A2B adenosine receptor signaling attenuates acute lung injury by enhancing alveolar fluid clearance in mice
Tobias Eckle, … , Stefanie Laucher, Holger K. Eltzschig
Tobias Eckle, … , Stefanie Laucher, Holger K. Eltzschig
Published September 11, 2008
Citation Information: J Clin Invest. 2008;118(10):3301-3315. https://doi.org/10.1172/JCI34203.
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Research Article Pulmonology

A2B adenosine receptor signaling attenuates acute lung injury by enhancing alveolar fluid clearance in mice

Abstract

Although acute lung injury contributes significantly to critical illness, resolution often occurs spontaneously via activation of incompletely understood pathways. We recently found that mechanical ventilation of mice increases the level of pulmonary adenosine, and that mice deficient for extracellular adenosine generation show increased pulmonary edema and inflammation after ventilator-induced lung injury (VILI). Here, we profiled the response to VILI in mice with genetic deletions of each of the 4 adenosine receptors (ARs) and found that deletion of the A2BAR gene was specifically associated with reduced survival time and increased pulmonary albumin leakage after injury. In WT mice, treatment with an A2BAR-selective antagonist resulted in enhanced pulmonary inflammation, edema, and attenuated gas exchange, while an A2BAR agonist attenuated VILI. In bone marrow–chimeric A2BAR mice, although the pulmonary inflammatory response involved A2BAR signaling from bone marrow–derived cells, A2BARs located on the lung tissue attenuated VILI-induced albumin leakage and pulmonary edema. Furthermore, measurement of alveolar fluid clearance (AFC) demonstrated that A2BAR signaling enhanced amiloride-sensitive fluid transport and elevation of pulmonary cAMP levels following VILI, suggesting that A2BAR agonist treatment protects by drying out the lungs. Similar enhancement of pulmonary cAMP and AFC were also observed after β-adrenergic stimulation, a pathway known to promote AFC. Taken together, these studies reveal a role for A2BAR signaling in attenuating VILI and implicate this receptor as a potential therapeutic target during acute lung injury.

Authors

Tobias Eckle, Almut Grenz, Stefanie Laucher, Holger K. Eltzschig

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Figure 6

A2BAR agonist (BAY 60-6583) treatment.

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A2BAR agonist (BAY 60-6583) treatment. (A–C) A2BAR+/+, A2AAR–/–, and A2B...
(AC) A2BAR+/+, A2AAR–/–, and A2BAR–/– mice and their corresponding littermate controls were treated with 2 mg/kg BAY 60-6583 or vehicle 30 minutes prior to induction of anesthesia. Mechanical ventilation was begun, and mice were ventilated using pressure-controlled settings (inspiratory pressure of 45 mbar, 100% inspired oxygen concentration) until a cardiac standstill was observed in the surface electrocardiogram (P < 0.01, n = 8). In other studies, albumin concentrations in the BAL fluid were determined by ELISA after mechanical ventilation using pressure-controlled settings with an inspired oxygen concentration of 100% for 180 minutes at 45 mbar. (D) Pulmonary neutrophil sequestration was quantified using a MPO assay (n = 6). (EG) TNF-α, NF-κB, and IL-10 levels were evaluated in lung tissue homogenates using murine ELISA (n = 6). (H) To assess pulmonary gas exchange, blood gas analyses were performed by obtaining arterial blood via cardiac puncture. The ratio of the arterial partial pressure of oxygen to the fraction of inspired oxygen was determined. Results are presented as mean ± SD (n = 6).