Comparative Study on Antidiabetic Effect of Ethanolic Extract of Jute Leaf on Neonatal Streptozotocin- Induced Type-2 Diabetic Model Rat

Abstract

Aim: Functional food and their bioactive compounds have been considered as a new approach for the prevention and management of type 2 diabetes and its complications. According to this approach current study was carried out as an elucidation of antidiabetic properties of Corchorus capsularis and Corchorus olitorius varieties of jute leaf (ethanolic extract) on nSTZ-induced type-2 diabetic rats. Methodology: The type-2 diabetic model rat was developed by a single intraperitoneal injection of freshly prepared STZ (90 mg/kg/10 ml) in sterile citrate buffer (0.1 M, pH 4.5) to rat pups (48 hour old). After three months, OGTT was performed to select diabetic (FSG > 6.5mmol/L and after 90 min of glucose load > 14 mmol/L) experimental rats. The rats were randomly divided into four groups [DWC, GT, Ext-1 and Ext-2 represent, diabetic water control, glybenclamide treated (20 mg/5 ml/kg body weight), C. capsularis treated and C. olitorius treated group (1.25 g/10 ml/kg body weight) respectively]. One group was kept with normal rats [normal water control, NWC]. The treatment was given once daily or 28 consecutive days. Fasting serum glucose, liver glycogen and lipid profile were estimated by using standard methods. Results: The results showed that Ext-1 and Ext-2 treated groups gradually decreased serum glucose level (7.15 ±0.67 to 5.94 ± 1.19 and 7.20 ± 0.93 to 5.28 ±1.03 respectively) and reducing effect by Ext-2 was significant (p=0.001). Both extract showed lower liver glycogen level compared with GT group [5.0±2.5 Vs 17.7±6.5 (Ext-1 vs GT) and 7.5±6.4 Vs 17.7±6.5 (Ext-2 vs GT)] and even Ext-1 manifested significant effect (p=0.05). Additionally, lipid profile estimation revealed no significant improvement by the consumption of both the extracts. Conclusion: On the basis of current investigations, it may be concluded that both variety of jute’s leaf demonstrated hypoglycemic properties in Type 2 diabetic model rats; further in-depth studies are recommended to explore the exact mechanism(s) of hypoglycemic effect.