Protein Kinase C-β Contributes to Impaired Endothelial Insulin Signaling in Humans With Diabetes Mellitus

Abnormal endothelial function promotes atherosclerotic vascular disease in diabetes. Experimental studies indicate that disruption of endothelial insulin signaling, through the activity of protein kinase C-β (PKCβ) and nuclear factor κB, reduces nitric oxide availability. We sought to establish whet...

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Published in	Circulation (New York, N.Y.) Vol. 127; no. 1; pp. 86 - 95
Main Authors	Tabit, Corey E., Shenouda, Sherene M., Holbrook, Monica, Fetterman, Jessica L., Kiani, Soroosh, Frame, Alissa A., Kluge, Matthew A., Held, Aaron, Dohadwala, Mustali M., Gokce, Noyan, Farb, Melissa G., Rosenzweig, James, Ruderman, Neil, Vita, Joseph A., Hamburg, Naomi M.
Format	Journal Article
Language	English
Published	Hagerstown, MD Lippincott Williams & Wilkins 01.01.2013
Subjects	Adult Associated diseases and complications Biological and medical sciences Blood and lymphatic vessels Cardiology. Vascular system Cells, Cultured Diabetes Mellitus, Type 2 - metabolism Diabetes. Impaired glucose tolerance Diabetic Angiopathies - metabolism Diseases of the peripheral vessels. Diseases of the vena cava. Miscellaneous Endocrine pancreas. Apud cells (diseases) Endocrinopathies Endothelial Cells - drug effects Endothelial Cells - metabolism Female Humans Hypoglycemic Agents - metabolism Hypoglycemic Agents - pharmacology Insulin - metabolism Insulin - pharmacology Insulin Resistance - physiology Male Medical sciences Mesylates - pharmacology Middle Aged NF-kappa B - metabolism Nitric Oxide - metabolism Nitric Oxide Synthase Type III - metabolism Oxidative Stress - physiology Protein Kinase C - antagonists & inhibitors Protein Kinase C - metabolism Protein Kinase C beta Pyrroles - pharmacology Signal Transduction - drug effects Signal Transduction - physiology Endocrinopathy Target tissue resistance Protein kinase C Enzyme Insulin human Transferases Diabetes mellitus Nitric oxide Metabolic diseases Insulin resistance Cardiovascular disease Endothelium
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ISSN	0009-7322 1524-4539 1524-4539
DOI	10.1161/CIRCULATIONAHA.112.127514

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Abstract	Abnormal endothelial function promotes atherosclerotic vascular disease in diabetes. Experimental studies indicate that disruption of endothelial insulin signaling, through the activity of protein kinase C-β (PKCβ) and nuclear factor κB, reduces nitric oxide availability. We sought to establish whether similar mechanisms operate in the endothelium in human diabetes mellitus. We measured protein expression and insulin response in freshly isolated endothelial cells from patients with type 2 diabetes mellitus (n=40) and nondiabetic controls (n=36). Unexpectedly, we observed 1.7-fold higher basal endothelial nitric oxide synthase (eNOS) phosphorylation at serine 1177 in patients with diabetes mellitus (P=0.007) without a difference in total eNOS expression. Insulin stimulation increased eNOS phosphorylation in nondiabetic subjects but not in diabetic patients (P=0.003), consistent with endothelial insulin resistance. Nitrotyrosine levels were higher in diabetic patients, indicating endothelial oxidative stress. PKCβ expression was higher in diabetic patients and was associated with lower flow-mediated dilation (r=-0.541, P=0.02). Inhibition of PKCβ with LY379196 reduced basal eNOS phosphorylation and improved insulin-mediated eNOS activation in patients with diabetes mellitus. Endothelial nuclear factor κB activation was higher in diabetes mellitus and was reduced with PKCβ inhibition. We provide evidence for the presence of altered eNOS activation, reduced insulin action, and inflammatory activation in the endothelium of patients with diabetes mellitus. Our findings implicate PKCβ activity in endothelial insulin resistance.
AbstractList	Abnormal endothelial function promotes atherosclerotic vascular disease in diabetes. Experimental studies indicate that disruption of endothelial insulin signaling, through the activity of protein kinase C-β (PKCβ) and nuclear factor κB, reduces nitric oxide availability. We sought to establish whether similar mechanisms operate in the endothelium in human diabetes mellitus. We measured protein expression and insulin response in freshly isolated endothelial cells from patients with type 2 diabetes mellitus (n=40) and nondiabetic controls (n=36). Unexpectedly, we observed 1.7-fold higher basal endothelial nitric oxide synthase (eNOS) phosphorylation at serine 1177 in patients with diabetes mellitus (P=0.007) without a difference in total eNOS expression. Insulin stimulation increased eNOS phosphorylation in nondiabetic subjects but not in diabetic patients (P=0.003), consistent with endothelial insulin resistance. Nitrotyrosine levels were higher in diabetic patients, indicating endothelial oxidative stress. PKCβ expression was higher in diabetic patients and was associated with lower flow-mediated dilation (r=-0.541, P=0.02). Inhibition of PKCβ with LY379196 reduced basal eNOS phosphorylation and improved insulin-mediated eNOS activation in patients with diabetes mellitus. Endothelial nuclear factor κB activation was higher in diabetes mellitus and was reduced with PKCβ inhibition. We provide evidence for the presence of altered eNOS activation, reduced insulin action, and inflammatory activation in the endothelium of patients with diabetes mellitus. Our findings implicate PKCβ activity in endothelial insulin resistance. Abnormal endothelial function promotes atherosclerotic vascular disease in diabetes. Experimental studies indicate that disruption of endothelial insulin signaling, through the activity of protein kinase C-β (PKCβ) and nuclear factor κB, reduces nitric oxide availability. We sought to establish whether similar mechanisms operate in the endothelium in human diabetes mellitus.BACKGROUNDAbnormal endothelial function promotes atherosclerotic vascular disease in diabetes. Experimental studies indicate that disruption of endothelial insulin signaling, through the activity of protein kinase C-β (PKCβ) and nuclear factor κB, reduces nitric oxide availability. We sought to establish whether similar mechanisms operate in the endothelium in human diabetes mellitus.We measured protein expression and insulin response in freshly isolated endothelial cells from patients with type 2 diabetes mellitus (n=40) and nondiabetic controls (n=36). Unexpectedly, we observed 1.7-fold higher basal endothelial nitric oxide synthase (eNOS) phosphorylation at serine 1177 in patients with diabetes mellitus (P=0.007) without a difference in total eNOS expression. Insulin stimulation increased eNOS phosphorylation in nondiabetic subjects but not in diabetic patients (P=0.003), consistent with endothelial insulin resistance. Nitrotyrosine levels were higher in diabetic patients, indicating endothelial oxidative stress. PKCβ expression was higher in diabetic patients and was associated with lower flow-mediated dilation (r=-0.541, P=0.02). Inhibition of PKCβ with LY379196 reduced basal eNOS phosphorylation and improved insulin-mediated eNOS activation in patients with diabetes mellitus. Endothelial nuclear factor κB activation was higher in diabetes mellitus and was reduced with PKCβ inhibition.METHODS AND RESULTSWe measured protein expression and insulin response in freshly isolated endothelial cells from patients with type 2 diabetes mellitus (n=40) and nondiabetic controls (n=36). Unexpectedly, we observed 1.7-fold higher basal endothelial nitric oxide synthase (eNOS) phosphorylation at serine 1177 in patients with diabetes mellitus (P=0.007) without a difference in total eNOS expression. Insulin stimulation increased eNOS phosphorylation in nondiabetic subjects but not in diabetic patients (P=0.003), consistent with endothelial insulin resistance. Nitrotyrosine levels were higher in diabetic patients, indicating endothelial oxidative stress. PKCβ expression was higher in diabetic patients and was associated with lower flow-mediated dilation (r=-0.541, P=0.02). Inhibition of PKCβ with LY379196 reduced basal eNOS phosphorylation and improved insulin-mediated eNOS activation in patients with diabetes mellitus. Endothelial nuclear factor κB activation was higher in diabetes mellitus and was reduced with PKCβ inhibition.We provide evidence for the presence of altered eNOS activation, reduced insulin action, and inflammatory activation in the endothelium of patients with diabetes mellitus. Our findings implicate PKCβ activity in endothelial insulin resistance.CONCLUSIONSWe provide evidence for the presence of altered eNOS activation, reduced insulin action, and inflammatory activation in the endothelium of patients with diabetes mellitus. Our findings implicate PKCβ activity in endothelial insulin resistance.
Author	Frame, Alissa A. Shenouda, Sherene M. Ruderman, Neil Kiani, Soroosh Held, Aaron Fetterman, Jessica L. Farb, Melissa G. Vita, Joseph A. Tabit, Corey E. Holbrook, Monica Kluge, Matthew A. Dohadwala, Mustali M. Gokce, Noyan Rosenzweig, James Hamburg, Naomi M.
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Snippet	Abnormal endothelial function promotes atherosclerotic vascular disease in diabetes. Experimental studies indicate that disruption of endothelial insulin...
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SubjectTerms	Adult Associated diseases and complications Biological and medical sciences Blood and lymphatic vessels Cardiology. Vascular system Cells, Cultured Diabetes Mellitus, Type 2 - metabolism Diabetes. Impaired glucose tolerance Diabetic Angiopathies - metabolism Diseases of the peripheral vessels. Diseases of the vena cava. Miscellaneous Endocrine pancreas. Apud cells (diseases) Endocrinopathies Endothelial Cells - drug effects Endothelial Cells - metabolism Female Humans Hypoglycemic Agents - metabolism Hypoglycemic Agents - pharmacology Insulin - metabolism Insulin - pharmacology Insulin Resistance - physiology Male Medical sciences Mesylates - pharmacology Middle Aged NF-kappa B - metabolism Nitric Oxide - metabolism Nitric Oxide Synthase Type III - metabolism Oxidative Stress - physiology Protein Kinase C - antagonists & inhibitors Protein Kinase C - metabolism Protein Kinase C beta Pyrroles - pharmacology Signal Transduction - drug effects Signal Transduction - physiology
Title	Protein Kinase C-β Contributes to Impaired Endothelial Insulin Signaling in Humans With Diabetes Mellitus
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