The commercially available inbred obesity-prone C57BL/6J (B6) and outbred stock ICR mice (3-week old) purchased from a breeder of Beijing were weaned onto high-fat diet (HFD), HFD-3% fructose water (HFDF) and ...The commercially available inbred obesity-prone C57BL/6J (B6) and outbred stock ICR mice (3-week old) purchased from a breeder of Beijing were weaned onto high-fat diet (HFD), HFD-3% fructose water (HFDF) and standard rodent chow, respectively. After exposure to the diets for six weeks, HFD and HFDF fed mice were injected intraperitoneally with streptozotocin (STZ, 100mg/kg body weight) and kept on the same diet for next four weeks. Body weight was recorded weekly. Non-fasting blood glucose levels of HFD and HFDF fed mice were measured before and after STZ injections. The body weight of HFD-fed and HFDF-fed B6 mice were significantly lower than that of the control, but body weight of HFD-fed and HFDF-fed ICR mice were significantly higher than that of the control. After injection of STZ, blood glucose levels were above the stardardized criterion (11 mmol/L) for the diabetes mouse model in both HFD and HFDF fed ICR mice, but reverse in B6 mice. The type 2 diabetes model was generated successfully in ICR but not in B6 mice, regardless of whether fructose was supplied. The current results indicated that ICR mouse is still a useful and economical strain for HFD-induced/STZ-treated type 2 diabetes model, and that some variation may occur in the genetic composition among B6 mice bred by different breeders.展开更多
文摘The commercially available inbred obesity-prone C57BL/6J (B6) and outbred stock ICR mice (3-week old) purchased from a breeder of Beijing were weaned onto high-fat diet (HFD), HFD-3% fructose water (HFDF) and standard rodent chow, respectively. After exposure to the diets for six weeks, HFD and HFDF fed mice were injected intraperitoneally with streptozotocin (STZ, 100mg/kg body weight) and kept on the same diet for next four weeks. Body weight was recorded weekly. Non-fasting blood glucose levels of HFD and HFDF fed mice were measured before and after STZ injections. The body weight of HFD-fed and HFDF-fed B6 mice were significantly lower than that of the control, but body weight of HFD-fed and HFDF-fed ICR mice were significantly higher than that of the control. After injection of STZ, blood glucose levels were above the stardardized criterion (11 mmol/L) for the diabetes mouse model in both HFD and HFDF fed ICR mice, but reverse in B6 mice. The type 2 diabetes model was generated successfully in ICR but not in B6 mice, regardless of whether fructose was supplied. The current results indicated that ICR mouse is still a useful and economical strain for HFD-induced/STZ-treated type 2 diabetes model, and that some variation may occur in the genetic composition among B6 mice bred by different breeders.