We examined whether peripheral leukocytes of mice derived from in vitro-αMEM cultured embryos and exhibiting type 2 diabetes had higher expression of inflammatory-related genes associated with the development of atherosclerosis. Also, we examined the impact of a barley diet on inflammatory gene expression. Adult mice were produced by embryo transfer, after culturing two-cell embryos for 48 h in either α-MEM (minimal essential media) or KSOM (potassium simplex optimized medium) control media. Mice were fed either a barley or rice diet for 10 weeks. Postprandial blood glucose, and mRNA levels of several inflammatory genes, including Tnfa and Nox2, in blood leukocytes were significantly higher in MEM mice fed a rice diet compared with control mice. Barley intake reduced expression of S100a8 and Nox2. In summary, MEM mice exhibited postprandial hyperglycemia and peripheral leukocytes with higher expression of genes related to development of atherosclerosis, and barley intake reduced some gene expression.
Non-alcoholic fatty liver disease (NAFLD), which includes the subtype non-alcoholic steatohepatitis (NASH), is a major complication of type 2 diabetic mellitus (T2DM), even among non-obese patients. However, the exact cause of NAFLD/NASH in non-obese patients with T2DM is unclear. We studied a non-obese mouse model of T2DM created through the malnourishment of embryos by culture
in vitro
for 48 h in α-minimum essential medium (MEM) at the two-cell stage. We compared the development of steatohepatitis in these MEM mice with control mice that were similarly cultured in standard potassium simplex-optimized medium (KSOM). We also studied the effects of 10 weeks of consumption of barley, which contains large amounts of the soluble fiber β-glucan, on the steatohepatitis of the adult MEM mice. The size of lipid droplets, the area of fibrosis, and the mRNA expression of the transforming growth factor beta (
Tgfb
) gene in the liver were higher in adult MEM mice fed a rice-based diet than in KSOM mice fed the same diet. However, barley consumption reduced the area of fibrosis and TGFB expression in MEM mice. In conclusion, adult mice that are cultured in MEM at the two-cell embryo stage develop steatohepatitis and T2DM, accompanied by higher hepatic TGFB expression, than KSOM controls. Furthermore, the consumption of barley during adulthood ameliorates the steatohepatitis and reduces the TGFB expression.
Diabetic kidney disease (DKD) is a critical complication associated with diabetes; however, there are only a few animal models that can be used to explore its pathogenesis. In the present study, we established a mouse model of DKD using a technique based on the Developmental Origins of Health and Disease theory, i.e., by manipulating the embryonic environment, and investigated whether a dietary intervention could ameliorate the model’s pathology. Two-cell embryos were cultured in vitro in α-minimum essential medium (MEM; MEM mice) or in standard potassium simplex-optimized medium (KSOM) as controls (KSOM mice) for 48 h, and the embryos were reintroduced into the mothers. The MEM and KSOM mice born were fed a high-fat, high-sugar diet for 58 days after they were 8 weeks old. Subsequently, half of the MEM mice and all KSOM mice were fed a diet containing rice powder (control diet), and the remaining MEM mice were fed a diet containing barley powder (barley diet) for 10 weeks. Glomerulosclerosis and pancreatic exhaustion were observed in MEM mice, but not in control KSOM mice. Renal arteriolar changes, including intimal thickening and increase in the rate of hyalinosis, were more pronounced in MEM mice fed a control diet than in KSOM mice. Immunostaining showed the higher expression of transforming growth factor beta (TGFB) in the proximal/distal renal tubules of MEM mice fed a control diet than in those of KSOM mice. Pathologies, such as glomerulosclerosis, renal arteriolar changes, and higher TGFB expression, were ameliorated by barley diet intake in MEM mice. These findings suggested that the MEM mouse is an effective DKD animal model that shows glomerulosclerosis and renal arteriolar changes, and barley intake can improve these pathologies in MEM mice.
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