Helicobacter pylori is an important risk factor of gastric cancer. Although many H. pylori virulence factors have been reported, the pathogenic mechanism by which H. pylori infection causes gastric cancer remains unclear. Previously, by using proteomics approaches and immunohistochemistry, we found that the protein expression level of many cancer-related factors were elevated in AGS cells after H. pylori infection, and one important factor was valosin-containing protein (VCP). By identification the interactome of over-expressed VCP in AGS cells through a proteomics approach, we aimed to characterize the cellular responses mediated by VCP and its functional roles in H. pylori-associated gastric cancer. 176 interacting proteins were identified through via approach, and with the assistance of IPA analysis to search for significantly enriched signaling pathways, we focused on proteins involved in cell survival, proliferation and cancer development among these candidates. We found AKT as a key interacting protein of VCP in H. pylori-induced gastric cancer. We observed that H. pylori infection enhances the interaction between AKT and VCP, and also an AKT-dependent phosphorylation of VCP in AGS cells. Interestingly, the AKT-dependent VCP phosphorylation protects AGS cells from apoptosis, which is governed by phosphotidylinositol 3-kinase (PI3K) and also degradation of apoptotic factor or cell cycle inhibitor. Confocal microscopy indicated a co-localization between VCP and ubiquitinated cell regulators upon AKT stimulation. In addition, our current data indicated that VCP may involve in aggresome formation, possibly for their ubiquitinated protein degradation. Together, these data identified VCP as an important target in the AKT-mediated signaling of cell survival.