Cell adhesion modulates 5-HT1D and P2Y receptor signal trafficking differentially in LTK-8 cells

Abstract In this study, we investigated adhesion-induced changes in cellular responses to serotonin 5-HT 1D and purinergic P2Y receptor stimulation. We demonstrated that detachment of LTK-8 cells increased 5-HT 1D receptor-mediated intracellular Ca 2+ and extracellular signal regulated kinase (ERK) phosphorylation responses without affecting the adenylate cyclase response. Additionally, detachment enabled 5-HT 1D receptor stimulation to inhibit P2Y receptor-induced [Ca 2+ ] i mobilization. Such a cross talk between the two receptor systems was not observed in attached cells. P2Y receptor-induced Ca 2+ response was insensitive to adhesion state of the cells, while ERK phosphorylation response was enhanced upon detachment. Integrity of the actin cytoskeleton did not appear to play a role in adhesion sensitivity of 5-HT 1D -mediated responses, as treatment of attached cells with cytochalasin D did not mimic detachment-induced effects. Effects of detachment were reversed immediately after re-attachment of the suspended cells on poly- l -lysine coated cover slips, suggesting that the involvement of integrins or focal adhesion complexes is unlikely. Taken collectively, our results demonstrate that not only cellular responses induced by different G protein-coupled receptors, but also different responses induced by a particular G protein-coupled receptor, can be affected differentially by the adhesion status of cells. This suggests an important role for cell adhesion in controlling the coupling of a single G protein-coupled receptor to different intracellular responses.