Epithelial myosin light chain kinase–dependent barrier dysfunction mediates T cell activation–induced diarrhea in vivo
Daniel R. Clayburgh, … , Randall J. Mrsny, Jerrold R. Turner
Daniel R. Clayburgh, … , Randall J. Mrsny, Jerrold R. Turner
Published October 3, 2005
Citation Information: J Clin Invest. 2005;115(10):2702-2715. https://doi.org/10.1172/JCI24970.
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Research Article

Epithelial myosin light chain kinase–dependent barrier dysfunction mediates T cell activation–induced diarrhea in vivo

Abstract

Disruption of the intestinal epithelial barrier occurs in many intestinal diseases, but neither the mechanisms nor the contribution of barrier dysfunction to disease pathogenesis have been defined. We utilized a murine model of T cell–mediated acute diarrhea to investigate the role of the epithelial barrier in diarrheal disease. We show that epithelial barrier dysfunction is required for the development of diarrhea. This diarrhea is characterized by reversal of net water flux, from absorption to secretion; increased leak of serum protein into the intestinal lumen; and altered tight junction structure. Phosphorylation of epithelial myosin II regulatory light chain (MLC), which has been correlated with tight junction regulation in vitro, increased abruptly after T cell activation and coincided with the development of diarrhea. Genetic knockout of long myosin light chain kinase (MLCK) or treatment of wild-type mice with a highly specific peptide MLCK inhibitor prevented epithelial MLC phosphorylation, tight junction disruption, protein leak, and diarrhea following T cell activation. These data show that epithelial MLCK is essential for intestinal barrier dysfunction and that this barrier dysfunction is critical to pathogenesis of diarrheal disease. The data also indicate that inhibition of epithelial MLCK may be an effective non-immunosuppressive therapy for treatment of immune-mediated intestinal disease.

Authors

Daniel R. Clayburgh, Terrence A. Barrett, Yueming Tang, Jon B. Meddings, Linda J. Van Eldik, D. Martin Watterson, Lane L. Clarke, Randall J. Mrsny, Jerrold R. Turner

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Figure 7

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Mice lacking the 210-kDa MLCK demonstrate cytokine induction after anti-...
Mice lacking the 210-kDa MLCK demonstrate cytokine induction after anti-CD3 treatment but do not increase epithelial MLC phosphorylation. (A) Mucosal IFN-γ transcription was markedly increased 3 hours after anti-CD3 injection in both wild-type and MLCK–/– mice (n = 3). (B) Mucosal TNF-α transcription was markedly increased 3 hours after anti-CD3 injection in wild-type and MLCK–/– mice (n = 3). (C) Western blot analysis of MLC phosphorylation in isolated epithelial cells of wild-type and MLCK–/– mice 3 hours after anti-CD3 treatment showed a large increase in MLC phosphorylation in wild-type mice that did not occur in MLCK–/– mice.