Characterization of S1P1 and S1P2 receptor function in smooth muscle by receptor silencing and receptor protection

Sphingosine1-phosphate (S1P) induces an initial Ca2+-dependent contraction followed by a sustained Ca2+-independent, RhoA-mediated contraction in rabbit gastric smooth muscle cells. The cells coexpress S1P(1) and S1P(2) receptors, but the signaling pathways initiated by each receptor type and the involvement of one or both receptors in contraction are not known. Lentiviral vectors encoding small interfering RNAs were transiently transfected into cultured smooth muscle cells to silence S1P(1) or S1P(2) receptors. Phospholipase C (PLC)-beta activity and Rho kinase activity were used as markers of pathways mediating initial and sustained contraction, respectively. Silencing of S1P(1) receptors abolished S1P-stimulated activation of G alpha(i3) and partially inhibited activation of G alpha(i1), whereas silencing of S1P(2) receptors abolished activation of G alpha(q), G alpha(13), and G alpha(i2) and partially inhibited activation of G alpha(i1). Silencing of S1P(2) but not S1P(1) receptors suppressed S1P-stimulated PLC-beta and Rho kinase activities, implying that both signaling pathways were mediated by S1P(2) receptors. The results obtained by receptor silencing were corroborated by receptor inactivation. The selective S1P(1) receptor agonist SEW2871 did not stimulate PLC-beta or Rho kinase activity or induce initial and sustained contraction; when this agonist was used to protect S1P(1) receptors so as to enable chemical inactivation of S1P(2) receptors, S1P did not elicit contraction, confirming that initial and sustained contraction was mediated by S1P(2) receptors. Thus S1P(1) and S1P(2) receptors are coupled to distinct complements of G proteins. Only S1P(2) receptors activate PLC-beta and Rho kinase and mediate initial and sustained contraction.