Mechanical stress activates xanthine oxidoreductase through MAP kinase-dependent pathways

doi:10.1152/ajplung.00453.2005

Mechanical stress activates xanthine oxidoreductase through MAP kinase-dependent pathways

Raja-Elie E. Abdulnour,¹ Xinqi Peng,¹ Jay H. Finigan,¹ Eugenia J. Han,¹ Emile J. Hasan,¹ Konstantin G. Birukov,¹ Sekhar P. Reddy,² James E. Watkins, III,³ Usamah S. Kayyali,⁴ Joe G. N. Garcia,¹ Rubin M. Tuder,³ and Paul M. Hassoun¹

¹Division of Pulmonary and Critical Care Medicine, ²Department of Medicine, Department of Environmental Health Sciences, Bloomberg School of Public Health, and ³Division of Cardiopulmonary Pathology and Department of Pathology, Johns Hopkins University School of Medicine, Baltimore, Maryland; and ⁴Pulmonary and Critical Care Division, Tupper Research Institute, Tufts-New England Medical Center, Tufts University School of Medicine, Boston, Massachusetts

Submitted 27 October 2005 ; accepted in final form 7 April 2006

ABSTRACT

Xanthine oxidoreductase (XOR) plays a prominent role in acutelung injury because of its ability to generate reactive oxygenspecies. We investigated the role of XOR in ventilator-inducedlung injury (VILI). Male C57BL/6J mice were assigned to spontaneousventilation (sham) or mechanical ventilation (MV) with low (7ml/kg) and high tidal volume (20 ml/kg) for 2 h after whichlung XOR activity and expression were measured and the effectof the specific XOR inhibitor allopurinol on pulmonary vascularleakage was examined. In separate experiments, rat pulmonarymicrovascular endothelial cells (RPMECs) were exposed to cyclicstretch (5% and 18% elongation, 20 cycles/min) for 2 h beforeintracellular XOR activity measurement. Lung XOR activity wassignificantly increased at 2 h of MV without changes in XORexpression. There was evidence of p38 MAP kinase, ERK1/2, andERK5 phosphorylation, but no change in JNK phosphorylation.Evans blue dye extravasation and bronchoalveolar lavage proteinconcentration were significantly increased in response to MV,changes that were significantly attenuated by pretreatment withallopurinol. Cyclic stretch of RPMECs also caused MAP kinasephosphorylation and a 1.7-fold increase in XOR activity, whichwas completely abrogated by pretreatment of the cells with specificMAP kinase inhibitors. We conclude that XOR enzymatic activityis significantly increased by mechanical stress via activationof p38 MAP kinase and ERK and plays a critical role in the pathogenesisof pulmonary edema associated with VILI.

mechanical ventilation; acute lung injury; mitogen-activated protein kinase

Address for reprint requests and other correspondence: P. M. Hassoun, Div. of Pulmonary and Critical Care Medicine, 5501 Hopkins Bayview Circle, Baltimore, MD 21224 (e-mail: phassoun{at}jhmi.edu)

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