Myosin light chain phosphorylation and pulmonary endothelial cell hyperpermeability in burns

doi:10.1152/ajplung.00341.2003

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Myosin light chain phosphorylation and pulmonary endothelial cell hyperpermeability in burns

John H. Tinsley,¹ Nicole R. Teasdale,¹ and Sarah Y. Yuan¹^,2

Departments of ¹Medical Physiology and ²Surgery, Cardiovascular Research Institute, Texas A&M University System Health Science Center, Scott and White Hospital and Foundation, Temple, Texas 76504

Submitted 23 September 2003 ; accepted in final form 5 December 2003

Major cutaneous burns result in not only localized tissue damagebut broad systemic inflammation causing organ system damagedistal to the burn site. It is well recognized that many problemsresult from the release of inflammatory mediators that targetvascular endothelial cells, causing organ dysfunction. The pulmonarymicrovessels are particularly susceptible to functional abnormalitiesas a direct consequence of exposure to burn-induced inflammatorymediators. Traditional therapeutic intervention is quite oftenineffective in treating burn patients suffering from systemicproblems. A possible explanation for this ineffectiveness maybe that because so many mediators are released, supposedly activatingnumerous signaling cascades that interact with each other, targetingof upstream factors in these cascades on an individual basisbecomes futile. Therefore, if an end-point effector responsiblefor endothelial dysfunction following burn injury could be identified,it may present a target for intervention. In this study, weidentified phosphorylation of myosin light chain (MLC) as arequired element of burn plasma-induced hyperpermeability acrossrat lung microvascular endothelial cell monolayers. In addition,pharmacological inhibition of myosin light chain kinase (MLCK)and Rho kinase as well as transfection of MLCK-inhibiting peptideblocked actin stress fiber formation and MLC phosphorylationin response to burn plasma. The results suggest that blockingMLC phosphorylation may provide therapeutic intervention inburn patients with the goal of alleviating systemic inflammation-inducedendothelial dysfunction.

signal transduction; permeability; pulmonary endothelium; microvasculature

Address for reprint requests and other correspondence: J. H. Tinsley, Dept. of Medical Physiology, Texas A&M Univ. System Health Science Center, 702 SW HK Dodgen Loop, Temple, TX 76504 (E-mail: jht{at}tamu.edu).

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