Lysophosphatidic acid (LPA) and LPA-receptor (LPAR)-activated G-protein alpha subunits encoded by GNAi2, GNA12, and GNA13 play a crucial role in ovarian cancer progression. While the general signaling mechanism regulated by LPA-LPAR-signaling had previously been characterized, the global transcriptomic network regulated by individual G protein alpha-subunits in ovarian cancer pathophysiology remains largely unknown. To define the specific oncogenic networks regulated by LPA-stimulated GNAi2, GNA12, and GNA13 in ovarian cancer, transcriptomic analyses were carried out using SKOV3 cells in which the expression of GNAi2, GNA12, or GNA134 was silenced in an Agilent SurePrint G3 Human Comparative Genomic Hybridization 8x60 microarray platform. Overall design: SKOV3 cells were stably knockdown for GNA12, GNA13, GNAi2 and control was scrabbled DNA. These 4 cell lines were LPA stimulated under normoxia or hypoxia conditions.