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Actin dynamics and regulation of epithelial barrier in intestinal inflammation

$1,084R01FY2013DKNIH

Virginia Commonwealth University, Richmond VA

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Abstract

DESCRIPTION (provided by applicant): Breakdown of the intestinal epithelial barrier represents an early and important manifestation of various gastrointestinal disorders including inflammatory bowel disease. The integrity of the epithelial barrier is regulated by cellular structures known as tight junctions (TJs) and adherens junctions (AJs). Disruption of TJs and AJs underlies increased permeability of inflamed intestinal epithelium, whereas junctional reassembly is crucial for recovery of the epithelial barrier during mucosal restitution. Understanding mechanisms of AJ and TJ remodeling during intestinal epithelial damage and restitution represents the major goal of the proposed study. TJs and AJs associate with the actin cytoskeleton which is a crucial regulator of junctional reorganizations and integrity. Actin filaments are highly dynamic polymers undergoing a constant turnover (depolymerization and polymerization). Such a turnover of filamentous (F) actin is critical for a variety of cellular functions, however its involvement in AJ/TJ regulation remains poorly investigated. A central innovative hypothesis of this proposal implies that F-actin turnover plays a key role in reorganizations of epithelial AJs and TJs during mucosal damage and restitution. Particularly, I propose that accelerated turnover of perijunctional actin filaments mediates both AJ/TJ disassembly and reformation of nascent AJ-like junctions, whereas decreased F-actin turnover is prerequisite for the establishment of TJs and barrier resealing. This hypothesis will be tested in the following Aims: (1) To examine the role of actin filament turnover in disassembly and reformation of epithelial AJs and TJs; (2) to investigate the involvement of actin-depolymerizing factor (ADF)/cofilin proteins in junctional remodeling during intestinal epithelial damage and restitution; 3) to analyze the role of F-actin cross-linking proteins in disassembly and reestablishment of epithelial junctions. These aims will be accomplished using in vitro intestinal epithelial cell monolayers exposed to inflammatory mediators as well as in vivo mouse model of colitis and tissue biopsies of human patients. Turnover of actin filaments and functions of actin- depolymerizing and cross-linking proteins will be analyzed by a combination of biochemical (actin- monomer sequestration, immunoblotting, detergent fractionation), immunocytochemical and genetic (siRNA-mediated knock-downs, expression of dominant-negative or constitutively active mutants, knockout mice) approaches. Significance: the proposed study will provide new insights into fundamental mechanisms of intestinal mucosal injury during inflammation. Understanding these mechanisms will provide new therapeutic targets to prevent breakdown and enhance reparation of the gut barrier in patients with digestive diseases.

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