Effect of stretch on structural integrity and micromechanics of human alveolar epithelial cell monolayers exposed to thrombin

doi:10.1152/ajplung.00436.2005

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Effect of stretch on structural integrity and micromechanics of human alveolar epithelial cell monolayers exposed to thrombin

Xavier Trepat,¹^,2^,* Ferranda Puig,²^,* Nuria Gavara,² Jeffrey J. Fredberg,¹ Ramon Farre,² and Daniel Navajas²

¹Physiology Program, School of Public Health, Harvard University, Boston, Massachusetts; and ²Unitat de Biofísica i Bioenginyeria, Facultat de Medicina, Universitat de Barcelona - IDIBAPS, Barcelona, Spain

Submitted 12 October 2005 ; accepted in final form 3 January 2006

Alveolar epithelial cells in patients with acute lung injurysubjected to mechanical ventilation are exposed to increasedprocoagulant activity and mechanical strain. Thrombin inducesepithelial cell stiffening, contraction, and cytoskeletal remodeling,potentially compromising the balance of forces at the alveolarepithelium during cell stretching. This balance can be furthercompromised by the loss of integrity of cell-cell junctionsin the injured epithelium. The aim of this work was to studythe effect of stretch on the structural integrity and micromechanicsof human alveolar epithelial cell monolayers exposed to thrombin.Confluent and subconfluent cells (A549) were cultured on collagen-coatedelastic substrates. After exposure to thrombin (0.5 U/ml), astepwise cell stretch (20%) was applied with a vacuum-drivensystem mounted on an inverted microscope. The structural integrityof the cell monolayers was assessed by comparing intercellularand intracellular strains within the monolayer. Strain was measuredby tracking beads tightly bound to the cell surface. Simultaneously,cell viscoelasticity was measured using optical magnetic twistingcytometry. In confluent cells, thrombin did not induce significantchanges in transmission of strain from the substrate to overlyingcells. By contrast, thrombin dramatically impaired the abilityof subconfluent cells to follow imposed substrate deformation.Upon substrate unstretching, thrombin-treated subconfluent cellsexhibited compressive strain (9%). Stretch increased stiffness(56–62%) and decreased cell hysteresivity (13–22%)of vehicle cells. By contrast, stretch did not increase stiffnessof thrombin-treated cells, suggesting disruption of cytoskeletalstructures. Our findings suggest that thrombin could exacerbateepithelial barrier dysfunction in injured lungs subjected tomechanical ventilation.

alveolar epithelium; cell mechanics; magnetic twisting cytometry; prestress; protease-activated receptors

Address for reprint requests and other correspondence: D. Navajas, Unitat de Biofísica i Bioenginyeria, Facultat de Medicina, Casanova 143, 08036 Barcelona, Spain (e-mail: dnavajas{at}ub.edu)

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