LPA receptor1 antagonists as anticancer agents suppress human lung tumours.

Lysophosphatidic acid (LPA), as a bioactive lipid, plays a variety of physiological and pathological roles via activating six types of G-protein-coupled LPA receptors (LPA1-6). Our preliminary study found that LPA1 is highly expressed in lung cancer tissues compared with paracancerous tissues, but the role of LPA1 in lung carcinoma is unclear. This study aimed to elucidate the association between LPA1 and lung tumour behaviour at the cellular and animal model levels. We found that LPA promoted the migration, proliferation and colony formation of a lung cancer cell line (A549). LPA1 and LPA3 are preferentially expressed in A549 cells, and both Ki16425 (LPA1 and LPA3 antagonist) and ono7300243 (LPA1 antagonist) completely blocked the LPA-induced actions. These results were further verified by experiments of the LPA1/3 overexpression and LPA1 knockdown A549 cells. Furthermore, LPA1 overexpression and knockdown A549 cells were used to assess the in vivo tumour-bearing animal model and the mechanism underlying LPA-induced actions. In the animal model, A549 cell-derived tumour volume was significantly increased by LPA1 overexpression and significantly decreased by LPA1 knockdown respectively, suggesting that LPA1 is a regulator of in vivo tumour formation. Our results also indicated that the LPA1/Gi/MAP kinase/NF-κB pathway is involved in LPA-induced oncogenic actions in A549 cells. Thus, targeting LPA1 may be a novel strategy for treating lung carcinoma.