Mechanisms of Vasodilatation Induced by Nitrite Instillation in Intestinal Lumen: Possible Role of Hemoglobin

Kozlov, Andrey V.; Costantino, Giuseppina; Sobhian, B.; Szalay, L.; Umar, F.; Nohl, Hans; Bahrami, Soheyl; Redl, Heinz

doi:10.1089/ars.2005.7.515

Cited by 38 publications

(35 citation statements)

References 34 publications

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“…In the experiments with flap perfusion, we have shown that neither infusion of NO-Hb nor infusion of NO-Hb combined with laser irradiation decreases blood pressure or elevates cGMP levels in circulating blood (Figure 3). Stable blood pressure indicates that spontaneous NO liberation from nitrosyl-hemoglobin does not occur in vivo, which is in line with recently published data (21). In contrast to unaltered MAP and cGMP levels, the concentration of NO-Hb complexes in blood decreased in response to laser irradiation.…”

Section: Effect Of No-hb Infusion and Laser Irradiation On Systemic Csupporting

confidence: 90%

Blue Laser Light Increases Perfusion of a Skin Flap Via Release of Nitric Oxide from Hemoglobin

Mittermayr

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Piskernik

et al. 2007

Mol Med

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Section: Effect Of No-hb Infusion and Laser Irradiation On Systemic Csupporting

confidence: 90%

Blue Laser Light Increases Perfusion of a Skin Flap Via Release of Nitric Oxide from Hemoglobin

Mittermayr

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Piskernik

et al. 2007

Mol Med

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“…1) (10). Additional studies (43,55,92,93,97) have recently been published confirming the potent vasodilating effects of nitrite. Our group and others have now observed vasodilation at near physiological concentations (Ͻ5 M) in mice, rats, sheep, dogs, primates, and humans.…”

Section: Vasoactivity Of Nitrite In Human Circulationmentioning

confidence: 89%

Nitrite as a vascular endocrine nitric oxide reservoir that contributes to hypoxic signaling, cytoprotection, and vasodilation

Gladwin¹,

Raat²,

Shiva³

et al. 2006

American Journal of Physiology-Heart and Circulatory Physiology

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. Nitrite as a vascular endocrine nitric oxide reservoir that contributes to hypoxic signaling, cytoprotection, and vasodilation. Am J Physiol Heart Circ Physiol 291: H2026 -H2035, 2006. First published June 23, 2006 doi:10.1152/ajpheart.00407.2006.-Accumulating evidence suggests that the simple and ubiquitous anion salt, nitrite (NO 2 Ϫ ), is a physiological signaling molecule with potential roles in intravascular endocrine nitric oxide (NO) transport, hypoxic vasodilation, signaling, and cytoprotection after ischemia-reperfusion. Human and animal studies of nitrite treatment and NO gas inhalation provide evidence that nitrite mediates many of the systemic therapeutic effects of NO gas inhalation, including peripheral vasodilation and prevention of ischemia-reperfusion-mediated tissue infarction. With regard to nitritedependent hypoxic signaling, biochemical and physiological studies suggest that hemoglobin possesses an allosterically regulated nitrite reductase activity that reduces nitrite to NO along the physiological oxygen gradient, potentially contributing to hypoxic vasodilation. An expanded consideration of nitrite as a hypoxiadependent intrinsic signaling molecule has opened up a new field of research and therapeutic opportunities for diseases associated with regional hypoxia and vasoconstriction.hemoglobin; hypoxia; S-nitrosated albumin; cysteine 93 HYPOXIC VASODILATION is a conserved systemic physiological response that matches blood flow and oxygen delivery to tissue metabolic demand. This hypoxic response has been appreciated for more than 100 years since the initial description by Roy and Brown in 1879 (80). This response is thought to involve feedback mechanisms that require oxygen or pH sensing of a divergence in the normal relationship between delivered blood oxygen and tissue oxygen consumption (94). This leads to the feedback generation of putative vasodilatory effectors that increase blood flow to maintain adequate tissue oxygenation. Important to the considerations of the mechanisms responsible for oxygen sensing, in mammals hypoxic vasodilation appears to occur as the hemoglobin desaturates from 60% to 40%, around a partial pressure of oxygen ranging from . Surprisingly, measurements of microcirculatory and tissue oxygen tension and hemoglobin oxygen saturation using modern methodologies suggest that much of the oxygen delivery occurs within the resistance arterioles, especially in the case of skeletal muscle (91). Thus, in these microvascular beds, the anatomical site of hypoxic sensing is proximal to the site of resistive control (arterioles and arteriolar capillaries). In other tissues, such as heart and brain, more oxygen is extracted within the capillary network. This creates a paradox as to how hypoxic sensing can modulate retrograde feedback vasodilation in these tissues. The solution to this paradox has been in part solved by the work of , who suggested that acetycholine-dependent vasodilation of the capillary or venous circulation produces retrograde intracellular propagation of ...

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“…3 The potent vasodilating effects of nitrite have been verified in a number of models. 12,14,19,20,39 The degree to which nitrite-induced vasodilation and coronary collaterals contribute to myocardial protection warrants consideration. It would require a very large sample size to determine the extent to which the statistically insignificant increase in microsphere blood flow (60-minute nitrite group) contributes to myocardial protection because the magnitude of effect is very small.…”

Section: Discussionmentioning

confidence: 99%

Nitrite Anion Provides Potent Cytoprotective and Antiapoptotic Effects as Adjunctive Therapy to Reperfusion for Acute Myocardial Infarction

et al. 2008

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Background-Accumulating evidence suggests that the ubiquitous anion nitrite (NO 2 Ϫ ) is a physiological signaling molecule, with roles in intravascular endocrine nitric oxide transport, hypoxic vasodilation, signaling, and cytoprotection. Thus, nitrite could enhance the efficacy of reperfusion therapy for acute myocardial infarction. The specific aims of this study were (1) to assess the efficacy of nitrite in reducing necrosis and apoptosis in canine myocardial infarction and (2) to determine the relative role of nitrite versus chemical intermediates, such as S-nitrosothiols. Methods and Results-We evaluated infarct size, microvascular perfusion, and left ventricular function by histopathology, microspheres, and magnetic resonance imaging in 27 canines subjected to 120 minutes of coronary artery occlusion. This was a blinded, prospective study comparing a saline control group (nϭ9) with intravenous nitrite during the last 60 minutes of ischemia (nϭ9) and during the last 5 minutes of ischemia (nϭ9). In saline-treated control animals, 70Ϯ10% of the area at risk was infarcted compared with 23Ϯ5% in animals treated with a 60-minute nitrite infusion. Remarkably, a nitrite infusion in the last 5 minutes of ischemia also limited the extent of infarction (36Ϯ8% of area at risk). Nitrite improved microvascular perfusion, reduced apoptosis, and improved contractile function. S-Nitrosothiol and iron-nitrosyl-protein adducts did not accumulate in the 5-minute nitrite infusion, suggesting that nitrite is the bioactive intravascular nitric oxide species accounting for cardioprotection. Conclusions-Nitrite has significant potential as adjunctive therapy to enhance the efficacy of reperfusion therapy for acute myocardial infarction. (Circulation. 2008;117:2986-2994.)

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Mechanisms of Vasodilatation Induced by Nitrite Instillation in Intestinal Lumen: Possible Role of Hemoglobin

Cited by 38 publications

References 34 publications

Blue Laser Light Increases Perfusion of a Skin Flap Via Release of Nitric Oxide from Hemoglobin

Blue Laser Light Increases Perfusion of a Skin Flap Via Release of Nitric Oxide from Hemoglobin

Nitrite as a vascular endocrine nitric oxide reservoir that contributes to hypoxic signaling, cytoprotection, and vasodilation

Nitrite Anion Provides Potent Cytoprotective and Antiapoptotic Effects as Adjunctive Therapy to Reperfusion for Acute Myocardial Infarction

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