Diabetes is caused by abnormal insulin secretion of pancreatic beta cells or occurrence of insulin resistance, resulting in high blood sugar. Therefore, maintaining the normal growth and function of pancreatic beta-cells will be the key to prevention and treatment of diabetes. In recent years, natural plants with antioxidative activity can have the potential therapeutic application to diabetes. Previous studies have found that Desmodium caudatum extracts (DCE) exert antioxidant and anti-cancer effects. However, the effect and mechanism of DCE on pancreatic beta cell dysfunction, a major event in the pathogenesis of diabetes, is still unknown. This study investigates the effect of DCE on improving diabetes in vitro and in vivo. In vitro study, peroxidative damage of rat pancreatic beta-cells RIN-m5F was induced by hydrogen peroxide (H2O2) and intervened in treatment with DCE. We found that DCE can reduce oxidative damage and regulate the cell cycle of beta-cells. Through inhibiting p21 p27 (kip1) proteins, the cell cycle of beta-cells were promoted from G1 phase to S phase. Moreover, the expression of PCNA, a protein related to cell proliferation and DNA replication repair, is increased. Ultimately, DCE protects RIN-m5F by promoting regeneration and improving insulin secretion. In vivo study, the diabetes model of C57/BL6 mice w induced by a high-fat diet (HFD) combined with streptozotocin (STZ). The experimental group was fed 100 mg/kg and 200 mg/kg DCE daily by oral gavage for six weeks, and metformin, the clinical hypoglycemic drug, was used as the control treatment group. The results show that DCE can reduce blood sugar and lipid peroxidation damage, improve insulin resistance and promote the regeneration of pancreatic beta-cells. In conclusion, DCE can achieve the effect of lowering blood sugar by promoting the regeneration of pancreatic β-cells and improving the function of insulin secretion. Therefore, DCE will potentially to use as adjuvant therapy for diabetes in the future.