OBJECTIVE: Clinical studies have demonstrated that hyperglycaemia represents a major risk factor in the development of the endothelial impairment in diabetes, which is the first step in vascular dysfunction. Using non-obese diabetic mice, we have evaluated the role of the adrenergic system and eNOS on progression of the disease METHODS AND RESULTS: When glycosuria is high (20 to 500 mg/dL), there is a selective reduction in the response to alpha1 and beta2 agonists but not to dopamine or serotonin. When glycosuria is severe (500 to 1000 mg/dL), there is a complete ablation of the contracture response to the alpha1 receptor agonist stimulation and a marked reduced response to beta2 agonist stimulation. This effect is coupled with a reduced expression of alpha1 and beta2 receptors, which is caused by an inhibition at transcriptional level as demonstrated by RT-PCR. In the severe glycosuria (500 to 1000 mg/dL), although eNOS expression is unchanged, caveolin-1 expression is significantly enhanced, indicating that high glucose plasma levels cause an upregulation of the eNOS endogenous inhibitory tone. These latter results correlate with functional data showing that in severe glycosuria, there is a significant reduction in acetylcholine-induced vasodilatation. CONCLUSIONS: Our results show that in diabetes development, there is a progressive selective downregulation of the alpha1 and beta2 receptors. At the same time, there is an increased expression of caveolin-1, the endogenous eNOS inhibitory protein. Thus, caveolin-1 could represent a new possible therapeutic target in vascular impairment associated with diabetes.
OBJECTIVE: Clinical studies have demonstrated that hyperglycaemia represents a major risk factor in the development of the endothelial impairment in diabetes, which is the first step in vascular dysfunction. Using non-obese diabeticmice, we have evaluated the role of the adrenergic system and eNOS on progression of the disease METHODS AND RESULTS: When glycosuria is high (20 to 500 mg/dL), there is a selective reduction in the response to alpha1 and beta2 agonists but not to dopamine or serotonin. When glycosuria is severe (500 to 1000 mg/dL), there is a complete ablation of the contracture response to the alpha1 receptor agonist stimulation and a marked reduced response to beta2 agonist stimulation. This effect is coupled with a reduced expression of alpha1 and beta2 receptors, which is caused by an inhibition at transcriptional level as demonstrated by RT-PCR. In the severe glycosuria (500 to 1000 mg/dL), although eNOS expression is unchanged, caveolin-1 expression is significantly enhanced, indicating that high glucose plasma levels cause an upregulation of the eNOS endogenous inhibitory tone. These latter results correlate with functional data showing that in severe glycosuria, there is a significant reduction in acetylcholine-induced vasodilatation. CONCLUSIONS: Our results show that in diabetes development, there is a progressive selective downregulation of the alpha1 and beta2 receptors. At the same time, there is an increased expression of caveolin-1, the endogenous eNOS inhibitory protein. Thus, caveolin-1 could represent a new possible therapeutic target in vascular impairment associated with diabetes.
Authors: Katherine A Gallagher; Zhao-Jun Liu; Min Xiao; Haiying Chen; Lee J Goldstein; Donald G Buerk; April Nedeau; Stephen R Thom; Omaida C Velazquez Journal: J Clin Invest Date: 2007-05 Impact factor: 14.808