Background. The incidence of metabolic syndrome co-existing with diabetes mellitus is on the rise globally. Objective. The present study was designed to develop a unique animal model that will mimic the pathological features seen in individuals with diabetes and metabolic syndrome, suitable for pharmacological screening of drugs. Materials and Methods. A combination of High-Fat Diet (HFD) and low dose of streptozotocin (STZ) at 30, 35, and 40 mg/kg was used to induce metabolic syndrome in the setting of diabetes mellitus in Wistar rats. Results. The 40 mg/kg STZ produced sustained hyperglycemia and the dose was thus selected for the study to induce diabetes mellitus. Various components of metabolic syndrome such as dyslipidemia {(increased triglyceride, total cholesterol, LDL cholesterol, and decreased HDL cholesterol)}, diabetes mellitus (blood glucose, HbA1c, serum insulin, and C-peptide), and hypertension {systolic blood pressure} were mimicked in the developed model of metabolic syndrome co-existing with diabetes mellitus. In addition to significant cardiac injury, atherogenic index, inflammation (hs-CRP), decline in hepatic and renal function were observed in the HF-DC group when compared to NC group rats. The histopathological assessment confirmed presence of edema, necrosis, and inflammation in heart, pancreas, liver, and kidney of HF-DC group as compared to NC. Conclusion. The present study has developed a unique rodent model of metabolic syndrome, with diabetes as an essential component.
BackgroundMangiferin (MNG) is known to possess antidiabetic and antioxidant activity. However, there is no experimental evidence presently available in the literature with regard to its ameliorating effects on diabetes mellitus coexisting with metabolic syndrome.ObjectiveThe present study was designed to evaluate the protective effects of MNG on various components of metabolic syndrome with diabetes as an essential component.Material and methodsAdult Wistar rats were fed high-fat diets for 10 weeks and challenged with streptozotocin (40 mg/kg) at week three (high-fat diabetic control group). After the confirmation of metabolic syndrome in the setting of diabetes, MNG 40 mg/kg was orally fed to these rats from the fourth to tenth week.ResultsThe treatment with MNG showed beneficial effects on various components of metabolic syndrome, such as reduced dyslipidemia (decreased triglyceride, total cholesterol, low-density lipoprotein cholesterol, and increased high-density lipoprotein cholesterol) and diabetes mellitus (reduced blood glucose and glycosylated hemoglobin). In addition, an increase in serum insulin, C-peptide, and homeostasis model assessment-β and a reduction in homeostasis model assessment of insulin resistance-IR were observed in MNG-treated group compared with high-fat diabetic control group. MNG was also found to be cardioprotective (reduction in creatine phosphokinase-MB levels, atherogenic index, high-sensitivity C-reactive protein). Reduction in serum dipeptidyl peptidase–IV levels in the MNG-treated group correlated with improvement in insulin resistance and enhanced β-cell function.ConclusionThe present study has demonstrated antidiabetic, hypolipidemic, and cardioprotective effects of MNG in the setting of diabetes with metabolic syndrome. Thus, MNG has the potential to be developed as a natural alternative to synthetic dipeptidyl peptidase-IV inhibitors beneficial in this comorbid condition.
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