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Reactive Oxygen and Nitrogen Species in Pathogenesis of Vascular Complications of Diabetes
Seok Man Son
Diabetes Metab J. 2012;36(3):190-198.   Published online June 14, 2012
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AbstractAbstract PDFPubReader   

Macrovascular and microvascular diseases are currently the principal causes of morbidity and mortality in subjects with diabetes. Disorders of the physiological signaling functions of reactive oxygen species (superoxide and hydrogen peroxide) and reactive nitrogen species (nitric oxide and peroxynitrite) are important features of diabetes. In the absence of an appropriate compensation by the endogenous antioxidant defense network, increased oxidative stress leads to the activation of stress-sensitive intracellular signaling pathways and the formation of gene products that cause cellular damage and contribute to the vascular complications of diabetes. It has recently been suggested that diabetic subjects with vascular complications may have a defective cellular antioxidant response against the oxidative stress generated by hyperglycemia. This raises the concept that antioxidant therapy may be of great benefit to these subjects. Although our understanding of how hyperglycemia-induced oxidative stress ultimately leads to tissue damage has advanced considerably in recent years, effective therapeutic strategies to prevent or delay the development of this damage remain limited. Thus, further investigation of therapeutic interventions to prevent or delay the progression of diabetic vascular complications is needed.


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New Perspectives on Diabetic Vascular Complications: The Loss of Endogenous Protective Factors Induced by Hyperglycemia
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Diabetes Metab J. 2011;35(1):8-11.   Published online February 28, 2011
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AbstractAbstract PDFPubReader   

Diabetic vascular complications are among the leading causes of morbidity and mortality in diabetic patients. In the past, many studies have focused on the mechanisms of hyperglycemia-induced chronic vascular complications via the formation of toxic metabolites such as oxidative stress, advanced glycosylated end products, persistent activation of protein kinase C, and increased sorbitol concentrations. However, vascular complications result from imbalances caused by increases in systemic toxic metabolites, such as those that occur under conditions of hyperglycemia and dyslipidemia, and by reductions in endogenous protective factors such as insulin, vascular endothelial growth factor, and platelet derived growth factor. This review outlines some of the evidence supporting the importance of enhancing endogenous regenerative factors.


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Original Articles
High Glucose Modulates Vascular Smooth Muscle Cell Proliferation Through Activation of PKC-sigma-dependent NAD(P)H oxidase.
Bo Hyun Kim, Chang Won Lee, Jung Lae Park, Yang Ho Kang, In Ju Kim, Yong Ki Kim, Seok Man Son
Korean Diabetes J. 2006;30(6):416-427.   Published online November 1, 2006
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  • 1 Crossref
AbstractAbstract PDF
Oxidative stress is thought to be one of the causative factors contributing to macrovascular complications in diabetes. However, the mechanisms of development and progression of diabetic vascular complications are poorly understood. We hypothesized that PKC-sigma isozyme contributes to ROS generation and determined their roles in the critical intermediary signaling events in high glucose-induced proliferation of vascular smooth muscle (VSM) cells. METHODS: We treated primary cultured rat aortic smooth muscle cells for 72 hours with medium containing 5.5 mmol/L D-glucose (normal glucose), 30 mmol/L D-glucose (high glucose) or 5.5 mmol/L D-glucose plus 24.5 mmol/L mannitol (osmotic control). We then measured cell number, BrdU incorporation, cell cycle and superoxide production in VSM cells. Immunoblotting of PKC isozymes using phoshospecific antibodies was performed, and PKC activity was also measured. RESULTS: High glucose increased VSM cell number and BrdU incorporation and displayed significantly greater percentages of S and G2/M phases than compared to 5.5 mmol/L glucose and osmotic control. The nitroblue tetrazolium (NBT) staining in high glucose-treated VSM cell was more prominent compared with normal glucose-treated VSM cell, which was significantly inhibited by DPI (10 micrometer), but not by inhibitors for other oxidases. High glucose also markedly increased activity of PKC-sigma isozyme. When VSM cells were treated with rottlerin, a specific inhibitor of PKC-sigma or transfected with PKC-sigma siRNA, NBT staining and NAD(P)H oxidase activity were significantly attenuated in the high glucose-treated VSM cells. Furthermore, inhibition of PKC-sigma markedly decreased VSM cell number by high glucose. CONCLUSION: These results suggest that high glucose-induced VSM cell proliferation is dependent upon activation of PKC-sigma, which may responsible for elevated intracellular ROS production in VSM cells, and this is mediated by NAD(P)H oxidase.


Citations to this article as recorded by  
  • High Glucose and/or Free Fatty Acid Damage Vascular Endothelial Cells via Stimulating of NAD(P)H Oxidase-induced Superoxide Production from Neutrophils
    Sang Soo Kim, Sun Young Kim, Soo Hyung Lee, Yang Ho Kang, In Ju Kim, Yong Ki Kim, Seok Man Son
    Korean Diabetes Journal.2009; 33(2): 94.     CrossRef
Study on Role of Neutrophil in Endothelial Cell Injury under High Glucose Condition.
Seok Man Son, In Ju Kim, Yong Ki Kim
Korean Diabetes J. 2000;24(6):652-665.   Published online January 1, 2001
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AbstractAbstract PDF
High glucose level plays a major role in the injury of endothelium during the early event in diabetic vascular complication. It was speculated that high glucose level may cause endothelial cell injury by neutrophil activation. METHODS: The human umbilical vein endothelial cells (HUVEC) were obtained from American Type Culture Collection. The cells were incubated as long as 24 hours to evaluate the expression of E-selectin on the cell surface using whole cell ELISA method. The adherence of neutrophils to human umbilical endothelial cell monolayers and transendothelial migration of 51Cr-labeled neutrophils were evaluated under the condition of different concentrations of D-glucose (5.5, 15, and 30 mmol/L). L-glucose (30 mmol/L) was used as an osmotic control after 24h incubation. We also measured neutrophil-mediated endothelial cell cytotoxicity using a 51Cr-release assay and release of activating markers (lactoferrin and myeloeroxidase) from neutrophils under the same conditions. RESULTS: The expression of E-selectin was increased on endothelium when incubated with medium containing high glucose (30 mmol/L) compared to control (5.5 mmol/L) preparation (1.36 OD vs. 0.79 OD, p<0.05). Increased adherence of neutrophils to HUVEC was observed with high glucose when compared to control (10.4% vs. 2.9%, p<0.01). Similarly, neutrophil migration across the cultured endothelial monolayers were also significantly increased by high glucose (49.8% vs. 27.3%, p<0.05). 51Cr-release from endothelial cells by neutrophils stimulated with high glucose was greater than that with control (27.5% vs. 10.6%, p<0.05). Release of activating markers from neutrophils incubated with high glucose was greater than that from neutrophils incubated with control. CONCLUSION: These results indicate that high glucose increases the adherence and transendothelial migration of neutrophils and cause endothelial cell injury through neutrophil activation. Thus, it is concluded that high glucose level maybe contribute to manifestation of the diabetic vascular disease, including the early step in the initiation of an acute inflammation of vascular endothelial cells.
Effect of high glucose on function of cultured rabbit vascular endothelial cells.
Seok Man Son, In Ju Kim, Yong Ki Kim, Chi Dae Kim, Ki Whan Hong
Korean Diabetes J. 1997;21(2):156-167.   Published online January 1, 2001
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AbstractAbstract PDF
Vascular disease accounts for the majority of the clinical complications of diabetes mellitus. Changes in local control of vascular tone such as imbalanced production of relaxing and contracting factors by endothelium may be related to the initiation and maintenance of abnormal vascular reactivity characteristically seen in diabetic vascular complications. Cytokines and growth factors released from injured endothelial cells, T-cells, and macro-phages enhance atherogenesis. In this study, we examined NO and TNF-a released from cultured rabbit aortic endothelial cells(RAECs) under different glucose concentration to investigate the relationship between high glucose and endothelial cell dysfunction. METHODS: The thoracic and abdominal aortae of rabbit(23kg) were isolated and periadventitial connective tissue was carefully removed. Rabbit aortic endothelial cells in primary culture were prepared by the m.ethod of Schwartz with modification. RAECs were grown to confluence in 25 cm2 flask in DMEM supplemented with 20% FBS, 150pg/mL endothelial cell growth supplernent, 90pg/mL heparin, 100 U/mL penicillin and 100pg/mL streptomycin at 37'C in humidified 5% carbon dioxide in air. For experiments, confluent cells were replaced in 1 1 mm, 48 well plate containing same medium composition. Cells were then incubated in the presence or absence of FBS for various times up to 48 hours(time course) to eveluate the NO and TNF-a response to different glucose concentrations(0, 5.5, 11, 22, and 44 mmol/ L). Cells were also incubated with various concentration of ACH and ADP(10, 10', 10 and 10' mol/L) and 10' mol/L of ACH or ADP with different glucose concentrations for 24 hours to evaluate stimulated effect of ACH and ADP on NO release. RESULTS: 1) Total NO release from RAECs was significantly in a time-dependent. After 48 hours incubation, the total secretion of NO was significantly higher in culture medium with FRS than without FBS. 2) Glucose concentration resembling severe hyper-glycemic conditions(22 and 44 mmol/L) significantly inhibited NO release from RAECs, 3) Acetylcholine and ADP induced a clear dose-dependent NO release in RAECs. 4) Stimulation of acetylcholine and ADP on NO release according to different glucose concentration was not significantly higher than NO release in culture medium with glucose alone. 5) The increment in TNF-a levels was associated with a significant increase at higher glucose concentration, 6) There was a negative correlation between NO and TNF-a release in culture medium with FBS but not in culture medium without FBS. CONCLUSION: Our data show that decreased NO release and increased TNF-a release from RAECs were noted under high glucose concentration. Such interaction could play a significant role in the development of diabetic vascular complication in hyperglycernic conditions.

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