Objective To investigate the impact of 1, 25-(OH)2D3 on left ventricular hypertrophy(LVH) in type 2 diabetic rats. Methods Type 2 diabetic mellitus(DM) model rats were established by intraperitoneally injecting with 3...Objective To investigate the impact of 1, 25-(OH)2D3 on left ventricular hypertrophy(LVH) in type 2 diabetic rats. Methods Type 2 diabetic mellitus(DM) model rats were established by intraperitoneally injecting with 30 mg/kg streptozotocin. After 8 weeks, 19 male rats were identified as diabetic with left ventricular hypertrophy(LVH) by ultrasound examination, and randomly assigned into three groups: untreated(DM-LVH, n=7), treated with insulin(DM-LVH+INS, n=6), and treated with 1, 25-(OH)2D3(DM-LVH+VD, n=6). Healthy male rats were used as the controls group(n=6). The fasting blood glucose and the insulin level were determined weekly. The left ventricular mass index, myocardial collagen content, collagen volume fraction, and 1, 25-(OH)2D3-receptor level were determined by 4 weeks later. Results In the DM-LVH model group, the insulin level was significantly decreased compared with the non-diabetic control group(P<0.05), whereas the blood glucose, left ventricular mass index, myocardial collagen content, collagen volume fraction, and 1, 25-(OH)2D3-receptor expression were significantly increased(all P<0.05). In the DM-LVH+INS and DM-LVH+VD groups, the insulin levels were significantly increased compared with the DM-LVH model group(P<0.05), whereas the other parameters were significantly decreased(all P<0.05). Conclusion 1, 25-(OH)2D3 could reverse LVH in diabetic rats and that the mechanism may involve stimulating insulin secretion and reducing blood glucose via direct up-regulation of 1, 25-(OH)2D3-receptor expression.展开更多
Xu et al used the HOMA2 model to estimate theβ-cell function and insulin resistance levels in an individual from simultaneously measured fasting plasma glucose and fasting plasma insulin levels.This method is based o...Xu et al used the HOMA2 model to estimate theβ-cell function and insulin resistance levels in an individual from simultaneously measured fasting plasma glucose and fasting plasma insulin levels.This method is based on the assumption that the glucose-insulin axis is central for the metabolic activities,which led to type 2 diabetes.However,significant downregulation of both the NKX2-1 gene and the TPD52L3 gene force an increase in the release of free fatty acids(FFAs)into the blood circulation,which leads to a marked reduction in membrane flexibility.These data favor a FFA-glucose-insulin axis.The authors are invited to extend their study with the introduction of the saturation index(number of carbon-carbon double bonds per 100 fatty-acyl chains),as observed in erythrocytes.展开更多
基金Supported by the Research Fund for Public Health of the Health and Family Planning Commission of Wuhan Municipality(WG13B12)
文摘Objective To investigate the impact of 1, 25-(OH)2D3 on left ventricular hypertrophy(LVH) in type 2 diabetic rats. Methods Type 2 diabetic mellitus(DM) model rats were established by intraperitoneally injecting with 30 mg/kg streptozotocin. After 8 weeks, 19 male rats were identified as diabetic with left ventricular hypertrophy(LVH) by ultrasound examination, and randomly assigned into three groups: untreated(DM-LVH, n=7), treated with insulin(DM-LVH+INS, n=6), and treated with 1, 25-(OH)2D3(DM-LVH+VD, n=6). Healthy male rats were used as the controls group(n=6). The fasting blood glucose and the insulin level were determined weekly. The left ventricular mass index, myocardial collagen content, collagen volume fraction, and 1, 25-(OH)2D3-receptor level were determined by 4 weeks later. Results In the DM-LVH model group, the insulin level was significantly decreased compared with the non-diabetic control group(P<0.05), whereas the blood glucose, left ventricular mass index, myocardial collagen content, collagen volume fraction, and 1, 25-(OH)2D3-receptor expression were significantly increased(all P<0.05). In the DM-LVH+INS and DM-LVH+VD groups, the insulin levels were significantly increased compared with the DM-LVH model group(P<0.05), whereas the other parameters were significantly decreased(all P<0.05). Conclusion 1, 25-(OH)2D3 could reverse LVH in diabetic rats and that the mechanism may involve stimulating insulin secretion and reducing blood glucose via direct up-regulation of 1, 25-(OH)2D3-receptor expression.
文摘Xu et al used the HOMA2 model to estimate theβ-cell function and insulin resistance levels in an individual from simultaneously measured fasting plasma glucose and fasting plasma insulin levels.This method is based on the assumption that the glucose-insulin axis is central for the metabolic activities,which led to type 2 diabetes.However,significant downregulation of both the NKX2-1 gene and the TPD52L3 gene force an increase in the release of free fatty acids(FFAs)into the blood circulation,which leads to a marked reduction in membrane flexibility.These data favor a FFA-glucose-insulin axis.The authors are invited to extend their study with the introduction of the saturation index(number of carbon-carbon double bonds per 100 fatty-acyl chains),as observed in erythrocytes.
