ATP: the red blood cell link to NO and local control of the pulmonary circulation

Sprague, Randy S.; Ellsworth, Mary L.; Stephenson, Alan H.; Lonigro, Andrew J.

doi:10.1152/ajpheart.1996.271.6.h2717

Cited by 225 publications

(313 citation statements)

References 0 publications

Supporting

Mentioning

297

Contrasting

Order By: Relevance

“…We openly acknowledge this limitation in our manuscript and are working to develop a selective antagonist. However, with respect to hypoxic vasodilation in resistance vessels, a number of important observations support our data: (1) perfusion of isolated resistance vessels with a buffer lacking erythrocytes fails to elicit vasodilation when extraluminal oxygen tension is reduced 11 ; (2) perfusion of isolated skeletal muscle resistance vessels with erythrocytes not capable of releasing ATP does not elicit vasodilation in response to this stimulus 12,13 ; (3) rescuing low O 2 -induced ATP release from diseased erythrocytes restores vasodilation when extraluminal oxygen tension is reduced. 12 These studies to date have not been performed within contracting muscle, and although this would be technically difficult, is certainly an area in need of future investigation.…”

Section: The Age-old Tale Of Skeletal Muscle Vasodilation: New Ideas supporting

confidence: 80%

The Age-Old Tale of Skeletal Muscle Vasodilation: New Ideas Regarding Erythrocyte Dysfunction and Intravascular ATP in Human Physiology

Dinenno

Kirby

2012

Circulation Research

View full text Add to dashboard Cite

Section: The Age-old Tale Of Skeletal Muscle Vasodilation: New Ideas supporting

confidence: 80%

The Age-Old Tale of Skeletal Muscle Vasodilation: New Ideas Regarding Erythrocyte Dysfunction and Intravascular ATP in Human Physiology

Dinenno

Kirby

2012

Circulation Research

View full text Add to dashboard Cite

“…The answer may also lie in the vascular endothelium. Indeed, Sprague et al 29 recently found that human RBCs release ATP in response to mechanical deformation; this ATP evokes the release of NO, thereby lowering pulmonary vascular resistance. Endothelial activation in this manner should attenuate platelet aggregation.…”

Section: Discussionmentioning

confidence: 99%

Cell-Free and Erythrocytic S -Nitrosohemoglobin Inhibits Human Platelet Aggregation

1998

View full text Add to dashboard Cite

Background-Nitric oxide (NO) and related molecules are thought to inhibit human platelet aggregation by raising levels of cGMP. Methods and Results-Both oxidative stress (reactive oxygen species) and hemoglobin (Hb) seem to oppose NO effects. A major fraction of NO in the blood is bound to thiols of Hb, forming S-nitrosohemoglobin (SNO-Hb), which releases the NO group on deoxygenation in the microcirculation. Here we show that (1) both cell-free and intraerythrocytic SNO-Hb (SNO-RBC) inhibit platelet aggregation, (2) the oxidation state of the hemes in Hb influences the response-SNOmetHb (which is functionally similar to SNO-deoxyHb) has greater platelet inhibitory effects than SNO-oxyHb, and (3) the mechanism of platelet inhibition by SNO-Hb is cGMP independent. Conclusions-We suggest that the RBC has evolved a means to counteract platelet activation in small vessels and the proaggregatory effects of oxidative stress by forming SNO-Hb. (Circulation. 1998;97:263-267.)

show abstract

“…ATP can be released from endothelium in response to increases in shear stress (Bodin et al, 1991) and from perivascular nerve terminals (Ralevic & Burnstock, 1998;Burnstock & Kennedy, 1986). In¯ammatory mediators, ischaemia, and damage to blood vessels also cause ATP release from endothelial cells, neutrophils, cardiomyocytes, erythrocytes and platelets (Borst & Schrader, 1991;Born & Kratzer, 1984;Bodin & Burnstock, 1998;Pearson & Gordon, 1985;Yang et al, 1994;Bergfeld & Forrester, 1992;Gordon, 1986;Ralevic & Burnstock, 1991;1998;Sprague et al, 1996;Olsson & Pearson, 1990). ATP is rapidly broken down to adenosine by endothelial ectonucleotidases (Pearson & Gordon, 1985).…”

Section: Introductionmentioning

confidence: 99%

Role of A_2A‐adenosine receptor activation for ATP‐mediated coronary vasodilation in guinea‐pig isolated heart

Erga

Seubert

Liang

et al. 2000

British J Pharmacology

View full text Add to dashboard Cite

1 Adenosine-5'-triphosphate (ATP) and adenosine are potent coronary vasodilators. ATP is rapidly converted to adenosine by ectonucleotidases. We examined whether coronary vasodilation caused by exogenous ATP is mediated by P 2 receptor activation or by A 2A -adenosine receptor activation. 2 E ects of interventions on coronary conductance were determined by measuring coronary perfusion pressure in guinea-pig isolated hearts perfused at a constant¯ow of 10 ml min 71 . 3 ATP and adenosine both caused sustained, concentration-dependent increases of coronary conductance. Maximal responses to both agonists were equivalent. The values of pD 2 (+s.e.mean) for ATP and adenosine were 6.68+0.04 and 7.06+0.05, respectively. Adenosine was signi®cantly more potent than ATP (P50.0001, n=10).4 The values of pIC 50 for the selective A 2A -adenosine receptor antagonist SCH58261 to antagonize equivalent responses to ATP and adenosine were 8.28+0.08 and 8.28+0.06 (P=0.99, n=6), respectively. 5 The non-selective adenosine receptor antagonists xanthine amine congener (XAC) and CGS15943 antagonized similarly the equivalent vasodilations caused by ATP (pIC 50 values 7.48+0.04 and 7.45+0.06, respectively) and adenosine (pIC 50 values 7.37+0.13 and 7.56+0.11). 6 In contrast to ATP and adenosine, the two P 2 agonists 2-methylthio-ATP and uridine-5'-triphosphate failed to cause stable increases of coronary conductance, caused desensitization of vasodilator responses, and were not antagonized by SCH 58261, 8-parasulphophenyltheophylline, or XAC. 7 Glibenclamide attenuated coronary vasodilations caused by ATP and adenosine by 88 and 89%, respectively, but failed to attenuate those caused by 2-methylthio-ATP.

show abstract

ATP: the red blood cell link to NO and local control of the pulmonary circulation

Cited by 225 publications

References 0 publications

The Age-Old Tale of Skeletal Muscle Vasodilation: New Ideas Regarding Erythrocyte Dysfunction and Intravascular ATP in Human Physiology

The Age-Old Tale of Skeletal Muscle Vasodilation: New Ideas Regarding Erythrocyte Dysfunction and Intravascular ATP in Human Physiology

Cell-Free and Erythrocytic S -Nitrosohemoglobin Inhibits Human Platelet Aggregation

Role of A_2A‐adenosine receptor activation for ATP‐mediated coronary vasodilation in guinea‐pig isolated heart

Contact Info

Product

Resources

About

ATP: the red blood cell link to NO and local control of the pulmonary circulation

Cited by 225 publications

References 0 publications

The Age-Old Tale of Skeletal Muscle Vasodilation: New Ideas Regarding Erythrocyte Dysfunction and Intravascular ATP in Human Physiology

The Age-Old Tale of Skeletal Muscle Vasodilation: New Ideas Regarding Erythrocyte Dysfunction and Intravascular ATP in Human Physiology

Cell-Free and Erythrocytic S -Nitrosohemoglobin Inhibits Human Platelet Aggregation

Role of A2A‐adenosine receptor activation for ATP‐mediated coronary vasodilation in guinea‐pig isolated heart

Contact Info

Product

Resources

About

Role of A_2A‐adenosine receptor activation for ATP‐mediated coronary vasodilation in guinea‐pig isolated heart