are necessary for the S1P inhibition. The expression of Galpha(q)-CT as well as Galpha(12)-CT and Galpha(13)-CT also abolished S1P-induced Rho stimulation. C3 toxin, but not a Rho kinase inhibitor or a dominant negative form of Rho kinase, abolished S1P inhibition of PDGF-induced Rac activation and cell migration. The angiotensin II receptor AT(1), which robustly couples to G(q), did not mediate either Rho activation or inhibition of PDGF-induced Rac activation or migration, suggesting that activation of G(q) alone was not sufficient for Rho activation and resultant Rac inhibition. However, the AT(1) receptor fused to Galpha(12) was able to induce not only Rho stimulation but also inhibition of PDGF-induced Rac activation and migration. Phospholipase C inhibition did not affect S1P-induced Rho activation, and protein kinase C activation by a phorbol ester did not mimic S1P action, suggesting that S1P inhibition of migration or Rac was not dependent on the phospholipase C pathway. These observations together suggest that S1P(2) mediates inhibition of Rac and migration through the coordinated action of G(12/13) and G(q) for Rho activation in VSMCs.
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