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Protein kinase A attenuates endothelial cell barrier dysfunction induced by microtubule disassembly

Division of Pulmonary and Critical Care Medicine, Department of Medicine, Johns Hopkins University School of Medicine, Baltimore, Maryland 21224

Submitted 11 December 2003 ; accepted in final form 28 February 2004

Cross talk between the actin cytoskeleton and the microtubule (MT) network plays a critical role in regulation of endothelial permeability. We have previously demonstrated that MT disruption by nocodazole results in increases in MLC phosphorylation, actomyosin contraction, cell retraction, and paracellular gap formation, cardinal features of endothelial barrier dysfunction (Verin AD, Birukova A, Wang P, Liu F, Becker P, Birukov K, and Garcia JG. Am J Physiol Lung Cell Mol Physiol 281: L565–L574, 2001; Birukova AA, Smurova K, Birukov KG, Usatyuk P, Liu F, Kaibuchi K, Ricks-Cord A, Natarajan V, Alieva A, Garcia JG, and Verin AD. J Cell Physiol. In press.). Although activation of PKA opposes barrier-disrupting effects of edemagenic agents on confluent EC monolayers, information about the molecular mechanisms of PKA-mediated EC barrier protection is limited. Our results suggest that MT disassembly alters neither intracellular cAMP levels nor PKA enzymatic activity; however, elevation of cAMP levels and PKA activation by either cholera toxin or forskolin dramatically attenuates the decline in transendothelial electrical resistance induced by nocodazole in human pulmonary EC. Barrier-protective effects of PKA on EC were associated with PKA-mediated inhibition of nocodazole-induced stress fiber formation, Rho activation, phosphorylation of myosin phosphatase regulatory subunit at Thr696, and decreased MLC phosphorylation. In addition, forskolin pretreatment attenuated MT disassembly induced by nocodazole. These results suggest a critical role for PKA activity in stabilization of MT cytoskeleton and provide a novel mechanism for cAMP-mediated regulation of Rho-induced actin cytoskeletal remodeling, actomyosin contraction, and EC barrier dysfunction induced by MT disassembly.

pulmonary endothelium; actin; myosin; myosin phosphatase; phosphorylation; Rho-associated kinase; RhoA

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