Ruth B. Caldwell scite author profile

Abstract-Increases in arginase activity have been reported in a variety of disease conditions characterized by vascular dysfunction. Arginase competes with NO synthase for their common substrate arginine, suggesting a cause and effect relationship. We tested this concept by experiments with streptozotocin diabetic rats and high glucose (HG)-treated bovine coronary endothelial cells (BCECs). Our studies showed that diabetes-induced impairment of vasorelaxation to acetylcholine was correlated with increases in reactive oxygen species and arginase activity and arginase I expression in aorta and liver. Treatment of diabetic rats with simvastatin (5 mg/kg per day, subcutaneously) or L-citrulline (50 mg/kg per day, orally) blunted these effects. Acute treatment of diabetic coronary arteries with arginase inhibitors also reversed the impaired vasodilation to acetylcholine. Treatment of BCECs with HG (25 mmol/L, 24 hours) also increased arginase activity. This effect was blocked by treatment with simvastatin (0.1 mol/L), the Rho kinase inhibitor Y-27632 (10 mol/L), or L-citrulline (1 mmol/L). Superoxide and active RhoA levels also were elevated in HG-treated BCECs. Furthermore, HG significantly diminished NO production in BCECs. Transfection of BCECs with arginase I small interfering RNA prevented the rise in arginase activity in HG-treated cells and normalized NO production, suggesting a role for arginase I in reduced NO production with HG. These results indicate that increased arginase activity in diabetes contributes to vascular endothelial dysfunction by decreasing L-arginine availability to NO synthase. (Circ Res. 2008;102:95-102.)Key Words: arginine Ⅲ coronary arteries Ⅲ diabetes Ⅲ endothelial nitric oxide synthase Ⅲ oxidative stress Ⅲ vascular endothelial function Ⅲ vasodilation V ascular dysfunction is a major cause of morbidity and mortality in diabetic patients. 1 The pathological process is characterized by impaired endothelial cell production of the vasodilator and antiplatelet adhesion factor NO and/or decreased NO bioavailability. NO is a major regulator of vascular tone and integrity. In endothelial cells, NO is produced by activity of endothelial NO synthase (eNOS) on its substrate L-arginine. Reduced availability of L-arginine to eNOS has been implicated in vascular dysfunction in diabetes and a variety of other disease conditions. Arginase, which metabolizes L-arginine to urea and ornithine, competes directly with NOS for L-arginine. Hence increases in arginase activity can decrease tissue and cellular arginine levels, reducing its availability to eNOS. 2 This may lead to decreased NO production and increased production of superoxide by eNOS. 3 Enhanced arginase activity has been implicated in a number of conditions characterized by vascular dysfunction, including diabetic erectile dysfunction, pulmonary hypertension, ischemia/reperfusion, atherosclerosis, and agingassociated endothelial dysfunction. 4 -9 During diabetes, impaired vascular function is closely associated with oxidative stress and v...

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Arginase: A Multifaceted Enzyme Important in Health and Disease

Caldwell

Rodríguez

Toque

et al. 2018

Physiological Reviews

368

277

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The arginase enzyme developed in early life forms and was maintained during evolution. As the last step in the urea cycle, arginase cleaves l-arginine to form urea and l-ornithine. The urea cycle provides protection against excess ammonia, while l-ornithine is needed for cell proliferation, collagen formation, and other physiological functions. In mammals, increases in arginase activity have been linked to dysfunction and pathologies of the cardiovascular system, kidney, and central nervous system and also to dysfunction of the immune system and cancer. Two important aspects of the excessive activity of arginase may be involved in diseases. First, overly active arginase can reduce the supply of l-arginine needed for the production of nitric oxide (NO) by NO synthase. Second, too much l-ornithine can lead to structural problems in the vasculature, neuronal toxicity, and abnormal growth of tumor cells. Seminal studies have demonstrated that increased formation of reactive oxygen species and key inflammatory mediators promote this pathological elevation of arginase activity. Here, we review the involvement of arginase in diseases affecting the cardiovascular, renal, and central nervous system and cancer and discuss the value of therapies targeting the elevated activity of arginase.

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Ruth B. Caldwell

Diabetes-induced Coronary Vascular Dysfunction Involves Increased Arginase Activity

Arginase: A Multifaceted Enzyme Important in Health and Disease

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