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MEMBRANE TRANSPORTERS, ION CHANNELS, AND PUMPS

Depolarization induces Rho-Rho kinase-mediated myosin light chain phosphorylation in kidney tubular cells

Department of Surgery, The Toronto General Hospital and University Health Network, Toronto, Ontario, Canada

Submitted 28 September 2004 ; accepted in final form 23 April 2005

Myosin-based contractility plays important roles in the regulation of epithelial functions, particularly paracellular permeability. However, the triggering factors and the signaling pathways that control epithelial myosin light chain (MLC) phosphorylation have not been elucidated. Herein we show that plasma membrane depolarization provoked by distinct means, including high extracellular K⁺, the lipophilic cation tetraphenylphosphonium, or the ionophore nystatin, induced strong diphosphorylation of MLC in kidney epithelial cells. In sharp contrast to smooth muscle, depolarization of epithelial cells did not provoke a Ca²⁺ signal, and removal of external Ca²⁺ promoted rather than inhibited MLC phosphorylation. Moreover, elevation of intracellular Ca²⁺ did not induce significant MLC phosphorylation, and the myosin light chain kinase (MLCK) inhibitor ML-7 did not prevent the depolarization-induced MLC response, suggesting that MLCK is not a regulated element in this process. Instead, the Rho-Rho kinase (ROK) pathway is the key mediator because 1) depolarization stimulated Rho and induced its peripheral translocation, 2) inhibition of Rho by Clostridium difficile toxin B or C3 transferase abolished MLC phosphorylation, and 3) the ROK inhibitor Y-27632 suppressed the effect. Importantly, physiological depolarizing stimuli were able to activate the same pathway: L-alanine, the substrate of the electrogenic Na⁺-alanine cotransporter, stimulated Rho and induced Y-27632-sensitive MLC phosphorylation in a Na⁺-dependent manner. Together, our results define a novel mode of the regulation of MLC phosphorylation in epithelial cells, which is depolarization triggered and Rho-ROK-mediated but Ca²⁺ signal independent. This pathway may be a central mechanism whereby electrogenic transmembrane transport processes control myosin phosphorylation and thereby regulate paracellular transport.

membrane potential; Na⁺-alanine cotransport; epithelium; phosphatidylinositol 3-kinase; LLC-PK₁ cells

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