Ocular Changes --Cataract And Retinal Lesion-- In Spontaneously Diabetic Torii (SDT) Fatty Rats, An Obese Type 2 Diabetic Model

Cataract and retinopathy remain the preventable cause of blindness worldwide, and many pharmacological strategies have been proposed for the treatment of these eye diseases. Animal models play an important role in understanding the pathophysiological features of eye disease and developing for a new therapy. In this study, we investigated the development of cataract and retinal lesion with diabetes using an obese type 2 diabetic models SDT fatty rat. Macroscopic analysis in eyes was performed from 16 to 24 weeks of age and histological analysis was performed at 24 weeks of age. As a result, the lens cloudiness was observed from 19 weeks of age and the degree of the cloudiness was more progressed until 24 weeks of age. Histopathological findings, such as degeneration of lens fiber and shortening and irregular arrangement of cone and rod in retinal tissue, were observed at 24 weeks of age. In conclusion, SDT fatty rats may be useful to understand the pathological features in diabetic cataract and retinopathy develop a new therapy for the disease

Establishment of a new nonalcoholic steatohepatitis model; Ovariectomy exacerbates nonalcoholic steatohepatitis-like pathology in diabetic rats

An increasing number of patients worldwide are being diagnosed with nonalcoholic fatty liver disease and nonalcoholic steatohepatitis (NAFLD/NASH) because of the growing prevalence of obesity and metabolic disorders. The incidence of NAFLD is higher in postmenopausal women than in premenopausal women. The decline in the level of female hormones might have an effect on the deterioration of metabolism. In the present study, we investigated the potential of Spontaneously Diabetic Torii (SDT) fatty rats as a new animal model for NAFLD. We created a menopausal model by ovariectomy (OVX) in female rats. Sprague-Dawley (SD) rats, SDT rats, and SDT-fatty rats were divided into sham and OVX groups and maintained until 40 weeks of age. The results showed that OVX-induced weight gain was observed in SD and SDT rats. In addition, OVX-induced hepatic triglyceride accumulation was increased in all strains, and there was a significant increase in hepatic triglyceride levels in OVX-SDT fatty rats compared to those in Sham-SD rats. Furthermore, liver fibrosis was worsened in the OVX-SDT fatty rats. In addition, OVX-induced increase in blood ALT level was observed in SDT-fatty rats. Gene expression analysis showed OVX-induced upregulation of Srebp1 expression and downregulation of Pemt and Mttp in OVX rats. These results indicate that OVX-SDT fatty rats exhibit NASH with more severe hepatic fibrosis than untreated animals, suggesting that OVX-induced estrogen reduction may have enhanced lipid synthesis in the liver. It is also possible, although hypothetical, that OVX may decrease VLDL secretion, which may more strongly induce NASH

Salt loading with unilateral nephrectomy accelerate decline in glomerular filtration rate in the hypertensive, obese, type 2 diabetic SDT fatty rat model of diabetic kidney disease

For the evaluation of novel therapeutic agents for diabetic kidney disease (DKD), it is desirable to examine their efficacy in animal models by using the glomerular filtration rate (GFR) as an index. For this purpose, animal models that demonstrate a short-term GFR decline because of disease progression are required. Therefore, we aimed to develop such an animal model of DKD by using obese type 2 diabetic spontaneously diabetic Torii (SDT) fatty rats treated with salt loading by drinking water containing sodium chloride with or without unilateral nephrectomy. As a result, we have found that 0.3% salt loading with unilateral nephrectomy or 0.8% salt loading alone caused a rapid GFR decline, hypertension and rapid development of tubulointerstitial fibrosis. Moreover, the addition of losartan to a mixed diet suppressed the GFR decline in SDT fatty rats treated with 0.3% salt loading with unilateral nephrectomy. These results suggest that the model of SDT fatty rats treated with 0.3% salt loading and unilateral nephrectomy could be used as a hypertensive DKD model for evaluating therapeutic agents based on suppression of GFR decline