Chang, Young-Ja, Kim, Yu-Lee, Lee, Yun-Kyung, Sacket, Santosh J., Kim, Kyeok, Kim, Hyo-Lim, Han, Mijin, Bae, Yoe-Sik, Okajima, Fumikazu, and Im, Dong-Soon
Abstract: Phosphatidic acid (PA) increased intracellular Ca2+ concentration ([Ca2+]i) in C6 rat glioma and L2071 mouse fibroblast cells. Dioleoyl PA (PA, 18:1) was the most efficacious, followed by dipalmitoyl PA (16:0 PA) and dimyristoyl PA (14:0 PA). Lysophosphatidic acid (LPA) also increased the [Ca2+]i in the both cells. PA desensitized LPA-induced Ca2+ response completely in C6 cells, but partly in L2071 cells. Treatment of pertussis toxin (PTX), a specific inhibitor of Gi/o-type G proteins, completely ameliorated LPA- and PA-induced Ca2+ response in C6 cells. However, in L2071 cells, PTX inhibited PA-induced Ca2+ increase by 80% and LPA-induced one by 20%. Ki16425, a specific inhibitor of LPA1/LPA3 receptors, completely inhibited both LPA- and PA-induced Ca2+ responses in C6 cells. On the other hand, in L2071 cells, Ki16425 completely inhibited PA-induced Ca2+ response, but partly LPA-induced one. VPC32183, another specific inhibitor of LPA1/LPA3 receptors, completely inhibited LPA- and PA-induced Ca2+ responses in both C6 and L2071 cells. Therefore, PA and LPA appear to increase [Ca2+]i through Ki16425/VPC32183-sensitive LPA receptor coupled to PTX-sensitive G proteins in C6 cells. In L2071 cells, however, LPA increases [Ca2+]i through Ki16425-insensitive LPA receptor coupled to PTX-insensitive G proteins and Ki16425-sensitive LPA receptor coupled to PTX-sensitive G protein, whereas PA utilized only the latter pathway. Our results suggest that PA acts as a partial agonist on endogenous LPA receptors, which are sensitive to Ki16425 and coupled to PTX-sensitive G protein, but not on LPA receptors, which are not sensitive to Ki16425 and coupled to PTX-insensitive G protein. [Copyright &y& Elsevier]