Role of A2B adenosine receptor signaling in adenosine-dependent pulmonary inflammation and injury
Chun-Xiao Sun, … , Dewan Zeng, Michael R. Blackburn
Chun-Xiao Sun, … , Dewan Zeng, Michael R. Blackburn
Published August 1, 2006
Citation Information: J Clin Invest. 2006;116(8):2173-2182. https://doi.org/10.1172/JCI27303.
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Research Article Pulmonology

Role of A2B adenosine receptor signaling in adenosine-dependent pulmonary inflammation and injury

Abstract

Adenosine has been implicated in the pathogenesis of chronic lung diseases such as asthma and chronic obstructive pulmonary disease. In vitro studies suggest that activation of the A2B adenosine receptor (A2BAR) results in proinflammatory and profibrotic effects relevant to the progression of lung diseases; however, in vivo data supporting these observations are lacking. Adenosine deaminase–deficient (ADA-deficient) mice develop pulmonary inflammation and injury that are dependent on increased lung adenosine levels. To investigate the role of the A2BAR in vivo, ADA-deficient mice were treated with the selective A2BAR antagonist CVT-6883, and pulmonary inflammation, fibrosis, and airspace integrity were assessed. Untreated and vehicle-treated ADA-deficient mice developed pulmonary inflammation, fibrosis, and enlargement of alveolar airspaces; conversely, CVT-6883–treated ADA-deficient mice showed less pulmonary inflammation, fibrosis, and alveolar airspace enlargement. A2BAR antagonism significantly reduced elevations in proinflammatory cytokines and chemokines as well as mediators of fibrosis and airway destruction. In addition, treatment with CVT-6883 attenuated pulmonary inflammation and fibrosis in wild-type mice subjected to bleomycin-induced lung injury. These findings suggest that A2BAR signaling influences pathways critical for pulmonary inflammation and injury in vivo. Thus in chronic lung diseases associated with increased adenosine, antagonism of A2BAR-mediated responses may prove to be a beneficial therapy.

Authors

Chun-Xiao Sun, Hongyan Zhong, Amir Mohsenin, Eva Morschl, Janci L. Chunn, Jose G. Molina, Luiz Belardinelli, Dewan Zeng, Michael R. Blackburn

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Figure 10

CVT-6883 treatment in a model of bleomycin-induced pulmonary injury.

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CVT-6883 treatment in a model of bleomycin-induced pulmonary injury. (A–...
(AC) Lung sections were stained with an antibody against α-SMA to visualize myofibroblast (brown). (DF) Lung sections were stained with Masson’s trichrome to visualize collagen (blue). Shown are lungs from saline-treated mice 14 days after treatment (A and D) and bleomycin-treated mice 14 days after treatment that were treated with vehicle (B and E) or CVT-6883 (C and F) beginning on day 5 of the protocol. Sections are representative of 7 different mice from each treatment. Scale bars: 100 μm. (G) Total BAL cells. Data are mean ± SEM. (H) Whole-lung collagen protein levels. Data are mean μg collagen/lung ± SEM. *P ≤ 0.05 versus saline-treated mice; #P ≤ 0.05 versus vehicle-treated bleomycin-exposed mice. n = 7 per group.