The blood sugar is the stable source of energy for body's cells, so the body's homeostatic mechanism keeps blood glucose levels within a narrow range. When the blood glucose level of humans is out of this range, the individual will get diseases. One of the prevalent diseases is diabetes mellitus. Most of the patients with diabetes mellitus are died from diabetic complications. Diabetic neuropathy is one of the common diabetic complications. High blood sugar can stress nerve cells to develop the diabetic neuropathy, and also can alter cell migration and adhesion that are dependent on the dynamicity of focal adhesion in cells. Focal adhesion is composed of integrin, Src, RACK, and other proteins, and is regulated by cytokeratins. Thus, the main goal of this study is to explore the interactions between integrin and cytokeratin under high glucose situation. In this study, NMB7 neuroblastoma cell line was used as the cell model. At beginning, affinity column chromatography was used to find the proteins that interacted with RACK1 and Src. Based on the result, integrin αV was one of them through mass spectrometry. Then, the focal adhesion complex composed of integrin αVβ3 and FAK in NMB7 cells was detected by immunostaining colocalization studies. Though Q-PCR technology, K8/K18 pairings were the only cytokeratins expressed in NMB7. From the previous data, a few stress-responded proteins that interact with integrin αVβ3 complex or K8/K18 were identified. Furthermore, the interaction between integrin αVβ3 and K8/K18 dependent on glucose concentration was related to stress response.