Nstpbp168, a pure compound isolated from natural product has been shown to be a novel AMPK activator in our previous study. The aim of this study was to assess the possible beneficial effect of Nstpbp168 on cell survival and ROS production in insulin secreting cell under oxidative stress/lipotoxicity. In the part of oxidative stress stimulation, RINm5F was first exposed to 40 μM hydrogen peroxide and then incubated in medium w/o 100 μM Nstpbp168 for following cell viability, ROS level and related signal transduction measurement, respectively. Besides, in the part of lipotoxicity, RINm5F and the liver cell, HepG2, were treated w/o 100 μM Nstpbp168 and exposed to palmitate/BSA mixture to employ the MTT/DCFH-DA assessment. The present results showed that Nstpbp168 could prevent cell death from H2O2-induced oxidative stress dose-dependently along with lowering H2O2-induced ROS production. Meanwhile, Nstpbp168 treatment also activated AMPK dose-dependently. Compound C, a selective AMPK antagonist, could significantly block the protective effect of Nstpbp168 on H2O2-induced damage in insulin secreting cell. Moreover, Nstpbp168 had the potential to prevent cell death from palmitae-induced injury, which might be through promoting AMPK activity as well as reduced the ROS production. Taken together, it is suggested that Nstpbp168 might have a potential protective effect on ROS/lipotoxicity-induced cell damage through AMPK-mediated pathway in insulin secreting cells.