Evidence for the involvement of NADPH oxidase in adenosine receptor-mediated control of coronary flow using A<sub>1</sub>and A<sub>3</sub>knockout mice

El‐Awady, Mohammed S.; Rajamani, Uthra; Teng, Bunyen; Tilley, Stephen L.; Mustafa, S. Jamal

doi:10.1002/phy2.70

Cited by 15 publications

(28 citation statements)

References 32 publications

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“…Many adenine nucleotides including ATP and AMP are potent vasodilators, yet they serve no benefit in regulating MI/R injury 16. Furthermore, the vasodilation seen in coronary blood flow with adenosine has been previously reported to be dependent on upregulation of NADPH‐oxidase–mediated ROS formation in coronary endothelial cells 57, 58. In light of our findings that MSCs are capable of increasing adenosine levels while simultaneously preventing significant increases in ROS formation, it seems unlikely that vasodilation is the primary therapeutic mechanism at play.…”

Section: Discussionmentioning

confidence: 99%

Adenosine Production by Biomaterial‐Supported Mesenchymal Stromal Cells Reduces the Innate Inflammatory Response in Myocardial Ischemia/Reperfusion Injury

Shin

Wang

Zemskova

et al. 2018

JAHA

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BackgroundDuring myocardial ischemia/reperfusion (MI/R) injury, there is extensive release of immunogenic metabolites that activate cells of the innate immune system. These include ATP and AMP, which upregulate chemotaxis, migration, and effector function of early infiltrating inflammatory cells. These cells subsequently drive further tissue devitalization. Mesenchymal stromal cells (MSCs) are a potential treatment modality for MI/R because of their powerful anti‐inflammatory capabilities; however, the manner in which they regulate the acute inflammatory milieu requires further elucidation. CD73, an ecto‐5′‐nucleotidase, may be critical in regulating inflammation by converting pro‐inflammatory AMP to anti‐inflammatory adenosine. We hypothesized that MSC‐mediated conversion of AMP into adenosine reduces inflammation in early MI/R, favoring a micro‐environment that attenuates excessive innate immune cell activation and facilitates earlier cardiac recovery.Methods and ResultsAdult rats were subjected to 30 minutes of MI/R injury. MSCs were encapsulated within a hydrogel vehicle and implanted onto the myocardium. A subset of MSCs were pretreated with the CD73 inhibitor, α,β‐methylene adenosine diphosphate, before implantation. Using liquid chromatography/mass spectrometry, we found that MSCs increase myocardial adenosine availability following injury via CD73 activity. MSCs also reduce innate immune cell infiltration as measured by flow cytometry, and hydrogen peroxide formation as measured by Amplex Red assay. These effects were dependent on MSC‐mediated CD73 activity. Finally, through echocardiography we found that CD73 activity on MSCs was critical to optimal protection of cardiac function following MI/R injury.Conclusions MSC‐mediated conversion of AMP to adenosine by CD73 exerts a powerful anti‐inflammatory effect critical for cardiac recovery following MI/R injury.

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Section: Discussionmentioning

confidence: 99%

Adenosine Production by Biomaterial‐Supported Mesenchymal Stromal Cells Reduces the Innate Inflammatory Response in Myocardial Ischemia/Reperfusion Injury

Shin

Wang

Zemskova

et al. 2018

JAHA

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“…However, little is known about the involvement of Nox2-derived ROS in adenosine-mediated flow response in the coronary circulation. Although activation of A 1 and A 3 AR has been shown to have vascular effects through ROS [33,36], our recent studies have already excluded the involvement of A 1 and A 3 ARs in ROS-mediated regulation of coronary flow [37]. Therefore, with the focus on the adenosine signaling, the first aim of the present study was to further investigate whether A 2A and/or A 2B AR are involved in Nox2-derived ROS-mediated coronary vasodilation.…”

Section: Introductionmentioning

confidence: 92%

“…Adenosine concentration response curves (10 −8 -10 −5 M) were acquired in perfused hearts from WT, A 2A AR KO, and A 2B AR KO mice. Each concentration of adenosine was infused for 5 min followed by a minimum of 5 min of perfusion for drug washout [16,37]. In separate experiments, the specific Nox2 inhibitor gp91 ds-tat (1 μM) [42] or the superoxide dismutase and catalase-mimicking drug EUK134 (50 μM) was perfused for 20 min before acquiring adenosine concentration response curves (10 −8 -10 −5 M) in perfused hearts from those mice [37].…”

Section: Langendorff Experimental Protocolsmentioning

confidence: 99%

“…In separate experiments, the specific Nox2 inhibitor gp91 ds-tat (1 μM) was perfused for 20 min before acquiring CGS-21680 and BAY 60-658 concentration response curves (10 −10 -10 −6 M), respectively [16,37]. All compounds were infused at a rate of 1/100 ml min −1 of the coronary flow through an injection port directly proximal to the aortic cannula using a microinjection pump (Harvard Apparatus, Holliston, MA, USA) [16,20,37].…”

Section: Langendorff Experimental Protocolsmentioning

confidence: 99%

“…After 5 min of adenosine incubation, additional images were taken. Hydrogen peroxide (200 μM) served as the positive control at the end of experiments [37,40]. Only the bottom half of vessels (more proximal to the scanner) were scanned by xyz sectioning, in order to avoid the quenching as much as possible.…”

Section: Fluorescence Detection Of H 2 O 2 In Mouse Coronary Arteriesmentioning

confidence: 99%

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Involvement of NADPH oxidase in A2A adenosine receptor-mediated increase in coronary flow in isolated mouse hearts

Zhou

Rajamani

Labazi

et al. 2015

Purinergic Signalling

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Adenosine increases coronary flow mainly through the activation of A 2A and A 2B adenosine receptors (ARs). However, the mechanisms for the regulation of coronary flow are not fully understood. We previously demonstrated that adenosine-induced increase in coronary flow is in part through NADPH oxidase (Nox) activation, which is independent of activation of either A 1 or A 3 ARs. In this study, we hypothesize that adenosine-mediated increase in coronary flow through Nox activation depends on A 2A but not A 2B ARs. Functional studies were conducted using isolated Langendorff-perfused mouse hearts. Hydrogen peroxide (H 2 O 2 ) production was measured in isolated coronary arteries from WT, A 2A AR k n o c k o u t ( K O ) , a n d A 2 B A R K O m i c e u s i n g dichlorofluorescein immunofluorescence. Adenosineinduced concentration-dependent increase in coronary flow was attenuated by the specific Nox2 inhibitor gp91 ds-tat or reactive oxygen species (ROS) scavenger EUK134 in both WT and A 2B but not A 2A AR KO isolated hearts. Similarly, the A 2A AR selective agonist CGS-21680-induced increase in coronary flow was significantly blunted by Nox2 inhibition in both WT and A 2B AR KO, while the A 2B AR selective agonist BAY 60-6583-induced increase in coronary flow was not affected by Nox2 inhibition in WT. In intact isolated coronary arteries, adenosine-induced (10 μM) increase in H 2 O 2 formation in both WT and A 2B AR KO mice was attenuated by Nox2 inhibition, whereas adenosine failed to increase H 2 O 2 production in A 2A AR KO mice. In conclusion, adenosine-induced increase in coronary flow is partially mediated by Nox2-derived H 2 O 2 , which critically depends upon the presence of A 2A AR.

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Aquaporin 8 is involved in H₂O₂‐mediated differential regulation of metabolic signaling by α₁‐ and β‐adrenoceptors in hepatocytes

Vilchis-Landeros¹,

Guinzberg²,

Riveros‐Rosas³

et al. 2020

FEBS Letters

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Reactive oxygen species participate in regulating intracellular signaling pathways. Herein, we investigated the reported opposite effects of hydrogen peroxide (H 2 O 2 ) on metabolic signaling mediated by activated a 1 -and b-adrenoceptors (ARs) in hepatocytes. In isolated rat hepatocytes, stimulation of a 1 -AR increases H 2 O 2 production via NADPH oxidase 2 (NOX2) activation. We find that the H 2 O 2 thus produced is essential for a 1 -AR-mediated activation of the classical hepatic glycogenolytic, gluconeogenic, and ureagenic responses. However, H 2 O 2 inhibits b-AR-mediated activation of these metabolic responses. We show that H 2 O 2 mediates its effects on a 1 -AR and b-AR by permeating cells through aquaporin 8 (AQP8) channels and promoting Ca 2+ mobilization. Thus, our findings reveal a novel NOX2-H 2 O 2 -AQP8-Ca 2+ signaling cascade acting downstream of a 1 -AR in hepatocytes, which, by negatively regulating b-AR signaling, establishes negative crosstalk between the two pathways.

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Evidence for the involvement of NADPH oxidase in adenosine receptor-mediated control of coronary flow using A₁and A₃knockout mice

Cited by 15 publications

References 32 publications

Adenosine Production by Biomaterial‐Supported Mesenchymal Stromal Cells Reduces the Innate Inflammatory Response in Myocardial Ischemia/Reperfusion Injury

Adenosine Production by Biomaterial‐Supported Mesenchymal Stromal Cells Reduces the Innate Inflammatory Response in Myocardial Ischemia/Reperfusion Injury

Involvement of NADPH oxidase in A2A adenosine receptor-mediated increase in coronary flow in isolated mouse hearts

Aquaporin 8 is involved in H₂O₂‐mediated differential regulation of metabolic signaling by α₁‐ and β‐adrenoceptors in hepatocytes

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Evidence for the involvement of NADPH oxidase in adenosine receptor-mediated control of coronary flow using A1and A3knockout mice

Cited by 15 publications

References 32 publications

Adenosine Production by Biomaterial‐Supported Mesenchymal Stromal Cells Reduces the Innate Inflammatory Response in Myocardial Ischemia/Reperfusion Injury

Adenosine Production by Biomaterial‐Supported Mesenchymal Stromal Cells Reduces the Innate Inflammatory Response in Myocardial Ischemia/Reperfusion Injury

Involvement of NADPH oxidase in A2A adenosine receptor-mediated increase in coronary flow in isolated mouse hearts

Aquaporin 8 is involved in H2O2‐mediated differential regulation of metabolic signaling by α1‐ and β‐adrenoceptors in hepatocytes

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Product

Resources

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Evidence for the involvement of NADPH oxidase in adenosine receptor-mediated control of coronary flow using A₁and A₃knockout mice

Aquaporin 8 is involved in H₂O₂‐mediated differential regulation of metabolic signaling by α₁‐ and β‐adrenoceptors in hepatocytes