Past study have pointed out that plasma can inhibit cell proliferation, promote stem cell differentiation, which bring out the possibility of plasma on tissue regeneration engineering applications. In addition, previous study showed that the reactive oxygen species (ROS) produced by cold plasma would influence the inter- and intracellular networks on mammalian cells. Other study indicates that latent transforming growth factor-β1 can be induced by ROS to direct dental stem cells differentiation and apply to stem cell therapy to induce dentin regeneration. In this study, we propose to treat the dental pulp stem cells (DPSCs) with Helium-based low temperature atmospheric-pressure plasma jet (He APPJ) and analyze the differentiation and viability results. We also measure the concentration of hydroxyl radical (OH radical) and hydrogen peroxide (H2O2), which may be crucial factors to enhance differentiation of DPSCs , in deionized water (DI water), phosphate buffered saline (PBS) and dulbecco's modified eagle medium (DMEM) with different plasma treatment time, from 10 to 60 seconds. Optical emission spectroscopy (OES) results show that there is high intensity at 309 nm, which represents OH radical. Also, the intensity of OH radical at the interface is higher than that in free jet, shows that OH radical is enhanced at interface of gas and solution. OH radicals and H2O2 measurement results indicate that He APPJ is able to generate OH radical and H2O2 in the solution, and the concentration increases with plasma treatment time. The cell experimental results indicate that viability is not significantly changed in appropriate conditions, and the treatment of APPJ for 20 to 40 seconds enhanced differentiation of DPSCs. From the results, OH radicals and H2O2 generated by APPJ in solution may be the key points to enhance DPSCs differentiation and reveal the application potential of APPJ in dental field.