By using proteomics approaches and immunohistocehmistry in the past, our laboratory 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). Recently studies are showed that VCP overexpresses in almost every kind of cancer, and the level of VCP in cancerous tissues is a prognosis marker for cancer diseases. However it is not a clear relationship between VCP expression level and cancer development. The specific aim of this thesis is to investigate the interacting proteins with VCP. By overexpressing VCP in AGS cells and co-immunoprecipitating the whole complexes, further the complexes are identified by using proteomics approaches. The number of identification proteins deducting from nonspecific binding proteins is 158. These were classified as transcription and translation-related proteins and folding-related proteins, cytoskeleton proteins, metabolic enzymes, cell communication/ signal transduction-related proteins on the basis of their molecular functions. After literature search, we select 30 proteins which are more significant in cancer development and H. pylori infection. The Metacore help in linking these proteins and producing possible signal network. There are two depended on the analysis: (1) ATM-Chk2-p53 cascade and (2) VHL-HIF1 pathway. VCP as a molecular chaperone may promote degradation of p53 and VHL-HIF and therefore cells are anti-apoptosis. And the two pathways are both PKB/Akt downstream signal pathway. VCP was also documented to play an essential role in Akt downstream signaling, so we proposed the aforementioned findings were caused by the facilitation of Akt signaling in VCP-overexpressed cells. Therefore, we hope the complete interactome can be identified so that we can study the detail mechanism of VCP in cancer development.