Abstract Dentin bonding system (DBS) was first introduced about over 50 years ago. Nowadays, it becomes more and more popular and necessary in dental practice. It provides aesthetic and strong bonding strength between tooth structure and restorations. Some studies revealed the chemical component in DBS such as monomers may irritate the pulp complex lead to pulp in-flammation and post-operative hypersensitivity. Evidences showed chemical monomers at certain concentrations is cytotoxic , and might cause cell apoptosis. Although the detail mechanism is unclear, several hypotheses have been proposed. This study will focus one of the most common monomer used in DBS: 2-Hydroxyethyl Methacrylate (HEMA). Frist, the MTT assay was taken to determine the concentrations of TC50 of NIH/NIH/3T3 cell line and HDPC on HEMA. The results of TC50 of HEMA to HDPC at 24hrs is about 10mM, 72hrs is 4mM, and 120hrs is 2.4mM ; TC50 of HEMA to NIH/3T3 cell is about 7.4mM, 72hrs is 3.2mM, and 120hrs is 2.67mM. Then, the lower concentration (for 24hrs test: 0mM, 0.25mM, 1mM, 2.5mM, 5mM, and 10mM ; for 72hrs and 120 hrs : 0mM, 0.125mM, 0.25mM, 1mM, 2mM, and 4mM) was used in cell culture and analyzed with MTT assay. Also, to observe the changes of cell morphology of HEMA-treated cells, the photos were taken under light microscope 200x. Moreover, in or-der to investigate the pattern of cell death, the FITC-Annexin V/PI Dual staining was carried out on HDPC and NIH/3T3 cells , under all concentration of HEMA monomer which are mentioned before. This study also used fluorescent staining technique to enhance cell skeleton by Phalloidin stain and cell DNA was stained by using Hoechst stains in order to observe cell morphology changing and apoptotic bodies. And then we focus on HPDC cell use GSSG/GSH ELISA test and NF-ĸB p65 (to-tal/phosph) assay hopefully to obtain further information of HEMA induced ROS increases and GSH depletion and activate NF-ĸB signal pathway. The initial result indicated that in HEMA induced cell apoptosis, cell apoptosis rate rise with GSH depletion, and for phosphor NF-ĸB, in short term (<72hr), NF-ĸB may protect cell from HEMA induced apoptosis; in long term (120hr), NF-ĸB may lead cell to apoptosis in-duced by HEMA. Key words: monomer, HEMA, HDPC, cytotoxicity, GSH, NF-κB