References
- Saltiel AR, Kahn CR. Insulin signalling and the regulation of glucose and lipid metabolism. Nature 2001;414:799–806.
- Muniyappa R, Montagnani M, Koh KK, Quon MJ. Cardiovascular actions of insulin. Endocr Rev 2007;28: 463–491.
- Eringa EC, Stehouwer CD, van Nieuw Amerongen GP, Ouwehand L, Westerhof N, Sipkema P. Vasoconstrictor effects of insulin in skeletal muscle arterioles are mediated by ERK1/2 activation in endothelium. Am J Physiol Heart Circ Physiol 2004;287:H2043–H2048.
- Steinberg HO, Brechtel G, Johnson A, Fineberg N, Baron AD. Insulin-mediated skeletal muscle vasodilation is nitric oxide dependent. A novel action of insulin to increase nitric oxide release. J Clin Invest 1994;94:1172–1179.
- Lee JH, Ragolia L. AKT phosphorylation is essential for insulin-induced relaxation of rat vascular smooth muscle cells. Am J Physiol Cell Physiol 2006;291:C1355–C1365.
- Bashan N, Kovsan J, Kachko I, Ovadia H, Rudich A. Positive and negative regulation of insulin signaling by reactive oxygen and nitrogen species. Physiol Rev 2009;89:27–71.
- May JM, de Haen C. Insulin-stimulated intracellular hydrogen peroxide production in rat epididymal fat cells. J Biol Chem 1979;254:2214–2220.
- Cseko C, Bagi Z, Koller A. Biphasic effect of hydrogen peroxide on skeletal muscle arteriolar tone via activation of endothelial and smooth muscle signaling pathways. J Appl Physiol 2004;97:1130–1137.
- Erdei N, Bagi Z, Edes I, Kaley G, Koller A. H2O2 increases production of constrictor prostaglandins in smooth muscle leading to enhanced arteriolar tone in Type 2 diabetic mice. Am J Physiol Heart Circ Physiol 2007;292:H649–H656.
- Bagi Z, Erdei N, Koller A. High intraluminal pressure via H2O2 upregulates arteriolar constrictions to angiotensin II by increasing the functional availability of AT1 receptors. Am J Physiol Heart Circ Physiol 2008;295:H835–H841.
- Wolin MS. Interactions of oxidants with vascular signaling systems. Arterioscler Thromb Vasc Biol 2000;20: 1430–1442.
- Iesaki T, Gupte SA, Kaminski PM, Wolin MS. Inhibition of guanylate cyclase stimulation by NO and bovine arterial relaxation to peroxynitrite and H2O2. Am J Physiol 1999; 277:H978–H985.
- Yang ZW, Zheng T, Zhang A, Altura BT, Altura BM. Mechanisms of hydrogen peroxide-induced contraction of rat aorta. Eur J Pharmacol 1998;344:169–181.
- Ardanaz N, Beierwaltes WH, Pagano PJ. Comparison of H2O2-induced vasoconstriction in the abdominal aorta and mesenteric artery of the mouse. Vascul Pharmacol 2007; 47:288–294.
- Houstis N, Rosen ED, Lander ES. Reactive oxygen species have a causal role in multiple forms of insulin resistance. Nature 2006;440:944–948.
- Wolin MS. Reactive oxygen species and the control of vascular function. Am J Physiol Heart Circ Physiol 2009; 296:H539–H549.
- Ungvari Z, Csiszar A, Huang A, Kaminski PM, Wolin MS, Koller A. High pressure induces superoxide production in isolated arteries via protein kinase C-dependent activation of NAD(P)H oxidase. Circulation 2003;108:1253–1258.
- Ungvari Z, Csiszar A, Kaminski PM, Wolin MS, Koller A. Chronic high pressure-induced arterial oxidative stress: involvement of protein kinase C-dependent NAD(P)H oxidase and local renin-angiotensin system. Am J Pathol 2004;165:219–226.
- Polizio AH, Gorzalczany SB, Tomaro ML. Lowering arterial pressure delays the oxidative stress generation in a renal experimental model of hypertension. J Cardiovasc Pharmacol 2009;54:348–354.
- Pennathur S, Wagner JD, Leeuwenburgh C, Litwak KN, Heinecke JW. A hydroxyl radical-like species oxidizes cynomolgus monkey artery wall proteins in early diabetic vascular disease. J Clin Invest 2001;107:853–860.
- Biondi R, Ambrosio G, Liebgott T, Cardounel AJ, Bettini M, Tritto I, Zweier JL. Hydroxylation of D-phenylalanine as a novel approach to detect hydroxyl radicals: application to cardiac pathophysiology. Cardiovasc Res 2006;71:322–330.
- Molnar GA, Nemes V, Biro Z, Ludány A, Wagner Z, Wittmann I. Accumulation of the hydroxyl free radical markers meta-, ortho-tyrosine and DOPA in cataractous lenses is accompanied by a lower protein and phenylalanine content of the water-soluble phase. Free Radic Res 2005;39:1359–1366.
- Molnar GA, Wagner Z, Marko L, Kó Szegi T, Mohás M, Kocsis B, et al. Urinary ortho-tyrosine excretion in diabetes mellitus and renal failure: evidence for hydroxyl radical production. Kidney Int 2005;68:2281–2287.
- Sindhu RK, Roberts CK, Ehdaie A, Zhan CD, Vaziri ND. Effects of aortic coarctation on aortic antioxidant enzymes and NADPH oxidase protein expression. Life Sci 2005;76: 945–953.
- Suvorava T, Lauer N, Kumpf S, Jacob R, Meyer W, Kojda G. Endogenous vascular hydrogen peroxide regulates arteriolar tension in vivo. Circulation 2005;112:2487–2495.
- Mian KB, Martin W. Hydrogen peroxide-induced impairment of reactivity in rat isolated aorta: potentiation by 3-amino- 1,2,4-triazole. Br J Pharmacol 1997;121:813–819.
- Palmieri B, Sblendorio V. Oxidative stress tests: overview on reliability and use. Part I. Eur Rev Med Pharmacol Sci 2007;11:309–342.
- Fésüs G, Dubrovska G, Gorzelniak K, Kluge R, Huang Y, Luft FC, Gollasch M. Adiponectin is a novel humoral vasodilator. Cardiovasc Res 2007;75:719–727.
- Katakam PV, Tulbert CD, Snipes JA, Erdös B, Miller AW, Busija DW. Impaired insulin-induced vasodilation in small coronary arteries of Zucker obese rats is mediated by reactive oxygen species. Am J Physiol Heart Circ Physiol 2005; 288:H854–H860.
- Potenza MA, Marasciulo FL, Chieppa DM, Brigiani GS, Formoso G, Quon MJ, Montagnani M. Insulin resistance in spontaneously hypertensive rats is associated with endothelial dysfunction characterized by imbalance between NO and ET-1 production. Am J Physiol Heart Circ Physiol 2005; 289:H813–H822.
- Csibi A, Communi D, Muller N, Bottari SP. Angiotensin II inhibits insulin-stimulated GLUT4 translocation and Akt activation through tyrosine nitration-dependent mechanisms. PLoS One 2010;5:e10070.
- Andersen MR, Stender S. Endothelial nitric oxide synthase activity in aorta of normocholesterolemic rabbits: regional variation and the effect of estrogen. Cardiovasc Res 2000;47: 192–199.
- Horvath B, Orsy P, Benyo Z. Endothelial NOS-mediated relaxations of isolated thoracic aorta of the C57BL/6J mouse: a methodological study. J Cardiovasc Pharmacol 2005; 45:225–231.
- Barton M, Cosentino F, Brandes RP, Moreau P, Shaw S, Lüscher TF. Anatomic heterogeneity of vascular aging: role of nitric oxide and endothelin. Hypertension 1997;30: 817–824.
- Simmons GH, Padilla J, Laughlin MH. Heterogeneity of endothelial cell phenotype within and amongst conduit vessels of the swine vasculature. Exp Physiol 2012;97:1074–1082.
- Vincent MA, Dawson D, Clark AD, Lindner JR, Rattigan S, Clark MG, Barrett EJ. Skeletal muscle microvascular recruitment by physiological hyperinsulinemia precedes increases in total blood flow. Diabetes 2002;51:42–48.
- Baron AD, Brechtel-Hook G, Johnson A, Cronin J, Leaming R, Steinberg HO. Effect of perfusion rate on the time course of insulin-mediated skeletal muscle glucose uptake. Am J Physiol 1996;271:E1067–E1072.
- Baron AD, Brechtel G. Insulin differentially regulates systemic and skeletal muscle vascular resistance. Am J Physiol 1993;265:E61–E67.
- Koller A, Bagi Z. Nitric oxide and H2O2 contribute to reactive dilation of isolated coronary arterioles. Am J Physiol Heart Circ Physiol 2004;287:H2461–H2467.
- Hercule HC, Schunck WH, Gross V, Seringer J, Leung FP, Weldon SM, et al. Interaction between P450 eicosanoids and nitric oxide in the control of arterial tone in mice. Arterioscler Thromb Vasc Biol 2009;29:54–60.
- Fukai T, Ushio-Fukai M. Superoxide dismutases: role in redox signaling, vascular function, and diseases. Antioxid Redox Signal 2011;15:1583–1606.
- Wedgwood S, Lakshminrusimha S, Fukai T, Russell JA, Schumacker PT, Steinhorn RH. Hydrogen peroxide regulates extracellular superoxide dismutase activity and expression in neonatal pulmonary hypertension. Antioxid Redox Signal 2011;15:1497–1506.
- Honda H, Ishihara H, Takei M, Kogo H. Acetylcholine- induced relaxation of rat aorta is greatest during estrus in the sexual cycle. Jpn J Pharmacol 1997;74:113–115.
- Murias JM, Campos OA, Hall KE, McDonald MW, Melling CW, Noble EG. Vessel-specific rate of vasorelaxation is slower in diabetic rats. Diab Vasc Dis Res 2013;10:179–186.
- Murias JM, Dey A, Campos OA, Estaki M, Hall KE, Melling CW, Noble EG. High-intensity endurance training results in faster vessel-specific rate of vasorelaxation in type 1 diabetic rats. PLoS One 2013;8:e59678.
- Zobali F, Besler T, Ari N, Karasu C. Hydrogen peroxide- induced inhibition of vasomotor activity: evaluation of single and combined treatments with vitamin A and insulin in streptozotocin-diabetic rats. Int J Exp Diabetes Res 2002; 3:119–130.
- Omanwar S, Saidullah B, Ravi K, Fahim M. Modulation of vasodilator response via the nitric oxide pathway after acute methyl mercury chloride exposure in rats. BioMed Res Int 2013;2013:530603.
- de Sotomayor MA, Perez-Guerrero C, Herrrera MD, Jimenez L, Marín R, Marhuenda E, Andriantsitohaina R. Improvement of age-related endothelial dysfunction by simvastatin: effect on NO and COX pathways. Br J Pharmacol 2005;146:1130–1138.
- Yang AL, Chao JI, Lee SD. Altered insulin-mediated and insulin-like growth factor-1-mediated vasorelaxation in aortas of obese Zucker rats. Int J Obes (Lond) 2007;31:72–77.
- Lee SK, Kim HS, Song YJ, Joo HK, Lee JY, Lee KH, et al. Alteration of p66shc is associated with endothelial dysfunction in the abdominal aortic coarctation of rats. Febs Lett 2008;582:2561–2566.
- Barton CH, Ni Z, Vaziri ND. Enhanced nitric oxide inactivation in aortic coarctation-induced hypertension. Kidney Int 2001;60:1083–1087.