Gastric cancer is the second leading cause of cancer death worldwide. The main risk factors for gastric cancer include dietary factors, host genetics and H. pylori (Helicobacter pylori) infection. In 1994, H. pylori was classified as a type I carcinogen by IARC (International Agency for Research on Cancer). Bacterial-induced chronic inflammation results in 1 ~ 3% of infected patients transforming to gastric cancer. We chose AGS cell line and H. pylori as biomaterials, and cooperated with Dr. Chuu’s Lab for the MWA (microwestern arrays) technique. Comparing the proteome of non-infected and H. pylori-infected AGS cells with MWAs, we found that phosphorylated Thr 308 and Ser 473 of Akt were elevated in response to H. pylori stimulation. Previous studies have shown that phosphorylated Thr 308 and Ser 473 of Akt can cause its activation and downstream targets’ phosphorylation. After overexpressing Akt in AGS cells and co-IP (co-immunoprecipitating) the whole complexes, we used LC-MS/MS (liquid chromatography tandem mass spectrometry) to identify the Akt interactome. Deducting out of the non-specific binding proteins, we identified 64 potential Akt interacting proteins. Analyzing the 64 identified proteins with IPA (Ingenuity Systems Pathway Analysis), we found the possible Akt downstream targets, including FOXO3A, Caspase-9, BAD and p21, may involve in anti-apoptotic pathways. We further validated these possible Akt downstream targets with western blots and observed the phosphorylation level of FOXO3A, Caspase-9, BAD and p21 were elevated in response to H. pylori stimulation. However, after treating the inhibitor LY294002, which inhibits Akt activity, only phosphorylated Ser 253 of FOXO3A decreased. Previous studies have shown that phosphorylated Ser 253 of FOXO3A can cause its cytosolic retention and promote cell survival. In the future, we will further validate these phosphorylation regulations and their physiological roles. This information may help to demonstrate more comprehensive pathogenic mechanisms of Akt signaling in H. pylori-induced gastric cancer development.